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1278022515,22530,22550p22555, 22560 KINST CT 12775,12777,12779,12781, 12780,13052 F/P KINST PARTNERSHIP SCANNED BOX 649 BUILDING PROJECT I DENTI FIC BUILDING ADDRESS ' 10 i " •^'tr �°A ADT . t ti . I Yui, •1 OWNEf" 7 NAME PHONE CONTRACTOR'S NAME .m LIC NO.I CONTRAC ORS ADDRESS l PHONEi RCRfT ACT DR E NCC EEOC,^- . % LIC. NO. ARCOR ENG. . ,^ 'L .? 33 ADDRESS APPLICANT'S ADDRESS �"NON WITI°°NIS' IE1-INES -... USE l A1.1 KIIi T PUY 01Y1111Y APPLICATION & PM�IT LDING -- ELECTRICAL- PLUMBING - MECHANICAL LICENSED CONTRACTORS DECLARATION OUTLETS -SWITCHES - R ECEP 10.00/1.00" a_ j V7 LIGHTING FIXTURES 10.00/1.00 Z,.- .�_. (commencing with Section 7000) of Division 3 ol'the Business and APPLIANCES -RESIDENTIAL 4.00 Professions Code my license is in full force and of I. Iacetlse Claes -_ „..__.. _ Lie. Number PANELS 10.00 ^ PANELS (OVER 200 AMP) 20.00' Date Contractor. - SIGNS TRANS. 3.00 OWNER -BUILDER DECLARATION SPECIALCIRCUIT 5.00 MISC. -- REFER TO ORD EMP. METER OR POLE INS. 20.00 PERMIT ISSUANCE 10.00 lo MOTORS SEE,,FEE SCH ELEC, CONTR. LIC. NO. ELE(:. TOTAL SERVICE CHANGE 1 20.00 LICENSED CONTRACTORS DECLARATION 1 hereby affirm that i am licensed under provisions of Chapter 9 (commencing with Section 7000) of Division 3 ol'the Business and Professions Code my license is in full force and of I. Iacetlse Claes -_ „..__.. _ Lie. Number Date Contractor. - OWNER -BUILDER DECLARATION MISC. -- REFER TO ORD I hereby affirm that I rim exempt from the Contractor's License PERMIT ISSUANCE 10.00 lo Law for the following reason. (Sec. 7031.5, Business and Professions Code Any city or county which requires a permit to construct, alter, improve, demolish, or repair any structure, prior to its issuance, also requires the applicant for Suet) permit to iHe a signed statement that ELEC, CONTR. LIC. NO. ELE(:. TOTAL ea IT ALIDATION OF APPLICATION PERMIT VALIDATION i r IIS6ANCL'DATE BLDG ELECT PLG. . M 011 r:.1 "� ' 41 eller-v lie is lice ised pursuant to the provisions o1 the Contractor's License- v Law (Chapter 9 (commencing, with Section 1000) of Division 3 of the Business and Professions Code) or that hu is exempt therefrom and qty,6t C 8 R 1 I " FEE the basis for the alleged exemption. Any violation of Section 7031,9 STORIES TYPE CONSTR. by any applicant for a permit subjects the applicant to civil penalty P of not more than five hundred dollars ($500).): ALTER -DRAIN & VENT -WATER (EA,) 5.00 C Cl 1, as owner of the property, or my employees with wakes as BACK FLOW PROTECT. DEVICE 4.00 their sole compensation, will do the work, and ptthre structure is not usiness and Prof7cssions DRAINS FLOOR, ROOF, AREA, COND. 5.00 P GROUP ar8. UNITS odptenayhwhobuldQoed or offered orr�mprovesLaw tlesale (Sec. Orcon,44, Ies andot awhodly oesowner of - such work '', FIXTURES - PER TRAP 5.00 , SO, FT. FLOOR �yREA TOTAL` A ACREAGE hanilf or through his own employees, provided that such improve- GAS EA. SYSTEM 1 INCA OUTLETS 6.00 merits are not intended or offered for sale. It, however, the building drove or improvement will luraveethesale.).dent of pron one w ng that lieear of didnot buildon, the orlira- GAS - EA. SYSTEM - QV ER' 4 EA.) 2.00 Rm V �- BUILDING USE I purpose INDUSTRIALWAS7EINTER. 30.00' ES IND CON PB artier El 1, as owner of the property, atm exclusively contracting with - licensed Contractors to construct the project (Sec 7044, Betsincss LAWN SPRINKLERS - 1 INC 5 R. 6.00 ASSESSORS A-❑ ❑ ❑ and Professions Code: The Contractor's License Law does not apply •- � PARCEL NO_ to an owner of property who builds or improves therer7m, and who LAWN SPRINKLERS - OVER 5 (EA.) 1.00 contracts for such Projects with a contractor(s) licensed pursuant to iOfC/10.00 ✓ """` the Contractor's License Law. WATER HEATER W/VENT 6.00 TRACT No. PARCEL No. 0 I am exempt under Su _ _.___..__, B.&P.C. for this SEWER -SAN ITARY STQFfdVV �f#„ � � k reason.... .._____ Owner ... ........ ___ . _ ..........__ Date .. ... _.,...._. WATER SYSTEM: 5.00-" ACC DATE ACC. FILE NO. WORK ERS'COMPENSATION DECLARATION WATER TREATING EQUIP. 5.00 I hereby affirm that I have a certificate of consent to sal insure, or a certificate of Workers Compensation Insurance. or a certified ZONING ENG. SITE NCA, copy thereof ('Sec. 3800, Lab C.). A fE"YW A 'ofY P Y Certified copy is hereby furnished. u. FIRE SPRINK ENERGY T-24-� 0 Certified copy is filed with the city inspection division. Applicant-___.- .____......................... ..__.__ ..... MiSC. REFER TO ORD. Y ❑ N ❑ y ❑ N❑ CERTIFICATE OFEXEMPTION 1'RtJM WORKERS PERMIT ISSUANCE 10,0010 FLOOD ZONE �A.L.u.c. COMPENSATION INSURANCE PLG. CON'TH. LIC. NO. PLG. (This section need not be completed if the permit is for one. TOTAL Y ❑ N❑ Y � N❑ -r hundred dollars (5100) or leis.) I certify that in the performance of the work for which this per- SEE AG S° � mil is issuedmP i shall not employ any person m slip manner so as to �` EIC PERMIT E BUILDING become subject to the Workers Compensation Laws of California. L Date. Applicant _.-,. _._ ALTER OR ADD TO MECH 5.00 dei NOTICE 170 APPLICANT 11' after making this Certificate of Ex- emption,youshouldbecomesubjecttotheWorkers'Compensation APPLIANCE 5.00 PLAN CHECK provisions of the Labor 'Code, you must forthwith comply with r -'" FEE such provisions or this permit shall be deemed) revoked. AIR HANDLING UNIT (TO 10MCF.M.) 4.00 CONSTRUCTION LENDING AGENCY AIR HANDLING UNIT (O'VEFI40d�1ACF.M,) 6,00 SEiSMIC FEE r I hereby affirm that there is a construction lending agency for EXHAUST HOOD (WITuH'DUCT) 5,0 e the performanceof ilia work for which this permit is issued (Sec. HEATING UNIT (OVER ,�,�1;000 B.T,U.►9.50 MICROFILM 3097 Civ.C,) HEATING UNIT (TO 10 tA�Cj�T,,5 `x.00 Lenders Name - ELECTRIC "4� Lenders Address �.._ . _. _._ I certify that I have read this application and state that the above VENTILATION FAN (SINGLE) 4.00 information is correct i agree to comply with all city and county PLUMBING ordinances ,and state laws relating to building construction; and B BOILER - ONP(3 H.P. r 1Cj0t10000B,T. .) 6.00 MECHANICAL. � hereby authorize reppesentafives of this city to enter upon the above-mentioned property for inspection purposes. (We) agree to save, iDdemnify and keep harmless the, City of MISC. REFER TO ORD. _.... gran' oh"IChis; y d expenses which CONST. TAX r PERMIT ISSUANCE 10.00 k st may ,in an wa accrgopist id C' h conseeluence of the'apart Ck against is &hes, n gmevtts, 4C7fits an MECH.CONT. LIC. NO. MECH. TOTALTOTAL 3d'+,.,.��...�, Signature o teen or D e �uwHrww�ummwreuwrowwww�i-�Aww�m��w�„m��.�W 7' 1- -�- _ OFFH'E 'OI"r'Y 'X l ° POST THI!z WARD NEAR FR`YNTOF BUILDING CIS f OF CUPERTINU ,SFR^,"ITNUN113E1i INSPECTION DIVISION JOB INSPECTION RECORD PERMIT EXPIRATION ,t � �'��' � �'"., �, ....�._. JOB ADDRESS -, `.�.. I UNlT#-- -.� LOT#�— PERMIT EXPIRES IF WORK X'' OWNER / L Y , A'y a E CLW �o �„f.. CONTRACTOR "� u r. „° � �(;, (�.�� ,�,�., IS NOT STARTED WITHIN THIN 180 DAYS OF PERMIT ISSU- F OUN'DATION tV _�� C+ y��' ANCE OR 180 DAYS FROM LAST CALLED INSPECTION. LIFER W PREGUNITE AA�� '� —^� P &�C��TN ;L 4TALIDATION�� UNDERGROUND/SLAB gnuj7rI'11''"`` ISSUANCE DATE PLUMBING ELECTRICAL MECHANICAL BLDG ELECT, PLG. MECHluoA. F 1, �h ,„�,,/%v ° , ,, %� /�/ A MOOD F R VALUAI'lON $/FT. PLUMBING MECHANICAL _.. ELECTRICAL PERMIT TO FRAMING ....------ INSULATION STORIES TYPE CONSTR. _.. OCC. GROHP RE$, UNITS /7",1 .- .. 51, CA micii/ �� i i i��i 1,, �.. is ,f, „�, ,, „ ,;, .. re . S6 F"f. f t COR AREA TOTAL, ACREAGF.. PIES IND GO Othmr ,., .. , ROOF DIAPHRAGM FP"�B 1.,:11 LJ NO ROUGH PLUMBING ±MEO:WrTRACT NO PARCEL No GAS TEST -- l ; MECHANICAL ELECTRICAL /9_ �3 ��1/ �� i'�' r D TE ACC. A ACC, FILE NO FRAMING SAN SAN INSULATION PLUMBING_'". ZONIN(3 ENG. SITE N. GAS - opt _... _... _.... FIRE SPR INK Y [I N ❑ __ ENERGY T 24 Y [:j N MECHANICAL j/HEATING K vLooD ZONE Y ❑ NE] A.L u C. Y I— No LATHY -INTERIOR_ ,'j- % ELECTRWAL L� --EXTERIOR LATH' SHEFTROCK _ FIRE DEPT. GRADE BUILDING SHEAR INTERIOR BUILDING SHEAR EXTERIOR TEMPORARY APPROVALS FIREWALLS ELECTRIC PLAN CHECK FEE GAS f- J FEE ;TSEISMIC 0 OCCUPANCY FINALISSIGNEDBY BUILDING INSPECTOR. MICROFILM OCCUPANCYOF BUILDING ISNOT PERMITTED UNTIL BUILDING ARRANGE FOR INSPECTION BY PHONING 252-4505, ELECTRIC PLUMBING � Lu - ONE WORKING DAY BEFORE REQUIRED PLEASE GIVE JOB ADDRESS WHEN INSPECTION. PHONING. � -SEE PERMIT FOR EXPIRATION DATE - MECHANICAL CONST, TAX IMPORTANT! PLEASE READ REVERSE SIDE BEFORE TOTAL CALLING FOR`FINAL INSPECTION. ,,,,)lFr,°°I? E COPY CITY OF CUPERTINO CERTIFICATE OF COMPLETION ro BUILDING INSPECTOR'S OFFICE Date ......I ...........1 19.. Building Permit No. The Building Located at - T Owned by .-.. ...... �_L� 1- ' * .L. Has Been (Completed or use As: ,. "`40- - ----------------------------- -e ......... ...... -- ............. ................ P BUILDING IN'SPECT'OR BUILDING INSPECTOR'S OFFICE CITY OF CUPERTINO 9 Backflow Device CC—Sewer Connection Plumbing Final Owner or Tenant_ i At— Traci t Tract Date Connected I ©M Sanitary Permit No Cupertino Sanitary District Copy Plumbing Permit No. 1.-)"77� Lot No 16 i 19 Date Final 19 __a . LU 4INS ECTOR CITY OF CUPERTINO PCOPYE GAS SERVICE NOTICE Q2?4,t, s— 19 To You are hereby authorized to connect the GAS service for Owner or Tenant At 6 New Service Vee No. of Meters Reconnect No. of Add. Meters Move Service Move Meter PLUMBING INSPECTOR IV © M POST THIS r,�,,.RD NEAR FRONT OF BUILDING CI -�f OF CUPERTINO . .... INSPECTION DIVISION JOB INSPECTION RECORD PERMIT EXPIRATION JOB ADDRESS 2LL_�2 -LOT4t PERMIT EXPIRES IF WORK IS NOT STARTED OWNER CONTRACTOR WITHIN 0 180 DAYS OF PERMIT ISSU- FOUNDATION LIC 9b), ANCE OR 180 DAYS FROM LAST CALLED INSPECTION. F, I VALIDATION wo� P" %bQ(( 6��_ (VV LIFER PREGUNITE71, At UNDERGROU D./SLAB CK ISSUANCE DATE PLUMBING ELECTRICAL �MECHANICAL BLDG ELECT 0 El PLG. MECH FLOO� VALUATION VALUATION $/FT. PLUMBING MECHANICAL 7 fff-r-7 0 ELECTRICAL PERMIT TO FRAMING Ps-2,11 94::tl INSULATION TYPE CONSTR. I*w" W%V UNITS g SO.JT FLOORAREN TOTALACREAGE. ROOF DIAPHRAGM BULL LING USE DES IND CON PB 1-1 El El ASSESSORS PAHCE L. NO ROUGH _ , ____ ____._� — PLUMBINGf? _ GAS TEST TRACT NO ACC DATE NRCEINO FILE NO WCC _F SITE NO, MECHANICAL ELECTRICAL If SAN # FRAMING -2, ',Q4 V INSULATION PLUMBING 19 GAS MECHANICAL *-r) FIRE SPRINK ENERGY T 24 HEATING LATH-INTERIOR FLOOD /ONE A U C ELECTRICAL LATH-EXTERIOR FIRE DEPT, SHEETROCK GRAD $HEAR INTERIOR BUILDIE NG BUILDING $HEAR EXTERIOR TEMPORARY APPROVAL FIREWALLS E4 ECTRIC PLAN CHECK FEE EE SEISMIC FEE OCCUPANCY MICROFILM OCCUPANCYOF BUILDING ISNOTPERMITTED UNTILBUILDING FINAL ISSIGNED BY BUILDING INSPECTOR. 252-4505, ARRANGE FOR INSPECTION BY PHONING ELECTRIC PLUMBING - ----- F- ONE WORKING DAY BEFORE REQUIRED INSPECTION. lo PLEASE GIVE JOB ADDRESS WHEN PHONING. MECHANICAL iz SEE PERMIT FOR EXPIRATION DATE - CONST. TAX IMPORTANT! PLEASE READ REVERSE SIDE BEFORE TOTAL CALLING FOR FINAL INSPECTION. (')F r III, ql":.COPY APPLICAN"ir"M FILL I INFQRMAINGN WIT11IN RED LINES -- E BALL POIII N II'" PEN BUI LD1 DING PROJECT I DENTI r eDlotN6 - Llxn1 � , ION APPLICATION�l@1 ,ADDRESS Aa c), z+,I5BUILDING — ELECTRICAL— PLUMBING — MECHANICAL OWNER' S „�� %'i/i NAME (��4 ,��„nn y�+w„"Ityy,,� yy,�� rr ' PHONEZ, Z CONTRACTOR'S "' OUTLETS -SWITCHES - RECEP 10.00!1.00 :. ..-.. NAME /^� LIGHTING FIXTURES 10.00/1.00 „....,.. ADDTRESSs Rs� t APPLIANCES - RESIDENTIAL 4.00 G" n:i"i1�0/ V R:noC.. . PHONE '% `" 1,a�„ PANELS 10,00 i'"I', .,--.�- GNLY PERMIT NUM6f_R 121777 PLAN CHECK VALIDATIONI ' . DATE OF APPLICATION _ ARCHITECT OR PANELS (OVER 200 AMP) 2.0.00 ' PLAN CHECK FEE P,C. NO. ENGIN LIC, NO. SIGNS TRANS. 3,00 ARCH,. OR ENG. �'" ADDRESS SPECIAL CIRCUIT 5.00 PERMIT VALIDATION ^" _ EMP. METER OR POLE INS, 20.00 APPLICANT'S ADDRESS � MOTORS....... SFE FEE SCH. �.-_• ° " SERVICE CHANGE'0 20,00 ICE SONAORSDCARAi ON LICENSED `N��' hereby affirm that Slicensed provisions of Chapter 9 ' (commencing with; Section 7000) of Division 3 of the Business and BLDG. C.1 -ECT, PLG. MECH, Professions ode, ami my license is in full fo a etT ct C License Class __.. Lic. Number 5� --VT 64D� -. pate�",e i -..—Contractor.- ------- --- -------- ©1'VN3:R-BLrI1,DEIRI3LCTLAitAYtON OWNER-BUILDER DECLARATION 'MISC. REFER TO ORD I hereby affirm that I am exempt from the Contractor's License — _ VALUATION $/FT, Law for the following reason. (Sec. 7031.5, Businessond Professions PERMIT ISSUANCE 10.00 bode" Any City or county which requiresa permit to confitruct, alter, pr ( f, r-6, improve, demolish, or repair any structure, prior to its issuance, also requires the applicant torsuch to rite a signed statement that ELFC. CONTR.LIC. NO. GEC TOTAL °� permit he is licensed pursuant to the provisions of the Contractor's License Law (Chapter 9 (commencing with Suction 7000) of Division 3 othe '� � PERMIT TO `. j � �I,� �.�t• e E Business and Professions Code) or that he is exempt therefrom and _ for te alleged exetion. nviolation of Section 7031 5 sTOR�IES Px. PE Crf"ONST%µ byeanylapplicantfor apermiltasubjects the applicant toacivitp n ltY of not more than five hundred dollars 0500).): ALTER -DRAIN &VENT -WATER (EA.) 5,00 r ees with wages as Lj I, as owner of the property, or my employ. . . BACK FLOW PROTECTDEVICE 400 OUP RES. UNITS their sole compensation, will do the work and the structure is not intended or offered for sale (Sic. 7044 Business and Professions DRAINS -FLOOR, ROOF, AREA,COND. 5,00 � Code: The Contractors License Law docs to an of not apply chlier proper( who builds or improves thereon, and who docs such work FIXTURES -PER T 5 EOf6 f REA TOTAL ACREAGE himself or through his own employees, provided th it such un ments are not intended or offered for salt If, however, the buildingGAS - EA. SYSTEM 4 OUTLET S 6.06 .. or improvement is sold within one year of completion, the owner- builder will have the burden of proving that he did not build or im- _RAMC _:� _ GAS - EA. SYSTEM -OVER 4 (EA.) 2.06 BUILDING USE prove for purposeof'sale). 1, INDUSTRIAL WASTE INTER. 30.00 RES IND , CON PB Othw a, ❑ ❑ ❑ o 0 as owner of the property, am exclusively contracting with licensed contractors to construct the project (Scc 7044, Business and Professions Code. The Contractor's License Law does not apply LAWN SPRINKLERS 1 N 5 V3. 6.00 � � � ", r ASSESSORS PARCEL NO r r to an owner of roper( who builds or improves thereon, and w� - LAWN SPRINKLER y L -. ...... contracts for Stich .projects with a eontractor(s) licensed pursuant to tractorsLacuascLaw�� ,, .,,.... SEWER -SAN ITAdY STORM ,A( 200It/10 b0 fr _„ TRA CT NQ. Pna1cL:L N o am exempt under race �_ _ -, , D& C o r p reason R HEA'T'ER W'I/E,IT � �� 6.00 / . WATER / reason �„- .----... _,_- _ —� Date ATER SYSTEMi 5 W�-• r-i*"-i'y��,rr'k ACC. DAT E ACC;. FILE NO, WORKERS'COMPENSATIONB DECLARATION Iw r WATER TREATIN �b"S- Tai' a,00 I hereby affirm that I have acertificate of consent to self -insure, 1 Insurance, r,u a certified aeit"i �$OQ, �— 70NING ENG. SITE NO, er Lab.Cn � A P,1 A �opy thereof (Sec. 00, Lan , w.:.- ,ie Policy _._._.-.. ❑ Certified copy is hereby furnished. FIRE SPRINK ENERGY T-24 0 Certified copy is filed with the city Inspection division. Applicant_._._ .......... ' MISC. REFER TO ORD. Y ❑ N❑ Y ❑ N0 CERTIFICATE OF EXEMPTION FROM WORKERS' PERMIT ISSUANCE 10.00 , 6 FLOOD ZONE A.L.U.C. COMPENSATION INSURANCE PLG. CONTR. LIC. NO. PLG. � Y N Y N ❑ ❑ ❑ ❑ ("These section need mist be completed d the permit is for one TOTAL humdred dollars ( 100) or less.) 1 certify that m the performance of the work farwhich this per' 0 1 E' (;T E FES gO, A nut is issued, I shall not employ any person In any manner so as to '-- become subject to the Workers Compensation Laws of Cahtornia Date W"" r BUD LDING 0„ ._..._.—Applicant ___..- ____ NOTICE'. TO APPLICANT: If, after making this Certificate of Lx- ALTER OR ADD TO MECH. 5.00 -- — emption, you should become subject to the Workers' Coinpernation I APPLIANCE 5.001 PLAN CHECK: provisions of the Labor 'Code, you must forthwith comply with such provisions or this permit Shaft be deemed revoked. AIR HANDLING UI[T (TQ19=C.F.M.) FEE CONSTRUCTION LIiNIjINGAChNCY _4.00 AIRHANDLINGUN 1O� t10,0,000—C.F.M,.) 6.00 SEISMIC FEE ^7 I hereby affirm that there, is a construction lending agency for EXHAUST H gD,(WI,TH DUCT) 5.00 the performance of the work for which this permit is issued (Sec. �- 8.00 MICROFILM 3097, CivC.), HEATING UN'I'1"1` O1100,OCI0 B.T.U.f Lender's Name _ t HEATING UNIT (O�"I�J�LE� .I,U.)9. 5o4.5 ' ELECTRIC � I certify that I have readthis application and state that the above formation 7_ VENT[ LATIO 0-AN9 � is correct, I agree to comply with all city and county BOILER COMP (3 H.R or 100,000 B.T.U.) 6,00 PLUMBING ordinances and state laws relating to budding construction, and hereby authorize represent'ative$; Of this city to enter upon the bove-mentioned property for in inspection purposes, BOILER -COMP lover 100,000 BTU) SEE FEE SCW. MECHANICAL � indemnifya artriless the REFER TO —._.,.. Cupertino against liabilities, Judgments, costs and expenses which City ORD. � PERMIT" ISSUANCE CONST. TAX I st3 Sul inlconsequenceCof the may ill nye way ace gran mg b'1""th MECH. CONT. L.IC. NO. MECH. TOTAL. .�� , A afore O Applicant/Co ractor Date -_ OFFICE E)I,..)PY CITY 'ERTIND CERT fUCATi , OF C4P,"' ET10N_ BUILDING IN PECTOWS OFFICE Date --i -........--------, 19 -- Building Permit No. L*'�.-,7-�-.f The Building Located at ...... ...... '..... .......... Owned by -.,,, ....:..1,.( .................................... ............. .. ...-- 1=las "l ell pr Use As: _.. ------------------------- PD-7 BUILDING INSPECMR "dff(f(I , e, POST THI0- CARD NEAR FRONT OF BUILDING C f Y OF CUPFRTINOGu.,. I'L (tMl l NUMBER INSPECTION DIVISION , 217,719 JOB INSPECTION RECORD PERMIT EXPIRATION JOB ADDRESS a: f` C.-" >, _-_._--- UNIT#- LOT#-- PERMIT EXPIRES IF WORK OWNER ^. Gr'"�,pin'...lrt�r-+."'. �'�CONTF ACTOR �'P,„.., F O�r,�,..F.^�0'h/� *,.,.F ,'4.J�n.,� f ,... ' ��° IS NOT STARTED WITHIN / 180 DAYSOFPERMIT ISSU FOUNDATION ,% CE OR 184 DAYS FROM LIT INSPECTION. LIFER PREGUNITE PERMtT V ALI(71A"I'L(,91M11^ ome I UNDERGROUND/SLAB �rm�.4w,JANCE DATE BLDG FLECT PLG MEGH �13 PLUMBING i '�I"Ii,, al ELECTRICAL �„ MECHANICAL .. -'-- 77 WOOD FLOOR OLUATION PLUMBING MECHANICAL ELECTRICAL ........ PERMIT l`O FRAMING —q `'g? STORIES TYPE CONSTR. INSULATION / ... OCC. GROUP RE.$. UNITS ROOF 447. r C LL (JGR AREA -..�.--- TOTAL ACREAGE DIAPHRAGM ..... BUILDING USE Fif'S IND CON PB Other ASSESSORS PARCEL NO ' "' ' - ROUGH L IAACI NO °AF cEt No PLUMBING i0okl— g l ^' GAS TEST MECHANICAL ELECTRICAL ..... r ��//��/�/":' �'/ % %��//%/i/� j�� /rr ,ry �� // /� ACC. DATE ACC. FILE NO. s, r o , ,i /, FRAMING 3 SAN # / !I, zoNlNc tNc.slrE NO INSULATION PLUMBING/ _.. GAS SPRINK ENERGY T,24 N❑qFYQFJ lON Y.0JC;LATH-INTERIOR N❑ VIMECHANICALHEATINGY❑N❑Y❑ ELECTRICAL LATH -EXTERIOR FIRE DEPT. ji %// , % i� BUILDING SHEETROCK .. GRADE SHEAR INTERIOR BUILDING SHEAR EXTERIOR TEMPORARY APPROVALS FIREWALLS ELECTRIC PLAN CHECK FEE GAS SEISMIC FEE OCCUPANCY i/, MICROFILM, ELECTRIC : OCCUPANCY OF BUILDING ISNOTPERMITTED UNTIL BUILDING FINAL ISSIGNED BY BUILDING INSPECTOR., 252-4505, ARRANGE FOR INSPECTION BY PHONING PLUMBING � uj I— ONE WORKING DAY BEFORE REQUIRED INSPECTION. PLEASE GIVE JOB ADDRESS WHEN PHONING. — SEE PERMIT FOR EXPIRATION DATE — MECHANICAL ;µn. CONST. TAX IMPORTANT! TOTAL z; PLEASE READ REVERSE SIDE BEFORE CALLING FOR FINAL„ INSPECTION. r r p- r-, ulC CGT` copy APPLICANT'"m FILA, IN INFORMATIOII 111 -II II ED LAVES -- USE BAI,, L PGKI" PEN ONLY BUILDING PROJECT I DENTI k'idTIONPERMIT APPLICATION MIT BUILDING - ELECTRICAL- PLUMBING -MECHANICAL . ..... ""e� D OUTLETS -SWITCHES - R ECEP 10.00/1.00 NUMBER 12779 PLAN CHECK VALIDATION BUIL,DING ADDRESS 1-46r .61 IRI� C -/P, sx c�r7-- OWNER'S W..... NAME ilk rm" PHONE CDN TRACTORS NAM #zKV'%""L.JJ e `_iLIC, NO.'?AA LIGHTING FIXTURES 10,00/1.00 Z_ APPLIANCES - RESIDENTIAL 4.00 CONTRACTOR'S ADDRESS Z P 08 HONE ARCHITECT LIC, NO, I PANELS 10.00 PANELS (OVER 200 AMP) 20.00 V DATE OF APPLICATION PLAN CHIf", C. NO. ISIGNS TRANS. 3.00 ARCH. OR ENG. ADDRESS SPECIAL CIRCUIT 5M PERMIT, �Ll ATICIP9 "I " TEMP. METER OR POLE INS. 20.00 MOTORS SEE FEE SCH. P11FICANT tv I - 11,1� ,i ADDRESS SERVICE SERVICE CHANGE 20.00 LICENSED CONTRACTORS DECLARATION I hereby affirm that I am licensed under provisions of Chapter 9ANCE (,ornmencing with Section 7000) of Division 3 ofthe Business and Profes,�ioris Coq1tC]d my license is in fill? f jid efi mL License Class-_- ..__.__Lic.Nurnbt,� pate-._v...244-rCon tractor v— .... . ... ..... ......... W ONER-BUILDER DECLARATION I hereby affirm that I am exempt from the Contractor's License Law for the following reason. (Sm. 7031.5, Business and Professions ,quires a permit to construct, alter, Code; Any city or county which re improve, demolish, or repair any structure, prior to its issuance, also requires the applicant for such permit to file a signed statement that he is licensed pursuant to the provisions of the Contractor's License Law (Chapter 9 (commencing with Section 7 000) of Division 3 of t lier Business and Professions Code) or that he is exempt therefrom and the basis for the alleged exemption, Any violation of Section 7031,5 BLDG. ELECT.) PLG. MECH, R, VALUATION $/FT. -7 r '13 ,7 MISC. - EFER TO ±D .00 //,,T7"�T1 1000 PERMIT ISSUANCE 110.00 00 10Q0 ELEC,CONTR. LIC.NO. ELEC. TOTAL PERMIT TO STORIES YPE CONSTR. by any applicant for a permit subjects the applicant toa civil penalty' ofn0 ot ive hun).): dollars $500mployees move than fof LI ALTER -DRAIN & VENT -WATER (EA,) 500 BACK FLOW PROTECT. DEVICE 4.00 1, as owner the property, or( my edred with wagesas their sole compensation, will do the work, and the structure is not intended or offered for sale (Sec. 7044, Business and Profession's OCC. GROUP ? RES. UNITS DRAINS -FLOOR, ROOF, AREA, COND. 5,00 Code: The Contractor's License Law does not apply to an owner of property who builds or improves thereon, and who does such work himself or through his own employees, provided that such improve- ments are not intended or offered forsale. If, however, the building 9 F IXTUR ES - PER TRAP 5 -OC) - GAS-EA.SYSTEM-1 INC,40UTLETS 6.00 SQ. FT, FLOOR AREA J TOTAL ACREAGE or improvement is sold within one year of completion, the owner- builder will have the burden of proving, that he did not build or im- prove for purpose of sale,) 0 1, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec. 7044, Business and Professions Code; The Contractor's License Law does not apply to an owner of property who builds or improves thereon, and who contracts for such projects with a contractor(si licensed pursuant to the Contractor's License Law. GAS - EA. SYSTEM - OVER 4 (EA.) 2.00 RES — BUILDING USE IND CON PB Other, 13 El 1:1 El D INDUSTRIAL WASTE INTER. 30.00 LAWN SPRINKLERS - 1 INC 5 V.B. 6.00 LAWN SPRINKLERS - OVERJ ,�EA 1.00 ' ASSESSORS PARCEL NO. TRACT NO. PARCEL NO, & STOR t/10.00 C3 1 am exempt under Sec. . ............. . ...... ............ ....... -, B,&P.C. for this reason I WATER H I EAT11 I . ER W/VE NT 60U / 6.00 WATER SYSTEM a z Owner Date ACC. DATE ACC. FILE Nib. WORKERS'COMPENSATION DECLARATION I hereby affirm that 1 have a certificate of consent to self -insure, or a certificate of Workers' CoinpexakPV;ykncc, or a certified copy thereof(Sec. 3800, Lab C) Policy No,--.. — ------- - Com p a n y WATER TREATING EQUIP. ZONING ENG. SITE NO. :2E FIRE SPRINK Y [-I NEI ENERGY T-24 Y 0 N [J 0 Certified copy is hereby furnished. Ap 0 Certified copy isfiled with the city inspection division, ... ..... .. - .............. . .. . . . ........ MISC- REFER TO ORD. CERTIFICATE OF EXEMPTION FROM WORKERS' PERMIT ISSUANCE 10.00 FLOOD ZONE A. L. U. C. PLG,CONTR. LIC, NO. PLG TOTAL COMPENSATION INSURANCE. (This Section neednot be completed if the permit is for one , hundred dollar~;(s 100) or less.) I certify that in the performance of the work for which this per• mit is issued, I shall not employ any person in any manner so as to become subject to the WorkLm'Compoisation Laws of California, Date Applicant .. .. . ....... f ux- NOTICE TO APPLICANT: If, after making this Certificate of 7 RE C HIA, ROAt MOIT REQME __LL� ALTER OR ADD TO MECH. 5.00 7 _7-1-11-77- SO BUILDING -7 14, APPLIANCE 5.00 PLAN CHECK eruption, you Should become subject to, the Workers' Coin pengatio n provisions of the Labor Code, you must forthwith comply with Such provisioms or this permit %halt be deemed revoked. FEE AIR HANDLING UNIT 1 OMD C. F, M.) 4,00 HANDLING UNiT,,IQ,\ 14 ( .) 6.00 SEISMIC FEE CONSTRUCTION LENDING AGENCYAIR I hereby affirm that there m a construction lending agency for I EXHAUST HOOD (WITH DUCT) 5.00 the Performance of the work for which this permit is issued (Sm. 3097. Lender's Narrie, Lender's MICROFILM HEATING UNIT (TO 100,000 B.T.U.) 8,00 7' H EATI NG UN IT (OVER 1 O0,000 B3,U.) 9.50 ELECTRIC I certify that I have read this application and state That the above information is correct. I agree to comply with all city and county ordinances and state laws relating to building construction, and VENTILATION FAN (SINGLE) 4.00 BOILER- OOMP (3 H.P. or 100,000 B.TAJ.) 6.00 PLUMBING BOILER -COMP (Ove, 100,()()0 BTU) SEE FEE SCH. MECHANICAL hereby authorizx representatives of this city to enter upon the above mentioned property for inspection purposes. MISC.- REFER TO ORD.i CONST. TAX (We) agree to save, indemnify anal keep harmless the City of Cupertino against liabilities, judg its, costs and expenses which may in any 4y rue plmstr�siz City in consequence of (lie grong is r1m 1, (0) 12 9 - ( Si a 1 11 ntr ac, r Date . ...... . ... . .......... . . ...... PERMIT ISSUANCE MECH. CONT LIC. NO. MECH. TOTAL 31 VITAL �kft OFFMIE ilM9TY 21 CITY OF C1 -'ITINO CERTIFICATE t* COMPLETION BUILDING INSPECTOR'S OFFICE ......... . . Date ............. ...........rn 7 ...... Building Permit No. The Building Located at ................ .. ...................................................... Owned by .................... ......... ........... ... ...... ...... . .. ............. "I'll"', . ... . . .... .... Has Been r Use As: ....... (Altered ....... .......................... ........... ............................ .................. .................................. ........................................ - ................ .............................. .................................................. ................. ....... ............. ........ .................... ............................................. PD -7 BUILDING INSPECTOR PLICANIT O FILL IN INFORMA110N WITHIN RED LINES - USE BALL, PMINI' 11[)CI ONr 13UI LD1 NG PROJECT I DENTI FIC N �... APPLICATION I P I1' PERMIT NUMBER _._....—.� R!AILDING ADDRESS a ac-; 4,0 1',k)5, 1 BUILDING — ELECTRICAL PLUMBING — MECHANICAL m�w�owry mrn'�mw w, ry „ 7 Nis 7 ' iii 12780 PLAN CHECK VALIDATION QNINER" NAME PHONE r; tA�o't°� OUTLETS -SWITCHES- RECEP 10.00/1.00 ,� r a'TZ#zizV' uc.No.7 LIGHTING FIXTURES 10.00/1.00 f a ADDRESS R^s ADDRESS ^^APPLIANCES -RESIDENTIAL 4.00 µ` PHONE. PANELS 10.00 L' -^ DATE OF APPLICATION - ARCHITECT OR PANELS (OVER 200 AMP) 20.00 PLAN CHECK FEE P.C. NO. EN EER ` ' LIC. NO. SIGNS TRANS. 3,00 ARCO' OR ENG.. ADDRESS -- .. SPECIAL CIRCUIT 5.00 'PEI`rh ,+tl&"T"VAA L IDATION —� TER OR POLE INC 00 " 4, ` "" ZIPTEMP �- . �� ' L,,,,. FEES H "L , -MOTORS p APPLICANT'sr ADDRESS SERVICE CHANGE 20.00 � °V^ `.,, Ju „,„,T° ,J�' a 4ma��-�° L10E,NSEO CONTRACTORS DECLARATION I Hereby affirm that I aria licensed under provisions Chapter 9 p p ISSUANCEf DATE (Commencing with Section 7000) of Division 3 of the Business and Professions Code, my licence is In full force effect License. Class _ .. Lic. Number _. lip --- -- —��* �T mai - BLDG. ELECT. PLG, MECH. A (' �. f OWNER -BUILDER DEC LARAT(ON I I IierebY affirm that 1 am exempt from the Contractor's License MISC. — REFER TO ORD .; Law for the following reason (Sec. 7031 5, Business and Profassiowi PERMIT ISSUANCE 10.00 Com_ VALUATION $/FT Code Anycityorcountywhich requires apermit toconstruct, alter, its )� �� ELEC. CONTR. UC N0. (�.,°A � to file aror to requires thenapplicant for such olish, or repair any signed statement enLt than q pp p' g � �� TOTAL �� PE IT TO lie is licensed pursuan(o the provisions of the Contractor'sns777-77- Law (Chapter (commrnefng with Section 7000) o� Division 3 of the �... �,� „ , , . �„ „ 4 Business and rOm and ��a etas for t�e�ite d exemption, Antyfviolat on ottSAectmn,7034 5 -, � , i STORIES TYPE C4_ TR. by any appheant for a permit nubjccts tfie applicant to a civil penatry of not than hundred dollars(5500f)! w w. (E A.) 1 IT P, as owner of tile property, or my employees with wages as n 4❑ LI BACK FLOW PROTECT. DEICE ,00UGG'ROUP RES, L their sole compensation, will do the work, and the structure is not mterided or offered for sate (See. 7044, Business and Professions DRAINS -FLOOR, ROOF, AREA,COND. 5,00 rewhContractor'sLaw doesapply — _._... property buildsoor microves and who'does su h wok p F I XTUR ES - PER TRAP 5.00' 9Ci. FT. FLOOR AREA TOTAL ACREAGE himself or through his own employees, provided that %rich improve- meats are not intended Or offered for sale If, however, the building , / GAS-EA.SYSTEM-1 6.00, ” a( OF improvement is sold within one year of completion, (lie. owner- builder will have the burden of proving that he did not build or im- GAS - EA, SYSTEM -OVER 4 (EA.) 2.00 BUILDING USE proveforpurpose of salt.). 0 1, as owner of the (Property, am exclusively' contracting with INpUSTR1AL WASTE IN C ES IND CON PB Other m� 30.00 � ❑ ❑ ❑ ❑ licensed contractors to construct the project (Sec. 7044, Business, LAWN SPRINKLERS - 1 IIC 51.8. 6.00 ASSESSORS PARCEL and Professions Code' The Contractor's License Law does not apply to an property p nfor such w with alcontractor(s) licensed4pursuianttlto NO. i, re, C contracts projects the Contractor's License Law. � WER SANITARY aTORM1 �At 200ft/110 b0 T gCTTNO. t PAFYCEL NO. ❑ lam exempt under Sec.___ B &P,C. for this % WATER HEATER W/VENT 0 reason ---� _.�.-._._...._ OwnerDate — -- —A —„ r WATER SYSTEM �„ a.00 a Asx. DATE Aco. FILE: No. WORKERS'COMPENSATION DECLARATION _._.. WATER TREATING EQUIP. 5.00 1 hereby affirm that I have a certificate of consent to self -insure, ZONING ENG. SITE NO. or a certificate of Workers' Compensation II, urance, or a certified .— _ .__._. copy thereof (See. Po❑ yCertified copy8s hepeby 1ihed. FIRE SPRINK ENERGY T-,4 ❑ Certified copy is filed with the city inspection division. Applicant_ __. _ ._._... .....--__-. _._.,_ , _., ,... MISC. - REFER TO ORD, Y ❑ N Y ❑ No CERTIFICATE Of EXEMPTION FROMWORKERS' PERMIT ISSUANCE 10.00 t,.k FLOOD ZONE- a.L.u.c ----- COMPENSATION INSURANCE PLG CONTH LIG N(3 i PLG Wf'' TOTAL Y ElN ❑ Y ❑ N (This wetion need not be completed if the permit is for one IPp m L°.. Inindred dollars (S 100) or less.) certify that Iii the performance Of the work for which this per ��ii�i/i - E�w� i 4F ka")��'° �.'FE, Y Pierson mart manner so as to mit is issued, t shall not employ any y become subject to the Workers Compensation Laws of California. Date—...—.. BUILDING t ---Applicant _ _ NOTICE TO APPLICANTS If, after making this Certificate of Ex- ALTER OR ADD TO MECH �, 5.00 7 emplion, ,you should become subject to the Workers' Compensation APPLIANCE f � � 5.00 PLAN CHECK provision-, of the Labor Code you must forthwith comply with FEE such provisions or this permit shall be deemed revoked. AIR HANDLING UNIT (TO 10,0001C.F.M,) 4.001 � CONST RUCTION LENDING AGENCY AIR HANDLING UNIT (OVER 1Q000C.F,M.) 6,00; SEISMIC FEE 77 cm I hereby al'iirni that -there is a con&%ruction lending agency for EXHAUST HOOD (WITH DUCT) 5.00 �p —°""”" the performance of the work for which this permit is issued (Sec. 3097, MICROFILM HEATING HEATING UNIT (TO 100,000 B,T.UJ 8.00 Lender's Name . Lender's Address- HEATING UNIT (OVER 100,000 B.T,t1.)9.50 ELECTRIC //�� I certify that J have read this application and state that (be above information I agree to with all VENTILATION FAN (SINGLE) 4,001 d" PLUMBING " is correct. comply city and county ordinances and state laws Gelating to building construction, and BOILER- COMP (3H,P.or100,0004.T.U.) 6.00 hereby authorize representatives of this city to enter upon the shove -mentioned property for inspection purposes BOILER -COMP (Over 100,000 BTU) SEE FEE SCH, MECHANICAL � " W (We) agree to save, indemnify and keep harmless the City of Misc.- REFER TO ORD. 7t Cupertino against liabilities, judgments, costs and expenses, which CONST. TAX 1 PERMIT ISSUANCE 10.00 t .1 may in any ay e arnst laid City in consequence of the -,N gr n Q ult. MECH, CONT. LIC. NO. MECH. TOTAL TOI/ , ,, _..,, igninur fA r6 nt ntrac or Date C� /uPro��:uwwn�mnawrnm wmu�mn�wnn�mv. wmwm.w �m'µ�� mmm�w� mnw��mw�m�m mrm�mn .�mm ma-- , _ �. _. POST THIS "ARD NEAR FRONT OF BUILDING CIT OF CUPERTIN '�"" PFRMITNUMB(,R INSPECTION DIVISION JOB INSPECTION RECORD ' PERMITEXPIRATION' JOB ADDRESS .:"' 'P^ "�� i —�.� UNIT# — __ LOT#...,..., PERMIT EXPIRES IF WORK C7WNEF �• •••�"fi.., m .•..�•�` i''.�A„�' .✓ J`,:.6: CONTRACTOR IS NOT STARTED WITHIN / ,r / !ji riir % 180 DAYS OF PERMIT ISSU- FOUNDATION = � 1C ANCE OR 180 DAY'S FROM LAST CALLED INSPECTION. PEP?MelVALIDATION UFER .. .. ...... PREGUNITE -..._.. Anim6mw /rIllio/l/1) UNDERGROUND/SLAB b�I ,I4'�InPu PLUMBING ELECTRICAL�r�a uANCE DATE MECHANICAL LOG, ELECT. PLG. MECH. J El F1 r r/ / /moi'% _ ...._.. WOOD FLOG ..- _.�.... VALUATION $/P T. ... _.. PLUMBING .... ..... MECHANICAL .... ELECTRICAL PERMIT TO FRAMING„ - - STORIES TYPE CONSTR. INSULATION ... .... .... ... _.. ...... ....... ........ ..... ... UCC. GROUP RES .UNITS ..._. _... SO.FT FLOOR Aft@A _-BUILDING TgTAL ACREAGE ROOF DIAPHRAGM USE RES IND CON PEI Oxh:er I /' � / / fl ' r to I / , %r � � ❑ ❑ /, � EX+1e�r ASSESSORS PARCEL NO. _ ROUGH PLUMBING ai � � �� GAS TEST -.......... TRACT NO PARCEL_NO. MECHANICAL ELECTRICAL Ace. ArE �. ACC. FILENa r FRAMINGI / : INSULATION e PLUMBING ZONING FIRE SPRINK Y ❑ NE] ENG. SITE N4. . ENERGY T 24 v Q N❑ GAS _ MECHANICAL HEATING LATH -INTERIOR 1I I” _ (� FLOODZONE v f_� NQj A.L.U.C. Y 0 N❑ f ELECTRICAL— -EXTERIOR LATH FIRE DEPT. SHEETROCK SHEAR INTERIOR GRADE BUILDING /��JJ�lJllp o rr r BUILDING r j�///ii l i /�' SHEAR EXTERIOR _ TEMPORARY APPROVALS FIREWALLS ” CHECK FEE SEISMIC FEE ELECTRICPLAN GAS �':)� - �1OCCUPANCY rw D ,,, „l /� , , ,� MICROFILM OCCUPANCY OF BUILDING IS NOT PERMITTED UNTIL BUILDING FINAL ISSIGNEDBYBUILDING INSPECTOR. 252-4505, ARRANGE FOR INSPECTION BY PHONING ELECTRIC PLUMBING ONE WORKING DAY BEFORE REQUIRED z PLEASE GIVE JOB ADDRESS WHEN INSPECTION. PHONING. -SEE PERMIT FOR EXPIRATION DATE — MECHANICAL CONST. TAX IMPORTANT! . PIXASE READ REVERSE SIDE BEFORE' TOTAL w,7 CALLING FOR FINAL INSPECTION. OFFICE COPS' CD I BUILDING INSPECT'OR'S OFFICE CITY OF CUPERTINO E i" 0 U. m 0 0 d v 11 Backflow Device Sanitary Permit No Cupertino Sanitary District Copy 9 Sewer Connection Plumbing Permit No. Plumbing Final Lot No. Owner or Tenant At ��- _�"lr�-e� Tract Date Connected 19 Date Final ,� �� 1 91L p�y�Z — PLWMING INSPECTOR To ELECTRIC SERVICE NOTICE P.G. $ E. COPY BUILDING INSPECTOR'S NOTICE CITY OF CUPERTINO You are hereby authorized to Connect electrical service for Owner or Tenant— At enantt—At 2 )n 5E� No. of Wires Motor Load Heating Load No. of Meters No. of Add. Meters @M 1,2— You ,2— Size of Wires Size of Switch Voltage Phase K. W. Voltage (1 Light 1 10 New Service Reconnect Heat 120 Three Wire More Service Power rep Phase Move Meter a ELECTRICAL INSPECTOR FINAL GRADE —r— -- File No. Dat Locatio t ,- Sub j ect Note Appro Date Inspec'or C= :�;J4S,-ITI LIC. NO. 3 3 I'll C S�A SIGNS TRANS. 3.00 BACK FLOW PROTECT, DEVICE SPECIAL CIRCUIT 5.00 I hereby affirm that I am licensed under provisions of Chapter 9 APPLICANT TO FILL ISN INFORMA r mI rmm RED I .1NES .-- t )SE BALL PUNT ONLY BUI LOI NG PROJECT I DENTI ION APPLICATION & ��MIT PERMIT NUMBEF 86i" INS ko�r C ADDRESS ei_f%,f.J /r, BUILDING — ELECTRICAL— PLUMBING — MECHANICAL 1 27E Code: Any city or county which requires a permit to construct alter, improve, demolish, or repair any structure, prior to its issuance, also 1.00 ELEC, requires the applicant for such permit to file a signed statement that 5.00 Q0)NER'S NAME FIA Aqn IWINA�—Lft 0011014� i Law (Chapter 9(cornmencing with Section 7000) of Divis on3 ofthe Business and Professions Code) or that he is exempt therefrom arid 77777777 PLAN CHECK VALIDA by any applicant for a permit subjects the applicant to a civil Penalty of not more than five hundred dollars ($500).): vt%iiawn 'U" IF 0 1, as owner of the property, or my employees with wages as their Sole CQUIPCIISUtiOn, will do the work, and the structure is not PHONEM"k intended or offered for sale (Sec. 7044, Business and Professions A I CONTSRACTOR NAME himself or through his own employees, provided that such improve- OUTLETS - SWITCHES - R ECEP 10.00/1,00 flor, or improvement is sold within one year of completion, the owner - LIC. NO LIGHTING FIXTURES 10,00/1.00 0 1, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec, 7044, Business OtOR" CONTRAS ADDRES and Professions Cade, The Contractor's License, Law does not apply APPLlANCES - RESIDENTIAL.4.00 contracts for such projects with a contractor(s) licensed pursuant to the Contractor's License Law. I PANELS 10.00 IHONETqt. -37;11� DATE OF APPLICATI A.RCHITECT - I — I PANELS (OVER 200 AMP) 20.00 or a certificate of Workers' Compen nsKance, or a certified copy thereof (Sec. 380 lkrlo:� Ai Policy No. ___ .. ....... . .__ CompanyP4 PLAN CHECK FffF__T C= :�;J4S,-ITI LIC. NO. 3 3 I'll C S�A SIGNS TRANS. 3.00 BACK FLOW PROTECT, DEVICE SPECIAL CIRCUIT 5.00 I hereby affirm that I am licensed under provisions of Chapter 9 TEMP, METER OR POLE INS, 20,00 FIXTURES - PER TRAP MOTORS SEE FEE SCM. GAS - EA. SYSTEM - 1 INC, 4 OUTLETS SERVICE CHANGE10.00 OWNER -BUILDER DECLARATION 2.00 INDUSTRIAL WASTE INTER. I hereby affirm that I am exempt from the Contractor's License Law for the following reason, (See. 7031 5, Business and Professions 6.00 Code: Any city or county which requires a permit to construct alter, improve, demolish, or repair any structure, prior to its issuance, also LICENSED CONTRACTORS ]DECLARATION BACK FLOW PROTECT, DEVICE 4,00 I hereby affirm that I am licensed under provisions of Chapter 9 (commencing with Section 7000) of'Division 3 of the Business and FIXTURES - PER TRAP Professions Code,, d my license is in full fol, -t ,jag efPct License CIS . ........ Lic. Nurnber Dote _ 677__ Contractor . .... . GAS - EA. SYSTEM - 1 INC, 4 OUTLETS 6.00 OWNER -BUILDER DECLARATION 2.00 INDUSTRIAL WASTE INTER. I hereby affirm that I am exempt from the Contractor's License Law for the following reason, (See. 7031 5, Business and Professions 6.00 Code: Any city or county which requires a permit to construct alter, improve, demolish, or repair any structure, prior to its issuance, also 1.00 ELEC, requires the applicant for such permit to file a signed statement that 5.00 he is licensed pursuant to the provisions, of the Contractor's License 15,00 i Law (Chapter 9(cornmencing with Section 7000) of Divis on3 ofthe Business and Professions Code) or that he is exempt therefrom arid the basis for the alleged exemption, Any violation of Section 703 L5 by any applicant for a permit subjects the applicant to a civil Penalty of not more than five hundred dollars ($500).): 0 1, as owner of the property, or my employees with wages as their Sole CQUIPCIISUtiOn, will do the work, and the structure is not intended or offered for sale (Sec. 7044, Business and Professions Code:The Contractor's License Low (toes not apply to an Owner of property who builds or improves thereon, and who does such work himself or through his own employees, provided that such improve- ments are not intended or offered for sale, If, however, the building or improvement is sold within one year of completion, the owner - builder will have the burden of proving that he did not build or un - prove for purpose of sale.). 0 1, as owner of the property, am exclusively contracting with licensed contractors to construct the project (Sec, 7044, Business and Professions Cade, The Contractor's License, Law does not apply to air owner of property who builds or improves thereon, and who contracts for such projects with a contractor(s) licensed pursuant to the Contractor's License Law. 0 1 am exempt under Sec_---------_ B.&P.C, for this reason — ------- __ Owner Date . ..... - -------- WORKERS'COMPENSATION DECLARATION I hereby affirm that I have a certificate of consort to self -insure, or a certificate of Workers' Compen nsKance, or a certified copy thereof (Sec. 380 lkrlo:� Ai Policy No. ___ .. ....... . .__ CompanyP4 • Certified copy is hereby urrusbed. • Certified copy is filed with the city inspection division. Applicant- -------- ..... ..... __ ..... ... . . . .. CERTIFICATE, OF EXEMPTION FROM WQRKFRS' PLG. COMPENSATION INSURANCE (This section need not be completed if the permit is for one hundred dollars ($ I00) or less.) I ell tify that in the performance of the work for which this per- nd, is issued, I shall not employ any person in any manner so as to becorne subject to the Workers" Compensation Laws ofCaliforma, Date ----..-.-....-.—Applicant NOTICE TO APPLICANT If, after making this Certificate of Ex- emption, you should become subject to the Workers' Compensation provisions, of the Labor Code, you must forthwith comply with such provisions or this permit shall be 4eemed revoked. CONSTRUCTION, LENDING AGENC)' I hereby affirm that there is a construction lending agency for the performance of the work for which this permit is issued (Sec. 3097, Civ C), tender's Name --. - . .... . ...... I certify That I have read this apphedtion and state that the above information is, correct. I agree to comply with all city and County ordinances and state laws relating to building construction, and hereby authorize representatives of this city to enter upon the above-mentioned property for inspection purposes. (We) agree to save, indemnify and keep harmless the City of Cupertino against liabilities, judgments, costs and expenses which may jW, ally wiw agcrue, whist s id City in consequence of the gr in Yor jz_ MECH ,MISC. — PERMIT ISSUANCE ;ONTR, LI a, Gs",A 'J'U", /'r ER TO ORD 10.00 TELEC, . TAL ALTER -DRAIN & VENT -WATER (EA,) 5.00 BACK FLOW PROTECT, DEVICE 4,00 DRAINS- FLOOR, ROOF, AREA, COND. 5.60 FIXTURES - PER TRAP 5.00 GAS - EA. SYSTEM - 1 INC, 4 OUTLETS 6.00 GAS - EA. SYSTEM - OVER 4 (EA,) 2.00 INDUSTRIAL WASTE INTER. 30.00 LAWN SPRINKLERS - 1 INC 5 V,13, 6.00 LAWN SPRINKLERS - OVER 5 (EA.) 1.00 SEWER -SANITARY -STORM EA. 200ft/1 0.00 WATER EATER W/VEN7T WATER SYSTEM 5.00 IWATER TREATING F-6UJP,, 15,00 BLDG, I ELECT. I PLU, F1 ER ly 7-- VALUATION $/FT. (9 o PEFJM IT TO TRACT ENG, SITE NO. FIRE SPRINK EN ERG Y T-24 MISC. - REFER TO ORD. Y F-1 N ❑ Y F-1 N PERMIT ISSUANCE 10.00 FLOOD ZONE A.L.U.C. )NTR. LIC. NO, TOTALPLG.,YF� N F� y [] NF] ALTER OR ADD TO MECH. 6.00 APPLIANCE 5.00 AIR HANDLING UNIT /�r ib)CdbCF.M.) 4,00 AIR HANDLING UNIT (OVER 10)000CF.]M.) 6,00 EXHAUST HOOD' WITH DUCT) 5.00 H EATI N G UNIT (TO 100,000 8,00 HEATING UNIT (OV,9R 06�6666'.T.U.)9.50 VENTILATION FAN (SINGLE) 4.00 BOILER - COMP (3 H.P. or 100,000 B.T.U.) 6.00 BOILER -COMP (over 100,000 BTU) SEE FEE SCH. MISC. - REFER TO ORD. PERMIT ISSUANCE 10.00 'ONT. LtC. NO. MECH. I TOTAL OFFACIF C.DPY BUILDING PLAN CHECK FEE SEISMIC FEE MICROFILM ELECTRIC PLUMBING MECHANICAL CONST. TAX 31- 7 1 GROUP "s RES. UNITS SQ, FO�C. FT. FLOOR AREA TOTAL ACREAGE BUILDING USE RES IND CON PB Other A 0 D El 11 TRACT ENG, SITE NO. FIRE SPRINK EN ERG Y T-24 MISC. - REFER TO ORD. Y F-1 N ❑ Y F-1 N PERMIT ISSUANCE 10.00 FLOOD ZONE A.L.U.C. )NTR. LIC. NO, TOTALPLG.,YF� N F� y [] NF] ALTER OR ADD TO MECH. 6.00 APPLIANCE 5.00 AIR HANDLING UNIT /�r ib)CdbCF.M.) 4,00 AIR HANDLING UNIT (OVER 10)000CF.]M.) 6,00 EXHAUST HOOD' WITH DUCT) 5.00 H EATI N G UNIT (TO 100,000 8,00 HEATING UNIT (OV,9R 06�6666'.T.U.)9.50 VENTILATION FAN (SINGLE) 4.00 BOILER - COMP (3 H.P. or 100,000 B.T.U.) 6.00 BOILER -COMP (over 100,000 BTU) SEE FEE SCH. MISC. - REFER TO ORD. PERMIT ISSUANCE 10.00 'ONT. LtC. NO. MECH. I TOTAL OFFACIF C.DPY BUILDING PLAN CHECK FEE SEISMIC FEE MICROFILM ELECTRIC PLUMBING MECHANICAL CONST. TAX 31- 7 1 "91' If POST THIS WARD NEAR FRONT OF BUILDING CITIf OF CUPERTINO rJ INSPECTION DIVISION JOB INSPECTION RECORD JO B A D D R E SS UNIT# --LOT# OWNER 7" CONTRACTOR Iffil 7LIEL OF 01 ®R I'm " I" FOUNDATION UFER PLUMBING ELECTRICAL PLUMBING MECHANICAL ELECTRICAL FRAMING INSULATION F Ify D I A P I i x PERMIT EXPIRATION PERMIT EXPIRES IF WO IS NOT STARTED WlTi" 180 DAYS OF PERMIT IS ANCE OR 180 DAYS FRI LAST CALLED INSPECTR PERMIT VALIDATION �n/ QIIqp"J',/"l i"['J" ISSUANCE DATE El I El VALUATION PERMIT TO STORIES TYPE CONSTR OCC GROUP RES. —UNITS _SO FT FLOORAREATOTAL. ACREA(A Es IND CON P8 Co""' PLUMBING GRADE/.L/iia rues BUI .- .. .. . - " RIOR 71-14 V_A TEMPORARY APPROvALS"-j_ B U I L D IN G ELECTRIC TRACT NO GASFEE r a OCCUPANCY Tm' OF BUILDING IS NOT PERMITTED UNTIL BUILDING FINAL ISSIGNED BY BUILDING INSPECTOR, GAS TEST L—a!117 S,�J MICROFILM ARRANGE FOR INSPECTION BY PHONING 252-4505, ONE WORKING DAY BEFORE REQUIRED INSPECTION. PLEASE GIVE JOB ADDRESS WHEN PHONING. - SEE PERMIT FOR EXPIRATION DATE - ELECTRIC PLUMBING MECHANICAL I Azd IMPORTANT! PLEASE READ REVERSE SIDE BEFORE CALLING FOR FINAL INSPECTION. TOTAL ELECTRICAL ACC DATE ACC FILE NO FRAMING SAN # /�' / INSULATION Z) 4/0 eel - I , PLUMBING :2 IN I N G ENG. SITE NO, LATH Z GAS FIRE SPRINK ENERGY T 24 MECHANICAL Y E NO Y E N HEATING UOR I (A "7 zc ELECTRICAL FLOOD ZONE A,L U,C RIOR FIRE DEPT YO NEI Y [:] NO -7 Tw GRADE/.L/iia :3IOR BUI .- .. .. . - " RIOR 71-14 V_A TEMPORARY APPROvALS"-j_ B U I L D IN G ELECTRIC PLAN CHECK GASFEE r a OCCUPANCY Tm' OF BUILDING IS NOT PERMITTED UNTIL BUILDING FINAL ISSIGNED BY BUILDING INSPECTOR, SEISMIC FEE MICROFILM ARRANGE FOR INSPECTION BY PHONING 252-4505, ONE WORKING DAY BEFORE REQUIRED INSPECTION. PLEASE GIVE JOB ADDRESS WHEN PHONING. - SEE PERMIT FOR EXPIRATION DATE - ELECTRIC PLUMBING MECHANICAL CONST. TAX IMPORTANT! PLEASE READ REVERSE SIDE BEFORE CALLING FOR FINAL INSPECTION. TOTAL CITY OF CUPERTINO CERTIFICATE OF COMPLETION BUILDING INSPECTOR'S OFFICE fl Building Pert P Date g .... ...... 19...x._..... mi --- ..........................."" AZ" 01, fi ... 'Ie Building Located at .... s' ....... . ..................... /111' i`-1. s . .............................. by tt . . . . . ...... ...... d ........ Has Been (Altered) For Use As: ................ ..................... ................... ........... ................................................................................................ ................ ............ ....... ........................................................................................................ ................................ .... ........................................ A, I .......... 14 .......... BUILDING IWEcrm PD -7 cupe fino Sanitary BUILDING tUSPECTOR'S OFFICE Di'strict Copy Lf) ciTy OF CUPERTINO' C) E 0 Backflow Device VSewer Connection L ( Plumbing Final Owner or Tenant At, Sanitary Permit No. Plumbing Permit No. Lot No. 16 I I — Date Connected 19Dote Final .-19 dM L– NBING INSPECTOR To ELECTRIC SERVICE NOTICE P.G. & E. COPY BUILDING INSPECTOR'S NOTICE CITY OF CUPERTINO You are hereby authorized to Connect electrical service for Owner or Tenant At No. of Wires Motor Load Heating Load Size of Wires Size of Switch I-- VoItQqe K. W Phase Voltage Na. of Meters Light_ 110 _New Service Reconnect - Heol -I 20 -Three Wire - More Service No. of Add. Meters Power Three Phase - Move Meter a. OM ELECTRICAL INSPECTOR TO FRA. IN IqNFORMATION VVI1+11N RED U IVB ASC _._ USE BAI.L POINT PEN N Ppn.IFrT I MENTI FIrATION w -- -^ — PERP d� NAME CON rOR 9"-' � ,w ,✓'`-.. NAM � , Lt�sNo. CONTRACTOR J �i ADORES r"° DR ENGINEER LIC NO. ARGH.OR ENG, ADDRESS 0 4 LICENSED CONTRACTORS DECLARATION', u w 1 hereby affirm that 1 am licensed under provisions cif Chapter `7 a a' (commencing with Section 7000) of Division 3 of the Business and < � Professions Code, and my license Is in full force and effect w-z,,„r License Class_ ........__ Lic Number Date ... Contrsacti: ---------- .. .._ w < OWNER BUILDER DECLARATION r 1 hereby affirm that I am exempt from the Contractor's License o < Law for the following reason. (See 703 1.5, Business andProfeasaons vim Code. Any city or county which requires a permit to construct,alter, a Improve, demolish, or repair any structure, prior to its issuance, also cc requires the applicant for such permit to rile a signed statement that o0o ” he is licensed pursuant to the provisions of the Contracto6; License 2 Law (Chapter 9 (commencingwithSection 7000)of Division 3 of the z 4 Business and Professions (ode) or that he is exempt therefrom and C i- o the basis for the Alleged exemption Any violation ofSeetion 703 L5 ani — ro .layany applicant Cora permit siib)eus the applicant tu;i rival penalty or not more than five hundred dollars ($500).): 0 1, as owner of the property, or my employees with wages as their sole compwisation, will do the work, and the structure is not intended or offered for sale (Sec 7044, Business :and Professions Code: The Contractor's License Law does not apply to an owner of property who builds or improves theraon, and who does such work „o himself or through his own employees, provided that such improve- mentx are not intended or offered for sale If, however, the building O( or improvement is sold within one year of Completion, the owner - builder will have floe burden of proving that he did not build or Im- prove for purpose of sale.), Q 1, as owner of the property, our, exclusively contracting with licensed contractors to construct the project (Set. 7044, Business and Professions Code The Contractor's License Law does not apply to an owner of property who builds or improves thereon. and who contracts for such projects with a contractor(s) licensed pursuant to the Contractor's License Law„ C1 f am exempt under S'de._.m „BAP.C. for this reason Owner _ Date .__..... WORKERS' COMPENSATION DECLARATION I hereby affirm that I have a certificate of consent to self -insure, or a certificate of Workers' Compe saticn lnsury ae or a eertdf d Copy tlieri of (Sec. 3800, Lat d a to r . Policy No. Company -. 0 Certified�e py is hereby ished. © CertifieA owdy°..is filed It the city idsneetiom division. 7) CE `91 ^ ICA°/ E OF EXEMPTION FROM WOP.KERS' > COMPENSATION INSURANCE; (This section need not be completed if the permit is for one z hundred dollars (0100) or leas,) 0 1 certify that in the performance of the work for whirls this per k- mit is issued, I shall not employ any person in any mannersras to W become subject to the Workers' Compensation Laois of Aliforma. Date._,_.__Applicant, , NOTICE TO APPLICANT If, after making this Certificate of Ex - 2 emption, you should become subject to the Workers' Coin pensation provisions of the Labor Code, you must forthwith comply with such provisions or this permit shall be deemed revoked. CONSTRUCTION LENDING AGENCY I hereby affirm that there is a construction fending agency for the performance of the work for which this permit is issued (Sec. 3047, Civ.C,). I certify that I have read this application and state that the above information is correct. I agree, to comply with all city and county or4mantxs and state laws relating to building construction, and 1 hereby arnthorizc representatives of this city to enter upon the above-mentioned property for inspection purposes, (We) agree to save, indemnify and keep harmless the City of Cupertino against liabilities, judgments, costs and expenses which may in a way accrue aga sr�, d City in consequTce of the granf is parntit ting v� ILA - Date to Slgnatu 'rifA ]leant/Corttiactor s ON APPLICATION & PERMIT ILDING — ELECTRICALS -PLUMBING — MECHANICAL OUTLETS -SWITCHES - RECEP 10,00/1.00 LIGHTING FIXTURES 10.00/1.00 APPLIANCES RESIDENTIAL 4.00 PANELS 10.00 PANELS (OVER 200 AMP) 20.00 SIGNS TRANS. 3.00 SPECIAL CIRCUIT 5.00 TEMP. METER OR POLE INS. 20,00 MOTORS SEE FEE SCH. SERVICE CHANGE — 20.00 MISC. REFER TO ORD PERMIT ISSUANCE 10.00 PLEc, CONTR. LIC. NO, ELFC, TOTAL ALTER -DRAIN & VENT -WATER (EA.) 5,00 BACK FLOW PROTECT. DEVICE 4,00, DRAINS -FLOOR, ROOF, AREA,COND; 5.00 FIXTURES - PER TRAP 5.00; GAS-EA.SYSTEM-11NC,4OUTLETS 6.00I GAS- EA. SYSTEM - OVER 4 WA.) 2.00 INDUSTRIAL WASTE INTER. 30.00 __- LAWN SPRINKLERS -I INC 5 V.B. 6,00 LAWN SPRINKLERS - OVER 5 (FA.) 1,00 SEWER -SANITARY -STORM EA, 200ft/10,00 WATER HEATER W/VENT 6.00 WATER SYSTEM 5.00 WATER TREATING EQUIP. 5.00 MISC. - REFER TO ORD, PERMIT ISSUANCE ��10,00 PLG. CONTR, LIC. NO, PLG, -- TOTAL /rIN/ ALTER OR ADD TO MECH. 5,04 APPLIANCE _ _ 5.00 AIR HANDLING UNIT (TO 10,(100C.F,M.) 4,00 AIR HANDLING UNIT (OVER 10000C,F,M,) 6,00 EXHAUST HOOD (WITH DUCT) 5.00 _ HEATING UNIT (TO 100,001 B.T.U.) 8.00 HEATING UNIT (OVER 100,000B.T.U,)9.50 VENTILATION FAN (SINGLE) 4.00 BOILER - COMP (3 H.P. or 100,000 B.T.U.) 8.00 BOILER -COMP (Over 100,000 BTU) SEE EEE SCH, MISC. REFER TO ORD_ PERMIT ISSUANCE 10.00 CONT LIC.. NO. GUI... TOTAL, 13052 PLAN CHECK VALIDATION DATE OF APPLICATION PLAN CHECK FEE P.C. NO. PERMIT VALIDATION A I ISSUANCE DATE BLDG. ELECT. PLG, t:NWCH. VALUA flf T9, t � S/FT. P li STORIES TYPE CONSTR. OCC. GROUP RES. UNITS 60. FT. FLOOR AREA TOTAL ACREAGE -- BUILDING USE RESIND CON PB Other ❑ ❑ ❑ ❑ ❑ ASSESSORS PARCEL NO. ..— TRACT NO. PARCEL NO. ACC. DATE ACC, FILE NO, ZONING ENG. SITE NO. FIRE SPRINK ENERGY T-24 V ❑ N ❑ Y ❑ N� FLOOD ZONE A,L.U.C. Y N❑ Y❑ N❑ BUILDING t a" PLAN CHECK FEE SEISMIC FEE rrr MICROFILM ELECTRIC PLUMBING MECHANICAL CONST. TAX R w POST THIS CARD NEAR FRONT CITY UE CUPERTINO INSPECTION DIVISION JOB INSPECTION Foothill & Knst JOB ADDRESS OWNER Ki.nst.. & Kinst: CONTRACTOR „r„ % , r '% -;”FOUNDATION OF BUILDING RECORD _LOT#-- Sierra Precast ''i/ /'/'//'%iii " i f PE'RMI I NUMBER PERMIT EXPIRATI'd?11� PERMIT EXPIRES IF WORK IS NOT STARTED WITHIN 180 DAYS OF PERMIT ISSU- ANCE' OR 180 DAYS FROM INSPECTION. _ -PERMIT LIFERLASTCALLED ... _.. PREGUNITE _... VALIDATION ISSUANCE D ,'E UNDERGROUND/SLAB PLUMBING ELECTRICAL MECHANICAL RLUf;. ELECT. PCC', MECH. ❑ ❑ m / vALuarlGn�$/F T. Adh*w�� WOOD FLOOR PLUMBING MECHANICAL ELECTRICAL ,ev PER ATTO L FRAMING INSULATION TYPE C'C1NST4`i,,:. OCC. GROUP HES. UNITS /rye ROOF SO FT FLOOR AREA TOTAL ACREAGE DIAPHRAGM BUILDING USE PIES IND CON PR O[h" ___'” ' / r ',r ; „r„/ ROUGH . _... ASSESSORS SONSARC O PARCEL PLUMBJNG . GAS TEST TRAC1 NO. _[)ATE PARCEL NO. MECHANICAL '.. ELECTRICAL __. l � � 0111 ACC . ACC. FILE NO FRAMING _..... SAN # INSULATION PLUMBING ZONING ENC3,.SITE NCJ. GAS FIRE SPRINK Y N[] ENERGY T 24 Y ❑ N❑ ._.. . .. ... _ _. .. MECHANICAL �'� LATH -INTERIOR HEATING FLOOD ZONE v � N� A,L.U.C. v � Nn ELECTRICAL 'LATH -EXTERIOR SHEETROCK FIRE DEPT. GRADE i NN BUILDING R � ISHEAR INTERIOR BUILDING SHEAR EXTERIOR TEMPORARY APPROVALS FIREWALLS ELECTRIC PLAN CHECK FEE GAS SEISMIC FEE �, t 1 �1 OCCUPANCY OCCUPANCY OF BUILDING IS NOT PERMITTED UNTIL BUILDING FINAL IS SIGNED BY BUI LDI,NG INSPECTOR. MICROFILM ELECTRIC ARRANGE FOR INSPECTION BY ONE WORKING DAY BEFORE REQUIRED PHONING SPEC I INSPECTION. PLEASE GIVE JOB ADDRESS WHEN PHONING. — SEE PERMIT FOR EXPIRATION DATE — i PLUMBING MECHANICAL CONST, TAX IMPORTANT! PLEASE READ REVERSE SIDE BEFORE CALLING FOR FINAL. INSPECTION. TOTAL. OFFI E COPY PROJECT ADDRESS OWNER ARCHITECT ADDRESS CONTRACTOR ADDRESS NOTES: i CITY OF CUPERTINO BUILDING DIVISION CONTaot, lJ�, PERMIT A . P., N . HONI r �° SANIT. fl BLDG TYPE. PHONE OCC. GROUP REP S.F. RESIDENTIAL/SQUARE FOON LIVING GARAGE DECKS VA is $rcy it AN CK •.��.u� rr.nn CK PERMIT FEE CAP FEE ARTICLES OF INCORPORATIO OF WHITE EAGLE HOMEOWNERS ASSOCIATION",_.;' IBLDG, The name of the corporation created hereby is HOMEOWNERS ASSOCIATION. II This corporation is a Nonprofit Mutual Benefit Corporation organized under the Nonprofit Mutual Benefit Corporation Law. The purpose of this corporation is to engage in any lawful act or activity for which a corporation may be organized under such law. More specifically, the corporation is organized and operated to provide for the management, mainte- nance and care of a development within that certain tract of real property situated in the City of Cupertino, County of Santa Clara, State of California, described as follows: SECTION 4, 5, 6, 7, 18 and 19, as laid down, designated and delineated upon that certain Map entitled, "MAP OF INSPIRATION HEIGHTS, MONTA VISTA", which Map was filed for record in the office of the Recorder of the County of Santa Clara, State of California on April 11, 1917 in Book of Maps numbered P at Page 13. and any additions thereto as may hereafter be brought within the jurisdiction of the corporation for this purpose. Notwithstanding any of the above statements of purposes and powers, this corporation shall not, except to an insub- stantial degree, engage in any activities or exercise any powers that are not in furtherance of the specific purpose of this corporation. III The name and address in this state of the corporation's initial agent for service of process is William A. Kinst. IV The corporation shall be managed in accordance with the provisions of its duly -adopted Bylaws. The authorized number and qualifications of members, the different classes of membership, the property, voting and other rights and privi- leges of members and their liability for dues and assessments and the method of collection thereof, are set forth in the Bylaws. wk8.11/1 V Amendment of the Articles shall require the assent (by vote or written consent) of members representing fifty-one percent (51%) or more of the voting power of each class of voting membership in existence at the time the amendment is considered. Upon cessation of two class voting, as provided in the Bylaws of the corporation, amendment of these Articles shall require the assent (by vote or written consent) of members representing fifty-one percent (51%) or more of the voting power of the corporation, and at least a majority of the votes of members other than the Declarant (as defined in the Bylaws). Dated: William A. Kinst, Incorporator I declare that I am the person who executed the above Articles of Incorporation and that this instrument is my act. wk8.ll/ 2 s When Recorded Return To: S�i" P' p t"�+� ,C p d r�w .',��,. RYa �a^ „l.+gt`p' (A Y OF $d�✓''6r,�.�"� � �i uvf�9�.X DECLARATION OF COVENANTS, CONDITIONS AND RESTRICTIONS ESTABLISHING A PLAN OF OWNERSHIP OF WHITE EAGLE DEVELOPMENT I N D E X Page Declaration ........................................... 1 A. Definitions ...................................... 2 B. Planned Development Plan ......................... 3 C. Description of Prosect 1. Unit ........................................ 3 2. Common Areas ................................ 4 3. Restricted Common Areas ..................... 5 4. Undivided Interest in Common Areas.......... 5 5. Dwelling Unit ............................... 6 D. Owner's Percentaae Interest in Common Area and Proportionate Share in Receipts and Expenses..... 6 E. Management of Project 1. Membership in the Association ............... 6 2. Powers, Rights and Duties of the Association ................................. 7 3. Maintenance, Repairs and Alterations........ 7 F. Assessments and Liens ............................ 10 G. Insurance 1. Casualty .................................... 13 2. Public Liability ............................ 14 3. Fidelity .................................... 14 4. Workers' Compensation ....................... 14 5. Insurer Rating .............................. 14 WK9.1 H. I. J. K. L. M. N. M K2 WK9.1 Covenants and Restrictions Regarding Use......... 14 Notice of Transfer ............................... 16 Destruction of Proiect 1. Bids and Insurance Proceeds ................. 17 2. Sufficient Insurance Proceeds ............... 17 3. Insurance Proceeds Partially Sufficient..... 17 4. Insurance Proceeds Less Than 85% of the Cost to Restore ........................... 18 5. Reconstruction .............................. 19 6. Certificate of Intention .................... 19 7. Revision of Documents ....................... 19 Partition ........................................ 19 Condemnation ..................................... 20 Amendment ........................................ 20 Term of Restrictions ............................. 21 Notices .......................................... 22 Miscellaneous 1. Enforcement of Restrictions ................. 22 2. Mortgage Protection ......................... 22 3. Interpretation .............................. 23 4. Severability ................................ 23 5. Easement of Encroachment .................... 23 6. Power of Attorney ........................... 23 7. Limitation of Liability ..................... 23 8. Indemnification ............................. 24 9. Transfer of Control..... ................. 24 10. Waiver of Homestead Exemption ............... 24 11. Completion Bond ............................. 24 12. Architectural Control ....................... 25 13. Mortgagees .................................. 26 DECLARATION OF COVENANTS, CONDITIONS AND RESTRICTIONS ESTABLISHING A PLAN OF OWNERSHIP OF WHITE EAGLE DEVELOPMENT WHITE EAGLE DEVELOPMENT CORPORATION ("Declarant") is the owner of all that certain real property ("the Project") subject to this Declaration, located in the City of Cupertino, County of Santa Clara, State of California, and more particu- larly described as follows: SECTIONS 4, 5, 6, 7, 18 and 19, as laid down, designated and delineated upon that certain Map entitled, "MAP OF INSPIRATION HEIGHTS, MONTA VISTA", which Map was filed for record in the office of the Recorder of the County of Santa Clara, State of California on April 11, 1917 in Book of Maps number P at Page 13. Declarant hereby declares as follows: 1. The Project has been improved with five buildings ("the Project's Structure") consisting of ten units and related improvements. 2. Declarant hereby establishes by this Declaration a plan for the individual ownership of the real property estates, consisting of the area or space contained in each of the units (as hereinafter defined) in the Project's Structure and the co -ownership by the individual and separate owners thereof, as tenants in common, and as hereafter set forth, of all of the remaining real property of the Project, herein- after referred to as the "Common Areas." 3. Declarant hereby establishes a common interest development as defined in California Civil Code Section 1350, et seq. D E C L A R A T I O N Declarant, the fee owner of the Project, hereby makes the following declaration as to division, easements, rights, liens, charges, covenants, servitudes, restrictions, limita- tions, conditions and uses to which the Project may be put, hereby specifying that such declaration shall operate for the mutual benefit of all owners of the Project and shall consti- tute covenants to run with the land and shall be binding on and for the benefit of Declarant, its successors and assigns, and all subsequent owners of all or any part of the Project, together with their grantees, successors, heirs, executors, administrators, devisees and assigns, for the benefit of the WK9.1 -1- Project, and shall be servitude in favor of the dominant tenement. A. DEFINITIONS. imposed upon all of the Project as a each and every other owner thereof as The following definitions shall be applicable to this Declaration: 1. "Association" means WHITE EAGLE HOMEOWNERS ASSOCIATION, its successors and assigns. 2. "Board" or "Board of Directors" may be used interchangeably herein and shall mean the Board of Directors of the Association as the same may, from time to time, be constituted. 3. "Bylaws" means the Bylaws adopted by the Association, including any amendments or additions thereto. 4. "Declaration" means this Declaration of Covenants, Conditions and Restrictions, together with any amendments, supplements or modifications hereto. 5. "Deed of Trust" shall mean and be synonymous with the word "Mortgage," and the same may be used inter- changeably with the same meaning; similarly, the word "Trustor" shall be synonymous with the word "Mortgagor," and the word "Beneficiary" shall be synonymous with the word "Mortgagee." 6. "Member" means every person or entity who holds a membership in the Association. 7. "Mortgage" means the conveyance of any dwelling unit or other portion of the Project to secure the perfor- mance of an obligation, which conveyance shall be void upon the due performance of said obligation. 8. "Mortgagee" means a person or entity to whom a Mortgage is made; "Mortgagor" means a person or entity who mortgages his or its property to another, i.e., the maker of a Mortgage. 9. "Owner" means the record owner, whether one or more persons or entities, of a dwelling unit which is part of the Project, including contract sellers, but excluding those having such interest merely as security for the performance of an obligation. "Owner" shall also include a contract vendee under a Real Property Sales Contract, provided that such Real Property Sales Contract complies with the provi- sions of §§2985-2985.6 of the California Civil Code. WK9.1 -2- 10. The term "person" means a natural person, corporation, partnership, association, firm or other entity as the context may require. 11. "Rules and Regulations" means those rules and regulations adopted by the Association or its Board, including any amendments or additions thereto. 12. "Subdivider" shall mean and be synonymous with the word "Declarant," and the same may be used interchange- ably with the same meaning. 13. "Single Family" means one or more persons each related to the other by blood, marriage or legal adoption, or a group of not more than four persons not all so related, together with his or their domestic servants, maintaining a common household in a unit. B. PLANNED DEVELOPMENT PLAN Incorporated herein by this reference is that certain Planned Development Plan ("the Planned Development Plan") which describes the division of the Project into a planned development in accordance with California Civil Code §1351, and which is to be recorded in the Official Records in the Office of the County Recorder of Santa Clara County, California. C. DESCRIPTION OF PROJECT In order to establish a plan of ownership for the Project, Declarant hereby covenants and agrees that the Project is hereby divided into the following separate free- hold estates: 1. Unit. (a) Each of the dwelling units, as separately shown, lettered, numbered and designated on the Planned Development Plan, shall be a separate freehold estate and shall be defined and referred to herein as a "unit." Each of the units consists of a townhome as indicated and described on the Planned Development Plan and in subparagraphs C.1.(b) and (c) hereinbelow. (b) The boundaries of each space designated on the Planned Development Plan as dwelling areas (including any sub -elements thereof as may be designated on the Planned Development Plan) shall be the interior surfaces of the perimeter walls, floors, ceilings, windows and doors, where they exist and otherwise to the inclined, vertical or hori- zontal planes, or curved surfaces, as the case may be, at the limits of the dimensions shown on the Planned Development Plan. The dwelling area includes both the portions of the WK9.1 -3- building so described, and not excluded in subparagraph C.1.(d) hereof, and the air space so encompassed. The dwelling areas include all fixtures, outlets, appliances, heaters, air conditioners, if any, and similar devices located within and servicing only the particular dwelling area or unit, or such device, wherever located, if designated on the the Planned Development Plan as a part of the dwelling area or unit. (c) The boundaries of each space designated on the Planned Development Plan as a balcony, deck, patio or entryway, if any, shall be the adjoining exterior surfaces of the walls, windows, doors, overhangs, and ceilings of the Project's Structure; and where the balcony, deck, patio or entryway is not so adjoined, the boundaries are the inclined, vertical or horizontal planes, or curved surfaces, as the case may be, at the limits of the dimensions for the parti- cular balcony, deck, patio or entryway shown on the Planned Development Plan. The balcony, deck, patio or entryway shall include only the air space and finished floor or ground surface within, but not the other portions of the Project's Structure, Common Areas and surfaces thereof described by or contained within the boundaries of the balcony, deck, patio or entryway. (d) The following are not part of the unit: common walls, common stairways and hallways, reservoirs, tanks, pumps, air ducts and other central services equipment, pipes, ducts, flues, chutes, conduits, wires and other utility installations, wherever located, servicing more than one unit (except the outlets thereof when located within and servicing only a particular unit), parking spaces and storage spaces, if any, and the railings and enclosures of balconies, decks, patios or entryways. (e) In interpreting deeds, declarations and the Planned Development Plan, the actual, as -built dimensions of the unit (including balconies, decks, patios and entry- ways, if any) or of a unit reconstructed in substantial accordance with the original plans thereof, shall be conclu- sively presumed to be its boundaries rather than the metes and bounds (or other description) expressed in the deed, the Planned Development Plan or the Declaration. 2. Common Areas. A freehold estate consisting of an undivided interest in the remaining portion of the Project is described and referred to herein as the "Common Areas," or "Common Area." The Common Areas shall include, without limitation, common stairways and hallways, reservoirs, tanks, pumps, air ducts, and other central services equipment, pipes, ducts, flues, chutes, conduits, wires, and other utility WK9.1 -4- installations, wherever located, servicing more than one unit (except the outlets thereof when located within and servicing only a particular unit), lawns, pavement, trees, all other landscaping on the lot on which the Project's Structure is located, parking and storage spaces, if any, and the struc- tures, railings and enclosures of balconies, decks, patios or entryways. 3. Restricted Commons Areas. (a) "Restricted Common Area" means a portion of the Common Area set aside and allocated for the restricted use of the respective units, as is or may hereinafter be designated in the Planned Development Plan. To complete each dwelling unit, at the time of conveyance, Declarant, or its successor, shall either (i) designate and describe in the document of conveyance for the unit one or more designated parking spaces to be used solely for vehicle parking exclu- sively in conjunction with the use of the respective unit; or (ii) by a separate instrument make an irrevocable assignment and designation of one or more designated parking spaces to be used solely for vehicle parking exclusively in conjunction with the use of the respective unit. Declarant and its successors shall consistently use only one of the alter- natives set forth in (i) and (ii) above for the entire Project and shall in no event use a combination of the two. The individual storage spaces, if any, shall be Restricted Common Area and shall be marked and assigned by Declarant for the exclusive use of a particular unit. The grant of use of the Restricted Common Areas shall be an easement appurtenant to the respective unit for the exclusive uses and purposes as set forth herein and in the Planned Development Plan, and shall be subject to an easement in favor of the Association for support and minor encroachment of the Common Areas and an easement in favor of owners of adjoining Restricted Common Areas for minor variances between parking space and storage space designations and the actual painted striping or as -built dimensions thereof. (b) The exclusive right of use of Restricted Common Area granted to an Owner does not entitle such Owner to alter, change or add to, in any way, the surfaces or structural parts of such Restricted Common Area. 4. Undivided Interest in Common Areas. The undivided interest in the Common Areas hereby established and which shall be conveyed with each respective unit shall be a fractional or percentage interest as set forth in Exhibit "A" hereto. The undivided interest estab- lished and to be conveyed with the respective units cannot be changed, and Declarant, its successors, assigns and grantees covenant and agree that the interest in the Common Area and WK9.1 -5- NNENNIMANOMS the fee titles to the respective units conveyed therewith shall not be separated or separately conveyed or encumbered even though the description in the instrument of conveyance or encumbrance may refer only to fee title to the unit. 5. Dwelling Unit. Each unit, together with the respective undivided interest in the Common Areas and the right of use in the Restricted Common Areas specified and established herein, is defined as a "dwelling unit," and the ownership of each dwelling unit shall include a unit, such undivided interest in the Common Areas, and such right of use in the Restricted Common Areas. D. OWNER'S PERCENTAGE INTEREST IN COMMON AREAS AND PROPORTIONATE SHARE IN RECEIPTS AND EXPENSES Each Owner's percentage interest in the Common Areas and proportionate share in the receipts and expenses of the Common Areas (hereinafter sometimes referred to as "Percentage Interest" or "Proportionate Share") shall be the sum of the fractional or percentage interests allocated to each dwelling unit owned by such Owner, according to the schedule in Exhibit "A" hereto. E. MANAGEMENT OF PROJECT The common business, affairs and management of the Project shall be conducted by the Association, as provided in this Declaration and the Bylaws. 1. Membership in the Association. (a) An Owner of a unit shall automatically, upon becoming the record owner thereof, be a member of the Association and shall remain a member thereof until such time as his ownership ceases for any reason, at which time his membership in the Association shall automatically cease. (b) The Owners of all the units covenant and agree that the administration of the Project shall be in accordance with the provisions of this Declaration and the Bylaws. In the event that any of the matters in the Bylaws are in any way inconsistent with any matters in this Declaration, this Declaration shall prevail. (c) The membership in the Association held by any unit Owner shall not be transferred, pledged or alienated in any way, except that such membership may be (i) pledged to a lending institution as additional security for a loan which is also secured by the unit, or (ii) transferred upon the transfer of such unit. Any attempt to make a prohibited WK9.1 -6- transfer is void and will not be reflected upon the books and records of the Association. In the event the Owner of any dwelling unit shall fail or refuse to transfer the membership registered in his name to the transferee of such unit, the Association shall have the right to record the transfer upon the books of the Association and to issue a new certificate to the transferee, and thereupon the old certificate out- standing in the name of transferor shall be null and void ;as though the same had been surrendered. A membership shall survive the death of a member and may be transferred in the manner herein provided. 2. Powers, Rights and Duties of the Association. (a) The Association shall have the following powers, rights, and duties in addition to those provided elsewhere in this Declaration and those adopted in its Bylaws and Rules and Regulations: (1) To enforce the provisions of this Declaration. (2) To pay taxes, special assessments and other liabilities which are or would become a lien on the Common Areas, or any portion thereof, unless such lien encumbers an undivided interest in the Common Areas as a part of a dwelling unit and is solely the obligation of the Owner of such unit. (3) To levy assessments and to perfect and enforce liens as hereinafter provided. (4) To make reasonable Rules and Regula- tions for the operation and use of the Project and to amend them from time to time, provided that any Rule or Regulation may be amended or repealed by an instrument in writing signed by the Owners of a majority of the units. (b) Whenever this Declaration or the Bylaws require the approval or consent of the Association, said approval or consent shall mean the written approval of thef' Board unless otherwise provided by this Declaration or they Bylaws. P 3. Maintenance, Repairs and Alternations. Notwithstanding the existence of any insurance covering a unit Owner, the Association, or both, against loss, damage and destruction, the Association and each Owner shall have the affirmative obligations for maintenance, repair and restoration as set forth herein. WK9.1 -7- (a) Maintenance and Repair of Common Areas. Except as otherwise expressly provided herein, the Association shall maintain the Common Areas, and such maintenance shall include, but not be limited to, mowing and care of lawns and other landscaping, replanting or redesigning of the landscaped areas, and repairing the exterior of the Project's building structure. No Owner shall do anything which would interfere with the Association's maintenance of the landscaped areas and exterior of the Project's Structure. The cost of such maintenance shall be assessed in accordance with Section F, except that the cost of any such maintenance, repair or replacement which results from the negligence or willfulness of a particular Owner, his guest, or any occupant of his unit, shall be added to that Owner's regular monthly assessment and shall be an assessment, lien and obligations of such Owner as provided in Section F. (b) Damage to Interiors of Units (1) Should the windows, doors or interior of any unit or any part thereof not part of the Common Areas be damaged or destroyed by any cause, the Owner whose unit is damaged or destroyed shall, at his own cost and expense, repair and restore the same or cause the same to be repaired and restored substantially in accordance with the original plans and specifications for the unit. All such repair and restoration work and the plans and specifications therefor shall be done and approved in accordance with all applicable laws, ordinances, regulations and building codes. (2) Should the windows, doors or interiors of more than one unit or any parts thereof not part of the Common Areas be damaged or destroyed by any common means, the Owners of each of the units shall bear their proportionate cost of the work performed to repair, rehabilitate, and restore the same. In the event of a dispute between the responsible parties as to the apportionment of such costs, the Association shall fix and apportion them to and between the responsible parties, and the determination of the Associ- ation shall be conclusive and binding. (c) Maintenance and Repair of Interior of Units Each Owner shall maintain his unit, at his own cost and expense, in good order and repair in accordance with the original plans and specifications for the unit, and shall not do or permit or suffer anything to be done in such unit which will or may have a tendency to decrease the attractive- ness or value of the Project or the other units therein. Each Owner's obligation to maintain and repair his unit shall include, but not be limited to, normal household, kitchen, WK9.1 -8- plumbing, electrical and utility maintenance and repair, including the maintenance and repair of outlets, appliances, devices, equipment and fixtures which are within said Owner's unit and service only his unit or which are designated and assigned to his unit in the Planned Development Plan. (d) Air Conditioner and Heater. Each Owner shall be responsible, at his sole cost and expense, for the maintenance and repair of any air conditioning or heating appliance, compressor or similar device which is designated or assigned to an Owner's unit or which services only such Owner's unit; and if such appliance, compressor or device becomes worn out beyond repair, such Owner shall replace said device, at his sole cost and expense, with a device of comparable size and quality as approved by the Association. Said Owner shall be responsible, at his sole cost and expense, for restoring the Common Area sur- rounding said appliance, compressor or device to its con- dition prior to any repair or replacement thereof. (e) Restricted Common Area Maintenance. Each Owner shall keep the interior and floor surfaces of the parking and storage space or spaces designated for his exclusive use in a reasonably sanitary and clean condition. (f) Failure of Owner to Repair or Maintain. In the event an Owner shall have failed for a period of sixty days to maintain, repair, restore and/or rebuild his unit or Restricted Common Area, as required by Section E.3, the Association shall have the right, through its officers, agents and employees, to maintain, repair, restore and/or rebuild the same, and the Association may assess the costs thereof as an assessment upon the dwelling unit of the Owner whose unit or Restricted Common Area was so repaired, maintained, restored and/or rebuilt. (g) Right of Entry. The Association, through its duly authorized officers, agents or employees, shall have the right, after reasonable notice to the Owner, to enter upon any unit at reasonable hours for the purpose of exercising its rights or performing its duties under this Declaration. To the extent reasonably necessary for the performance of his duties under this Section E, each Owner, upon obtaining written approval from the Board, shall have a right to enter the Common Areas and/or other units at reasonable times and after reasonable notice to the unit Owner or Association, as the case may be. Thus, the Project is subject to easements for repair, WK9.1 -9- maintenance and restoration, as set forth in the preceding sentences; provided, however, that any person (including the Association) who exercises said right shall be responsible for restoring the easement area so used to its condition prior to such use. F. ASSESSMENTS AND LIENS. 1. Each Owner's share ("Assessment Share") of the common expenses of the Association shall be equal to the fractional or percentage interest as set forth in Exhibit "A" for each unit owned by such Owner. The Assessment Share attributable to each unit shall not be changed without the prior written approval of at least seventy-five percent (75%) of all first Mortgagees of units. 2. Each Owner, including Declarant, shall be subject to the following assessments in amounts to be deter- mined by the Board: (a) Regular monthly maintenance assessments equal to the Owner's Assessment Share of the actual or estimated cost of all maintenance, repairs, taxes, insurance and other common expenses for which the Association is responsible. Such monthly assessments shall commence as to all units as of the first of the month following the close of escrow for the sale of the first unit. (b) Adequate reserves for replacement, whether by capital contribution or otherwise, which reserves shall be amortized and collected monthly on the same basis as for regular assessments. (c) Special assessments for capital expendi- tures or other purposes, which may be assessed on the following basis: (i) In any fiscal year the Board may not, without the vote or written consent of a majority of the voting power of the Association residing in the Members other than the Declarant, levy special assessments to defray the costs of any action or undertaking on behalf of the Association which in the aggregate exceed five percent (5%) of the budgeted gross expenses of the Association for that fiscal year. (ii) Except as provided in subsection (iii) immediately following, every special assessment shall be levied upon the same basis as that prescribed for the levying of regular assessments. (iii) A special assessment against Owners to raise funds for the rebuilding or major repair of WK9.1 -10- the structural common area portions of the housing units of the Project shall be levied upon the basis of the ration of the square footage of the floor area of the unit to be assessed to the total square footage of floor area of all units to be assessed. (d) Charges, payments, fines, penalties and such other sums as become payable under this Declaration or the Bylaws. The provisions of Section F.2(c), above, shall not apply to nor limit the right of the Board to levy and collect the sums specified herein as special assessments against a Member as a remedy or to reimburse the Association for costs incurred in bringing the Member or his unit into compliance with this Declaration or the Bylaws; provided, however, that any fines or penalties imposed as a discipli- nary measure or as a means of reimbursing the Association for the costs incurred in repairing damage to the Common Areas and facilities for which a Member was responsible or in bringing the Member's unit into compliance may not be enforced by exercised lien rights in accordance with para- graphs F.5 and 6 hereof. 3. The Board may not, without the vote or written consent of a majority of the voting power of the Association's residing members other than the Declarant, impose a regular annual assessment per unit which is more than 20% greater than the regular annual assessment for the immediately preceding fiscal year. 4. Each Owner shall pay all assessments levied upon his unit (whether pursuant to this or any other provision hereof) to the Association within ten (10) days of the mailing or delivery of an invoice for the same to said Owner. The Association may, in addition to said assessments, charge and assess costs (including reasonable attorneys' fees) and penalties and interest for the late payment or non-payment thereof. No Owner of a unit may exempt himself from liability for his share of assessments and costs by waiving the use or enjoyment of any of the Common Areas or by abandoning the unit. 5. If not paid within thirty (30) days from the date said assessments are due, such assessments (including late or non-payment charges) shall become a lien upon the Owner's unit and shall continue to be such a lien until fully paid and shall also be the personal obligation of the Owner of the unit at the time the assessment fell due, subject to the following conditions: (a) Such lien shall become effective against any such unit only upon the recordation by the Association of a Notice of Lien, in accordance with California Civil Code WK9.1 -11- Section 1356, in the Office of the County Recorder of Santa Clara County, California. (b) Any action brought to foreclose such lien must be commenced within one year following such recordation; provided, however, that said period may be extended by the Association for a period not to exceed one additional year by recording a written extension thereof. (c) Any such lien shall not defeat nor render invalid nor rank the lien of any first Mortgage or Deed of Trust affecting any unit, made in good faith and for value and recorded in the office of said County Recorder prior to the recordation of any such lien, and any such lien shall be subordinate and subject to the lien of any such prior recorded first Mortgage or Deed of Trust. 6. The Association is hereby vested with the right and power to bring, at its option, any and all actions against the Owners for the collection of assessments which are not paid when due, and to enforce the aforesaid lien by any and all methods available for the enforcement of con- tractual obligations or liens, including, without limitation, the right to bring a personal action against the Owner on such debt, the right to foreclose such lien in a method provided by law for foreclosure of a Mortgage, and the right to sell by public or private sale the Owner's interest, which may be enforced by the Association, its attorney, or other person authorized to bring such action or make such sale. A sale of an Owner's interest shall be conducted in accordance with the provisions of Sections 2924b and 2924c of the Civil Code of California (or any similar statutory provisions that may hereafter exist). The Association shall have the power to bid on the property sold in its own name and to hold, lease, mortgage and convey the same for the benefit of all the Owners. All rights and remedies granted to the Association hereunder shall be cumulative, and the exercise of one or more rights or remedies shall not constitute a waiver or election pre- venting the use of other rights or remedies. The Association shall be entitled to collect from a defaulting Owner all costs and attorneys' fees incurred in connection with any legal action commenced for the purpose of collecting said assessments and/or enforcing said lien. 7. During any period in which a member shall be in default in the payment of any regular or special assess- ment levied by the Association, the voting rights and right to use of the recreational facilities, if any, of such member may be suspended by the Board until such assessment has been paid. Such rights of a member may also be suspended, after notice and hearing, for a period not to exceed thirty (30) WK9.1 -12- days, for any single infraction of any Rules and Regulations established by the Board governing the use of the Common Areas and facilities, provided that the accused member has been afforded a fair hearing and an opportunity to be heard in his own defense. G. INSURANCE. The Association shall acquire the following insurance policies for the benefit of the units and Owners: 1. Casualty. A policy or policies of insurance for the full insurable replacement value, without deduction for deprecia- tion, of all of the Project improvements located thereon, naming as an insured the Association, for the use and benefit of the Owners, as their interests may appear. In any event, the amount of coverage shall be sufficient so that insurance proceeds from a covered loss shall provide at least the lesser of: (i) the full amount of the covered damage or loss; or (ii) compensation to the first Mortgagee of each unit equal to the full unpaid balance of the Mortgage. Such policy or policies shall: (a) Provide coverage against the perils of fire, extended coverage, vandalism and malicious mischief, as minimum requirements; (b) Provide for a separate loss payable endorsement in favor of the Mortgagee(s) of each unit, as their interests may appear; (c) Provide for 30 days' prior written notice to such Mortgagee(s) of cancellation or reduction in type or amount of coverage, or such other notification as may be required by the Mortgagee(s); (d) Contain a waiver of subrogation rights by the insurer as against the Association, its officers, the Board and the Owners; (e) Provide that, without affecting any protection to Mortgagees, any proceeds payable to the Associ- ation shall be paid to a bank or trust company to be desig- nated by the Association to act as depository; and (f) Be primary to and shall not be affected by any right of setoff, proration or contribution by reason of any insurance held by an Owner. WK9.1 -13- 2. Public Liability. A policy insuring the Association, its officers, the Board and Owners against any liability, to the public or to the Owners, their guests, invitees, or tenants, incident to the ownership or use of the Project. Limits of liability under such policy or policies of insurance shall not be less than a combined limit of one million dollars ($1,000,000.00). Said policy or policies shall contain severability of interest endorsements which shall preclude the insurer from denying the claim of named insureds because of any neglect or other act or omission of another named insured. 3. Fidelity. A fidelity bond or insurance of Board members, officers, trustees, employees and volunteers responsible for handling funds collected and held for the Association or Owners, naming as insured the Association, for an amount sufficient to cover at least one and one-half times the Association's estimate annual operating expenses and reserves. 4. Workers' Compensation. Workers' compensation insurance, including employer's liability insurance, to the extent necessary to comply with applicable laws. 5. Insurer Rating. All policies of insurance obtained by the Associ- ation as provided in this Section G shall be obtained from an insurance company qualified to do and doing business in the State of California and holding a rating of "BBB+" or better, by Best's Insurance Reports. Such policies may be obtained from one or more companies. H. COVENANTS AND RESTRICTIONS REGARDING USE. 1. Except as provided in paragraph 11 of this Section H (regarding Declarant's use of the Project), the Project shall be used solely for residential use, and each unit shall be used solely for Single Family residential use. 2. Subject to such Rules and Regulations as the Association may adopt, dogs, cats or other household pets may be kept provided they are not kept, bred or maintained for any commercial purpose and are controlled on a leash when outside their master's unit. Any pet deemed a nuisance by the Association shall be removed from the premises. Except as provided in the preceding sentences, no animals of any kind shall be raised, bred or kept on the Project. WK9.1 -14- 3. The Project's parking spaces shall be used solely for parking passenger vehicles, unless written approval is obtained by the Association. 4. No Owner, tenant or other occupant of the Project shall post any advertisements, signs, flags, banners or posters of any kind for public display, provided that with the prior written approval of the Board as to size, type, color, style and locations, a sign of customary and reason- able dimension may be posted to advertise a unit for sale or lease. This restriction shall neither apply to nor limit the right of Declarant to display or have displayed signs, posters, banners, flags and similar items advertising the sale or lease of the Project or units therein. Display of an American or California flag shall be subject to the Associ- ation's Rules and Regulations and shall require prior written approval of the Board as to compliance therewith. The Board shall have the right to remove an item displayed in violation of this Section H.4. 5. No unit or other part of the Project shall be used in such manner as to unreasonably obstruct or interfere with the enjoyment of other residents or to annoy them by unreasonable noises or otherwise; nor shall any nuisance or immoral or illegal activity be committed or permitted to occur, or any noxious or offensive activity be carried on within the Project. 6. No Owner, resident or lessee shall install wiring on any exterior surface of the Project or wiring which protrudes through the walls or the roof of the building for electrical or telephone installations, television antennae, air conditioning units or any other machines or equipment, except as authorized by the Association. 7. Except as otherwise provided in this Declaration, there shall be no obstruction of the Common Areas, nor shall anything be kept or stored in the Common Areas (except for designated storage areas), nor shall anything be altered, constructed or planted in, or removed from, the Common Areas without the prior written consent of the Association. 8. No Owner shall permit anything to be done or kept in his unit or in the Common Areas which will result in any increase of the Association's insurance premiums or the cancellation of insurance on any part of the Project, or which would be in violation of any law. No waste shall be committed in the Common Areas. 9. No Owner shall cause or permit anything to be placed on the outside walls of his unit. No sign, awning, canopy, window airconditioning unit, shutter, or other fixture shall be affixed to or placed upon the exterior walls WK9.1 -15- or roof of the Project's Structure or any part thereof, without the prior written consent of the Association. 10. The Common Areas shall be kept free of rub- bish, debris and other unsightly or unsanitary materials. 11. Until Declarant has completed all of the contemplated improvements and closed the sales of all of the units, neither the Owners nor the Association shall interfere with the completion of the contemplated improvements and the sale of the units. For a period of three years after the date this Declaration is recorded, Declarant and its authorized agents and assigns may make such use of the unsold units and of the Common Areas as may facilitate completion and sale, including, but not limited to, maintenance of model homes and sales and construction offices, and the showing of the Project and the units therein; provided, however, that Declarant shall not unreasonably interfere with any Owner's use and enjoyment of the Project. 12. No Owner or lessee, except for Declarant, shall make, or cause to be made, any alteration, repair or addition to his unit which would substantially affect the exterior appearance thereof or create a risk of harm to the Project, or impair any easement, without the prior written approval of the plans and specifications therefore by the Board. If the Board fails to approve or disapprove plans and specification within thirty (30) days of submission, they shall be deemed to be approved. 13. With the exception of a Mortgagee in posses- sion of a unit following a default in a first Mortgage, a foreclosure proceeding or a deed or other arrangement in lieu of foreclosure, no Owner shall lease his unit for transient or hotel purposes nor shall any Owner lease less than his entire unit. No Owner shall enter into any rental, lease or tenancy agreement unless such agreement is in writing. Such written agreement shall include an express provisions that it is subject in all respects to the provisions of this Declaration, the Bylaws, and Rules and Regulations and that any failure by the lessee or tenant to comply with the terms of such docu- ments shall be a default under the agreement. 14. All Owners, lessees, guests and occupants of units shall abide by this Declaration, the Bylaws, and any Rules and Regulations adopted by the Association. I. NOTICE OF TRANSFER. Upon the lease, sale or other transfer of a unit, either the Owner who transfers the unit or the transferee shall promptly notify the Association in writing of the name and address of the transferee, the nature of the transfer and the WK9.1 -16- unit involved, as well as such other information relative to the transfer and the transferee as the Association may reasonably request. An executed copy of the instrument of transfer shall accompany said notice. All transfers shall be subject to this paragraph, including, but not limited to, transfers occurring by reason of sale, lease, gift, devise or inheritance. The provisions of this Section I shall not apply to Declarant. J. DESTRUCTION OF PROJECT. 1. Bids and Insurance Proceeds. As soon as practicable after the damage or destruction of all or any portion of the Common Area, the Board shall (i) obtain bids from at least two (2) reputable contractors, licensed in California, which bids shall set forth in detail the work required to repair, reconstruct and restore the damaged or destroyed portions of the Common Area to substan- tially the same condition as they existed prior to such damage and the itemized cost of such work, and (ii) determine the amount of all insurance proceeds available to the Associ- ation, as trustee or otherwise, for the purpose of effecting such repair, reconstruction and restoration and the amount of proceeds of insurance purchased by the Association which will not be made available to the Association for such purpose by reason of the payment of such proceeds to Mortgagees holding Mortgages encumbering units within the Project. 2. Sufficient Insurance Proceeds. In the event that all or a portion of the Common Area is damaged or destroyed and the insurance proceeds available to the Association, as trustee or otherwise, are sufficient (when added to any sums actually received by the Association as the result of any special assessment) to effect the total repair, reconstruction and restoration of the damaged or destroyed Common Area, then the Association shall cause such Common Area to be repaired, reconstructed and restored to substantially the same condition as the same existed prior to such damage or destruction. 3. Insurance Proceeds Partially Sufficient. In the event that all or any portion of the Common Area is damaged or destroyed, and the insurance proceeds available to the Association, as trustee or otherwise, are sufficient (when added to any sums actually received by the Association as the result of any special assessment) to cover at least eighty-five percent (85%) of the cost of such repair, reconstruction and restoration, the Association shall promptly cause the Common Area to be repaired, reconstructed and restored to substantially the same condition as said WK9.1 -17- Common Area existed prior to such damage, and the difference between the insurance proceeds available to the Association for such purpose and the actual cost of such repair, reconstruction and restoration shall be specially assessed to each Owner upon the basis of the square footage of the floor area of the unit to be assessed to the total square footage of floor area of all units to be assessed; provided that, notwithstanding anything herein contained to the contrary, no repair, reconstruction or restoration provided for in this Section shall be conducted if, within sixty (60) days from the date of such damage or destruction, the Owners otherwise entitled to vote, which Owners hold in the aggregate more than a seventy-five percent (75%) interest in the Common Area, determine that such repair, reconstruction and/or restoration shall not take place. 4. Insurance Proceeds Less Than Eighty -Five Percent (85%) of the Cost to Restore. If the proceeds of insurance available to the Association, as trustee or otherwise, are insufficient (when added to any sums actually received by the Association as a result of any special assessment) to cover at least eighty-five percent (85%) of the cost of repair, reconstruction and restoration to the damaged or destroyed Common Area, then the Owners otherwise entitled to vote, which Owners hold in the aggregate seventy-five percent (75%) interest in the Common Area, shall determine whether (a) to repair, reconstruct and restore the damaged or destroyed Common Area and specially assess all Owners for all additional funds needed for such purpose or (b) not to repair, reconstruct or restore the damaged Common Area but to distribute the insurance proceeds available for such reconstruction together with any other sums otherwise available to the Association for such purpose to the Owners (including Declarant with respect to any retained or unsold units), each in accordance with the relative value of his unit or units, but subject to (i) the rights of Mortgagees holding Mortgages encumbering units within the Project, as their interests may appear, and (ii) all unpaid regular and/or special assessments, together with any interest charges attributable thereto. If 75% or more of the Owners do not agree to either rebuild as in (a), above, or not to rebuild as in (b), above, then the Owners shall be deemed to have agreed not to rebuild and (b), above, shall be carried out. For purposed of this Section J.4, "relative value" shall mean the fair market value of each unit as of the date of the damage or destruction, determined by an independent appraisal made by , or such other appraisal firm as may be agreed upon by a majority of Members of the Association. WK9.1 -18- 5. Reconstruction. If repair, reconstruction and restoration are to take place in accordance with the provisions hereof, the Board shall (i) enter into a written contract with a contractor licensed in California and submitting the lowest reasonable bid for such repair, reconstruction and restoration; (ii) disburse insurance proceeds available for said work and funds collected by reason of special assessments authorized there- for in appropriate progress payments; and (iii) take all steps necessary to ensure the commencement and completion of such repair, reconstruction and restoration in a lawful, workmanlike manner at the earliest possible date. 6. Certificate of Intention. After any vote of the Owners, as provided in this Section J., with respect to whether to repair and restore or not to repair and restore all or any portion of the Common Area, the Board shall, within thirty (30) days after such vote, cause to be executed, acknowledged and recorded in the Office of the County Recorder for the County of Santa Clara, State of California, a certificate setting forth the intention to repair and restore the Common Area or not to repair and restore the Common Area. Immediately upon the recordation of such a certificate setting forth the intention of the Owners not to repair and restore the damaged portions of the Common Area, the right of partition suspended by Section K shall be revived. 7. Revision of Documents. In the event it is the determination and vote of Owners, as provided herein, not to repair, reconstruct or restore any damaged portion of the Common Area, the Board shall, as soon as practicable after the recordation of the certificate of intention described in Section J.6, cause to be prepared, filed and/or recorded any revised subdivision map, planned development plan or other documents, reports, schedules or exhibits necessary to show the change or altered status of the Project, including, without limitation, the elimination of one or more of the units, as a result of such damage. The cost (including attorneys' fees) of the prepara- tion, filing and/or recordation of any document, map, report, schedule or exhibit referred to herein shall be specially assessed to the Owners in accordance with their Percentage Interest. K. PARTITION. 1. Except as provided in California Civil Code, Section 1354, there shall be no judicial partition of the WK9.1 -19- Common Areas, nor shall Declarant or any person acquiring any interest in the Project, or any part thereof, seek any judicial partition thereof, provided, however, that if any dwelling unit shall be owned by two or more Owners as tenants in common or as joint tenants, nothing herein contained shall be deemed to prevent a judicial partition as between such Owners. 2. The Association, acting through its Board, is hereby granted an irrevocable power of attorney to sell the entire Project for the benefit of all the Owners when parti- tion of the Project may be had under California Civil Code, Section 1354, which power of attorney shall (i) be binding on all Owners; (ii) be exercisable only after recordation by the duly authorized officers of the Association of a certificate setting forth compliance with the foregoing conditions, which certificate shall be conclusive evidence thereof in favor of any person relying thereon in good faith. L. CONDEMNATION. In the event the Project or any portion thereof shall be taken or condemned by any authority under the power of eminent domain, all compensation and damages relating to the land or improvements shall be payable to the Association as trustee for all unit Owners according to the relative value of their respective interests, as they may appear. For purposes of this Section L, "relative value" shall mean the fair market value of each unit, determined by an independent appraisal, as of the date of the condemnation, but subject to (i) the rights of Mortgagees holding Mortgages encumbering units within the Project, as their interests may appear, and (ii) all unpaid regular and/or special assessments together with any interest charges attributable thereto. Such inde- pendent appraisal shall be made by , or such other appraisal firm as may be agreed upon by a majority of Members of the Association. The Association shall give prompt written notice of condemnation proceedings to all first Mortgagees of units. M. AMENDMENT. This Declaration may be amended by the written approval of both at least seventy-five percent (75%) of the total voting power of the Association and at least a majority of the votes of Members other than the Declarant. Any such amendment shall become effective upon recordation in the Office of the Santa Clara County Recorder of a written instrument setting forth such amendment and signed and acknowledged by a majority of the Board, who shall certify in said instrument that at least seventy-five percent (75%) of the total voting power of the Association and at least a majority of the votes of Members other than the Declarant WK9.1 -20- have given their written approval of such amendment; provided, however, that no amendment which materially affects the ownership, possession or use of an Owner, either directly or as a Member of the Association, shall be valid unless the prior written consent of the California Real Estate Commissioner is obtained, to the extent that such consent is required under Section 11018.7 of the California Business and Professions Code; provided, further, that no material amend- ment shall become effective unless written approval of such amendment is obtained from at least seventy-five percent (75%) of all first Mortgagees of units within the Project. For purposes of this Section M, the term "material amendment" shall mean amendments to provisions of this Declaration governing the following subjects: a. The Percentage Interest of the unit Owners in the Common Areas. b. The fundamental purpose for which the Project was created (such as a change from residential use to a different use). C. Voting. d. Assessments, assessment liens, and subordinations thereof. e. Reserves for repair and replacement of Common Areas. f. Property maintenance obligations. g. Casualty and liability insurance. h. Reconstruction in the event of damage or destruction. i. Rights to use the Common Areas. J. Annexation. k. Any of the provisions of Section P.13. N. TERM OF RESTRICTIONS. This Declaration shall remain in full force and effect for a period of forty (40) years from the date hereof. Thereafter, it shall be deemed to have been renewed for successive terms of ten (10) years each unless revoked or amended by an instrument in writing, executed and acknowl- edged by the Owners of a majority of the units within the Project, which instrument shall be recorded in the office of the County Recorder of Santa Clara County, California, within WK9.1 -21- 114V,000 ninety (90) days prior to the expiration of the initial effective period hereof or any ten (10) year extension. 0. NOTICES. Any notice required to be sent to any Member of the Association under the provisions of this Declaration shall be deemed to have been received when mailed with proper postage prepaid to the last known address of the person who appears as a Member on the records of the Association at the time of such mailing. P. MISCELLANEOUS. 1. Enforcement of Restrictions. After the date on which this Declaration has been recorded, these covenants, conditions, servitudes, rights, reservations, limitations, liens, charges and restrictions may be enforced by the Association through the assertion of any and all available legal and/or equitable remedies, including, but not limited to, injunction, declaratory relief and action to abate a nuisance. The Association shall, in addition, have the right and duty to expend assessment funds in pursuance thereof. Any one of more unit Owners shall also have the right and duty of enforcement except that no Owner shall have the right to enforce any assessment, lien or charge created herein independently of the Association. Failure to enforce any provision hereof shall not constitute a waiver of the right to enforce said provisions or any other provision hereof. 2. Mortgage Protection. No breach of this Declaration shall defeat or render invalid the lien of any first Mortgage or first Deed of Trust made in good faith and for value. However, each and all of the provisions hereof shall be binding upon and effective against any Owner whose title thereto is acquired by and through trustee's sale or foreclosure, except that said person who acquires title in such manner shall take title to said unit free of the lien hereof for all assess- ments that have accrued up to the time of trustee's sale or foreclosure of a first Mortgage or first Deed of trust, but subject to the lien hereof for all said charges that shall accrue subsequent thereto. The breach of any of the provi- sions hereof may be enjoined, abated, or reviewed by appro- priate proceedings notwithstanding the lien or existence of any such Mortgage or Deed of Trust. WK9.1 -22- 3. Interpretation. The provisions of this Declaration shall be liber- ally construed to effectuate its purposes of creating a general plan for the development and operation of the Project. 4. Severability. The provisions hereof shall be deemed independent and severable, and the invalidity or partial invalidity or unenforceability of any one provision or portion hereof shall not affect the validity or enforceability of any other provisions hereof. S. Easement of Encroachments. A valid easement for encroachment and for the maintenance of any portion of the common Areas which encroaches upon a unit or units shall and does exist for so long as such encroachment stands. In the event a multifamily structure is partially or totally destroyed and then rebuilt, the Owners of units agree that minor encroachments of parts of the Common Areas due to construction shall be permitted, and that valid easements for such encroachments and the maintenance thereof shall exist. Common Areas shall always be subject to easements for the minor encroachments thereon of a unit, and a nonexclusive easement for ingress, egress and support through Common Areas is appurtenant to each unit. There is reserved to the Association, its agents and contractors an easement in gross over the Common Areas for the perfor- mance generally of its rights and duties as provided in this Declaration. 6. Power of Attorney. To the extent necessary to carry out and enforce the provisions of this Declaration, an irrevocable power of attorney coupled with an interest is granted to the Associa- tion by the Owners; provided, however, that this section shall not affect, limit or abridge, in any way, the rights reserved by Declarant in this Declaration. 7. Limitation of Liability. Neither the Declarant (nor its agents or employees) the Association, the Board (nor any member thereof), nor any officers of the Association shall be liable for any failure to provide any service or perform any duty, function or responsibility designated or provided in this Declaration or the Bylaws to be performed by the same, or for injury and/or damage to persons or property caused by fire, explosion, the elements or by another Owner or person in the Project or WK9.1 -23- resulting from electricity, water, rain, dust or sand which may leak or flow from outside any unit or from any pipes, drains, conduits, appliances or equipment, or from any other place or cause unless caused by the willful misconduct of Declarant, the Association, its Board or officers and except to the extent such liability, damage or injury is covered by any type of insurance. S. Indemnification. The Association shall and does hereby indemnify the Board (and each member thereof) and the officers of the Association (and each of them) against all expenses and liabilities, including attorneys' fees reasonably incurred by such person or person in connection with any proceeding to which he may be a party by reason of his being or having been a Board member or officer of the Association, except in (i) such cases where he has committed a willful misfeasance or malfeasance in the performance of his duties; and (ii) to the extent any such liability is covered by any type of insurance. 9. Transfer of Control. Declarant shall transfer control of the Common Areas to the Association at the time of the close of escrow for the sale of the first unit in the Project. 10. Waiver of Homestead Exemption. Each unit Owner does hereby waive to the fullest extent permitted by law (with respect only to assessment liens created pursuant to this Declaration) the benefit of any homestead or exemption or redemption laws of the State of California in effect at the time any payment of any assess- ment, whether regular or special, becomes delinquent as herein provided, and such Owner shall be deemed to be estopped to raise said homestead or other exemption or redemption in any action or proceeding to enforce or fore- close such assessment liens. 11. Completion Bond. In the event that the Project is not completed prior to the issuance of a final Public Report by the Cali- fornia Department of Real Estate, and the Association is obligee under a bond or other arrangement (hereinafter "bond") to secure performance of the commitment of the Subdivider to complete the improvements, the following provisions shall apply with respect to the Association's initiating action to enforce the obligations of the Sub- divider and the surety under the bond: WK9.1 -24- Mfr', U (a) The Board of the Association shall consider and vote on the question of action by the Association to enforce the obligations under the bond with respect to any improvements for which a notice of completion has not been filed within 60 days after the completion date specified for that improvement in the planned construction statement appended to the bond. If the Association has given an extension in writing for the completion of any Common Area improvement, the Board shall be directed to consider and vote on the aforesaid question if a notice of completion has not been filed within 30 days after the expiration of the exten- sion. (b) A special meeting of Members for the purpose of voting to override a decision by the Board not to initiate action to enforce the obligations under the bond or on the failure of the Board to consider and vote on the question shall be held not less than thirty-five (35) days or more than forty-five (45) days after receipt by the Board of a petition for such a meeting signed by Members representing at least ten percent (10%) of the total voting power of the Association. (c) The bond shall be enforced against the Subdivider and/or the surety upon the affirmative vote of a majority of Members of the Association, excluding the Sub- divider, at the special meeting called for the purpose set forth in (b) above. (d) A vote of the majority of the voting power of the Association residing in Members, other than the Subdivider, to take action to enforce the obligations under the bond shall be deemed to be the decision of the Association, and the Board shall thereafter implement this decision by initiating and pursuing appropriate action in the name of the Association. 12. Architectural Control (a) A committee for the control of structural and landscaping architecture and design within the Project ("Architectural Control Committee"), shall be established, consisting of three persons. Declarant may, at its sole option, appoint all of the original committee persons to the Architectural Control Committee and all replacements until the first anniversary of the original issuance of the Final Public Report for the Project. Thereafter, the Board shall have the right to appoint at least one committee person, but Declarant may, at its sole option, appoint a majority of said committee persons until (i) ninety percent (90%) of the units have been sold, or (ii) until the fifth anniversary of the organized issuance of the Final Public Report, whichever occurs first. Thereafter, the Board shall appoint all of WK9.1 -25- o01-... .__... said committee persons. Architectural Control Committee persons appointed by the Board shall be Members of the Association, but those appointed by Declarant need not be Members of the Association. (b) No additions, alterations, repairs or restorations to the exterior or structural portions of any unit nor changes in or additions of fences, hedges, patio covers, carports, garages, awnings or walls or other structures within a unit shall be commenced, erected or maintained by any person, other than the Declarant (through its officers, agents, or employees), until plans and specifi- cations showing the nature, kind, shape, height, materials, color, location and approximate cost of the same shall have been submitted to and approved in writing by the Architectural Control Committee as to conformity and harmony of external color, design, and location with existing structures in the Project. If the Architectural Control Committee fails to approve or disapprove such design and locations within thirty days after said plans and specifications have been submitted to it and no suit relating to or arising out of the making of such alterations or changes has been commenced prior to one hundred eighty days after the completion thereof, such approval will not be required, and this paragraph will be deemed to have been fully complied with. 13. Mortgagees. (a) If any Owner defaults in the performance of any obligation under this Declaration (including nonpay- ment of assessments) or the Bylaws, and such default is not cured within 30 days, the first Mortgagee of such Owner's unit shall be so notified in writing by the Association. (b) Notwithstanding any provision in this Declaration or the Bylaws which may be to the contrary, and in addition to all other approvals and consents required to be obtained from Mortgagees, unless the prior written approval of seventy-five percent (75%) or more of the first Mortgagees of units (based on one vote for each first Mortgage held) is obtained, the Association shall not be entitled to: (1) Change the prorata interest or obligations (including the Assessment Share, Proportionate Share and Percentage Interest) of any unit for (i) purposes of levying assessments or charges or allocating distributions of insurance proceeds or condemnation awards, and (ii) determining each unit's prorata ownership of the undivided interest in the Common Areas; WK9.1 (2) Partition or subdivide any units; -26- (3) By act or omission, seek to abandon, partition, subdivide, encumber, sell or transfer the Common Areas. The granting of easements for public utilities or for other public purposes consistent with the intended use of the Common Areas by the Project shall not be deemed a transfer within the meaning of this clause; or (4) Use insurance proceeds for losses of any property (whether to units or to Common Areas) for other than the repair, replacement or reconstruction of such improvements, except as otherwise provided in this Declara- tion or by statute in case of substantial loss to the units and/or Common Areas. (c) Upon request, first Mortgagees of units shall have the right to (i) examine the books and records of the Association at reasonable times and after reasonable notice; (ii) receive an annual audited financial statement of the Association within 90 days following the end of any fiscal year if the Association actually prepares such audited financial statements in the ordinary course of its business; and (iii) receive written notice of all meetings of the Association and have the right to designate a representative to attend all such meetings. (d) All taxes, assessments and charges which may become liens prior to the first Mortgage under local laws shall relate only to the individual units and not the Project as a whole. (e) Notwithstanding any provisions of this Declaration or the Bylaws which may be to the contrary, Owners shall not have any priority over the rights of the first Mortgagees of the units pursuant to their Mortgages in the case of a distribution of insurance proceeds for losses to the units or the Common Area. (f) The Association shall give written notice to all first Mortgagees of units of any loss to, or taking of, the Common Areas which exceeds $10,000.00 or any damage to a specified mortgaged unit which exceeds $1,000.00. IN WITNESS WHEREOF, the undersigned, being the Declarant herein, has executed this instrument this day of 1987. WHITE EAGLE DEVELOPMENT CORPORATION, Declarant By. WK9.1 -27- STATE OF CALIFORNIA ss. COUNTY OF SANTA CLARA On , 1987, before me, the undersigned, a Notary Publ c in and for said County and State, personally appeared , known to me (or proved to me on the basis of satisfactory evidence) to be the of White Eagle Development Corporation, the corporation that executed the within Instrument, and known to me to be the person who executed the within Instrument on behalf of said corporation, and acknowledged to me that said corporation executed the within Instrument pursuant to its Bylaws or a Resolution of its Board of Directors. WITNESS my hand and official seal. Notary Public in and for said County and State WK9.1 -28- �IIIIIIIIII 1110111 1011101111111 oil BARRIE D. CiVATE Horticultural Consultant 408-353-1,052 19700 Alma Bridge Rd., Los Gatos, CA 95030 0 IT 7' rI T1 !Ya 7: BWG, DEPARNENT' 0TY OF C11PIN SUGGESTIONS FOR TREE PRESERVATION AT THE SITE OF THE WHITE EAGLE SUBDIVISION CUPERTINO, CALIFORNIA Prepared at the Request of: Mr. William Kinst Kinst & Kinst 10051 Pasadena Avenue, Suite H Cupertino, California 9501.4 November 10, 1986 AMEAICAN SOCIETY OF INTERNATIONAL CONSULTING ARBORIST ISAINTERNATIONAL OF ARBORICULTURE SUGGESTIONS FOR TREE PRESERVATION AT THE SITE OF THE WHITE EAGLE. SUBDIVISION In summary, most of the trees on the property are Black Walnuts of very little value. Exceptions are a 20" diameter (at 4-1/2') Qutrcus lobatg - Valley Oak (tree #l), a .lualans njara - Black Walnut (tree #6), and a Sequoia semnerviren: - Coast Redwood of marginal value. Tree #1, a 20" diameter Valley Oak is planned to be in a planter island of adequate size to maintain the tree in good health. To assure that, the following steps should be taken: 1. A triple layer of snow fencing should be wrapped around the trunk from ground level to 8' in height to prevent trunk damage during destruction of the existing house and roadway construction. 2. After the existing house is destroyed, a barrier should be constructed at the drip line of the tree to prevent contractor activity beneath the canopy. Where this barrier would conflict with driveway paving, the fence should be located 2 feet closer to the tree than curb lines. This barrier could be of 6' tall chain link or welded wire mesh, mounted on 8' Long, 2" diameter GI posts. It should be installed before any equipment is on site and maintained until paving is complete. 3. A bubbler -nozzle irrigation line should be installed at the drip line, supply lines to originate outside the drip line. 4. The soil surface beneath the tree canopy should be covered with pea gravel. to a minimum 3" of depth, to provide surface insulation. Surfaces beyond its drip line could be planted with any drought - tolerant plant (a list is enclosed). 5. No grade changes should be allowed within the planter bed. The tree should be thinned, and dead wood removed, but excessive thinning which breaks through the canopy or leaves "lion's tails" should not be allowed: Trees #6 and 7 are Black Walnuts and a Redwood tree respectively. As long as,protective fences prevent equipment activity,beneath of -their canopies, these species should survive very well. Coast Redwood tree badly needs one monthly deep watering with a soaker hose and a spring application of fertilizer to bring it back. Respectfully submitted, 9 GAN '✓l� � i�'J / �, � �f� c rn: Barrie D. Coate F, losures l/ F ,r, <✓NUJ' a�, fr;, ;E�,t„,,, i” ,,, ,,. PLANTS Woody Groundcovers FOR USE UNDER OLD OAK TREES Arctostaphylos 'Emerald Carpet' - Manzanita Arctostaphylos 'Point Reyes' - Manzanita Ceanothus gloriosus porrectus Coprosma kirkii Coprosma pumila 'Verde Vista' Cotoneaster congesta 'Likiang' Cotoneaster horizontalis - Rock Cotoneaster Cotoneaster 'Lowfast' Cotoneaster microphyllus - Rockspray Cotoneaster Mahonia aquifolium compacta - Compact Oregon Grape Mahonia repens - Creeping mahonia Ribes viburnifolium - Catalina fragrance Sollya heterophylla - Australian Bluebell Creeper Shrubs Abelia grandiflora - Glossy Abelia Agapanthus africanus. Agapanthus orientalis. - Lily -of -the -Nile Arctostaphylos hookers 'Wayside' Arctostaphylos densif lora 'Howard McMinn' Correa 'Ivory Bells' -Hybrid Australian Fuchsia Cotoneaster conspicuus decora - Necklace Cotoneaster Cotoneaster lactea - Red Clusterberry Feijoa sellowiana - Pineapple Guava Leptospermum laevigatum - Australian Tea Tree Mahonia pinnata - California Holly Grape Plumbago auriculata (P. capensis) - Cape Plumbago Prunus ilicifolia - Holly -Leaf Cherry Prunus lusitanica - Portugal Laurel Rhamnus cal ifornica 'Eve Case' - Coffeeberry Ribes sanguineum - Flowering Currant Ruscus hypoglossum - Butcher's Broom Ochna serrulata - Bird's -Eye Bush Polystichum munitum - Western Sword Fern _ Viburnum suspensum - Sandankwa Viburnum Viburnum tinus - Laurestimus Herbaceous Low Plants Amaryllis belladonna - Naked Lady Artemesia pycnocephela - Artemesia Artemisia schmidtiana 'Silver Mound' Aurinia saxatilis - Perennial Alyssum Centranthus ruber - Jupiter's Beard Mimulus aurantiacus - Monkey Flowers Narcissus - Daffodil Penstemon heterophyllus purdyi - Blue Bedd Thymus praecox arcticus - Mother -of -Thyme` Zauschneria sp. - California Fuchsia Clumping Plants Heuchera species - Coral Bells Iris Hybrids - Native Iris Sisyrichium bellum - Blue -Eyed Grass e r SUPPLIED BY COURTESY OF: BAFJU D. COATS Horocokwd CANGWM.e Cwwuk . Is dw L &a" Am*Awd jk Coomm »foo Air Or14 RL. V. Gw.. G mn A VP BARRIE D. COATE ire"Wal CAMMiS" .00_MJ-_>cu PLANTING UNDER OLD OAKS by Barrie D. Coate IV= A w► lnrw U. Lm G. . G aow There is a typical sequence of events which takes place during the development of oak woodland prop- erty, whether for use as homesites, shopping centers or industrial buildings. The owner is usually attracted to the site i i the first place by patriarch oaks, con- dominium complexes even being named for these ancient residents. Most activity in the proximity of these old trees is severely harmful to them. The first insult to them occurs when heavy earth -moving equip- ment is used near them, often breaking bark and frac- turing secondary roots which are near the surface. This equipment may be used to severely change grades, either piling soil over the root system and crown or making deep vertical cuts which sever major secondary roots. This same equipment, when parked under the tree's canopy, creates soil compaction, drips oil and gasoline, killing many sensitive absorbing roots that are near the surface. Frequently, the final drastic change in the environ- ment of these patriarchs is the installation of lawn or other groundcover which requires frequent summer watering. Even groundcovers like Ivy or Hypericum calycinum are injurious since their voracious root systems extract water and nutrients from the same soil plane that the oaks do. Mountain Iris leis douglasiane Courtesy of U.C., Santa Cruz These trees have adapted in youth and middle age to a summer-dry/winter-rain climate. Their roots have an adequate oxygen supply, access to winter rain and a thin cover of slowly decomposing leaves or annual grasses. The changes we make usually shut off most oxygen and rain access (paving), compress the soil so that absorbing roots cannot operate (engineered fill) or apply copious amounts of water during a time of year when root fungi are the primary beneficiaries. By contrast, many of our native oak species raised in nursery conditions adapt very well to common garden conditions, even making good lawn trees. Young, vigorous and already established specimens can also adapt to garden conditions and develop a tolerance to summer irrgation that their elders do not exhibit. Watering under an old oak tree sufficiently to keep a groundcover of bluegrass, ivy, or vinca in good con- dition means almost certain death for the oak. The average length of time required to kill an old live oak by such treatment is fifteen years. Valley oaks can sometimes tolerate watering a few years longer before declining severely. Of course if the homeowner is to be convinced of the need to change to a groundcover that is less deadly to his old oaks, he can be offered attractive alter- natives. A satisfactory groundcover under oaks must tolerate light shade and drought and have a fairly shallow root system. Most of the species suggested here should be able to be maintained by a drip -irrigation system supplying a fairly thorough watering twice a summer after they are established. After two or three years, many of them can survive without any summer water at all. Low Native Plants Artemisia species. The silvery foliage of artemisias makes them useful plantsin combination with other foliage colors. Artemisia pycnocephala is a Califor- nia native that can become rather shaggy with age; but with pruning after blooming, it can be kept present- able looking for two to three years, after which it can be replaced. Dudleya species. This group of succulents includes plants native to our coastal bluffs south to Mexico and includes forms from green to bright grey. All of them look better in filtered sun than they do in hot sun, and October 198* 44 -op% FREMONTIA< they should be used in masses b%—Woolse of the com- paratively small individual size of single plants. They may be damaged at 22°F. but not killed. Heuchera species and hybrids. Coral bells. These perennials make compact two to four feet broad mounds of evergreen rounded leaves from two to four inches in diameter. The flowers are borne on upright, wiry stems or two to three feet high. They are spotted with either carmine or pink, crimson or white flowers from April through the summer. Though they tolerate much water, they will also survive very well with very little water. The clumps can be divided every three or four years. An occasional spraying for mealybug may be necessary. Iris douglasiana and hybrids. Clumps twelve to eigh- teen inches tall, one to two inch broad, green leaves are typical of most of the native Iris hybrids. Their flowers can be white, cream, yellow, lavender, blue or reddish purple and one and a half to three inches in diameter. They stand on stems eighteen inches to two feet tall, usually with two or three flowers on a stem. The clumps can be divided in October for replanting every three or four years. Mimulus aurantiacus and hybrids. Monkey flowers. These are California natives that are well adapted to partial shade. They are perennial woody plants one to two feet in height and spreading to four -foot clumps. The flowers that are borne most of the summer can be any color from burnt orange to off-white, pink, or yellow. They lend a woodsy look to an oak landscape, but in that site are not as fully foliaged as they may be in the sun. If they are cut to three inches tall every February, they will be acceptable in appearance and bloom heavily most of the summer. Other species valuable in the garden are: . Polystichum munitum. Western sword fern. The evergreen arching fronds of this native fern are typical- ly seen in the redwood forest. It adapts well to use under oak trees where the two -to -three-foot leathery leaves form an excellent background for native Iris. Sisyrinchium bellum. Blue-eyed grass. This Califor- nia native looks like a miniature iris and is as easily divided and multiplied. It can give a woodsy look under an oak tree but is best used in masses with other species of more massive texture. Blue-eyed grass has one-half inch wide, four to six inches long iris -like leaves and one-half inch diameter blue flowers. Vancouveria species.is a genus of woodland residents of California, Oregon and Washington. All of them form clumps of doubly ternate foliage twelve to eigh- teen inches high. The most commonly seen species is V. chrysantha, from Oregon. Its evergreen foliage may turn bronze color during the winter which serves as a beautiful background for numerous small yellow flowers in March. Looking right at home with boulders or logs, where its roots can remain moist, Vancouveria Sticky Monkey Flower Diplacus aurantiacus Courtesy of U.C., Santa Cruz survives very well with monthly deep watering as long as a heavy mulch is maintained. Native Shrub Species Arctostaphylos edmundsii 'Carmel Sur'. Sur Man- zanita. This low -growing groundcover which can reach three to four inches by four to five feet across is tolerant of partial shade, and its dark green, fully - foliaged habit makes it an attractive plant in any site. The fact that it bears few flowers does not detract from its other sturdy qualities. Arctostaphylos hookeri `Monterey Carpet'. This form of the Monterey manzanita grows to one and one-half feet tali with old age but is usually lower and compact and spotted with white flowers during the spring. Its dark green foliage and compact habit make it an attractive groundcover. Mahonia aquifolium compacta. Compact Oregon grape. This is a mahonia that creeps by underground stolens. and makes a full mass of bright green foliage several inches tall or clumps to eighteen inches tall. Any woody stems that protrude above the mass can be cut off to keep the planting compact and neat. Flowers are in two to three-inch clusters from March through May followed by black berries in the summer. Mahonia repens. Creeping mahonia is a native of northern California. It creeps by underground stems and produces one to two -foot tall dull bluish green compound leaves. The yellow racemes of flowers appear from April to June. Ribes viburnifolium. Catalina fragrance. This California native plant produces arching branches to three or four feet long e,-11 year with one and one- half inch round dark gree �ves scattered along them. It produces a woodsy semi -open appearance unless provided with a thick mulch. It should be sheared each spring to keep it dense and fully foliaged. Tiny red- dish flowers are lost in the somewhat fragrant foliage. Its habit allows oak leaves -to fall through it to the ground. Symphoricarpos mollis. Prostrate snowberry. This is one of the California natives that would naturally occur under our live oaks, forming runners of small foliage scattered along the ground under the oaks. It is used to enhance a woodsy appearance. This species of snowberry seldom has fruit. Arctostaphylos densiJtora `Howard McMinn'. This old standby of the California native landscape shrubs is the toughest of the available forms. Three feet tall with a six feet spread, it will produce a dependable dis- play of white flowers every February and March. Most manzanitas will not bloom as heavily in partial shade as in highlight intensity. The small olive-green leaves fully cover this always -attractive shrub. Any shagginess that occurs can be corrected by pruning in spring. Arctostaphylos hooker `Wayside'. This is another form of the Monterey manzanita. It can reach two and one-half to three feet tall by four to six feet in diameter. The slightly toothed olive-green one inch leaves on the neat, fully -foliaged plant make it worth- while for gardens. March brings a cluster of small white bells at the end of each twig followed later in the summer by reddish -brown fruit. Given decent drainage and a little water to become established, it will survive for many years in partial shade. Hetervmeles arbutifolia. Toyon. Another Califor- nia native that is at its best in partial shade. Three- inch long green foliage and upright habit of growth accompanied in the fall by large terminal clusters of red berries give this plant adequate character to be used in many garden's, although it is too large to put directly in the foreground. Toyon adapts to pruning very well. Even old plants can be cut to heavy wood and still stump sprout vigorously. Rhamnus cah ornlca'Eve Case. California coffee - berry. This plant is at its best in filtered shade where its two inch dull green leaves and full rounded habit show to its best advantage. It can become six feet tall by eight to ten feet in diameter, so it is most ap- propriate as a background plant; but the white flowers in the spring followed by red then purple berries pro- vide some color on the coffeeberry most of the year. Rosa Symnocarpa. Woodrose. This spiny mound of arching branches reaching two to three feet in height is lightly covered with smaU, light green leaves. Its two- inch single light pink flowers appear during most of the summer, Symphoricarpos rivularis. Snowberry. A four by six foot mound of demi-open deciduous branches which are partially r, xed by small round leaves all sum- mer. This is one of the principal species seen in the wild under our live oaks and provides an excellent woodsy background. The arching branches, termi- nated by bunches of half-inch pure white berries (until the birds devour them) are an additional reason to use this plant. Non -Natives Of course there are also many non-native plants that can be recommended for planting under our Califor- nia oaks, many of them plants from other Mediterra- nean climates. For groundcovers and low plantings, the list might include Achillea tomentosa, the woolly yarrow, which has mats of fern -like deep green leaves and golden flower heads; Hemerocallis hybrids, daylilies, which tolerate intense heat and also perform well in partial shade though blooming less; .various Aloe species, which are similarly adaptable; most are frost -tolerant to 22°F.; one species or another will be in bloom from February to September; for a flat groundcover Rubus calycinas, with attractive tough - textured leaves; and various species of hardy Cycla- men — C. neapolitanum, C. africanum, C. coum, etc., which make low mats of marbled leaves and rose- colored flowers. And one should not forget the epimediums, barberry family cousins of our native Vancouveria. There are many Epimedium species, but you have to look for them at specialty nurseries. Shrubs One could make quite a long list of shrubs that qualify, but among the readily available in the nursery trade are Choisya ternata, Mexican orange, which grows about six feet tall and has fragrant white flowers; Daphne odora, winter daphne, from China, has intensely fragrant flowers, needs good drainage. Nandina domestica, heavenly bamboo, is not a bam- boo at all but somewhat similar in garden use and appearance; it needs watering to become established but later becomes quite drought tolerant. Its fall color will be less pronounced in partial shade. Ochna serrulata, bird's-eye bush, four to eight feet tall, has leathery leaves, yellow flowers, red sepals, and shiny black fruit. Sometimes slow to get started, ochna will live for many years. Sollya heterophylla, Australian bluebell creeper, is a shrubby vine one and a half to three feet tall, is at its best where it can spill over a wall. It bears brilliant blue flowers most of the summer. It must have good drainage. P' `NTS FOR USE UNDER OLD OAK 'r" EES 1 �,0011 Woody Groundcovers Arctostaphylos 'Emerald Carpet' - Manzanita Arctostaphylos 'Point Reyes' - Manzanita Ceanothus gloriosus porrectus Coprosma kirkii Coprosma pumila 'Verde Vista' Cotoneaster congesta 'Likiang' Cotoneaster horizontalis - Rock Cotoneaster Cotoneaster 'Lowfast' Cotoneaster microphyllus - Rockspray Cotoneaster Mahonia aquifolium comoacta - Compact Oregon Grape Mahonia repens - Creeping mahonia Ribes viburnifoliLun - Catalina fragrance Sollya heterophylla - Australian Bluebell Creeper Shrubs Ab.elia grandiflora - Glossy Abelia Agaoanthus afr-icanus. Agapanthus oriental is - Lily -of -the-Nile Arctostaphylos hookeri 'Wayside' Arctostaphylos densiflora 'Howard McMinn' Correa 'Ivory Bells' - Hybrid Australian Fuchsia Cotoneaster conspicuus decora - Necklace Cotoneaster Cotoneaster 'lactea - Red Clusterberry Feijoa sellowiana - Pineapple Guava Leptospermum laevigatum - Australian Tea Tree Mahonia pinnata - California Holly Grape Plumbago auriculata (P. caoensis) - Cape Plumbago Prunus ilicifolia - Holly -Leaf Cherry Prunus lusitanica - Portugal Laurel Rhamnus californica 'Eve Case' - Coffeeberry Ribes sanguineum - Flowering Currant Ruscus hypogiossum - Butcher's Broom Ochna serrulata - Bird's -Eye Bush Polystichum munitum - Western Sword Fern Viburnum suspensum - Sandankwa Viburnum Viburnum tinus - Laurestimus Herbaceous Low Plants Amaryllis belladonna - Naked Lady Artemesia pycnocephela - Artemesia Artemisia schmidtiana 'Silver Mound' Aurinia saxatilis - Perennial Alyssum Centranthus ruber - Jupiter's Beard Mimulus aurantiacus - Monkey Flowers Narcissus - Daffodil Penstemon heterophyllus purdyi - Blue Bedder Thymus praecox arcticus —Mother-of-ThymE I Zauschneria sp. - California Fuchsia Clumping Plants Heuchera species - Coral Bells Iris Hybrids - Native Iris Sisyrichium bellum - Blue -Eyed Grass SUPPLIED BY COURTESY OF: BARRIE D. COATE c. ok" .orrs3-wu 1101 cmnwl� he do Lam...".. * Cmw. 1"" AWA kVwa&la.C+sG9� N EDWARD L. PACK ASSOCIATES .INC. Consulting Engineers 2940 SCOTT BOULEVARD SANTA CLARA, CALIF. 95054 TELEPHONE: (408) 727-8840 November 24, 1986 Project No. 18-16,,_ Mr. William A. Kinst Kinst Architectural Research and Development 10051 Pasadena Avenue, Suite H & (re` , Cupertino, CA 95014 A` 6 � � 9 ��.'�EPAR,J'CILfi Subject: Traffic Noise Assessment Study for the Planned White Eagle Subdivision, South Foothill Boulevard Cupertino Dear Mr-.- Kinst: This report presents the results of a roadway traffic noise assessment study for the planned multi -family residential development, as shown on the revised Tentative Map, Ref. (a). The existing and future noise exposures for the site were evaluated against the standards of the City of Cupertino Noise Element, Ref. (b). As the planned attached duplexes are considered multi -family, the State of California Sound Insulation Standards, Title 24, Part 2, Ref. (c), also apply. The traffic noise levels utilized for this study were acquired from on-site measurements and from future traffic volume predictions. The measurements indicate the primary source of noise is from traffic on So. Foothill Boulevard. Sections I and II of this report contain a summary of the findings an'd recommendations, respectively. Subsequent sections MEMBER: ACOUSTICAL SOCIETY OF AMERICA AUDIO ENGINEERING SOCIETY WMANOWAMMMUMMMUM - 2 - contain the measurement data, calculations and analyses. Attached hereto are Appendices A and B, which include the list of reference material, a description of the standards, definitions of terminology, the acoustical instrumentation used for the field measurements, ventilation requirements and general building shell controls. I. Summary of Findings The noise assessment results shown below include an evaluation of the noise levels against the standards of the Cupertino Noise Element and Title 24 The standards utilize the Community Noise Equivalent Level (CNEL) descriptor. The Noise Element specifies an exterior level of 65 dB CNEL and an interior limit of 45 dB CNEL. The Title 24 standards specify that an acoustical analysis is required when the exterior levels at new multi -family dwellings are exposed to a CNEL of 60 dB, and the interior limit is 45 dB CNEL for living spaces. The Title 24 standards also specify minimum sound insulation ratings for common interior walls, as described in Appendix B. A. Exterior Noise Levels The exterior noise levels were calculated to be 65 dB CNEL at the most impacted units (1 and 10) under existing traffic conditions on So. Foothill Boulevard. For an estimated increase of 50-1000 in the traffic volume over the next 20 years, the noise levels are predicted to increase 2-3 dB. (W - 3 - Thus, the exterior levels at the site are at the limit of the Cupertino Noise Element standards under existing traffic conditions. However, predicted future increases would create a 2-3 dB excess over the standards. Also, the noise levels at the site are over the 60 dB CNEL criterion of the Title 24 standards, therefore, an acoustical analysis is required. This study and report are intended to satisfy that requirement. B. Interior Noise Levels Interior noise levels in the most noise impacted living spaces of dwelling units 1 and 10 will be 50 dB CNEL under existing traffic conditions. This 50 dB interior level will result from windows with single -pane, single -strength glass being closed 500 of the time and open 500 of the time. Future interior noise levels could be 52 to 53 dB CNEL,if So. Foothill Boulevard traffic increases 50-100%. Mitigation measures to resolve the exterior and interior noise level excesses will be required, and are described in Section II. - 4 - II. Recommendations In To achieve acceptable exterior and interior noise levels, the following mitigation measures are recommended: (1) a property line sound barrier; and (2) window controls. In addition, measures affecting the building shell are required and are described in Appendix B. A. Noise Control Barrier The following noise control barrier is recommended to control the noise level excesses for exterior areas for the predicted future traffic volumes. The barrier height is in reference to the nearest buildng pad elevaiton. Construct a minimum 6 ft. high acoustically - effective barrier along the entire easterly property line, except at the opening at the project entrance road. The barrier must extend continuously along the north and south property lines for a distance of 35 ft. Please see Figure 1. An acoustically -effective property line barrier must be made air -tight, i.e., without cracks, gaps or other openings, and should provide for long-term durability. The property line barrier can be constructed of stucco, masonry or wood, and with a minimum surface weight of 1.5 lbs. per sq. ft. An earth berm with wood or masonry on top can also be used. Homogeneous,or sheet materials are preferable to conventional wood fencing because of the tendency of the latter to warp and form openings with age. However, high quality, air -tight, tongue -and -groove, shiplap or other board construction can be used. All joints in the barriers, including connections with - .......,.o. ...,.....�,. _ .. *dllV3 'ONllH3dno - - -- , + C U;T ' 9L0-9 L-Zt, Ndb - NOISIAI P? 3-MV3 311HMuj ddW 3t6j4IN31 a3SIA311 7 s4 r O SA +-1 " f 4-I N i �4�4G�4 Q) �4 •r•I ro H (a Q) r_ s4 CQ mz0 �4 -H H (a Q) -P O 0) O -1 L tl72 b][i -P 4-4 U O O C a pq i,:c i cio[cccc j 7� rI +-1 Q) i l i� 1 j 4' � W G t r S„ �� Q� i -I �'•. i -I Q� Q% N Q) 01Q) to N 4-J rl 4-4 a rl O X Q) 0 O O W � � .4 O s - 1j� I - � 1YYj7ijj��_� b _ OK 6 i c. k 7 1 � I 1 i - 5 - posts, pilasters or buildings must be sealed and no openings are permitted between the barrier and the ground. B. Interior Noise Control To achieve acceptable interior noise levels from exterior sources, the following window control measures are recommended. These measures are required in addition to the recommended barrier. - Maintain windows closed at all times in all first and second floor living spaces of houses located within 107 ft. of the centerline of So. Foothill Boulevard and having a direct or side view of the roadway. These windows are to be installed with glass rated STC 23 or higher. The glass rating can be achieved by one of the following: single -pane of double -strength, or any type of double pane thermal insulating glass. As the planned units will be provided with heat pumps, adequate cooling can be .achieved for the closed window requirement, in accordance with the ventilation requirements of the Uniform Building Code (UBC) and Title 24, as described in Appendix B. The windows that are specified to be maintained closed are to be operable, as the sound control requirement does not imply a "fixed" condition. The window and sliding glass door frames of the impacted units should be of good quality and provide a tight seal to prevent noise infiltration. - 6 - The remaining windows of the development, and all bathroom windows may be fitted with any type of glass and may be kept open as desired. In order to comply with the sound insulation requirements of the Title 24 standards, the common interior partitions separating different dwelling units and dwelling units from garages must have a Sound Transmission Class (STC) rating of 50 or higher. III. Site. Traffic and Prosect Description The planned development site is located directly west of South Foothill Boulevard and south of the intersection with McClelland Road. The site is level and on -grade with South Foothill Boulevard. The noise environment of the site is controlled by traffic sources on South Foothill Boulevard, which carries an Average Daily Traffic (ADT) of approximately 10,000 vehicles. The City of Cupertino reported the latest count in 1981 was 9,260 ADT, Ref. (d). No prediction is available for the long-range future. Upon completion of the project, the site will be occupied by 10 duplex dwellings in 5 buildings. IV. Existing and Future Noise Levels A. Existing Noise Exposures To determine the existing noise environment, continuous recordings of the sound levels were taken at a location 48 ft. from the centerline of South Foothill Boulevard. This location corresponds to the minimum building setback from that roadway. The noise level recordings were made on November 11 and 18, 1986 for a total period of 8 hours, including representative hours in the daytime, evening and nighttime periods. The sound level measurements were recorded and processed by a Gen Rad Company Community Noise Analyzer which yielded a series of descriptors of the sound levels versus time, as described in Appendix B. The results of the recordings are summarized in Table I below. The descriptors shown in the table are the L10, L50 and L90, i.e., those levels exceeded for 10%, 50% and 900 of the time. Also shown are the maximum and minimum levels and the continuous equivalent level (Leq), which is used to cal- culate the CNEL. As shown in the table, the Leq values measured from So. Foothill Boulevard traffic were 55 to 68 dBA in the daytime, 52 to 54 dBA in the evening, and 49 to 52 dBA in the nighttime recording period. - 8 - TABLE I South Foothill Boulevard Traffic Noise Levels At 48 Ft. from the Centerline of the Roadwav -Roadway traffic noise diminishes at the rate of 3-6 dB for each doubling of the distance from the source. Therefore, other locations on the site at greater distances from So.Foothill Blvd. will have lower noise levels. Additional shielding will be provided by interposed buildings of the project. Vehicular noise contains a wide spectrum of frequency components (from 100 to 10,000 Hertz), which is associated with engine, tire, drive -train and other sources. The frequency components are centered primarily in the 250 and 500 Hz octave bands and were used in determining the noise control measures for this study. Sound Levels (dBA) Time Period Lmax L10 L50 L90 Lmin Leq 1:30-2:30 pm (daytime) 85 67 53 42 36 65 2:30-3:30 pm it 94 70 59 52 47 68 3:30-4:30 pm 89 70 61 53 48 68 4:30-5:30 pm 86 70 61 52 46 67 8:30-9:30 pm (evening) 74 59 49 41 37 55 9:30-10:30 pm IN73 59 46 39 36 54 10:30-11:30 pm (nighttime) 69 55 42 39 35 52 11:30 pm -12:30 am IN74 50 40 39 34 49 -Roadway traffic noise diminishes at the rate of 3-6 dB for each doubling of the distance from the source. Therefore, other locations on the site at greater distances from So.Foothill Blvd. will have lower noise levels. Additional shielding will be provided by interposed buildings of the project. Vehicular noise contains a wide spectrum of frequency components (from 100 to 10,000 Hertz), which is associated with engine, tire, drive -train and other sources. The frequency components are centered primarily in the 250 and 500 Hz octave bands and were used in determining the noise control measures for this study. - 9 - B. Future Noise Levels The future noise levels for the site were predicted from traffic volume estimates, as long-range projections of traffic volumes on South Foothill Boulevard were not available from the City of Cupertino. If a future long-term increase of 50-100% in traffic is assumed, a noise level increase of 2-3 dBA will occur over the values shown in Table I above. V. Evaluation of Traffic Noise Levels A. Exterior Noise Levels To evaluate the on-site noise levels against the Cupertino Noise Element and Title 24 standards, the CNEL descriptor was calculated as a decibel average of the Leq values for the daily time periods. Evening and nighttime weighting factors were applied and an adjustment was included to represent average traffic conditions in the daily subperiods using methods developed by the Highway Research Board, Ref. (e). The mathematical formula used to calculate the CNEL is shown in Appendix B. Thus, at the measurement location along South Foothill Boulevard, the CNEL was calculated to be 65 dB for existing traffic conditions. For the long-range future traffic conditions, an estimated noise level of 68 dB CNEL has been used for this study. Therefore, the noise levels at the site will be up to 3 dB in excess of the 65 dB limit of the Cupertino Noise Element standard. - 10 - B. Interior Noise Levels To determine the interior CNEL for an evaluation against the Cupertino Noise Element and Title 24 standards, a 15 dB reduction was applied to the exterior levels to account for the attenuation provided by the building shell under annual average conditions. The annual average condition assumes that windows with single -strength glass are maintained open 500 of the time and closed 50% of the time. Thus, in the most impacted units, the long-range future exterior level of 68 dB CNEL must be reduced by 23 dB, if the interior level is to be limited to 45 dB. As a heat pump system will be used for heating and cooling of interior spaces, windows can be maintained closed at all times. With the recommended STC 23 glazing and maintaining closed windows, the interior levels will be limited to 45 dB CNEL for compliance with the standards. The study findings and recommendations for present conditions are based on field measurements and other data, and are correct to the best of our knowledge. However; the future noise level predictions are based on estimates of future traffic volumes. Significant deviations in traffic volumes from the predictions, or future changes in motor vehicle technology, speed limits, and noise regulations may produce long-range noise results different from our estimates. =a= This report presents the noise assessment study for the residential development along South Foothill Boulevard, Cupertino. If you need additional information or an elabora- tion of this report, please call me. Sincerely, Edward L. Pack, Sc -D., P.E. Acoustical Engineer ELP:m Attachment: Appendix A: References Appendix B: Noise Standards, Terminology, Description of the Instrumentation, Ventilation Requirements and Building Shell Controls APPENDIX A References: ?l f (a) Revised Tentative Map, White Eagle Subdivision- APN 42-16-076, by Nelsen Engineering, Sept. 15, 1986 (b) City of Cupertino Noise Element of the General Plan (c) California Administrative Code, Title 24, Part 2, State Building Code, October 1985 (d) Traffic Volume Data for South Foothill Boulevard, Vickie Guapo of City of Cupertino to Edward L. Pack, November 20, 1986 (e) Highway Research Board, "Highway Noise - A Design Guide for Highway Engineers", Report No. 117, 1971 APPENDIX B Noise Standards, Terminology, Instrumentation, and Ventilation and Building Shell Requirements 1. Noise Standards A. City of Cupertino The Cupertino Noise Element identifies an exterior limit level for residential land use of 65 dB CNEL, and an interior limit of 45 dB CNEL for noise levels in living spaces due to exterior sources. The Cupertino Noise Ordinance imposes a limit of 60 dBA during the daytime (7:00 a.m. to 8:00 p.m.), and 50 dBA during the nighttime (8:00 p.m. to 7:00 a.m.), that may be emitted from any single source. Exceptions include an allowable level of 65 dBA to occur for 15 minutes every two hours during the daytime period only. These limit levels apply to residential land use. B-1 B. Title 24 Noise Standards The California Administrative Code, "Sound Transmission Control", Title 24, Part 2, applies to all new multi -family dwellings including hotels and motels. The standards, which utilize the Community Noise Equivalent Level (CNEL) descriptor, establish an exterior reference or criterion level of 60 dB CNEL, and specify that multi -family buildings to be located within an annual CNEL zone of 60 dB or greater require an acoustical analysis. The analysis report must show that the planned buildings provide adequate attenuation to limit intruding noise from exterior sources to an annual CNEL of 45 dB or less in any habitable space. The Title 24 standards also establish minimum sound insulation requirements for interior partitions separating different dwelling units from each other, and dwelling units from common spaces such as garages, corridors, equipment rooms, etc. The common interior walls and floor -ceiling assemblies must achieve a minimum Sound Transmission Class (STC) rating of 50 for airborne noise. Common floor -ceiling assemblies must achieve an Impact Insulation Class (IIC) rating of 50 for impact noise. These ratings are based on laboratory tested partitions. Field tested partitions must achieve ratings of STC and IIC 45. B-2 "% ' f 2. Terminology A. Statistical Noise Levels Due to the fluctuating character of urban traffic noise, statistical procedures are needed to provide an adequate de- scription of the environment. A series of statistical de- scriptors have been developed which represent the noise levels exceeded a given percentage of the time. These descriptors are obtained by direct readout of the Community Noise Analyzer. Some of the statistical levels used to describe community noise are defined as follows: L10 - The noise level exceeded for 10% of the time, considered to be an "intrusive" level. L50 - The noise level exceeded 500 of the time, representing an "average" sound level. L90 - The noise level exceeded for 900 of the time, designated as a "background" noise level. Leq - The continuous equivalent level is that level of a steady noise having the same energy as a given time -varying noise. The Leq repre- sents the decibel level of the time -average value of sound energy or sound pressure squared. The Leq is the noise descriptor used to cal- culate the CNEL. B-3 B. Community Noise Equivalent Level (CNEL) The CNEL is a measure of the cumulative noise exposure over a 24 hour period. The CNEL index divides the 24 hour day into three subperiods, i.e., the daytime (7:00 a.m. to 7:00 p.m.), the evening (7:00 p.m. to 10:00 p.m.) and the nighttime (10:00 p.m. to 7:00 a.m.), and also applies weighting factors of 5 and 10 dBA to the evening and nighttime periods, respectively, to account for the greater sensitivity of people to noise during those periods. The CNEL values are calculated from the measured Leq values in accordance with the following mathematical formula: CNEL = [(Ld + 10 log10 12) & (Le + 5 + 10 log10 3) & (Ln + 10 + 10 log10 9)] -10 log10 24 where: Ld = Leq for the daytime (7:00 a.m. to 7:00 p.m.) Le = Leq for the evening (7:00 p.m. to 10:00 p.m.) Ln = Leq for the nighttime (10:00 p.m. to 7:00 a.m.) 24 indicates the 24 hour period & --denotes decibel -addition B-4 C. A -Weighted Sound Level The decibel measure of the sound level utilizing the "A" weighting network of a sound level meter is referred to as "dBA". The "A" weighting is the accepted standard weighting system used when noise is measured and recorded for the purpose of determining total noise levels and conducting statistical analyses of the environment so that the output correlates well with the response of the human ear. 3. Instrumentation The on-site field measurement data were acquired by the use of a Gen Rad Company Community Noise Analyzer, which provides a direct readout of the L exceedance statistical levels including the equivalent -energy level (Leq). Input to the analyzer was provided by a microphone extended to a height of 5 ft. above the ground. The "A" weighting network and the "Fast" response setting of the analyzer were used in conformance with the applicable standards. All instrumentation was acousti-- cally calibrated before and after field tests to assure accuracy. B-5 0 4. Ventilation Requirements Ventilation requirements to be applied when windows are maintained closed for noise control are specified in the Uniform Building Code (UBC), 1979 Edition, Section 1205 as follows: "In lieu of required exterior openings for natural ventilation, a mechanical ventilating system may be provided. Such system shall be capable of providing two air changes per hour in all guest rooms, dormitories, habitable rooms, and in public corridors. One-fifth of the air supply shall be taken from the outside". Based on our previous experience, a "summer switch" on the furnace fan is normally considered acceptable as a ventilation system by FHA and other agencies. Air-conditioning is also an acceptable system. M 5. Building Shell Controls The following additional precautionary measures are required to assure the greatest potential for exterior -to - interior noise attenuation by the recommended mitigation measures. These measures apply at those units where closed windows are required: Unshielded entry doors having a direct or side orientation toward the primary noise source must be 1-5/8" or 1-3/4" thick, insulated metal or solid -core wood construction with effective weather seals around the full perimeter. Mail slots should not be used in these doors or in the wall of a living space, as significant noise leakage can occur through them. If any penetrations in the building shell are required for vents, piping, conduit, etc., sound leakage around these penetrations can be -controlled by sealing all cracks and clearance spaces with a non -hardening caulking compound. Fireplaces should be provided with tight -fitting dampers. B-7 I "go"'a, , a la BUILDERS ENERGY SERVICES Title 24 Energy Review All 56,5 Chapman ("I, smff,,l Clara, CA 9�O�O /111,11/1" (408) 984-5398 r �j j CITY OF C1,1' AMMO TITLE 24 DOCUMENTATION F OR WHITE EAGLE SUBDIVISION FEBRUARY 26, 1987 P*ter G. Shutts AIA 5,33 Peters Avenue Pleasanton, CA 94566 87031 -- 87040 BUILDERS ENERGY SERVICES Title 24 Energy Review 565 C hap► -nasi Ct. (408) 984-5398 S,ml,i CA 95050 Budget Summary For White Eagle Subdivision ---------------------------------------------------------------------- Cupertino _OB # LOT # ORIENTATION ALLOWABLE BUDGET PROPOSED ------------------------------------------------------ (,`) -------------- BUDGET 87031 AB 1 180 19.13 87031 180 19.2 87032.AB 2 180 20.3 87032 180 201 2 87033AB 3 -135 19.7 87033 -1.35 19.3 87034AB 4. -135 20.9 87034 -135 19.6 87035AB 5 -90 18.7 87035 -90 18.7 87036AB 6 -90 18.4 87036 -90 17.8 87037AB 7 -4.5 21.0 87037 -45 20.1. 87038AB 3 -45 19.2 87038 -45 19.2 87039AB 9 O 20.7 X 87039 0 20.2 87040AB 10 0 20.2 8704.0 0 19.1. (�1 Allows for R-5.0 duct insulation per Section 2-5351 -_-------------------__------------_--_------------------------------ of the energy regulations. I Thermal R*ouiremonts Diagram For White Eagle Subdivision Cuoertinu, California A 1 l. Exterior Walls R-11 2' Attic Walls R-11 3. 6araq*/Living Walls R-11 &' Slooinq Roots R-19 5. Flat Ceilings R-19 " 6. Slab Perimeter N/A 7' Raised Floors Not Reouired Q, 8erege/Ambient Ceilings R-19 9. Glazing Dual lO. Sunscreens Not Reouired 11' Electrical Gaskets Not Required 12, Duct Insulation R-5'0 Required ^` " R-30 Reauired On Lot 3 in the Flat Ceilings �^ Duct Insulation Not Required On Lots 1. 5 & 6 BUILDERS ENERGY SERVICES Title 24 Energy Review 565 Chapman Ct. (408) 984-5398 Santa Clara, CA 95050 MANDATORY FEATURES AND DEVICES NOTE All new residential buildings constructed to these standards rust contain the following features and devices regardless of the compliance approach used. BUILDING ENVELOPE 1. Minimum oeiling insulation, R-'19 weighted average. 2. Minimum well insulation in fronted wells P-11 weighted average (does not apply to exterior rase wells). 3. Ducts construoted, installed and insulated per Chapter 10 of 1978 UMC. 4. Doors and windows, weather—stripped, certified and labeled. 5. All Joints and penetrations caulked end sealed. 8. All manufactured windows and sliding glass doors shell meet the air infiltration standards of the 1972 ANSI and shall be certified and labeled. 7. Exhaust fens and fan system have damper controls. 8. Mmneonry and factory built fireplecest e, Cloesable metal or glass doors b. Outside air intake with damper c. Flue damper d. Continuous burning gas pilot prohibited 9. Vapor barriers (climate zones 1, 14 and 16 only). SPACE CONDITIONING EDUIPMENT 1. Sizing (attach heating and cooling calculations to plans). 2. Setback thermostat 3. HVAC equipment, indicate on plane and certified by CEC. 4. Duct insulation shall conform to Section 1005 of the UMC. 5. Neei pumps shell be equipped to prevent supplementary heater operation when the heater Load can be wet by the heat pump alone. BUILDERS ENERGY SERVICES Title 24 Energy Review 565 Chapman Ct. Santa Clara, CA 95050 DOMESTIC WATER HEATING SYSTEM 1. Tank insulation has external blanket, " 2 or greeter. (408) 984-5398 2. Hot water inlet and outlet pipe insulated, sxternelly wrapped, with R-3 or greeter (first five feet in unconditioned space). 3. Water heating equipment and energy source must be indicated on plana and certified by CEC. 4. Showerheads and faucets, indicate on plena end certified by CEC. Flow is limited to three gallons per minute. LIGHTING EFFICIENCY 1. Lighting fixtures installed for general lighting in kitchens and bathrooms will have an efficiency of 25 lamins per watt or greeter. Luminaires which are the only lighting in a bathroom, Lighting which In used for specific visual tasks and lighting used for decorative effect are exempt from this requirement (SBC 2-5352 (a)]. GAS COOKING APPLIANCES 1. Appliance must have intermittent ignition device. SWIMMING POOL HEATING 1. On/off switch on heater. 2. Weather --proofed card on heater. 3. Plumbed to allow for soler. 4. Seventy—five percent (75X] thermal efficiency for gee heater. 5. Pool cover, if heated. 6. Time clock on recirculating pump. 7. Directional water inlets. STEAM AND STEAM CONDENSATE RETURN AND RECIRCULATING HOT WATER PIPE INSULATION 1. Pipe insulation is required. BUILDERS ENERGY SERVICES Title 24 Energy Review 565 Chapman Ct. (408) 984-5398 Santa Clara, CA 95050 TITLE 24 NOTES Exterior opanabla windows and sliding glees doors will be weather—stripped, tested, certified and labeled (T20-1495). All manufactured windows and sliding glass doors shell meat the air infiltration standards of the 1972 American National Standards Institute and shell be certified and labeled (T2" 403 (D) (2)). All open jointer penetrations and other openings in the building envelope shall be sealed, caulked, gaaketed or weather—stripped to limit air leakage. All transverse duct, plenum and fitting ,Joints shell be seeled with pressure sensitive tape or meetick to prevent air loam (T20-1404 (D) (1) and Chapter 10 of 1978 UMC). Insulation of ducts shall conform to Section 1005 of the Uniform Mechanical Code (T20-9404 (D) (2)). Setback thermostats will be installed. The,heet pump (if any) &hell be installed with a oontrol to prevent supplementary heater operation when the heater load can be met by the hast pump alone (T20-1405 (D) (3)). Water heater will be equipped with an external blanket, P-12 or greater. Shoxerheadn, lavatory and mink faucets used for other than safety purposes shell be equipped with flax control dovicso totol flow to a maximum of three gallons per minute and certified by CEC (T20-1408 (F)). Steam or condensate return piping, hot water inlet and outlet piping (first five feet in unconditioned space) and recirculating hot water piping in attics, garages, crawl spaces or unheated spaces, other than batwen floors and interior wells, shall be insulated. Normally 0.5" of fiberglass or 3/8" flextube insulation would be required for service hot water pipes and up to 1.5" of calcium silicate or 1" of fiberglass insulation for steam pipes (T20-1408 (D)). Mensonry and factory built fireplaces shell have tight—fitting, closeable metal or glees doors, outside air intake with damper, flue damper. Continuous burning gas pilot prohibited. Lighting fixtures installed for genaral lighting in kitchens and bathrooms will have an efficiency of 25 lumina per watt or greater. Luminaires which are the only lighting in a bathroom, lighting which ie used for specific visual tasks and lighting used for decorative effect are exempt from this requirement (SBC 2-5352 (A)). All gas applicences will be equipped with interwittent ignition devices. Swimming pool heating will have on/off switch on heater, weather—proofed card on heater, plumbed to allow for soler (three feet minimum distance between pump and filter), 75% thermal efficiency for gas heater, pool cover if heated, time clock on recirculating pump, directional water inlets. lrfr Eagle Subdivision Lot ]. Miorooas Analvsis Page 1 < < < MICROPAS2 v2.1 File -87031 Weather-CZ4 Program -SUMMARY > > > Run -87031 Project -LOT 1 PLAN A Date -02/25/87 M I C R 0 P A S 2 v2.1 PC -DOS 8087 - 07/18/86 Calculations BY: BUILDERS ENERGY SERVICES 565 CHAPMAN COURT SANTA CLARA CA 95050 (408) 984-5398 PROJECT DATA Run Title ............................... 87031 Project Title ........................... LOT 1 PLAN A Owner's Name ...................,......... PETER G SHUTTS Site Location ........................... CUPERTINO Building Type ........................... CLUSTER DESIGN DATA Floor area (sqft) ....................... 1638 Glazing area (saft) ....,................, 213.5 Glazing percentage (%) .................. 13% Glazing UA (Btu/hr-F) ................... 13A (23.1%1 Opaque UA (Btu/hr-F) .................... 279 (46.30 Infiltration UA (Btu/hr--F) .............. 184 (30.60) Total UA (Btu/hr-F) ..................... 602 (100%) MECHANICAL. SYSTEMS Heating System .............w............. FURNACE Cooling System ..............,,,,....... AC Ventilation System ...................... NATURAL CLIMATE DATA Weather Data Location ................... SUNNYVALE CA 61 ESOL/RED Average Temperature (F) 57 Minimum Temperature (F) ................. 32 Maximum Temperature (F) ................. 90 Page 2 < ( < MICROPAS2 v2.1 File -87031 Weather-CZ4 Program -SUMMARY > > > Run -87031 Project -LOT 1 PLAN A Date -02/25/87 ------------------- PERFORMANCE SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST fkBtu) (kBtu/hr) (kBtu) (kWh) ($) -------- -------- -------- -------- -------- BUILDING Heating 16000 16.6 22535 0 $0 Cooling --6973 -23.5 872 $0 Venting O $0 Totals 22535 872 $0 ------------------------------------------------------------ ------------------------ ENERGY BUDGET COMPARISON Fuel Cost = $0.000 oer Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu xxx Peak season s) not simulated - Check peak loads ... Energy Budgets valid ---- BUDGETS ---- ------ CONSUMPTION ------ SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (kBtu/sf) ($) ($) ($) BUILDING: 1638 sf of Conditioned Floor Area Heating 22535 13.8 $0 $0 $0 Cooling 8917 5.4 $0 $0 Venting 0 0.0 $0 $0 Totals -------- -------- -------- 31452 19.2 $0 --------- $0 -------- $0 ($0.00/sf) CALIF. STANDARDS BUDGET: Multi -Family Cluster in Climate Zone 4 Heating 13595 8.3 $0 $0 $0 Cooling 7862 4.8 $0 $0 Totals 21458 13..1 $O $0 $O -------------------------------------------------------------------- ($0.00/sf) Fuel Cost = $0.000 oer Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu xxx Peak season s) not simulated - Check peak loads ... Energy Budgets valid Page 1 < < < MICROPAS2 v2.1 File -87031 Weather-CZ4 Program -FORMAT > > > Run -87031 Pro.)ect-LOT 1 PLAN A Date -02/25/87 Input file '87031' last edited on 02/25/87 CONTROL DATA RUN DATA 1> RUN TITLE (25 char) ............................. 87031 2> PROJECT TITLE (25 char) ......................... LOT 1 PLAN A 3> OWNER'S NAME (25 char) .......................... PETER G SHUTTS 4> SITE LOCATION (25 char) ......................... CUPERTINO 5> BUILDING TYPE (SINGLE.CLUSTER.DESIGN,NONE) ...... CLUSTER SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deg) ................. 2> BUIL.DING ROTATION (deg.0=S,90=W.-90=E.180=N) .... 3> NUMBER OF WARMUP DAYS (10 maximum) .............. 4> WEATHER DATA FILE NAME (CZ12,etc) ............... 5> WIND CORRECTION FACTOR (fraction) .............. 6> HEATING MODE GROUND REFLECTIVITY (fraction) .... 7> COOLING MODE GROUND REFLECTIVITY (fraction) ..... 8> GROUND TEMP DAILY FACTOR (fraction) ............ 9> GROUND TEMP MONTHLY FACTOR (fraction) ........... 10> GROUND TEMP ANNUAL FACTOR (fraction) ........... 11> HVAC SIZING: LOCATION (25 char) ................ SIMULATION CONTROL DATA 37.3 180 3 CZ4. .40 .2 0.2 0 1 0 CUPERTINO #> NUMBER OF SIMULATION SEASONS (8 only) 8 SEASON SIMULATE NAME SEASON ------1------ ---2---- 1> WINTER YES 2> WINTER/SPRING YES 3) SPRING/SUMMER YES 4.> SUMMER YES 5) SUMMER/FALL YES 6) FALL./WINTER YES 7) PEAK HEATING NO 8> PEAK COOLING NO GENERAL ouTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES.NO,FORMAT) .............. FORMAT 2> SUMMARY (.YES,NO) ............................... YES 3) FORM 2 (YES,NO)................................. NO 4) HVAC SIZING: CALCULATIONS (YES,NO) .............. NO ZONE DATA #> NUMBER OF ZONES (5 maximum) 1 i Page 2 < < < MICROPAS2 v2.1 File -87031 Weather-CZ4 Program -FORMAT > > > Run -87031 Project -LOT 1 PLAN A Date -02/25/87 ZONE 'HOUSE' 1> NAME (HOUSE,SUNSPACE,etc) ....................... HOUSE 2> FLOOR AREA (spft) ............................... 1638 3> VOLUME (cuft)................................... 15561 4> HEAT CAPACITY (Btu/F) ........................... 3457 5> INTERNAL GAIN (Btu/day) ......................... 72665 6> INTERNAL GAIN SCHEDULE (INTERNAL.NONE,etc) ...... INTERNAL 7> 'INFILTRATION BASE ACH (ac/hr) ................... .66 8> INFILTRATION TEMPERATURE ACH (ac/hr-F) ........... 0 9> INFILTRATION WIND ACH (ac/hr-mph) ............... 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX,NONE.etc) ... NONE 11> HEATING SYSTEM NAME (FURNACE,NONE,etc) ......... FURNACE 12> COOLING SYSTEM NAME (HEATPUMP.NONE,etc) ........ AC 13> VENTILATION SYSTEM NAME (NATURAL,NONE,etc) ..... NATURAL 1.4> HEATING MODE THERMOSTAT NAME (HEATCNST,etc) .... HEATCNST 15> COOLING MODE THERMOSTAT NAME (COOLCNST,etc) .... COOLCNST 16> HVAC SIZING: NUMBER OF PEOPLE .................. 4 17> HVAC SIZING: APPLIANCE GAIN (Btu) .............. 1200 18> HVAC SIZING: INFILTRATION (TIGHT.MEDIUM.LOOSE) . LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) ................. 12 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE (salt) (Btu/hr (deg) (deg) TIVITY NAME -sf-F) (frac) ---'1---- --2--- - ---3---- ---4----- __5_ - - ---6----- ---7---- 1> FRNTWALL 55 .09 0 90 0.5 HOUSE 2> BACKWALL 152 .09 180 90 0.5 HOUSE 3> LEFTWALL 491 .09 90 90 0.5 HOUSE 4> GARGWALL 240 .09 0 90 0.0 HOUSE 5> FRNTDOOR 20 .46 0 90 0.5 HOUSE 6> GARGDOOR 20 .52 0 90 0.0 HOUSE 7> FLOOR 809 .10 0 0 0,0 HOUSE 8> DROPCLGI 438 .05 0 0 0.5 HOUSE 9> BEAMCLGI 387 .05 0 27 0,5 HOUSE 10> BEAMCLG2 340 .05 180 27 0.5 HOUSE 11> KNEEWALL 282 .08 0 90 0.0 HOUSE 12> EXPFLOOR 277 .05 0 0 0.0 HOUSE GLAZING SURFACE DATA GLAZING SURFACES #> NUMBER OF SURFACES (.30 maximum) ................. 6 NAME AREA U -VALUE AZIMUTH TILT NUMBER ZONE TREAT- (.saft) (Btu/hr (deg) (deg) OF NAME MENT -sf-F) PANES NAME ---1---- --2--- --- 3---- ----4--- --5--- --6--- --- 7---- ---8---- 1> FRNTGLI 32 .65 0 90 2 HOUSE DRAPE 2> BACKGLI 40 .65 180 90 2 HOUSE DRAPE 3> LEFTGLI 96 .65 90 90 2 HOUSE DRAPE Page 3 < < < MICROPAS2 v2.1 File -87031 Weather-CZ4 Program -FORMAT > > > Run -87031 Project -LOT 1 PLAN A Date -02/25/87 4> LEFTGL2 20 .65 45 90 2 HOUSE DRAPE 5> LEFTGL3 17.5 .65 135 90 2 HOUSE DRAPE 6) SKYLITE 8 .70 180 27 2 HOUSE SKYSH GLAZING TREATMENTS #) NUMBER OF TREATMENTS (30 maximum) ............... 2 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME ---1---- --2-- --3-- --4-- --5-- --6-- ---7---- ---8---- --9-- ---10--- 1) DRAPE 0 0 0 1 .75 NONE 0 0 NONE 2> SKYSH 0 0 0 1 .55 NONE 0 0 NONE MASS DATA #> NUMBER OF MASSES (10 maximum) ................... 0 SYSTEMS DATA ENERGY COSTS 1> FUEL COST (dollars/therm) ....................... 0.0 2> ELECTRICITY COST (dollars/kWh) .................. 0.0 HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ........... 1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION ---1-___ 2 ---- ---3---- ----4---- ---5---- -----6----- 1> FURNACE FUEL .71 UNLIMITED 0 ATTIC COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) . 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Btu/Wh) (Btu/hr•) FRACTION FRACTION LOAD LOCATION ---1-__- ---2---- -- --3---- ---4---- ---5---- ---6---- -----7----- 1> AC 8.0 UNLIMITED O O 0.2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (soft) (saft) (ft) (deg) IENCY IENCY ---1---- --2-- ---3--- --4-- --5--- --6--- --7-- ---8--- --9--- --10-- 1> NATURAL 0 0 0 21 21 8 -180 1.0 1.0 Page 4 < < < MICROPAS2 v2.1 File -87031 Weather-CZ4 Program -FORMAT > > > Run -87031 Project -LOT 1 PLAN A Date -02/25/87 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ---1---- __-2--- ---3--- ----4--- ---5--- ---6--- ---7--- ---8---- 1> HEATCNST 65 80 80 0 0 0 NONE 2> COOLCNST 65 80 65 0 0 0 NONE SCHEDULE DATA #> NUMBER OF HOURLY SCHEDULES (10 maximum) ......... 1 HOURLY SCHEDULE 'INTERNAL' 1> NAME (INTERNAL,SETBACK,etc) ..................... INTERNAL 2> HEATING (ON.OFF.AUTO.OPEN,CLOSED,UP.BACK,RAMP,frac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0.026 7. 0.038 8. 0.059 9. 0.056 10. 0.060 19.. 0.059 12. 0. 046 13. 0.045 14. 0.030 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22. 0.055 23. 0.04.4 24. 0.027 3> COOLING (ON,OFF,AUTO,OPEN,CLOSED,UP,BACK,RAMP,frac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0.026 7. 0.038 8. 0.059 9. 0.056 10. 0.060 11. 0.059 12. 0.046 13. 0.045 14. 0.030 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22. 0.055 23. 0.044 24. 0.027 White Eagle Subdivision Lot 1. Package E Analysis Page 1 < < < MICROPAS2 v2.1 File-87031AB Weather-CZ4 Program -SUMMARY > > > Run-87031AB Project -LOT 1 PACKAGE E Date -02/25/87 M I C R 0 P A S 2 v2.1 PC -Dos 8047 - 07/13/86 Calculations BY: BUILDERS ENERGY SERVICES 565 CHAPMAN COURT SANTA CLARA CA 95050 (408) 984-5398 PROJECT DATA Run Title ............ ...,.......... 87031AB Protect Title ... ............... ......... ..., LOT 1 PACKAGE E Owner's Name ................................ PETER G SHUTT$ Site Location ... ............... ..,..,,...,,,, CUPERTINO Bjilding Tyr.)e .............................. CLUSTER DESIGN DATA Floor, area (.scif t ) .. ....... ,. , ., .. .. . .. .... 1638 Glazing area (safe) ....... 327.6 Glazing raercentage ( ) „..,...„........ 20% Glazing UA (Btu/hr--F) .......... 212 (35.1%) Ooaaue UA (Btu/hr--F) ..,....,,...... 208 (34.4%) Infiltration UA (Btu/hr-F) ................ 184. (30.50) Total UA (Btu/hr-F) 604 (100%) MECHANICAL SYSTEMS Fi:aating System ..,,...... FURNACE Cooling 5"rStem „.,....„..,...........,,... AC Vertilation S,v.stem „.,.,.,...,..,,...„.. NATURAL CLIMATE DATA W -gather Data Location ................... SUNNYVALE CA 61 ESOL_/RED Average Temperature (F) .................. 57 Minimum Te-moerature (F) ........ „ ......... 32 Maximum Temperature (F) .„.............„. 90 Page 2 < < < MICROPAS2 v2.1 File-87031AB Weather-CZ4. Program -SUMMARY ) ) ? Run-87031AB Protect -LOT 1 PACKAGE E Date--02/25/87 _____-----�- ------------------- PERFORMANCE SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC_ COST (kBtu) (kBtu/hr) &Btu) (kWh) W -------- -------- -------- -------- -------- BUILDING Heating 15425 16,.7 21725 0 $0 Cooling -9108 -27.5 959 $0 Venting 0 $0 Totals 21725 959 $0 ------------------------------------------------------------ ------------------------ ENERGY BUDGET COMPARISON Fuel Cost = $0.000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 Per kWh 1 kWh x 3 x 3,41 = 1 .source kBtu XWX Peak season(s) not simulated - Check Peak loads Xxx Energy Budgets valid A ---- BUDGETS ---- ------ CONSUMPTION ------- SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtuf ( kBtu/ sf l ( $ ) ( $ ) ( $ ) BUILDING: 1638 sf of Conditioned Floor Area Heating 21725 13.3 $O $O $O Cooling 9808 6.0 $0 $0 Venting 0 0.0 $0 $0 Totals -------- -------- -------- :31533 19.3 $0 -------- $0 -------- $0 ( $0.00/sf I CALIF. STANDARDS BUDGET: Multi. -Family Cluster in Climate Zone 4 - Heating Heating 13595 8.3 $0 $0 $0 Cooling 7862 4.8 $0 $0 Totals 21453 13..1. $O $O $0 --------------------------------------------------------------------- (,$0.00/sf 1 Fuel Cost = $0.000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 Per kWh 1 kWh x 3 x 3,41 = 1 .source kBtu XWX Peak season(s) not simulated - Check Peak loads Xxx Energy Budgets valid A Page 1 < < < MICROPAS2 v2.1. File-87031AB Weather-CZ4. Program -FORMAT > > > Run-87031AB Project -LOT 1 PACKAGE E Date -02/25/87 Input file '87031AB' last edited on 02/25/87 CONTROL DATA RUN DATA 1> RUN TITLE (25 char) .......................... 87031AB 2> PROTECT TITLE 125 char) ......... „.......... .,.„,.. LOT 1 PACKAGE E _�> OWNER'S NAME (25 Char) ............................ PETER G SHUTTS 4> 3ITE LOCATION f25 chars ........................... CUPERTINO 5> BUILDING TYPE (SINGLE,CLUSTER,DESIGN,NONE) ....... CLUSTER SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deg) ................. 2> BIJILDING ROTATION (dea.0=S,90=W,-90=E,180=N) „ 3> NUMBER OF WARMUP DAYS (10 maximum) .............. 4.> WEATHER DATA FILE NAME (CZ12,etc) .......,...,.... 5> WIND CORRECTION FACTOR (fraction) ... .......... _ 6> HEATING MODE GROUND REFLECTIVITY (fraction) ...... 7> COOLING MODE GROUND REFLECTIVITY (fraction) ..... 8> GROUND TEMP DAILY FACTOR (fraction) .............. 9> GROUND TEMP MONTHLY FACTOR (fraction) ............ 10> C4ROUND TEMP ANNUAL FACTOR (fraction) ............ 11.> HVAC SIZING: LOCATION (25 char) ................ SIMULATION CONTROL DATA 37. 3 180 3 CZ4. .4 .2 .2 0 1 0 CUPERTINO #> NUMBER OF SIMULATION SEASONS (8 only) ....„,.,,.. 8 SEASON SIMULATE NAME SEASON 1> WINTER YES 2> WINTER/SPRING YES 3> IPRING/SUMMER YES 4.> SUMMER YES 5> SUMMER/FALL YES 6> FALL/WINTER YES 7> PEAK. HEATING NO 8> PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES, NO. FORMAT) ... FORMAT 2> SUMMARY (YES, NO) .„....,,..,..,.„,.„,.,„,...,„..,.. YES .3> FORM 2 (YES,NO) ,,.,.„,.................., ,„,,,,„...,. NO 4> HVAC SIZING- CALCULATIONS (YES,NO) „,,... NO ZONE DATA #> NUMBER OF ZONES (5 maximum) ............„........... 1 Page 2 < ( ( MICROPAS2 v2.1 File-87031AB Weather-CZ4 Program -FORMAT > > > Run-87031AB Project -LOT 1 PACKAGE E Date -02/25/87 ZONE 'HOUSE' 0 NAME (HOUSE.SUNSPACE,etc) ....................... HOUSE 2> FLOOR AREA (soft) ........,..,........... _ ....... 1638 3> VOLUME (cult) ....................,.......... 15561 4> HEAT CAPACITY (Btu/F) ...., ..... 3457 5> INTERNAL GAIN (Btu/day) ......................... 72665 6> INTERNAL GAIN SCHEDULE (INTERNAL.NONE.etc) ...... INTERNAL 71 INFILTRATION BASE ACH (ac/hr) ................... .66 8> INFILTRATION TEMPERATURE ACH (ac/hr-Fl .......... 0 9> INFILTRATION WIND ACH (ac/hr-mph) ...... 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX.NONE.etc) ... NONE 10 HEATING SYSTEM NAME (FURNACE.NONE.etc) ......... FURNACE 12> COOL.I.NG SYSTEM NAME (HEATPUMP,NONE,ete) ........,. AC 13> VENTILATION SYSTEM NAME (NATURAL.NONE.etc) ..... NATURAL 14.> HEATING MODE THERMOSTAT NAME (HEATCNST.etc) ..,.. HEATCNST 15> COOLING MODE THERMOSTAT NAME (COOLCNST.etc) .... COOLCNST 16> HVAC :OIZING: NUMBER OF PEOPLE .................. 4. 17> HVAC SIZING- APPLIANCE GAIN (Btu) ............... 1200 18> HVAC SIZING: INFILTRATION (TIGHT.MEDIUM,LOOSE) . LOOSE OPAQUE SURFACE DATA V NUMBER OF SURFACES (30 maximum) ........... 10 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE (soft) (Btu/hr (deg) (deg) TIVITY NAME -sf-F ) f. frac) ---:1- -- -- -2---- ---3---- ---4---- ---5------ ---6---- ---7---- 1> FRNTWALL 5 .00 0 90 .5 HOUSE 2> BACKWALL 127.6 .09 180 QO .5 HOUSE 3> LEFTWALL 525.1 .09 90 QO .5 HOUSE 4> GARGWALL 240 .09 0 90 0 HOUSE 5> FRNTDOOR 20 „46 0 90 .5 HOUSE 6> GARGDOOR 20 .52 0 90 0 HOUSE 7) FLOOR 800 .030 0 0 0 HOUSE 8> DROPCLGI 1086 .034 0 0 .5 HOUSE ?> KNEEWALL 282 .09 0 po 0 HOUSE 10> EXPFLOOR 277 .05 0 0 O HOUSE GLAZING SURFACE DATA GLAZING SURFACES Q NUMBER OF SURFACES (30 maximum) .................. 4. NAME AREA U -VALUE AZIMUTH TILT NUMBER ZONE TREAT- (sgft) (Btu/hr (deg) (deg) OF NAME MENT -sf-F) PANES NAME ---.1---- --2--- ---3---- ---4--- ---5-__ --6--- ---7------ ---8---- 1> $GL.ASS 81.9 .65 0 90 2 HOUSE DRAPE 2> EGLASS 81,.9 ,.65 -90 90 2 HOUSE DRAPE 3> WGLASS 81..9 .65 90 90 2 HOUSE DRAPE 4> NGLASS 81.9 .65 180 90 2 HOUSE DRAPE Page 3 < < < MICROPAS2 v2.1 File-87031AB Weather-CZ4 Program -FORMAT > > > Run-87031AB Project -LOT 1 PACKAGE E Date -02/25/87 GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ....,........... 1 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE IRAN SCHEDULE GHT LEND HIGH FACT FACT NAME FACT NAME ---1---- --2-- ---3-- --4-- --5-- --6-- ---7---- ---8---- --9-- ---10--- 1> DRAPE 0 0 0 1 .75 NONE 0 0 NONE MASS DATA #> NUMBER OF MASSES (10 maximum) ................... 0 SYSTEM` DATA ENERGY COSTS 0 FUEL COST (dollars/therm) ...................... 0,.0 2> ELECTRICITY COST (dollars/kWh) .................. 0.0 HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ............ 1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION ---1-------2-------3---------4---------5-----------6----- 1> FURNACE FUEL .71 UNLIMITED 0 ATTIC COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) ........,... 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Btu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION ---1-------2--------3-------4-------5-------6----------7----- 1> AC 9.5 UNLIMITED 0 0 .2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (soft) (soft) (ft) (deg) IENCY IENCY ---1---- ---2-- ---3--- --4-- --5--- --6--- --7-- ---8--- --9--- --10-- 1> NATURAL 0 0 0 32 32 2 -180 1 1 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 Page 4 � < < < MICROPAS2 v2.1 File -87031A8 Weather-CZ4 Program -FORMAT > > > Run-87031AB ProJeot-LOT 1 PACKAGE E Date -02/25/87 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE <Fl (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ---1---- ---2--- ---3--- ---4--- ---5--- ---6--- ---7--- ---8---- 1> HEATCN5T 65 80 80 O O O NONE 2> COOLCNST 65 QO 65 O O O NONE SCHEDULE DATA ============= #> NUMBER OF HOURLY SCHEDULES (10 maximum) HOURLY SCHEDULE 'INTERNAL` 1> NAME (INTERNAL.SETBACK,eto) .''.''.''.''.'''.''-' INTERNAL 2> HEATING <ON,0FF,4UT0.OPEN'CL0SED'UP.BACK.RAMP,frao) l' 0'024 2' 0'022 3' 0'021 4' 0'021 S. 0'031 6' 0'026 7' 0'038 Q. 0'059 9. 0'056 10, 0'060 ll' 0'059 12' 0.046 13' 0.045 14. 0'030 15. 0'028 16' 0'031 17' 0'057 18-0.064 19' 0'064 20. 0.052 21' 0.050 22. 0.055 23' 0'044 24. 0'027 3> COOLING (ON,OFF,AUTO,OPEN,CLO5ED,UP,BACK,RAMP,frao) l. 0'024 2' 0'022 J' 0'021 4. 0'021 5. 0'021 6' 0.026 7. 0'038 8' 0'059 9. 0,056 10. 0'060 11' 0'059 12. 0'046 13, 0'045 14' 0.030 15' 0'028 16' 0'031 17' 0'057 18. 0,064 19' 0'064 20' 0'052 21. O'050 22. 0'055 23' 0'044 24' 0'027 White Eagle ---,u division I_ot 2 Mlcr oras Analysis MN Page 1 C C C MICROPAS2 v2.1 File -87032 Weather-CZ4 Program -SUMMARY > > > Run -87032 Pro.7ect-LOT 2 PLAN A REV Date -02/25/87 M I C R O P A S 2 v2.1 PC -DOS 8087 - 07/18/86 Calculations BY: BUILDERS ENERGY SERVICES 565 CHAPMAN COURT SANTA CLARA CA 95050 (408) 984-5398 PROJECT DATA, Run Title ............................... 87032 Pro.iect Title ........................... LOT 2 PLAN A REV Owner's Name ............................ PETER G SHUTTS Site Location ........................... CUPERTINO Building Type ........................... CLUSTER DESIGN DATA Floor area (sgft) ........................ 1638 Glazing area (soft) ..................... 213.5 Glazing percentage (%) .................. 13% Glazing UA (Btu/hr-F) ................... 139 (23.1%) Opaque UA (Btu/hr-F) .................... 279 (46.3%) Infiltration UA (Btu/hr-F') .............. 184 (30.6%) Total UA (Btu/hr-F) ..................... 602 (100%) MECHANICAL SYSTEMS Heating System .......................... FURNACE Cooling System ........................... AC Ventilation System ................ ..... NATURAL CLIMATE DATA Weather Data Location ................... SUNNYVALE CA 61 ESOL/RED Average Temperature (F) ................. 57 Minimum Temperature (F) ................. 32 Maximum Temperature (F) ................. 90 Page 2 s < < < MICROPAS2 v2.1 File -87032 Weather-CZ4 Program -SUMMARY ) ) ) Run -87032 Project -LOT 2 PLAN A REV Date -02/25/87 ------------------- PERFORMANCE SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST (kBtu) (kBtu/hr) (kBtu) (kWh) ($) -------- -------- -------- -------- -------- BUILDING Heating 16821 16.6 23691 0 $0 Cooling -7389 -27.1 924 $0 Venting 0 $0 Totals 23691 924 $0 ------------------------------------------------------------ ------------------------ ENERGY BUDGET COMPARISON Fuel Cost = $0.000 her Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu r*' Peak season(s) not simulated - Check peak loads AA* Energy Budgets valid ---- BUDGETS ---- ------ CONSUMPTION ------ SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (kBtu/sf) ($) -------- ($) --------- ($) -------- BUILDING: 1638 -------- -------- sf of Conditioned Floor Area Heating 23691 14.5 $0 $0 $0 Cooling 9449 5.8 $0 $0 Venting 0 0.0 $0 -------- $0 -------- Totals -------- -------- -------- 33140 20.2 $0 $0 $0 ($0.00/sf) CALIF. STANDARDS BUDGET; Multi -Family Cluster in Climate Zone 4 Heating 13595 8.3 $0 $0 $0 Cooling 7862 4.8 $0 $0 Totals 21458 13.1 $0 $0 $0 -------------------------------------------------------------------- ($0.00/sf ) Fuel Cost = $0.000 her Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu r*' Peak season(s) not simulated - Check peak loads AA* Energy Budgets valid Page 1 < < < MICR0PAS2 v2.1 File -87032 Weather-CZ4 Program -FORMAT > > > Run -87032 Project -LOT 2 PLAN A REV Date -02/25/87 Input file '87032' last edited on 02/25/87 CONTROL DATA RUN DATA 1> RUN TITLE (25 char) ............................. 87032 2> PROJECT TITLE (25 char) ......................... LOT 2 PLAN A REV 3> OWNER'S NAME (25 char) .......................... PETER G SHUTTS 4> SITE LOCATION (25 char) ......................... CUPERTINO 5> BUILDING TYPE (SINGLE,CLUSTER,DESIGN,NONE) ...... CLUSTER SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deg) ................. 37.3 2> BUILDING ROTATION (deq.0=S,90=W,-90=E.180=N) .... 180 3> NUMBER OF WARMUP DAYS (10 maximum) .............. 3 4> WEATHER DATA FILE NAME (CZ12,etc) ............... CZ4 5> WIND CORRECTION FACTOR (fraction) ............... .40 6> HEATING MODE GROUND REFLECTIVITY (fraction) ..... .2 7> COOLING MODE GROUND REFLECTIVITY (fraction) ..... 0.2 8> GROUND TEMP DAILY FACTOR (fraction) ............. 0 9> GROUND TEMP MONTHLY FACTOR (fraction) ........... 1 10> GROUND TEMP ANNUAL FACTOR (fraction) ........... 0 11> HVAC SIZING: LOCATION (25 char) ................ CUPERTINO SIMULATION CONTROL DATA #> NUMBER OF SIMULATION SEASONS (8 only) ........... 8 SEASON SIMULATE NAME SEASON ------1------ ---2---- 1> WINTER YES 2> WINTER/SPRING YES 3> SPRING/SUMMER YES 4> SUMMER YES 5> SUMMER/FALL YES 6> FALL./WINTER YES 7> PEAK HEATING NO 8> PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES,NO,FORMAT) .............. FORMAT 2> SUMMARY (YES,NO) ............................... YES 3> FORM 2 (YES,NO)................................. NO 4> HVAC SIZING: CALCULATIONS (YES,NO) NO ZONE DATA #> NUMBER OF ZONES (5 maximum) ..................... 1 Page 2 < < < MICROPAS2 v2.1 File -87032 Weather-CZ4 Program -FORMAT > > > Run -87032 Project -LOT 2 PLAN A REV Date -02/25/87 ZONE 'HOUSE' 1> NAME (HOUSE,SUNSPACE,etc) ....................... HOUSE 2> FLOOR AREA (soft) ............................... 1638 3> VOLUME (c.uft)................................... 15561 4> HEAT CAPACITY (Btu/F.) ........................... 3457 5> INTERNAL GAIN (Btu/day) ......................... 72665 6> INTERNAL GAIN SCHEDULE (INTERNAL.NONE.etc) ...... INTERNAL 7> INFILTRATION BASE ACH (ac/hr) ................... .66 8> INFILTRATION TEMPERATURE ACH (ac/hr-F) .......... O 9> INFILTRATION WIND ACH (ac/hr-mph) ............... 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX.NONE.etc) ... NONE 11> HEATING SYSTEM NAME (FURNACE,NONE,etc) ......... FURNACE 12> COOLING SYSTEM NAME (HEATPUMP,NONE.etc) ........ AC 13> VENTILATION SYSTEM NAME (NATURAL,NONE,etc) ..... NATURAL 14.> HEATING MODE THERMOSTAT NAME (HEATCNST.etc) .... HEATCNST 15> COOLING MODE THERMOSTAT NAME (COOLCNST,etc) .... COOLCNST 1.6> HVAC SIZING: NUMBER OF PEOPLE ................... 4 17> HVAC SIZING: APPLIANCE GAIN (.Btu) .............. 1200 18> HVAC SIZING: INFILTRATION (TIGHT.MEDIUM.LOOSE) . LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) ................. 12 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE (soft) (Btu/hr (deg) (deg) TIVITY NAME -sf-F) (frac) ---1---- ---2-------3---- ---4---- ---5---- ---6---- ---7---- 1> FRNTWALL 55 .09 0 90 0.5 HOUSE 2> RGHTWALL 491 .09 -90 90 0.5 HOUSE 3> BACKWALL 152 .09 180 90 0.5 HOUSE 4> GARGWALL 240 .09 0 90 0.0 HOUSE 5> FRNTDOOR 20 .46 0 90 0.5 HOUSE 6> GARGDOOR 20 .52 0 90 0.0 HOUSE 7> FLOOR 809 .10 0 0 0.0 HOUSE 8> DROPCLGI 438 .05 0 0 0.5 HOUSE 9> BEAMCLGI 387 .05 0 27 0.5 HOUSE 10> BEAMCLG2 340 .05 180 27 0.5 HOUSE 11> KNEEWALL 282 .08 0 90 0.0 HOUSE 12> EXPFLOOR 277 .05 0 0 0.0 HOUSE GLAZING SURFACE DATA GLAZING SURFACES #> NUMBER OF SURFACES (30 maximum) ................. 6 NAME AREA U -VALUE AZIMUTH TILT NUMBER ZONE TREAT - (soft) (Btu/hr (deg) (deg) OF NAME MENT -sf -F ) PANES NAME ---1---- --2--- ---3---- ---4---- --5--- -6 --- ---7---- ---8---- 1> FRNTGLI 32 .65 0 90 2 HOUSE DRAPE 2> BACKGLI 40 .65 180 90 2 HOUSE DRAPE 3> RGHTGLI 96 .65 -90 90 2 HOUSE DRAPE Page 3 < < < MICROPAS2 v2.1 File -87032 Weather-CZ4 Program -FORMAT > > > COOLING Run -87032 Project -LOT 2 PLAN A REV Date -02/25/87 EER CAPACITY 4> RGHTGL2 20 .65 -45 90 2 HOUSE DRAPE 5> RGHTGL3 17.5 .65 -135 90 2 HOUSE DRAPE 6> SKYLITE 8 .70 180 27 2 HOUSE SKYSH GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 2 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME ---1---- --2-- --3-- --4-- --5-- --6-- ---7---- ---8----- --9-- ---10--- 1) DRAPE 0 0 0 1 .75 NONE 0 0 NONE 2> SKYSH 0 0 0 1 .55 NONE 0 0 NONE MASS DATA #) NUMBER OF MASSES (10 maximum) ................... 0 SYSTEMS DATA ENERGY COSTS 1) FUEL COST (dollars/therm) ....................... 0.0 2> ELECTRICITY COST (dollars/kWh) .................. 0.0 HEATING SYSTEMS #) NUMBER OF HEATING SYSTEMS (5 maximum) ........... 1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION ---1---- ---2---- ---3---- ----4---- ---5---- -----6----- 1> FURNACE FUEL .71 UNLIMITED 0 ATTIC COOLING SYSTEMS #) NUMBER OF COOLING SYSTEMS (5 maximum) ........... 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Btu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION ---1---- - -2---- ----3---- ---4----- ---5---- ---6---- -----7----- 1> AC 8.0 UNLIMITED 0 0 0.2 ATTIC VENTILATION SYSTEMS #) NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (soft) (soft) (ft) (deg) IENCY IENCY ---1---- --2-- ---3--- --4-- --5--- --6--- --7-- ---8--- --9-- --10-- 1> NATURAL 0 0 0 21 21 8 -180 1.0 1.0 Page 4 < < < MICROPAS2 v2.1 File -87032 Weather--CZ4 Program -FORMAT > > > Run -87032 Project --LOT 2 PLAN A REV Date -02/25/87 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ---1-------2------3------4------5------6-------7------8---- 1) HEATCNST 65 80 80 0 0 0 NONE 2) COOLCNST 65 80 65 0 0 0 NONE SCHEDULE DATA #> NUMBER OF HOURLY SCHEDULES (10 maximum) ......... 1 HOURLY SCHEDULE 'INTERNAL' 1) NAME (INTERNAL,SETBACK,etc) ..................... INTERNAL 2> HEATING (ON.OFF.AUTO,OPEN,CLOSED.UP,BACK.RAMP.frac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0,026 7. 0.038 S. 0.059 9. 0.056 10. 0.060 11. 0.059 12. 0.046 13. 0.045 14. 0.030 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22. 0.055 23. 0.044 24. 0.027 3> COOLING (ON,OFF,AUTO,OPEN,CLOSED,UP,BACK,RAMP,frac) 1. 0.024 2. 0.022 3, 0.021 4. 0.021. S. 0.021 6. 0.026 7. 0.038 8. 0.059 9. 0.056 10. 0.060 11. 0.059 12. 0.046 13. 0.045 14, 0.030 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22. 0.055 23. 0.044 24. 0.027 White Eagle Subdi',,,inion Lot 2 Package E Analysis Page 1 < < < MICROPAS2 v2.1 File-87032AB Weather-CZ4 Program -SUMMARY > > > Run-87032AB Project -LOT 2 PACKAGE E Date -02/25/87 M I C R 0 P A S 2 v2.1. PC -DOS 8087 - 07/18/86 Calculations BY: BUILDERS ENERGY SERVICES 565 CHAPMAN COURT SANTA CLARA CA 95050 (408) 984-5398 PROJECT DATA Run Title ............................... 87032AB Project Title ............................ LOT 2 PACKAGE E Owner's Name .... .„.,...„.,,........ .,..... PETER G SHUTTS Site Location ........................... CUPERTINO Building Type .................,.......... CLUSTER DESIGN DATA Floor area (.soft) .... ,.„.......... ,,.„... 1638 Glazing area fwft) ........,..,..„,, „.,,,... 327.6 Glazing percentage W .................. 20% Glazing UA (BtU/hr-F) ................... 212 (35.5%) 0oaQue UA (Btu/hr-F) .................... 201 (33.7%) Infiltration UA (Btu/hr-F) .............. 184 (30.8%) Total UA (Btu/hr-F) ...........,,.„..,,.... 597 (100%) MECHANICAL SYSTEMS Heating System .....................,..... FURNACE Cooling System .......................... AC Ventilation System ....................... NATURAL CLIMATE DATA Weather Data Location ................... SUNNYVALE CA 61 ESOL/RED Average Temperature (F) ................. 57 Minimum Temperature (F) .....,............ 32 Maximum Temperature (F) ................. 90 Page 2 < < < MICROPAS2 v2.1 File-87032AB Weather-CZ4 Program -SUMMARY ) ) ) Run-87032AB Project -LOT 2 PACKAGE E Date -02/25/87 ------------------- PERFORMANCE SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST (kBtu) (kBtu/hr) (kBtu) (kWh) ($) -------- --------- -------- -------- -------- BUILDING Heating 15150 16.,5 21337 0 $0 Cooling -9025 -27.0 950 $0 Venting 0 $0 Totals 21337 950 $0 ----------------------------------------------------------- ------------------------- ENERGY BUDGET COMPARISON Fuel Cost = $0.000 Per Therm (1 Therm = 100 kBtu) Electricity Cost = $0,000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu y,* Peak season(s) not. simulated - Check peak loads .K :k Energy Budgets valid ---- BUDGETS ---- CONSUMPTION ------ SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (kBtu/sf) ($) ($) ($) BUILDING: 1.638 sf of Conditioned Floor Area Heating 21337 13.0 $0 $0 $0 Cooling 9719 5.9 $0 $0 Venting 0 0.0 $0 $0 -------- Totals -------- -------- -------- 31056 19.0 -------- $0 $0 $0 ( $0.00/sf ) CALIF. STANDARDS BUDGET: Multi -Family Cluster in Climate Zone 4 Heating 13595 8.3 $0 $0 $0 Cooling 7862 4.8 $0 $0 Totals 21458 13.1 $0 $0 $0 ---------------------------------------------------------------------- ($0.00/sf) Fuel Cost = $0.000 Per Therm (1 Therm = 100 kBtu) Electricity Cost = $0,000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu y,* Peak season(s) not. simulated - Check peak loads .K :k Energy Budgets valid Page 1 ( ( ( MICROPAS2 v2.1 File-87O32AB Weather-CZ4 Program -FORMAT ) ) ) Run-87O32AB Project -LOT 2 PACKAGE E Date -02/25/87 Input 'Pile '87O32AB' last edited on 02/25/87 CONTROL DATA RUN DATA 1) RUN TITLE (25 char) ............................. 87032AS 2) PROJECT TITLE (25 char) ......................... LOT 2 PACKAGE E 3) OWNER'S NAME (25 char) .......................... PETER G SHUTTS 4) SITE LOCATION (25 char) ......................... CUPERTINO 5) BUILDING TYPE (SINGLE.CLUSTER,DESIGN,NONE) ,,.... CLUSTER SITE AND WEATHER DATA 1) BUILDING LATITUDE (decimal deed) ................. 37.3 2) BUILDING ROTATION (deg.0=S.90=W.-90=E.180=N) .... 180 3) NUMBER OF WARMUP DAYS (10 maximum) .............. 3 4) WEATHER DATA FILE NAME (CZ12.etc) ............... CZ4 5) WIND CORRECTION FACTOR (fraction) ................ .4 h) HEATING MODE GROUND REFLECTIVITY (fraction) ..... .2 7) COOLING MODE GROUND REFLECTIVITY (fraction) ..... .2 8) GROUND TEMP DAILY FACTOR (fraction) ............. 0 9) GROUND TEMP MONTHLY FACTOR (fraction) ........... 1 10) GROUND TEMP ANNUAL FACTOR (fraction) ............ 0 11) HVAC SIZING: LOCATION (25 char) ............... CUPERTINO SIMULATION CONTROL DATA #) NUMBER OF SIMULATION SEASONS (8 only) ......... 3 SEASON SIMULATE NAME SEASON ------ 1------ --- 2-_-- 1) WINTER YES 2) WINTER/SPRING YES 3) SPRING/SUMMER YES 4) SUMMER YES 5) SUMMER/FALL YES 6) FALL/kIINTER YES 7) PEAK HEATING NO 8) PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1) COPY OF INPUT DATA (YES,NO.FORMAT) .............. FORMAT 2) SUMMARY (YES,NO) .,........................... YES 3) FORM 2 (YES,NO) ............................ NO 4) HVAC SIZING: CALCULATIONS (YES,NO) ............... NO ZONE DATA #) NUMBER OF ZONES (5 maximum) ..................... 1 Page 2 < < < MICROPAS2 v2.1. File-87032AB Weather-CZ4. Program -FORMAT > > > Run-87032AB Pro.3ect-LOT 2 PACKAGE E Date -02/25/87 ZONE 'HOUSE' 1> NAME (HOUSE.SUNSPACE,et(--) .......................HOUSE SURFACES (30 maximum) ................. 10 2> FLOOR AREA (soft) ............................... 1638 3> VOLUME (tuft) ................................... 15561 4> HEAT CAPACITY (Btu/F) ........................... 34.57 5> INTERNAL GAIN (Btu/day) ......................... 72665 6> INTERNAL GAIN SCHEDULE (INITERNAL.NONE,etc) ...... INTERNAL 7) INFILTRATION BASE ACH (ac/hr) ................... .66 8> INFILTRATION TEMPERATURE ACH (ac/hr-Fl .......... 0 9> INFILTRATION WIND ACH (ac/hr-mph) ............... 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX,NONE.etc) ... NONE 11> HEATING SYSTEM NAME (FURNACE,NONE.etcl ......... FURNACE 12> COOLING SYSTEM NAME (HEATPUMP.NONE.etc) ........ AC 13> VENT.ILATION SYSTEM NAME (NATURAL,NONE,etc) ..... NATURAL 14) HEATING MODE THERMOSTAT NAME (HEATCNST.etc) .... HEATCNST 15) COOLING MODE THERMOSTAT NAME (COOLCNST,etc) .... COOLCNST 16> HVAC SIZING: NUMBER OF PEOPLE .................. 4 17> HVAC SIZING: APPLIANCE GAIN (Btu) .............. 1200 18> HVAC SIZING: INFILTRATION (TlGHT.MEDIUM.LOOSE) . LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) ................. 10 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE (saft) (Btu/hr (deg) (deg) TIVITY NAME -sf-F) (frac) ---1----- ----2-------3----- ---4-------5---- ----6---- ---7---- 1 > FRNTWALL. 25.1 .09 O 90 . 5 HOUSE 2> RGHTWALL_ 522.6 .09 -90 90 .5 HOUSE 3> BACKWALL 110.1 .09 180 90 .5 HOUSE 4> GARGWALL 240 .09 0 90 0 HOUSE 5> FRNTDOOR 20 ,46 0 90 .5 HOUSE 6) GARGDOOR 20 .52 0 90 O HOUSE 7> FLOOR 809 .039 0 0 O HOUSE 8> DROPCLGI 1086 .028 O 0 .5 HOUSE 9> KNEE14ALL 282 .09 0 90 0 HOUSE 10> EXPFLOOR 277 .05 0 0 0 HOUSE GLAZING SURFACE DATA GLAZING SURFACES #> NUMBER OF SURFACES (30 maximum) ..... 4 NAME AREA U -VALUE AZIMUTH TILT NUMBER ZONE TREAT- (.saft) (Btu/hr (decd) (deg) OF NAME MENT -sf-F) PANES NAME ---1--__ 2 --- ---3---- -- -4- -- --5--- --6--- ---7---- ---8---- 1> SGLASS 81.9 .65 0 90 2 HOUSE DRAPE 2> EGLASS 81.9 .65 -90 90 2 HOUSE DRAPE 3> WGLASS 81.9 .65 90 90 2 HOUSE DRAPE 4> NGLASS 81.9 .65 180 90 2 HOUSE DRAPE Page 3 < < < MICROPAS2 v2.1 File-87032AS Weather-CZ4 Program -FORMAT > > > Run-87032AB Project -LOT 2 PACKAGE E Date -02/25/87 GLAZING TREATMENTS #> NUMBER OF TREATMENTS (.30 maximum) ............... 1 NAME GL.AZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAM SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME ---1---- --2-- --3-- --4-- --5-- --6-- ---7---- ---8---- --9-- ---10--- 1> DRAPE 0 0 0 1 .75 NONE 0 0 NONE MASS DATA #> NUMBER OF MASSES (10 maximum) ................... 0 SYSTEMS DATA ENERGY COSTS 1> FUEL COST (dollars/therm) ....................... 0.0 2> ELECTRICITY COST (dollars/kWh) .................. 0.0 HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ........... 1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION ---1---- ---2---- ---3---- ----4-------- 1> FURNACE FUEL .71 UNLIMITED 0 ATTIC COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) ........... 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Stu/Wh) (Btu -!/hr) FRACTION FRACTION LOAD LOCATION ---1-- - ---2- --_ ----3---- ---4- -- ---5---- ---6---- ------7----- 1> AC: 9.5 UNLIMITED U 0 .2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (Cfm) (W/Cfm) (F) (sgft) (salt) (ft) (deaa) IENCY IENCY ---1---- --2-- ---3- - --4-- --5--- --6--- --7-- ---8--- --9--- --10-- 1> NATURAL 0 0 0 32 32 2 -180 1 1 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ........ 2 Page 4. < < < MICROPA32 v2.1 File--87O32AB Weather-CZ4 Program -FORMAT > > > Run-87032AB Project -LOT 2 PACKAGE E Date -02/25/87 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(Fl TEMP(Fl TEMP(F) NAME __-1-------2------3------4------5------6------7------8---- 1> HEATCNST 65 80 80 0 0 0 NONE 2> COOLCNST 65 80 65 0 0 0 NONE SCHEDULE DATA #> NUMBER OF HOURLY SCHEDULES (10 maximum) ......... 1 HOURLY SCHEDULE 'INTERNAL' 1> NAME (INTERNAL,SETBACK,etc) ..................... INTERNAL 2> HEATING (ON.OFF.AUTO.OPEN.CLOSED.UP.BACK.RAMP.frec) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0.026 7. 0.038 8. 0.059 9. 0.056 10. 0.060 11. 0.059 12. 0.046 1.3. 0.045 14. 0.030 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.064 20, 0.052 21. 0.050 22. 0.055 23. 0.044 24. 0.027 3> COOLING (ON,OFF,AUTO.OPEN,CLOSED,UP,BACK.RAMP,frac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021. 5. 0.021 6. 0.026 7. 0.038 8. 0.059 9. 0.056 10. 0.060 11. 0.059 12. 0,04.6 13. 0.045 14. 0.030 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22. 0.055 23. 0.044 24. 0.027 White Eagle Subdivision Lot 3 Mi.z;rooas Analysis Page 1 < < < MICROPAS2 v2.1 File -87033 Weather-CZ4 Program -SUMMARY > > > Run -87033 Project -LOT 3 PLAN B Date -02/25/87 M I C R O P A S 2 v2.1. PC -DOS 8087 - 07/18/86 Calculations By: BUILDERS ENERGY SERVICES 565 CHAPMAN COURT SANTA CLARA CA 95050 ( 408 ) 984.-5398 PROJECT DATA Run Title ................................ 87033 Project Title ........................... LOT 3 PLAN B Owner's Name ............................ PETER G SHUTTS Site Location ............................ CUPERTINO Building Tyne ............................ CLUSTER DESIGN DATA Floor area (saft) ....................... 1610 Glazing area (sift) ..................... 239 Glazing percentage (%) .................. 14.8% Glazing UA (Btu/hr-F.) .................... 155 (27.1%) ODaaue UA (Btu/hr-F) 241 (42.2°x) Infiltration UA (Btu/hr--F) .............. 175 (30.60) Total UA (Btu/hr-F) ..................... 571 (.loci%) MECHANICAL SYSTEMS Heating System .......................... FURNACE Cooling System ............................ AC Ventilation System ................. NATURAL CLIMATE DATA Weather Data Location ................... SUNNYVALE CA 61 ESOL/RED Average Temperature (F) ................. 57 Minimum Temperature (F) ................. 32 Maximum Temperature (F) ................. 90 Page 2 < < < MICROPAS2 v2.1 File -87033 Weather-CZ4 Program -SUMMARY > > > Run -87033 Protect -LOT 3 PLAN B Date -02/25/87 ------------------- PERFORMANCE SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST (kBtu) (kBtu/hr) (kBtu) (kWh) ($) BUILDING Heating 14139 15.7 19915 0 $0 Cooling -8682 -30.7 1085 $0 Venting 0 $0 Totals 19915 1085 $0 -------------_----------------------------------------------- ------------------------ ENERGY BUDGET COMPARISON Fuel Cost = $0.000 per Therm Q Therm = 1.00 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu *** Peak season(s) not simulated -- Check peak loads *A* Energy Budgets valid ---- BUDGETS ----------- CONSUMPTION ------ SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (k.Btu/sf) ($) ($) ($) BUILDING. 161.0 sf of Conditioned Floor Area Heating 19915 12.4 $0 $0 $0 Cooling 11102 6.9 $0 $0 Venting 0 0.0 $0 $0 Totals 31016 19.3 $0 $O $0 ($0.00/sf) CALIF. STANDARDS BUDGET: Multi -Family Cluster in Climate Zone 4 Heating 13363 8.3 $0 $0 $0 Cooling 7728 4.8 $0 $0 Totals 21091 1.3.1 $0 $0 $0 ------------------------------------------------------------------------ ( $0.00/sf ) Fuel Cost = $0.000 per Therm Q Therm = 1.00 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu *** Peak season(s) not simulated -- Check peak loads *A* Energy Budgets valid Page 1 < < < MICROPAS2 v2'1 Flle-87033 Weather-CZ4 Program -FORMAT > > > Run -87033 Project -LOT 3 PLAN B Date -02/25/87 =============================================================================== Input file "87033' last edited on 02/25/87 CONTROL DATA ============ RUN DATA l> RUN TITLE (25 char) .'''''''''''''''''''''''''''' 87O,33 2> PROJECT TITLE (25 char) ...'.'.'''''..'''.''.'.'. LOT 3 PLAN B 3> OWNER'S NAME [25 char) ''...'''.''''''`.,'''..''.. PETER G SMUTTS 4> SITE LOCATION (25 char) ......................... CUPERTINO 5> BUILDING TYPE (SINGLE,CLU5TER,OE5I8N,NONE) .'..'. CLUSTER SITE AND WEATHER DATA l> BUILDING LATITUDE (decimal dog) ................. 2> BUILDING ROTATION (deg`0=S,90=W,-90=E,l80=N) '''' J> NUMBER OF WARMUP DAYS (10 maximum) '.''''.'.'..'' 4> WEATHER DATA FILE NAME (CZ12,eto) .''''''.'''.''' 5> WIND CORRECTION FACTOR (fraction) .''''''''''..'' 6> HEATING MODE GROUND REFLECTIVITY (fraction) '.''' 7> COOLING MODE GROUND REFLECTIVITY (fraction) ''''' 8> GROUND TEMP DAILY FACTOR (fraction) ''''''.''..'' g> GROUND TEMP MONTHLY FACTOR (fraction) '.'''''.''' 10> GROUND TEMP ANNUAL FACTOR (fraction) ........... 11> HVAC SIZING: LOCATION (25 char) ''''''''.''''''' SIMULATION CONTROL DATA 37'3 -135 3 CZ4 ,4O _2 O'2 O 1 O CUPERTINO #> NUMBER OF SIMULATION SEASONS (8 only) ''.'''','.' 8 SEASON SIMULATE NAME SEASON ------1------ ---2---- 1> WINTER YES 2> WINTER/SPRING YES 3> SPRING/SUMMER YES 4> SUMMER YES 5> SUMMER/FALL YES 6> FALL/WINTER YES 7> PEAK HEATING NO Q> PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES,N0,FORMAT) ..... ......... FORMAT 2> SUMMARY (YE5,N0) .,'.''.''.'...''''.'''.''''..'.' YES 3> FORM 2 (YES,NO) '''..''...'''...'''..'..'''...'.' NO 4> HVAC SIZING: CALCULATIONS (YES,NO) .''.''..,'...' NO ZONE DATA ========= #> NUMBER OF ZONES (5 maximum) ''''.'''.'''''''..''' 1 Page 2 < < < MICROPAS2 v2.1 File -87033 Weather-CZ4 Program -FORMAT > > > Run -87033 Project -LOT 3 PLAN B Date -02/25/87 ZONE 'HOUSE' 1) NAME (HOUSE,SUNSPACE,etc) ....................... HOUSE 2) FLOOR AREA (raft) 1610 3) VOLUME (cult) ................................... 14812 4) HEAT CAPACITY (.Btu/F.) ........................... 3415 5) INTERNAL GAIN (Btu/day) ......................... 72665 6) INTERNAL GAIN SCHEDULE (.INTERNAL,NONE,etc) ...... INTERNAL 7) INFILTRATION BASE ACH (ac/hr) ................... .66 8) INFILTRATION TEMPERATURE ACH (ac/hr-F) .......... 0 9) INFILTRATION WIND ACH (ac/hr-mph) ............... 0 10> HEAT EXCHANGER SYSTEM NAME (.HEATEX.NONE,etc) ... NONE 11> HEATING SYSTEM NAME (FURNACE,NONE,etc) ....,.... FURNACE 12> COOLING SYSTEM NAME (HEATPUMP,NONE.etc) ........ AC 13> VENTILATION SYSTEM NAME (NATURAL,NONE,etc) ..... NATURAL 14> HEATING MODE THERMOSTAT NAME (HEATCNST,etc) .... HEATCNST 15) COOLING MODE THERMOSTAT NAME (COOLCNST,etc) .... COOLCNST 16> HVAC SIZING: NUMBER OF PEOPLE .................. 4 17) HVAC SIZING: APPLIANCE GAIN (Btu) .............. 1200 18) HVAC SIZING: INFILTRATION (TIGHT.MED.IUM.LOOSE) . LOOSE OPAQUE SURFACE DATA #) NUMBER OF SURFACES (30 maximum) ................. 15 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE (sgft) (Btu/hr (deg) (deg) TIVITY NAME -sf-F ) (frac) ---1----- ---2---- ---3---- ---4---- ---5---- -_ 6---- ---7---- 1> FRNTWALL 108 .09 0 90 0.5 HOUSE 2> RGHTWALL 10 .09 -90 90 0.5 HOUSE 3> BACKWALL 14.4 .09 180 90 0.5 HOUSE 4) LEFTWALI 191 .09 90 90 0.5 HOUSE 5> LEFTWAL2 147 .09 45 90 0.5 HOUSE 6> LEFTWAL3 235 .09 135 90 0.5 HOUSE 7> GARGWALL 300 .09 0 90 0.0 HOUSE 8> FRNTDOOR 20 .46 90 90 0.5 HOUSE 9> GARGDOOR 20 .52 0 90 0.0 HOUSE 10> FLOOR 724 .10 .0 0 0.0 HOUSE 11) DROPCLGI 533 .03 O O 0.5 HOUSE 12> BEAMCLGI 171 .05 O 27 0.5 HOUSE 13) BEAMCLG2 204- .05 180 27 0.5 HOUSE 14) KNEEWALL 62 .08 0 90 0.0 HOUSE 15) EXPFLOOR 143 .05 0 0 0.0 HOUSE GLAZING SURFACE DATA GLAZING SURFACES #) NUMBER OF SURFACES (.30 maximum) ................. 6 Page 3 < < < MICROPAS2 v2.1 File -87033 Weather-CZ4 Program -FORMAT > > > Run -87033 Project -LOT 3 PLAN B Date -02/25/87 NAME AREA U -VALUE AZIMUTH TILT NUMBER ZONE TREAT - (soft) (.Btu/hr (deg) (deg) OF NAME MENT -sf-F) PANES NAME ---1---- --2---- ---3---- ---4--- --5--- --6--- ---7---- ---8---- 1> FRNTGLI 32 .65 0 90 2 HOUSE DRAPE 2> BACKGLI 104. .65 180 90 2 HOUSE DRAPE 3> LEFTGLI 29 .65 90 90 2 HOUSE DRAPE 4> LEFTGL2 29 .65 45 90 2 HOUSE DRAPE 5> LEFTGL3 37 .65 135 90 2 HOUSE DRAPE 6> SKYLITE 8 .70 180 27 2 HOUSE SKYSH GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 2 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT LEN? HIGH FACT FACT NAME FACT NAME ---.1---- --2-- --3--- --4-- --5-- --6-- ---7---- ---8---- --9-- ---10--- 1> DRAPE 0 0 0 1 .75 NONE 0 0 NONE 2> SKYSH 0 0 0 1 .55 NONE 0 0 NONE MASS DATA #> NUMBER OF MASSES (10 maximum) ................... 0 SYSTEMS DATA ENERGY COSTS 1> FUEL COST (dollars/therm) ,....................... 0.0 2> ELECTRICITY COST (dollars/kWh) .................. 0.0 HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ........... 1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION ---1-___ __-2---- ---3---- ----4---- ---5---- ------6----- 1> FURNACE FUEL .71 UNLIMITED 0 ATTIC COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) ........... 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Btu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION -- 1---- --- 2---- ----3---- ---4---- ---5---- ---6---- -----7----- 1> AC 8.0 UNLIMITED 0 0 0.2 ATTIC Page 4 < < < MICROPA52 v2.1 File -87033 Weather-CZ4 Program -FORMAT > > > Run -87033 Project -LOT 3 PLAN B Date -02/25/87 VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (soft) (soft) (ft) (deg) IENCY IENCY ---1---- --2-- ---3--- --4-- --5--- --6--- _-7 -- ---8--- --9--- --10-- 1> NATURAL 0 0 0 24 24 8 135 1.0 1.0 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ---1-------2------3------4------5------6------7------8---- 1> HEATCNST 65 80 80 0 0 0 NONE 2> COOLCNST 65 80 65 0 0 0 NONE SCHEDULE DATA #> NUMBER OF HOURLY SCHEDULES (10 maximum) ......... 1 HOURLY SCHEDULE 'INTERNAL' 1> NAME (INTERNAL,SETBACK,etc) ..................... INTERNAL 2> HEATING (ON,OFF,AUTO,OPEN,CLOSED,UP,BACK,RAMP.frac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0.026 7. 0.038 8. 0.059 9. 0.056 10. 0.060 11. 0.059 12. 0.046 13. 0.045 14. 0.030 15. 0,028 16. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22. 0.055 23. 0.044 24. 0.027 3> COOLING (ON,OFF,AUTO,OPEN,CLOSED,UP,BACK,RAMP,frac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0.026 7. 0.038 8. 0.059 9. 0.056 10. 0.060 11. 0.059 12. 0.046 13. 0.045 14. 0.0130 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22. 0.055 23. O.044 24. 0.027 White Eagle Subdivision L -3 Package E Analysi,-,. e I < t t MICR0PAS2 v2.1 File-87033AB Weather-CZ4 Program -SUMMARY > > > Run-87033AB Protect -LOT 3 PACKAGE E Date -02/25/87 M I C R O P A S 2 V2.1 PC -DOS 8087 - 07/18/86 Calculations BY: BUILDERS ENERGY SERVICES 565 CHAPMAN COURT SANTA CLARA CA 95050 (40.3) 984-5398 PROJECT DATA Run Title ...................... 87033AB Project Title ........................... LOT 3 PACKAGE E Owner's Name ..................... „...... PETER G SHUTTS Site Location ........................... CUPERTINO Building Type ........................... CLUSTER DESIGN DATA Floor area (.soft) ................„.„.... 1610 Glazing area (raft) ..........„„..,.„...., 322 Glazing percentage (%) ,..,.......... .... 20% Glazing UA (Btu/hr-F1 .................... 209 (36.4%) Opaaue UA (Btu/hr-F) .................... 190 (33.1%) Infiltration UA (Btu/hr-F) .......,.,..., 175 (30.5%) Total UA (Btu/hr,-F') ......... ............ 574 (100%) MECHANICAL SYSTEMS Heating System .......................... FURNACE Cooling System .......................... AC Ventilation System ...................... NATURAL CLIMATE DATA Weather Data Location ....... SUNNYVALE CA 61 ESOL/RED Average Temperature (F) ...... _ ......... 57 Minimum Temperature (F) ................. 32 Maximum Temperature (F) .... „....... ..... 90 Page 2 < < < MICROPAS2 v2.1 File-87033AB Weather-CZ4 Program -SUMMARY > > > Run-87033AB Project -LOT 3 PACKAGE E Date --02/25/87 ------------------- PERFORMANCE SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST (kBtu) (kBtu/hr) (kBtu) (kWh) ($) --------- -------- -------- -------- --------- BUILDING Heating 13931 15.7 19620 0 $0 Cooling -9309 -30.4 980 $0 Venting 0 $0 Totals 19620 980 $0 ----------------------------------------------------------- ------------------------ ENERGY BUDGET COMPARISON Fuel Cost = $0.000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu "" Peak season(s) not simulated - Check peak. loads XX* Energy Budgets valid ---- BUDGETS ------------ CONSUMPTION ------- SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (kBtu/st) ($) ($) ($l BUILDING: 1610 -------- -------- --------- sf of Conditioned Floor Area -------- -------- Heating 19620 12.2 $0 $O $0 Cooling 10024 6.2 $0 $0 Venting O 0.0 $0 $0 Totals -------- -------- -------- 29644 18.4 -------- $0 $0 --.------ $0 ($0.00/sf) CALIF. STANDARDS BUDGET: Multi -Family Cluster in Climate Zone 4 Heating 13363 8.3 $0 $0 $0 Cooling 7728 4.8 $0 $0 Totals -------- -------- -------- 21091 13.1 -------- $0 $0 -------- $0 -------------------------------------------------------------------- ($0.00/sf) Fuel Cost = $0.000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu "" Peak season(s) not simulated - Check peak. loads XX* Energy Budgets valid page 1 < < < MICROPAS2 v2'1 Filc-87033AB Weather-CZ4 Program -FORMAT > > > Run-87033AB Project -LOT 3 PACKAGE Date -02/25/87 Inout file '87033AB, last edited on 02/25/87 CONTROL DATA ============ RUN DATA 1> RUN TITLE (25 char) '''.''''''''''''''''''''''''' 87O,33AB 2> PROJECT TITLE (25 char) ',''''''''''.''.'.''..'.' LOT 3 PACKAGE E .3> OWNER'S NAME (25 char) .... ''..,'''''.''''...'''' PETER C SHUTTS 4> SITE LOCATION (25 char) ','.'.''''.'.'..''''.'.'. CUPERTINO 5> BUILDING TYPE (5INCLE,CLUSTER,DESIGN.NONE) '.'.'. CLUSTER SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deo) ,'.'..'.''.''''.. 2> BUILDING ROTATION (deg.0=S,90=W,-9O=E.180=N] ''.' 3> NUMBER OF WARMUP DAYS (10 maximum) '''''''.'''.'' 4> WEATHER DATA FILE NAME (CZ12,*tc) 5> WIND CORRECTION FACTOR (fraction) ..'''...''.,',. 6> HEATING MODE GROUND REFLECTIVITY (fraction) ..''. 7> COOLING MODE GROUND REFLECTIVITY (fraction) .'''' 8> GROUND TEMP DAILY FACTOR (fraction) '''.''''.'''' 9> GROUND TEMP MONTHLY FACTOR (fraction) '''''''.,'. 10> GROUND TEMP ANNUAL FACTOR (fraction) ..''''''.,' 11> HVAC SIZING: LOCATION (25 char) '.''''.''''.'''' SIMULATION CONTROL DATA 37'3 -1J5 3 CZ4 _(41 '2 '2 O 1 O CUPERTZNO #> NUMBER OF SIMULATION SEASONS [8 only) ...... 8 SEASON SIMULATE NAME SEASON ------1------ ---2---- 1> WINTER YES 2> WINTER/SPRING YES 3> $PRING/SUMMER YES 4.> SUMMER YES 5> SUMMER/FALL YES 6> FALL/WINTER YES 7> PEAK HEATING NO 8> PEAK COOLING NO GENERAL OUTPUT �PECIFICATION6 1> COPY OF INPUT DATA (YE5.N0.FORMAT) '.,'.'''''.'.' FORMAT 2> SUMMARY (YE5,N0) .''.,'..''.',''.'..''''',''.'.', YES 3> FORM 2 iYES.NO) ..''.''.''.''..'..'..''.'''.''''. NO 4.> HVAC SIZING: CALCULATIONS (YES,N0) .''.''.,'.,..' NO ZONE DATA ========= #> NUMBER OF ZONES (5 maximum) .'.'''''.''.'.''.''., 1 Page 2 < < < MICROPAS2 v2.1 File-87033AB Weather-CZ4 Program -FORMAT > > > Run-87033AB Project -LOT 3 PACKAGE E Date -02/25/87 ZONE 'HOUSE' 1> NAME (HOUSE.SUNSPACE.etc) ....................... HOUSE 2> FLOOR AREA (saft) ............................... 1610 3> VOLUME (cuft)................................... 14812 4.> HEAT CAPACITY (Btu/F) ........................... 3415 5> INTERNAL GAIN (Btu/dav) ......................... 72665 6> INTERNAL GAIN SCHEDULE (INTERNAL.NONE.etc) ...... INTERNAL 7> INFILTRATION BASE ACH (ac/hr) ................... .66 8> INFILTRATION TEMPERATURE ACH (ac/hr-F) .......... 0 9> INFILTRATION WIND ACH (ac/hr-mph) ............... 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX.NONE.etc) ... NONE 11> HEATING SYSTEM NAME (FURNACE.NONE,etc) ......... FURNACE 12> COOLING SYSTEM NAME (HEATPUMP.NONE.etc) ........ AC 13> VENTILATION SYSTEM NAME (NATURAL,NONE,etc) ..... NATURAL 14> HEATING MODE THERMOSTAT NAME (HEATCNST.etc) .... HEATCNST 15> COOLING MODE THERMOSTAT NAME (COOLCNST.etc) .... COOLCNST 16> HVAC SIZING: NUMBER OF PEOPLE ............... 4 17> HVAC SIZING: APPLIANCE GAIN (Btu) .............. 1200 18> HVAC SIZING: INFILTRATION (TIGHT.MEDIUM.LOOSE) . LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) ................. 10 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE (saft) (Btu/hr (deg) (deg) TIVITY NAME -sf -F ) (frac) ---1-------2-------3-------4-------5---- ---6-------7---- 1> FRNTWALL 59.5 .09 0 90 .5 HOUSE 2> BACKWALL 204.5 .09 180 90 .5 HOUSE 3> LEFTWALL 550.5 .09 90 90 .5 HOUSE 4> GARGWALL 300 .09 0 90 0 HOUSE 5> FR(VTDOOR 20 .46 90 90 .5 HOUSE 6> GARGDOOR 20 .52 0 90 0 HOUSE 7> FLOOR 724. .039 0 0 0 HOUSE 8> DROPCLGI 867 .034 0 0 .5 HOUSE 9> KNEEWAL.L 62 .09 0 90 0 HOUSE 10> EXPFLOOR 143 .05 0 0 0 HOUSE GLAZING SURFACE DATA GLAZING SURFACES #> NUMBER OF SURFACES (30 maximum) ................. 4 NAME AREA U --VALUE AZIMUTH TILT NUMBER ZONE TREAT- (sqft) (Btu/hr (deg) (.deg) OF NAME MENT -sf-F) PANES NAME ---1---- --2--- ---3---- ---4--- --5--- --6--- --8---- ---7---- --- 8---- 1) 1> SGLASS 80.5 .65 0 90 2 HOUSE DRAPE 2> EGLASS 80.5 .65 -90 90 2 HOUSE DRAPE 3> WGLASS 80.5 .65 90 90 2 HOUSE DRAPE 4> NGLASS 80.5 .65 180 90 2 HOUSE DRAPE Page 3 < < < MICROPAS2 v2.1 File-87033AB Weather-CZ4 Program -FORMAT > > > Run-87033AB Project -LOT 3 PACKAGE E Date -02/25/87 GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 1 NAME GLAZ OVER-- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME ---1---- ---2-- --3-- --4-- --5-- --6-- ----7---- ---8---- --9-- ---10--- 1> DRAPE O 0 0 1 .75 NONE O O NONE MASS DATA #> NUMBER OF MASSES (10 maximum) .................... 0 SYSTEMS DATA ENERGY COSTS 1> FUEL COST (dollars/therm) ....................... O.0 2> ELECTRICITY COST (do llars/kWh) .................. O.0 HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ....,...... 1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION ---1---- ---2---- --- 3---- ---- 4.---- ---5---- -----6----- 1> FURNACE FUEL .71 UNLIMITED O ATTIC COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) ........... 1 NAME SEASONAL. COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Btu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION ---1-------2--------3-------4-------5-------6---------7----- 1> AC 9.5 UNLIMITED 0 0 .2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (safe) (raft) (ft) (deg) IENCY IENCY --_1---- --2-_--10-- 1> NATURAL O 0 O 32 32 2 135 1 1 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 Page 4 < < < MICROPAS2 v2.1 File-87033AB Weather-CZ4 Program -FORMAT > > > Run-87033AB Project -LOT 3 PACKAGE E Date -02/25/87 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ---1---- ---2--- ---3---- ---4--- ---5--- ---6--- ---7--- ---8---- 1> HEATCNST 65 80 80 O O 0 NONE 2> COOLCNST 65 80 65 0 0 0 NONE SCHEDULE DATA #> NUMBER OF HOURLY SCHEDULES (10 maximum) ......... 1 HOURLY SCHEDULE 'INTERNAL' 1> NAME (INTERNAL,SETBACK.etc) ..................... INTERNAL 2> HEATING (ON.OFF,AUTO.OPEN.CLOSED.UP,BACK,RAMP,frac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 S. 0.021 6. 0.026 7. 0.038 S. 0.059 9. 0.056 10, 0.060 11. 0.059 12. 0.046 13. 0.045 14. 0,030 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.066 20. 0.052 21. 0.050 22. 0.055 23. 0.044 24. 0.027 3> COOLING (ON.OFF,AUTO,OPEN.CLOSED,UP,BACK,RAMP,frec) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0.026 7. 0.038 8. 0.059 9. 0.056 10. 0.060 11. 0.059 12. 0.046 13. 0.045 14. 0.030 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22. 0.055 23. 0.044 24. 0.027 Whit - Eagle Subdivision I_ o t 4. Mi.croDas Anal),sis Page 1 < < < MICROPAS2 v2.1 File -87034 Weather-CZ4 Program -SUMMARY ) ) ) Run -87034 Protect -LOT 4 PLAN C REV Date -02/26/87 M I C R 0 P A S 2 v2.1 PC -DOS 8087 - 07/16/86 Calculations BY. BUILDERS ENERGY 'SERVIr"ES 565 CHAPMAN COURT SANTA CLARA CA 95050 (408) 984-5398 PROJECT DATA Run Tittle .,, ...... ..,,................... 47034 Pro.lect Title LOT 4. PLAN C REV Owner's Name ........... ............... PETER G SHUTTS Sime Location ....... C(1PERT1.N0 Building TYrae ............................... CLUSTER DESIGN DATA, Floor area (saft1 ,„...................... .1656 Glazing: area (soft) .................. 208.5 Glazing r:)ercentage (%l 12.6% Glazing UA (Btu/hr-r1 „.,..,.. 135 (22.4%) Onaaue UA (Btr_r/hr-F) ,..................„. 302 (50.2%) Infiltration UA (Btu/hr-F) ........... 1h5 (27..4%1 Total UA ( Btu/hr-F ) ......... 1.. 6Li2 1100%) 1'°1E C:HA[,,IICAL Y'S TEMS Heat.irica `ti stem , ..... ......... ,.. ... .. ,.. . FURNACE Cool Inca SYstern „ . „ . AC Ventilation System „.............. NATURAL CLIMATE DATA Weather Data Location .. ...,.. ....... SUNNYVALE CA 61 ESOL/RED Average Temperature (F) ......... ..,..... . 57 Minimum Temrerature (F) ..,....„... 32 Maximum TemiDerature (F) 90 Page 2 < < < MICROPAS2 v2.1 File -87034 Weather-CZ4 Proqram-SUMMARY > > Run -87034 ProAect-LOT 4 PLAN C REV Date -02/26/87 ------------------- PERFORMANCE SUMMARY ----- LOADS ------------ CONSUMPTION ------- ANNUAL_ PEAK FUEL EL..ECTRIC COST (kBtu) (kBtu/hr) fk.Btu) (kWh) ($) BUILDING Heating 17058 16.6 24026 0 $0 Cooling -6617 -25.3 827 $0 Venting 0 $0 Totals 24026 827 $0 ------------------------------------------------------------- ------------------------ ENERGY BUDGET COMPARISON Fuel Cost = $0.000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu xxx Peak seasons) not simulated - Cheek peak loads AX Energy Budgets valid ---- BUDGETS ---- ------ CONSUMPTION ------ SOURCE SOURCE FUEL ELECTRIC TOTAL f kBtu) (kBtu/sf) ($1 ($) ($1 BUILDING: 1656 ------------------------- sf of Conditioned Floor Area --------- -------- Heating 24026 14.5 $0 $0 $0 Cooling 8661 5.1 $0 $0 Venting 0 0.0 $0 $0 Totals 32487 19,.6 $0 $O $0 ($0.00/ sf ) CALIF. STANDARDS BUDGET: Multi -Family Cluster in Climate Zone 4 Heating 13705 8.3 $0 $0 $0 Cooling 7949 4.8 $0 $0 Totals 21694 13..1 $0 $0 $0 -------------------------------------------------------------------- ($0.00/sf) Fuel Cost = $0.000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu xxx Peak seasons) not simulated - Cheek peak loads AX Energy Budgets valid Page 1 < < < MICROPAS2 v2.1 File -87034 Weather-CZ4 Program -FORMAT > > > Run -87034 Project -LOT 4 PLAN C REV Date -02/26/87 Input file '87034' last edited on 02/25/87 CONTROL DATA RUN DATA 1) RUN TI7"LE (25 char) ...........,...,............. 37034 2> PROJECT TITLE 125 char) ......................... LOT 4 PLAN C REV 3> OWNER'S NAME (25 char) ..,.......,.......,....,..... PETER G SHUTTS 6> SITE LOCATION 125 c=har) .............,.,...,........ CUPERTINO 5) BUILDING TYPE (SINGLE.CLUSTER.DESIGN.NONE1 ...... CLUSTER `;ITE AND WEATHER DATA 1) BUILDING LATITUDE (decimal dea) ,................ 37.3 2> BUILDING ROTATION (daQ.0=S.90=W.-90=E.180=N) -135 3) NUMBER OF WARMUP DAYS (10 maximum) 3 4> WEATHER DATA FILE NAME (CZ12.etc) ............... CZ4 5) WIND CORRECTION FACTOR (fraction) ............... .60 6> HEATING MODE GROUND REFLECTIVITY 1fraction) .2 7) COOLING MODE GROUND REFLECTIVITY (fraction) ..... 0.2 8) GROUND TEMP DAILY FACTOR (fraction) .... _ _ ..... 0 9) GROUND TEMP MONTHLY FACTOR (fraction) ..... .. 1 10) GROUND TEMP ANNUAL FACTOR (fraction) ..,......... 0 11) HVAC SIZING: LOCATION 125 char) ................ CUPERTINO SIMULATION CONTROL DATA #) NUMBER OF SIMULATION SEASONS (3 only) ........... 8 SEASON SIMULATE NAME SEASON ------1------ ---2---- 1 ) WINTER YES 2> WINTER/SPRING YES ?> SPRING/SUMMER YES 4> SUMMER YES 0) SUMMER/FALL. YES 6> FALL/WINTER YES 7) PEAK HEATING NO 34 PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1 > COPY OF INPUT DATA ( YES. N� �. FORMAT ) „ ... FORMAT ) SUMMARY (YES,NO)................................ YES 3> FORM 2 (YES.NO).......... .....,........,........... NO 4) HVAC SIZING: CALCULATIONS (YES.NO) .............. NO ZONE DATA #) NUMBER OF ZONES (5 maximum) ..................... 1 i Page 2 C C ( MICROPAS2 v2.1 File -87034. Weather-CZ4. Program -FORMAT > > > Run -87034. Project -LOT 4 PLAN C REV Date -02/26/87 ZONE 'HOUSE' 1> NAME (HOUSE.SUNSPACE,etc) ....................... HOUSE 2> FLOOR AREA (raft) .........,.........,.............. 1656 3> VOLUME (cuftl ................................... 13973 4> HEAT CAPACITY (Btu/F) .......,.....,...,,... 34.84. 5> INTERNAL GAIN (Btu/day) .,...,..............,........ 72665 6> INTERNAL GAIN SCHEDULE (INTERNAL.NONE.etc) ...... INTERNAL 7> INFILTRATION BASE ACH (ac/hr) ... ....... .66 8> INFILTRATION TEMPERATURE. ACH (ac/hr-FJ .......... 0 9> INFILTRATION WIND ACH (ac/hr-mph) 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX.NONE.etc) ... NONE ll> HEATING SYSTEM NAME (FURNACE.NONE,etc) ......... FURNACE 12> COOLING SYSTEM NAME (HEATPUMP,NONE.e:tc) ........ AC 13> VENTILATION SYSTEM NAME (NATURAL,NONE,etc:) .,.. NATURAL 14.) HEATING MODE THERMOSTAT NAME (HEATCNST.etc) ... HEATCNST 15> COOLING MODE THERMOSTAT NAME (COOLCNST.etc) ,_w, COOLCNST 16> HVAC SIZING: NUMBER OF PEOPLE .................. 4� 17> HVAC SIZING: APPLIANCE GAIN (Btu) ................ 1200 18> HVAC SIZING: INFILTRATION (TI.CHT.MEDIUM.LOOSE.) . LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) ................. 12 6 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE ZONE TREAT- I.saft) (Btu/hr (deg) (deg) TIVITY NAME OF NAME MENT -sf-F ) ( frac ) PANES NAME ---1---- ---6---- ---7----- 1> FRNTWALL 210 .09 0 90 0,.5 HOUSE 2> RGHTWALL 448 ,09 -90 90 0.5 HOUSE :3> BACKWALL 006 .09 180 90 0.5 HOUSE 4> LEFTWALL 288 .09 90 90 0.5 HOUSE 5> GARGWALL 164 .09 0 90 0.0 HOUSE 6> FRNTDOOR 20 .46 0 90 0.5 HOUSE 7> GARGDOOR 20 ,52 0 90 0.0 HOUSE 8> FLOOR 7.31 ,10 0 0 0.0 HOUSE 9> DROPC:LG1 867 .05 0 0 0.5 HOUSE 10) BEAMCLGI 1:34 .05 180 27 0.5 HOUSE 11) KNEEWALL 137 .08 0 90 0.0 HOUSE 12> EXPFLOOR 24.0 .05 0 O 0.0 HOUSE GLAZING SURFACE DATA GLAZING SURFACES #> NUMBER OF SURFACES (30 maximum) ..... ........... 6 NAME AREA U -VALUE AZIMUTH TILT NUMBER ZONE TREAT- (.sgft) (Btu/hr (deg) (deg) OF NAME MENT -sf-F) PANES NAME ---1---- --2--- ---3---- ---4--- --5--- --6--- ---7---- ---3---- 1.> FRNTGLI 22 .65 O 90 2 HOUSE DRAPE 2> RGHTGLI 32 .65 -135 90 2 HOUSE DRAPE 3> RGHTGL2 68 .65 -90 90 2 HOUSE DRAPE Page 3 < < < MICROPAS2 v2.1 File -87034 Weather-CZ4 Program -FORMAT > > > HEATING Run -87034 Pro..7ect-LOT 4 PLAN C REV Date -02/26/87 OVER- HEAT COOL 4> RGHTGL3 44.5 .65 -45 90 2 HOUSE DRAPE 5> BACKGLI 38 .65 180 90 2 HOUSE DRAPE 6> SKYLITE 4 .70 0 27 2 HOUSE SKYSH GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ................ ....,....... 1 2 HEATING SEASONAL NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER NAME HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE -----6------ C:HT LEN(: HIGH FACT FACT NAME S. 0 FACT NAME O 0.2 ATTIC 1.) DRAPE O 0 O 1 .75 NONE O O NONE 2> SKYSH 0 0 0 1 .5.5 NONE 0 0 NONE MASS DATA #> NUMBER OF MASSES ( 10 maximum) „ ............. 0 SYSTEM -S DATA ENERGY COSTS 1,> FUEL COST ( dol lars/therrn ) ........................ 0.0 2> ELECTRICITY COST (dollars/kWh) .................. 0.0 HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ....,....... 1 NAME HEATING SEASONAL HEATING DUCT SIZING: SIZING. FUEL EFF OR CAPACITY LOSS DUCT GAIN NAME COP (Btu/hr) FRACTION LOCATION __-1---- __-2---- ---3---- -----4- -- ---5---- -----6------ 1> FURNACE. FUEL .71 UNLIMITED 0 ATTIC COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maxirnum) ...„........ 1 NAME SEASONAL COOLING LATENT DUCT SIZING. SIZING: EER CAPACITY LOAD GAIN LATENT DUCT ( i3t_a/14h ) (Btu/hr) FRACTION FRACTION LOAD L._OCATION ----2---- -----3---- ---4----- ---5---- ----6---- ----- 7----- 1. > AC S. 0 UNLIMITED O O 0.2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTE111S (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm ) ( W/cfm ) ( F ) ( soft ) ( raft ) ( ft ) ( dep ) IENCY IENCY ---1---- --2-- __-3--_ --4-- --5- - --6--- ---7-- ---8--- --9--- --10-- 1> NATURAL_ 0 0 0 21 21 8 -1.35 1.0 1.0 Paste 4 < < < MICROPAS2 v2.1 File -87034 Weather-CZ4 Program -FORMAT > > > Run -87034 Prolect-LOT 4 PLAN C REV Date -02/26/87 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ........ 2 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE fF) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ---1--__ __-.2--- ---3--- ---4--- ---5--- ---6--- ---7--- ---8---- 1> HEATCNST 65 80 80 0 0 0 NONE 2> COOLCNST 65 80 65 0 0 0 NONE SCHEDULE DATA #> NUMBER OF HOURLY SCHEDULES (10 maximum) .... 1 HOURLY SCHEDULE. 'INTERNAL' 1> NAME (INTERNAL.SETBACK.etc) ...................... INTERNAL 2> HEATING (ON.OFF.AUTO.,OPFN.CLOSED. UP, BACK . RAMP. frac) 1. 0.024 2. 0.022 3.. 0.021 4. 0.021 5. 0.021 b. 0.026 7. 0.0 38 8. 0.05 9. 0.0.56 10„ 0.060 11. 0.059 12. 0.046 13. 0.045 14. 0.030 15,. 0.1--128 16. 0.0-31 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22. 0.055 23., 0.044 24. 0.027 3> COOLING (ON,OFF.AUTO.OPEN.CLOSED.UP,BACK.RAMP.frac) 1. 0.024 2. 0.022 3. 0„021 4„ 0.021. 5 .. 0.021 6. 0.026 7. 0.038 113. 0. 059 9. cl . 056 1.0 . 0 „ 060 11. 0.059 12. 0. 04.6 13. 0.045 14. 0.030 15. 0.028 16. 0.0:31 17. 0.057 18. 0.064. 19,, 0.064 20. 0.052. 21. 0.050 22.. 0.055 23. 0.044 24. 0.027 White Eagle Subdivision Lot 4. Package E Analvsis Page.t < MICRCjPA2-1.1 Fate-57034.AB Weather-CZ4. Program -SUMMARY Run-8.7034AB Pro.7ect--I-OT 4 PACKAGE E Date -02/26/87 I''I I C R O F A !�1 PC-ClCS SOc.. - 07/ Ca 1-u.1at ions By F_'•UIL.DEF'-. Er,IERGY' SERVICE 565 CHAPMAN COURT "ANTA CLARA CA ca 5C,5Cl 14ID FR+j.7ECT DATA Faun Tit 1e %J.3 rro.i t:T i.t i „ :: ,.. .:::...... ,. .. „ ,: Lr +T u. PACKAGE E +owner's Name „..:„,..„:. ,,:...,::„,.......: .:.....:„ FETER G HUTTS --i t.e Location „ ..:.. ,.......... :, .. „ :, :, ,. . CUPERT INI0 FSui 1d.tng Tyrne C1_USTER DE::'.TGh( IIATA F tocnr area I .gat f. 1 „ .. ,.. ,. „ „ . „ . 1f 56, G A. a,- i. n cl a r a + := f t: ,-Lazing r-�erc�ntage (% 1 B t. i_a /h r - F Opaaue UA ( Btu/ hr -F ) X30 1 37,.7 1 of i ltrat ion UA ( Btu/hi--F l „ ,.:. 16 r y'7 T,.,t:at UA I F-1)t1_I/hr-F 1 610 ( 100% 1 f'IEC HAhdIC.HL C�'Y ��'I'EI.1�� Heat in<,j '�;v s tem „ ,.. ., „ ,. ... ,. ., ,: „ .. v F( iF'h.IACE r 1 i n r S,/ t. e m lent i tat ic.,n S wstern „ . . ,.., .. , , „ , ., ., ., NAT+.+CAI_ CLI MATE DATA IA,- athe=r C1ata I_ocat:i c,n „ . „ ., .. , ., „ „ ,. ,.. _,UNNYVALi` CA 61 Et-OL/RED Average Ter, r:,,srature (Fl 57 M.inirn_m T z-mrerat1-4r,_• I F 1 „ ..... 32 Max i. mum T e ryi r_Aer at _arm, I F I _ __ Pagk= 2 < �ITCRCIFA 2,. 1 F 1,c- ^7034.AB Weather-CZ4. Program -SUMMARY ? ) F un -',7034 AB Project -LOT 4 PACKAGE E Dat(n-02/26/37 ------------------- PERFORMANCE ~'PUMMAR) ----- L.0AC,'_; ----- ------ CCIN�UMPTION------- ANNUAL PEAK FUEL ELECTRIC COST I k"Btu 1 f k'.BtLa/hr' 1 f. k.Btu 1 I k.IAII-) ) f$ 1 FUT.LC1 1\1!� Heatinc! 156/'? 11 . = 22Cl6C, 0 0 r: 1 into -x54:3 -31.. 0 1005 $0 Ventin_a Cl $C' Total 4. ?2OCC 11005 g,0 ------------------------ ENEF..(:'Y jf:.JU1GET COMPARISI7N Friel Cost = X80., 000 r.�r Therm f 1 Thi _rrn = 100 k.Btu I E l F c t:r--d c. i t C:c ,t = 3,n.. 0ClC' ner khlh 1 k.Wh x 3 Y ', < :l = 1 Source kPtu not c.irfi dated - shark r>eak 1 c] w •e x ;r. c Yl e? C" c�', R• i� (J �' i? t � '�J "r,�` 1. ;1 (� ---- >✓',I.1DGET:. _ __ ------ CO 1\1SI_IMFT7UI\1 ------ �OIJF.CE nIJRCE FUEL ELECTRIC TOTAL f kEtLI 1 1 k.6t1.1/._'.f 1 f$ 1 f 3. I f$) BUIL C 11\1;; lt,=,F. ,�i C)1` (-ndstioned Fl.oc)r Are,& H.� +t .in�a ?.�1�60 .13. 3 $0 :60 $0 C. n , l 7 n c! 1. CI �2 % 1. 6 $ C) $ C) Vent! 1n'7 ID 0., 0 $0 $0 T,:-)ta1 3'L3.37 lla„ 5 $n 0 $0 1 $0. 00/ Sf 1 CALIF.,=�TANDARn�; SU111--�ET: ML.11ti-FamiIr Clu--terxn C1.amate: Zone 4. H,=at ince 1 13 7 4.5 3, 3 $0 $0 0 Coaling 7u4.4 4.„ - s0 $CI Tot.a1 166? 13., 1 $0 $0 $0 f $0,. C, I.1r':f 1 Friel Cost = X80., 000 r.�r Therm f 1 Thi _rrn = 100 k.Btu I E l F c t:r--d c. i t C:c ,t = 3,n.. 0ClC' ner khlh 1 k.Wh x 3 Y ', < :l = 1 Source kPtu not c.irfi dated - shark r>eak 1 c] w •e x ;r. c Yl e? C" c�', R• i� (J �' i? t � '�J "r,�` 1. ;1 (� Pape 1 i MICROPA52 v2.1 File-57054.AB Weather -CM Program -FORMAT i > Run-87034AB Project -LOT 4 PACKAGE E Date -02/26/87 Inmut file 37034.AB' last edited on 02/26/87 CONTROL DATA RUN DATA 1> RUN TITLE f25 char) ... „ .:........ ,. ,........ ,....... . 7034AB 1 PROJECT TITLE 125 char' ..., „ .... ,. „ . „ , „ ..... ,.., ., ,.. „ ,... „ .. LCAT & PACKAGE E 31 OWNER'S NAME f25 char' .,.,.,.,..,....„......„.,.....,„„... PETER G SHUTTS G) SITE LOCATION 1 2, _, char) .. ,. ,. ,... „ ., ...... ...: ... . .. .... .... .... C U F E R: T I N C 5> BUILDING TYPE_ ( SINGLE. CLUSTER. DESIGN. NONE) . „ .. , ,. CLUSTER SITE AND WEATHER DATA 1> BUILDING LATITUDE f dec.imal den) .... „ „ „ ...... ,..... „ 21 BUILDING ROTATION f dew. 0=S. QCT=W. -` 0=E-. 1 =.0-N f ., ,. . NUMBER OF WARMUP DAYS ) 10 maxi mum l .., .. , .., . ,. „ . .. .. G) WEATHER DATA FILE NAME f 0412. etc: f r) WIND CORRECTION FACTOR f fract ion l , ....... , .. „ ,... . 6) HEATING MODE GR:CIiJh.D PE:FL.ECT7VITY 'fraction! ) COOLING MOUE GROUND REFLECTIVITY f fraction 1 .... „ 5) GROUND TEMP DAILY FACTOR f -fraction f .. ,. . % 'GROUND TEMP MONTHLY FACTOR f fraction J . ,...., ., „ . „ ,.. . 101 GROUND TEMP ANNUAL.. FACTOR !fraction, .. ,. ,. ,.. . „ ., ,. . III HVAC SIZING: LOCATION f25 char! ........ . , ..... „ ... ,. SIMULATION CONTROL DATA V NUMBER OF SIMULATION SEASONS, ( S only l .. . ., ... .... ,. SEASON SIMULATE NAME SEASON ----- 1 -------- _---- 1> WINTER YE 2> WINTt=R/'SPRING YE 3V 5 PR I NG / SUMMER YE` 41 TUMMER YEF. 53 5t, NMEF / FALL YF_`, 0? FALL,/WINTER 'rE 70 TEAK HEATING ILIO 0; PEAK COOLING NO GENERAL OUTFUT `=:FECIFICATIONS 37, T -135 CZ4 .4 1 O CUPERTINO I, COF 1 OF INPUTDATA ' YE .ISIo. FORMAT) ..... .. .. .. .... ... „ ,. „ FORMAT SUMMARY f'rE9.NO) ................................ Y&:, 31 FORM 2 fYL .N -i) ........,......... ...............„„.„.,..„... „.. NO 4> HVAC SIZING: CALCULATIONS f YF_S. NO) ..., ..... . . .. NO ZONE DATA #> NUMBER i1F ZONES, ( 5 maximum) .. ..... ...... ..... ,... ,. „ 1 Fagg 2 < < MICROPA_2 x,2:,1. File-47035AB Leather-CZ4. Fr•oaram-FORMAT ; Rein-87034AS Project -LOT 4 PACKAGE E Date -02/26/87 ZONE 'HOUSE' 1> NAME fHOUSE.5UNSPACE,stcl ... ........ „,..:,....... HOUSE 21 FLOOR AREA isaft) ... ..... ....., ... ... .... .. ... ,. ,.. 1656 3) VOLUME (cuft l ... .. . . . ...: .. . . .... ..... . . .. ........... . 13973 4 ) HEAT CAPACITY (Stu/Fl ........ ..... ..... ....... .. 3684 5? INTERNAL (CAIN ( Btu/day l . , ..:.. , .. , , .. , ., . , , . , , , ... 72665 b! INTERNAL GAIN SCHEDULE I INTERNAL . NONE . et.c) .... ,. „ INTERNAL 7` INFILTRATION FAST ACH 1 ac/hr) ., „ „ . ::.:.. •: ,. :, „ . .66 r deq 1 INFILTRATION TEMFERATURE ACTH l acihr-F 1 . . , „ . ,. „ :.. : 0 9' INFILTRATION MIND ACH f ac hr-moh „ .... ,. O 10; HEAT E VC.HAN EF SYSTEM NAME f HEATEY. NONE. etc 1 ... NONE 11> HEATING SYSTEM NAME 1 FURNACE=. NONE. «etc 1 ......... FURNACE 1 ' COOLING SYSTEM NAME I HEATPUMP. NONE, etc) „ „ . . „ ., „ ., AC 13) VENTILATION SYSTEM NAME= f NATURAL. NONE. etc l ,.., „ . ,. NATURAL 145 HEATING MOUE THERMOTTAT NAME f HEATCNS T . e.tc: 1 .., „ „ HEATCNST 151 COOLING MODE THERMOSTAT NAME (COOLCNST. etc 1 .. „ „ „ COOLCNST 161 HVAC SIZING: NUMBER OF PEOPLE ,.:. „ „ ,.. .: „ „ ,. ,..., , „ ., , „ 4 17 ` HVAC SIZING: APPLIANCE GAIN (Btu) ...., .., , ..., ., „ .. 1200 1_-= ` HVAC SIZING: INFILTRATION i TI GHT . MEDIUM. LODSE) „ LOOSE OPAQUE SURFACE DATA 4) NUMBER OF SURFACES (.317 maxlmum 1 11 ... ,; NAME AREA U -VALUE AZIMUTH TILT ABSORF- ZONE NUMBER ZONE r sof l: t (Btu/hr (deg! (dee 1 TIVITY NAME. r deq 1 OF NAME -sf-F 1 f trw l • -.t-F 1 ----1---- --- > ---- --- '---- ---A------ ---5---- ---6---- ---7---- 1 )FR'NTWAL.L ---/.--- 103.7 .0Q 0 90 „ � HOUSE =) F;GHTWALL 465.2 ,00 -90 90 .5 HOUSE 3> BACKWALL 361.2 .09 iso go .5 HOUSE 4> LEFTWAL.I_ 205.2 .00 q0 Q0 .5 HOUSE 51 GARGWAL .L 164 .09 0 90 0 HOUSE _ ) F F=NTDOOR 20 .46 7 90 .5 HOUSE 7 GAR&DOOR 20 .12 .. 0 g0 0 HOUSE 0 FLOOR 731 .039 0 0 0 HOUSE 9 > DPOE~ CL C: 1 901 Ci34 0 0 .5 HOUSE 107 KNrEWAL)_ 137 .09 0 gar 0 HOUSE_ 11 l EXP LOOK 240 .05 0 0 0 HOUSE GLAZING SURFACE= DATA GLAZING SURFACES 0) NUMBER OF SURFACES (30 max imum l „ ,. ,. „ .., ., „ ........:.., ... ,; NAME AREA U --VALUE AZIMUTH TELT NUMBER ZONE TREAT- ( raft) (Btu/hr (deg, r deq 1 OF NAME MF_NT • -.t-F 1 PAN&I NAME. --2 --- ---3---- ---/.--- __^_ _ _ h--- ---7---- ---3--- 1 > SGL.AS S 02.a :, 6 0 90 2 HOUSE DRAPE 2? F_GLASS 32.3 ,.65 -OO 90 2 HOUSE DRAPE 3) WGLASS 02 .65 90 00 2 HOUSE DRAPE 4y NGLASS 22.8 .65 180 00 2 HOUSE DRAPE Page 3 C ' < MICROPAT2 v2.1 File -S 703&AB Weather-CZA Program -FORMAT Run-87034AB Project -LOT 4 PACKAGE_ F_ Date -02/26/87 GLAZING TREATMENTS #> NUMBER OF TREATMENTS ( •3O Maximum) . „ .. „ .......... 1 SIZING.7 FUEL NAME GLA; OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER ---1.--- -- . --- HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE ATT3r. GHT LEND HIGH FACT FACT NAME FACT NAME • _ ATTIC 1> GRAPE O n O 1 .75 NONE O O )`.ONE MASS DATA 4 ) NUMBER OF MASSES 110 maximum! ... ..... ..• ...... „ ... 0 SYTTEMS DATA ENER?Y C.OSTC: 11 FUEL rOr (d o 1 1 a r / t h er m 1 ... .., .. ...., .• ,. .. „ „ . „ •... ,. 0.0 ELECTRICITY COIT Ido. 0.0 HEATING SYSTEMS 4 ) NUMBER OF HEATING SYSTEMS (5 maximum) NAME HEATING 5L=A=;ONAL HEATING: DUCT SIZING.7 FUEL EFF OR CAPACITY LOSS DUCT NAME COP ( Btu/hr ( FRACTION LOCATION ---1.--- -- . --- --- 2 ---- ---- 4 --_- --- 5---- -----6----- 1> Fi..RNAC:r FUEL ,•71 UNLIMITED O ATT3r. COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) . , . ,. •. „ ... „ 1 NAME _ E.ADONAL COOLING LATENT DUCT $1 Z ING : SIZING- I.ZING-EER EER CAPACITY LOAD GAIN LATENT DUCT i Et u/ Wh 1 f Otu/hr 1 FRACTION FRACTION LOAD LOCATION! ----- 1> AC 0,5 UNLIMITED n 0 • _ ATTIC VENTILATION SYOTEM': ##; NUMBER OF VENTILATION SYSTEMS 00 maximum) . „ ,.. „ . 1 NAME FAN (=AN TE MF INLET OUTLET HIGH INLET STACK: WINE, FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC-- EFF IC: - f atm) f W/ tm.i IFI ( _.,:.eft. 1 (Sgft f f ft 1 r deq, IENCY IENCY 1- NATURAL 0 0 ri 33 3 2 1.35 1 1 THERMOSTAT SYSTEMS ##1 NUMBER OF THERMOSTAT SYSTEMS (10 maximum) .., ..., ,. 2 Pape 4 < I < MIC:ROPAti2 v2.1 File-S7034AB Weather-CZ6 Program -FORMAT > Run-370.34AB Project -LOT 4 PACKAGE E Date -02/2607 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMF TEMP SETBACK SETBACK SETBACK SCHEDULE fFl fFl (F) TEMP(Fl TEMP(F1 TEMP(F) NAME 1> HEATCNST 65 so 30 0 0 0 NONE `%) COOL.CN T 65 eo 65 0 0 0 NONE SCHEDULE DATA W NUMBER OF HOURLY SCHEDULES f 10 maximum l ......, . . . 1 HOURLY ICHEDULE INTERNAL 1 NAME (.IiNTERNAL. SETBACK, etc I . ,. ........ „ . . . ........ ... INTERNAL 2) HE.ATING (ON.OFF=.AUTO.OPEN.CL.OSED.UP.BACK.RAMP.frac.( 1.. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0„021 6,. 0.0W 7.. 0.0W &, 0.05q Q, 0.056 10. 0.060 11 :. 0.059 12. 0.046 13, 0.04 14,. 0�0 0 15. 0,.02E' It, 0.031. 17, 0. 057 13. 0.064 19. 0.064. 20. 0.052 21. 0. 050 22. 0, 055 23. 0.: 004- 26. 0,027 W COOLING (ON.OFF.AUTO OPEiN.CLOSED.UP.BACK,RAMP.fracI 1.. 0,.024 _., 0„022 '. 0.021 4.,. 0.021 5. 0.021 6. 0.026 7. O„038 0, 0.05" Q. O„Cf% 1.0 0.060 11.. 0,.05' 12. 0.066 13. 0..045 1.4,. 0.030 15„ 0.028 16, 0.031. 17. 0.057 1 u „ 0.0W 19. 0.064 20., 0.052 21, 0.050 22. 0.0W, 23. 0.044 =4. 0.027 White Eagl:, `subdivision L.ot 5 Micropas Analysis Papa 1 < ( < MICROPAS2 \/2.1 File -87035 Weather-CZ4 Program -SUMMARY > > > Run -87035 Pro..9ect-LOT 5 PLAN C Date -02/26/87 M I C R 0 P A S 2 v2.1. PC -DOS 8087 - C17/18/86 Calculations By - BUILDER' -z, ENERGY SERVICES 565 CHAPMAN COURT SANTA CLARA CA 9SO50 ( 4.08) q84-5,398 PROJECT DATA Run Title ........ ......................... :7035 Proiect- Title ,,.:.,:..,...,,,:. LO7 5 PLAN C Owner''s Name ......,.....,... PETER G SHUTTS SitesLoc:at.ion ........................... CUPERTINO Building Type .............................. CLUSTER DESIGN DATA F l (Dor ar ea (scif t ) .... .. , ... . ........... .. . 1656 Glazing area (s-fft ) ... 208., 5 r laz inq perrcentay,-, (%) ....... . .. ,, .:, :, ., ... ,, 12. 6% Glazinci UA (Ltu/l-r-F) ... ....... , ..:. „ .::... 135 (23.4%) (Doanue UA (Btu/hr--F) „...,,:. .,,„„....:.... 276 (47:.9%) Infiltration UA (Btu/hr--F) .......:, ,..... ,. 165 (28, h%) Total UA (Btu/hr-F) ................ ....I. 576 (100%) MECHANICAL SYSTEMS Heating System .......:.,,.... ...... ....,. FURNACE vstem:.:............. .., . . ..: ,:. . , . . .:. AC Ventilation Sy stern ,......,,.. ............ NATURAL_ CLIMA'1E DATA Weather- Data Locatior-i .........„........... SUNNYVALE CA 61 ESOL/RED Average Ternoer^ature (F) , . , ,.. . , :, , . 57 Minimum Temperature (F) 32 flax imum Temoerat_are (F) ................. , . 90 uwmwuwvwm Page 2 C C < MICROPAS2 v2.1 File -87035 Weather-CZ4 Program -SUMMARY > > Run -87035 Project -LOT 5 PLAN C Date -02/26/37 ------------------- PERFORMANCE: SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL_ PEAK FUEL ELECTRIC COST (kBtu) (k.Btu/hr) (kBtu) (kWh) ($) BUILDING Heatinq 14311 15„8 20156 0 $0 Coollna -8477 -29.7 1060 $0 Venti.nq O $0 Totals 201.56 1060 $0 ----------- ------------------------------------------------ ------------------------- ENERGY BUDGET COMPARISON) Fuel. Cost = $0.000 Per Therm (1 Therm = 100 kBtu) Electricity Cost = $1'1.000 ner kWh 1 kWh x 3 x. 3., 41 = 1 source k B t u Peak season [ = Page 1 < < < MICROPA32 v2.1 File -87035 Weather -CZ4- Program -FORMAT > > > Run -87035 ProJect-LOT 5 PLAN C Date -02/26/87 Input file '87035' last edited on 02/25/87 CONTROL. DATA RUN DATA 1> RUN TITLE (25 char) ....... ,........................... 87035 2> PROJECT TITLE (25 char) LOT 5 PLAN C .3> OWNER'S NAME (25 char) ..................... I....... PETER G SHUTTS 4> SITE LOCATION (25 cl-ar? „„,.„,,.... „. CUPERTINO 5> BUILDING TYPE (S.IN(3LE.CLUSTER.DESIGN,NONE) „,,.. CLUSTER SITE AND WEATHER DATA l> BUILDING LATITUDE (decimal deg) .........„,. 2> BUILDING ROTATION (deg,0=y.90=W.-90=E.180=N) .... 3> NUMBER OF WARMUP DAYS (1.O maximum) ................ 4.> 14EATHER DATA FILE NAME ( CZ1 2. etc ) 5> WIND CORRECTION FACTOR (fraction) 6> HEATING MODE. GROUND REFLECTIVITY (fraction) 7> COOLING MODE GROUND REFLECTIVITY (fraction) ...„. 8> GROUND TEMP DAILY FACTOR (fraction) 9> GROUND TEMP MONTHLY FACTOR (fraction) 10> GROUND TEMP ANNUAL_ FACTOR (fraction1 „,.,.. 11> HVAC SIZING: LOCATION (25 char) .......... .„.... SIMULATION CONTROL DATA 37.3 -90 3 CZu „IO .2 0.2 0 1 0 CUPERTINO #> NUMBER OF SIMULATION SEASONS (8 only) 8 SEASON SIMULATE NAME SEASON ------1------ ---2---- 1> WINTER YES 2> WINTER/SPRING YES 3> SPRING/SUMMER YES 4.> SUMMER YES 5> SUMMER/FALL YES 6> FALL_/WINIE:R YES 7> PEAK HEATING NO 8> PEAK COOLING NO GENERAL_ OUTPUT SPECIFICATIONS 1 > COPY OF INPUT DATA ( YE5. NO. FORMAT) „ .. ,... „ .. FORMAT 2> SUMMARY (YES,NO) ............ .................... YES 3> FORM 2 (YES.NO)„.,.,„..,.„.,....„,.,,..,,,,,.„..,,„„ NO 4.> HVAC SIZING; CALCULATIONS (YES.NO) NO ZONE DATA #> NUMBER OF ZONES (5 maximum) ..........— 1 Page 2 < < < IIICROPA32 v2,.1 File -87035 Weather-CZ4 Program -FORMAT > > > Run --87035 Prolect-LOT 5 PLAN C Date -02/26/87 ZONE 'HOUSE' 1> NAME (HOUSE,SUNSPACE,etc) ........,,.»........... HOUSE 2> FLOOR AREA (raft) ...,............................ 1h56 3> VOLUME (cuft) ..................................... 13973 4> HEAT CAPACITY (Btu/F) ..... 3484 5> INTERNAL GAIN (Btu/day) ............................ 72665 h> INTERNAL. CAIN SCHEDULE (INTERNAL,NONE,etc) INTERNAL 7> INFILTRATION BASE ACH (ac/hr) ..»,».............. .66 8> INFILTRAT"ION TEMPERATURE ACH (ac:/hr-F1 .........». 0 9) INFILTRATION WIND ACH (ac/hr-mph) ................. 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX.NONE.etc) ... NONE 11> HEATING SYSTEM NAME (FURNACE.NONE»etc) ......... FURNACE 12> COOL.ING SYSTEM NAME IHEATPUMP.NONE.etc) ......... AC 1.3> VENTILATION SYSTEM NAME fNATURAI_,NONE.et(--) NATURAL 14) HEATING MODE THERMOSTAT NAME (HEATCNST.etc) HEATCNST 15> COOLING MODE THERMOSTAT NAME (COOLCNST.etc) .... COOLCNST lh> HVAC IZING.-. NUMBER OF PEOPLE ................ » 4 17> HVAC SIZING: APPLIANCE GAIN (Btu) ............... 1200 1-_) HVAC .SIZING- INFILTRATION ( TIGHT, MECiIUM. L00l_';E 1 LOOSE OPAOUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) „...,.. 11 NAME AREA U•vAL.UE AZIMUTH TILT ABSORP- ZONE: (scaft) (Btu/hr (deg) (deg) TIVITY NAME -,f-F) (frac) ---1---- ---2-------3---- ---4-------5---- ---6---- ---7---- 1> FRNTWALL 210 „Oa 0 90 0,.5 HOUSE 2> BACKWALL 406 „09 180 90 0.5 HOUSE 3> LEFTWALL 448 ,.OG g0 90 0.5 HOUSE 4> GARGWALL 164 .09 O 90 0.0 HOUSE 5> FRKITDOOR 20 ,.46 0 90 0.5 HOUSE 6> GARGDOOR 20 .52 0 90 0.0 HOUSE 7> FLOOR 731 .10 0 0 0,.0 HOUSE 8> DROPCLG1 867 .05 0 O 0.5 HOUSE > EiEAt, 1CL G1 134 .05 ISO 27 0.5 HOUSE 10> KNEEWAI_.L. 137 ., 08 0 90 0.0 HOUSE 11 > EXF,FL OOR 240 .05 0 0 0, 0 HOUSE. GLAZING- SURFACE DATA GLAZING (JRFACES #> NUMBER OF SURFACES (30 maximum) .. ,,......,....... 6 KIA(`1E AFEA U -VALUE AZIMUTH TILT NUMBER ZONE TREAT- (saft) (Btu/hr (deg) (deg) OF NAME MENT - s f -F ) PANE: NAME 2 --- ---3---- ---4--- __5__- --6--__ -7 ---- ___3____ 1> FRNTGL.I. 22 .65 O 90 2 HOUSE DRAPE 2> BACKGLI 38 .65 180 90 2 HOUSE DRAPE 3) L.EFTGLI 32 ,h5 1.35 90 2 HOUSE DRAPE 4> I_EFTGL2 68 .65 90 90 2 HOUSE DRAPE < < < MICR0PA52 v2'1 File -87035 Weather-CZ4 Program -FORMAT > > > Run -87035 Project -LOT 5 PLAN C Dmte-02/26/87 =============================================================================== 5> LEFTGL3 44'5 .65 45 90 2 HOUSE DRAPE 6> SKYLITE 4 '70 O 27 2 MOUSE SKYSH GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ..,..'''''.'''' 2 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER MEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME ---l---- --2-- --�-- --�-- --5-- --�-- ---7---- ---8---- --�-- ---1O--- 1> DRAPE O O O 1 '75 NONE U O NONE 2> SKY5M O O O 1 '55 NONE O O NONE MASS DATA ========= #} NUMBER OF MASSES (10 maximum) .,''..''''''''.'''' O SYSTEMS DATA ============ ENERGY COST� 1> FUEL COST (dollars/therm) ... ... .'',,',''.''.'.'- O'O 2> ELECTRICITY COST (dollars/kWh) '..''''.'''.'''''' O'O HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) .'''.'.'',' l NAME HEATING &EASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION ---1---- ---2---- ---3---- ----4---- ---5---- -----6----- 1> FURNACE FUEL '71 UNLIMITED O ATTIC COOLING $YSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) '...''''.-. 1 NAME 5EA5ONAL CODLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (8tu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION ---1---- ---2---- ----3---- ---4---- ---5---- ---b---- -----7----- l> AC 8'0 UNLIMITED O O 0.2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) '.'''. 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- /ofm) {W/cfm} (F> (aaft) (Sqft) (ft) (d*p) IENCY ZENCY ---1---- --2-- ---3--- --4-- --5--- --6--- --7-- --10-- 0 NATURAL 0 0 0 21 21 8 90 1'0 l'O a < f < MICROPAS2 V2.1 File -37035 Weather-CZ4 Praaram-FORMAT ) ) Run -87035 Project --LOT 5 PLAN C Date -02/26/87 THERMOSTAT SYSTEMS #) NUMBER OF THERMOSTAT SYSTEMS (10 maximum) NAME HEATING COOLING VENTING HEATING TEMP TEMP TEMP SETBACK (F) fF) (F) TEMP(F) _- -1---- ---2--- ---3--- ---4--- -----5--- 1> HEATCNST 65 80 80 0 2> COOLCNST 65 80 65 0 SCHEDULE DATA #) NUMBER OF HOURLY SCHEDULES (10 maximum) HOURLY SCHEDULE 'INTERNAL' 2 COOLING VENTING HOURLY SETBACK SETBACK SCHEDULE TEMP(F) TEMP(F) NAME ---6--- ---7--- ---8---- O O NONE 0 O NONE ........ 1 1) NAME (INTERNAL.SETBACK.etc) ..................... INTERNAL 2> HEATING ION.OFF.AUTO.OFEN.CLOSED.UP.BACK.RAMP.fraci 1. 0.024 2. 0.022 3. 0.021 4 ,. 0.021 S. O.021 rte,. O.026 7. O.038 S. 0.05c) 9, 0,056 10. 0.060 11. 0.059 12. 0.046 1.3. 0.04S 1.4. 0.030 35. 0.028 16. 0.031 17. 0.057 18, 0,064 19. 0.064 20., 0,052 21. 0.050 22. 0.05: 23„ 0.044 24. 0.027 3> COOLING (ON.OFF,AUTO.OPEN.CLOSED.UP.BACK.RAMP.frac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6.. 0.026 7. 0.038 8. 0.059 9. 0.,056 1.0.. 0.060 11. 0,05 12. 0.046 13. 0.045 14. 0.030 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0..052 21. 0.050 22. 0.055 23. 0.044 24.. 0.027 White Eagle Subdivision Lc) t --, Package E Analysis F ar4e- 1 ' < MTCROPAS-2 v2,. l File.- :.70,-,�5AB Weather-CZ4. Program -SUMMARY � Run-870,35AB Pro.iect-LOT 5 PACKAGE E Date -02/26/ 7 M I C R Cr P A a W Calculations BY:; BUILDEF.=• ENERGY �EFVICES 5t,5 CHAPMAN COURT `SANTA CL.ARA CA iD5D X39 FFO—TEGT DATA R,un T i t .l „ .. „ .. „ .., :. , :.. , .:..:.::, :, �70.3 5AB Fr,-�-, t. T z t. l �. „ :.:.:::: :: .:...::::: :.::: L. CT 5 PACKAGE E Owner' s. Names „ .:.:.., , . „ .• ..., •, ,......:. ..:.::.. :. F'ETER G HIJTTS Sit_ L. atinr; „ :: •..:. .::.:: :. : .. : :: : CL)FE:RTINO Bui l,ding Tvr_ „ ., ..: •. , : .:, ,.. , . ,. I--I_LJSTF_R CSE �I GN DATA F lcor area (. sc:aft) „ 1ri)56 Glazing area qft 1 ., ,.... .. .. .. . :.:. :. .. ] ,,lazing P':rcentacie Glazing (JA ( Btu. "hr -F 1 ......... "�1 5 ( 3r„ Onaau,- IJA f Btulhr-F ) , ....................... 2:12 (35.8%) 1rifi1tration UA (Bti_.1/hr-F1 „. 165 f».,q%) Total IJA (Btu/hr--F 1 „ ,. 592 f 100% ) MEC:HANTC.AL �rD-TEM Heating ,,,,stem FURNACE S), ,stem ,. ,. ,. . „ :: ,. . :: :: ..:..:... .::. :. . :. AC Ventilation :;YGtern NATURAL CL..TMATE C?ATA, I�.1-ath?r Data Locat for -I SUNNYVALE CA 6�1 ESOL_ /REF) A,iera��e. Temr_,er ature f F=) Minimum Temr,�Prat ur<< ( F) 32 Maximum Te>mnerature (F) „ ... :. :.., qO Page 2 < < MICROPAS> v2„1. File-8I035AB W,•ather-CZ4. Program -SUMMARY > ; Run-370.35AB Pr(.9ect-LOT 5 PACKAGE E hate -02%2F•/87 ------------------- PERFCSRMANCE SUMMARY ----- LOAD`) ----- ------ CON-. ,UMFTTON-------- ANNUAL PEAK FUEL ELECTRIC COST I klBtu l I k.Btu/hr) f k.Btu) f kWh 1 f$) ------------------------------------------ Eal.11�,r�Ihl��, Heatinl'=l 14`,7 .3 21CG666 0 $C! oo I ing 1003 $0 Vertinq G $0 Total = 41-1hfSr 1GCi3 $0 --------------------------------------------------------------- --------------------- ENERGY BUDGET COMPARISON ---- Bi. irE TS -- -- ------ CO�ISUP°1PTIC�{�I ------ 50URCF_ SOUr�.CE FUEL ELECTRIC TOTAL ( k.Btu) f k.Btu/sf I f t. l (I” I f $; BUILDING : 1c)56 sf of Conditioned Floor Area H,=ratina 2066r, 12. 5 :Erb 'EO $lD C'oi,1 incl 1L1 >r,Ci F ,, _ �[i $� I Vent incl 0 0.0 tO $0 T(:,taI s 30 ?6 18':. -7 60 607 cl.00 CALIF.. STANDARDS BUDGET.-. rlul t.i -Family C1 uv t:er in Climate Z,.)ne G. Heating 1374.5 3-3 $0 $0 $0 irls4 Ci gCi T,,tal =6 1 3. 1 $Cl f $0., i:D0/sf 1 F u e 1 r --o= t = $ID.. 000 Kaer Therm f '1 Therm = 100 k.6tu 1 E1ect:rxcity Cost = I'D. 000 (D�.r k.Wh I kWh x 3 x 3.41 = I source k.Btu Peak sea on l s.) not simul.at.,-d -- Chec-k r eak loads � ie Enercly Budgets valid w Page 1 < < MI:CROPAS21 v2,. 1 Fi.1 87035AB Weather,-CZ4 Froaram-FORMAT > > Run-37035AB Pro.iect-LOT 5 PACKAGE F Date -02/26/87 IntDut file-- ' 870:3.5AB' last edited on 02/26/37 CONTROL. DATA RUN DATA 1> RUN TITLE (25 charts7035AB „ .. . 1„ 2> 2 '> PROJECT TITLE ( 25 :1 --gar) „ ., . .. ,. ,. „ ,. L.OT 5 PACKAGE E 31 OWNER'`• NAIII E (25 char) „......., ....,,....,. „„.„,.„.„.PETER G AHI JTT_ 4> SITE LOCATION r T, char 1 „ „ „ „ ,......., ,. ,. „ „ CUPERT1NO 5> BUILDING TYPE ( SINGLE, CLIJSTF_R, DF_=MGN, (`)ONE) „ . CLUSTER SITE ANC, WEATHER' DATA 1> >I M_JLAT�I O(.( BUILDING LATITUDE_ (decimal ��eg 1 „ ..... „ . „ „ „ , „ „ ..., 37. 3 2> BUILDING ROT AT I.ON (deq. O=S. c40=1,J. 1 ",CA=N ) O 3> NUMBER OF WARMIJF' DAY'-� ( 10 maximum) YES 4 WEATHER DATA FILE NA('1E (C. 1_>. F tc.) „ ,. ,. „ Cti4 5> WTND CORFiECTICDN FACTOR ( fraction) „ ., . ,... .4 v:1, HEHATING 111-DC,EREFLECTIVITY I fract ion ) YES ?> COOLING NODE :'ROUND REFLECTIVITY (frac- tion I ..... . rr> r„, OUND TEMP CSA I L Y F AC T( -')R i 7 ract i c)n 1 ,. „ .... ,. „ „ . , „ .. „ ,. O ;FOIJNID TEMP MONTHLY FACTOR I fraction I „ ..., , , ... , . 1 10: TEMP ANPP_1AL FACTOR I frac:t.ic,n 1 „ .., „ „ . ,. 0 l 1` HVAC -1ZING. LOCATION ( 25 (--l-iar ) „ . „ . , ... , „ . ,. „ , (-UFERT INO CONTROL DATA #; NUMBER OF SIMULATION SEASONS 18 (-)n1\,) SEASOI\1 SIMULATE NAME SEASON ---- 1.------- ---2---- 1> WINTER YES 2> WINTER / SPR. ING YE", 3) F)PF, I NG / SUMMER YES 4> �, r_J )moi M E: R Y E. <-:� 5> UMMER''FALL YES >> FALL./(ENTER YES 7> PEAK HEATING NO rr> PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1 % C: CiF'i' OF INPUT DATA I YES„ NC). FOR11AT 1 „ „ .. „ „ „ „ ,. , FC)RI,IAT 2> tJMMARY (YES. NO)Y _S '> FORM 21 (YES-,, NO) „„„„„ „.,„„„„.,„„„,.„,., „....„ No G; HVAC SIZING: (.:ALCULATI0NS (YF_S.N01 „. „.„,..,„. NQ Z0I',)E DATA #> RIIJMBER OF ZONES (5 maximum) .,..,.,.„.,.,„.,�..,,,...., - 1 �T( Page 1 < < < MICROPAS2 v2.1 File-57035AB Weather-CZ4 Program -FORMAT > > > Run-87035AB Project -LOT 5 PACKAGE E Date -02/26/87 ZONE 'HOUSE' 0 NAME (HOUSE,SUNSPACE.etc) .... ............. „..... HOUSE 21 FLOOR AREA (sift) 1656 3> VOLUME (tuft) ........ „,„............... ..... 13973 4> HEAT CAPACITY (Btu!F) .....,,„ ........,.. 3&14 0 INTERNAL GAIN (Btu/day) ...........,,..,. ..,.,...... 72665 61 INTERNAL GAIN SCHEDULE (INTERNAL.NONE.etc) .,„,. . INTERNAL. 7> INFILTRATION BASE ACH (ac/hrl ............„.,.. , .66 01 INFILTRATION TEMPERATURE ACH lac/hr-F) ....,.„„.„,.. 0 0> INFILTRATION WIND ACH (ac/her-moh) ....... ID 101 HEAL- EXCHANGER SYSTEM NAME I HEATER, NONE. etc) ... NONE 10 > HEATING SYSTEM NAME. (FUR.NACE. NONE. etc) .. .. „ .. „ . FURNACE 121 COOLING BYSTEM NAME (HEATPUMF , NONE . etc i ., . „ . „ ,.. . AC 13> VENTILATION SYSTEM NAME (NATIURAL.NONE.etc) NATURAL 141 HEATING MODE THERMOSTAT NAME I HEATCNST , etc) . „ , „ HE.ATCNST 15) COOLING MODE THERMOSTAT NAME (COOLCN$T. etc l . ,, .... COOLCNST 161 HVAC SIZING: NUMBER OF PEOPLE „ ,... ,... ,.., ,. , .. ,. ,.., , , , 4 17> HVAC SIZING: APPLIANCE GAIN (Btu) ,....,..,...,.....,. :1200 18> H'VAC. SIZING, INFI.LTRATI.ON ( TIGHT, MEDIUM. LOOSE) .. LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) ....,...._ 10 NAME NAME AREA U -VALUE AZIMUTH TILT ABSORF- ZONE (.sift) (Btu/hr (dag l (,deg l TIVITY NAME MENT -sf-F) -t-F) !frac) PANES NAME _--3---- ---4----- ---5---- ----6----- ---7---- 1> FRNTWAL.L 149„2 .09 G 90 .5 HOUSE 2> BACKWALL 393.2 .09 180 90 .5 HOUSE 3> LEFTWALL 077,7 .09 00 90 5 HOUSE 4> GARGWALL_ 164 .09 O 90 0 HOUSE 5> FRNTDOOR 20 .46 0 90 .5 HOUSE V GARGDOOR 20 .52 0 90 0 HOUSE 7> FLOOR 731 .030 0 D O HOUSE ;> DROF'CLG1 071 0 0 . 5 HOUSE Q KNEEWALL 137 „op 0 90 0 HOUSE 10) EXPFLOOR 240 ,05 0 0 0 HOUSE GLAZING SURFACE��DATA GLAZING SURFACES #> NUMBER OF SURFACES (30 maximum) ................. 4 NAME AREA U -VALUE. AZIMUTH TILT NUMBER ZONE TRE:AT- I.saft) (Btu/hr (deg) (deg) OF NAME MENT -t-F) PANES NAME ----1---- --2--- ---3---- ---4--- --5-__ --6--- ---7---- --- 8____ I> SGLASS 82.8 .. 65 O 90 2 HOUSE DRAPE 2> EGLASS 82.3 .65 _gr 90 2 HOUSE DRAPE 3) WGLASS 82.8 .65 90 00 2 HOUSE DRAPE C,> NGLASS 82,8 .65 180 90 2 HOUSE DRAPE Page 3 < < < MICROPAS2 v2.1 File-87035AB Weather-CZ4 Program -FORMAT ) > Run-87035AB Project --LOT 5 PACKAGE E Date -02/26/87 GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 1 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT L.ENG HIGH FACT FACT NAME FACT NAME ---1 2-- --3-- --4-- --5-- --6-- ---7---- ---8---- --9-- --- 0 GRAPE 0 0 0 1 .75 NONE 0 O NONE MASS DATA #> NUMBER OF MASSES (10 maximum) ................... i] SYSTEMS DATA ENERGY COSTS 1) FUEL CONT (dollars/therm) ... „„.,..,...,........, 0.0 2> EL.EC:TRICITY COST [ dol tars/kWh I „ .. „ „ ., . .., .. „ „ _ .. ,: 0.0 HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) „,..... .1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATIQ i ---.1---- ---2---- ---3---- ----4---- ---5---- ------6----- 15 FURNACE FUEL „71 UNLIMITED G ATTIC: COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) 1 NAME SEASONAL. COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT fBtu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION ---1---- __-2---- ----3----- ---4---- ---5---- ---h----- -----7------ 1) AC: 9,.E UNLIMITED 0 G .2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximums „,.... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK. WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- cFFIC- (cfm 1 (W/Cfm 1 i 1 f 5gft) (saft) (ft, i d q) IENCY IENCY 1 ---- --2-- -__3___ --4__ __5-__ -_F,___ --7__ _.-10-- 1> NATURAL n 0 0 33 33 2 90 1 1. THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 i 1 Page 4 < < < MICROPAS2 v2.,1 File-87035AB Weather-CZ4 Program -FORMAT > > Qi Rein-87035AS Project -LOT 5 PACKAGE E Date-02/26/87 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F1 TEMP(Fl NAME ---1---- ---2--- ---3--- ---4--- ---5--- ---6--- ---7--- --- E---- 0 HF_ATCNST 65 80 80 O 0 O NONE 2> COOLCN5T 65 80 65 0 0 0 NONE SCHEDULE DATA #> NUMBER OF HOURLY SCHEDULES 00 maximum) ........,.. 1 HOURLY SCHEDULE 'INTERNAL' 0 NAME (INTERNAL,SETBACK,etc) ...............„..,... INTERNAL 2> HEATING ( CTI. OFF, AUTO, OPEN. CL05ED. UP. BACK. RAMP, frac 1 1 .. O„024 2. 0.022 3, 0.021 4. 0.021 5. 0.021 6 . 0.026 7 . 0.038 S .. 0.059 9. 0.056- 10, 0.060 ll. 0.059 1 2. u. 046 13. 0.045 14. 0.030 15,. 0.00E 16. 0 .� U„ 1 1 Q. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22. 0.055 23.. 0,044- 24. 0.027 W COOLING (ON.OFF.AUTO.OPEN.CLOSED,UP,BACK.RAMP.trac) 1. 0.024. 2., 0.022 3. O.021 4... 0.021 5, 0.021 6, 0.026 7.. 0.038 0. 0.059 9. 0.056 10,. 0,.060 11,. 0„059 12,. 0.046 13.. 0.045 14„ 0.030 15. 0.028 16. 0.031 1.7. 0.057 is. 0.064. 19,. 0,064 20„ 0,.052 21. 0.050 22,. 0..055 23. 0.044 24„ 0,.02.7 White Ea le Subdd vision Lot 6 Micronas Analysis i it Page I ( ( ( MTCROPAS2 v2.1 File -87036 Weather-CZ4 Prociram-SUMMARY ) ) Run -87036 Pro.iect--LOT 6 PLAN C REV pate -02/26/87 M I C R 0 P A $ 2 v2,I PC-DC)S 80,7 - 07/18/86 Calculations Bv: BUILDER---, ENERGY SERVICE 565 CHAPMAN COURT SANTA CLARA CA 95050 (4081 984-5398 1=RO.TECT DATA Run Title ,...,,,,.,,,.,:,n....,....,,.,, :7036 ProJect `title LOT 6 PLAN C REV [owner's Name „,..,,.,..,........... PETER G SHUTTS `, i t e L, --)cat ion „ „ . ,. .. ,. ,. ,. ,. , . .. ,. CUPERTINV Building Tyne ....,.,...,..... ,.....w CLUSTER DES51GN DATA Floor area (s,7ft1 „.,,. 1656 Glazing area ) saft. 1 20Sc 5 Gla2inc7 rercenta,�ie ( 0 1 „ ., , ..., . .., 12.6% Glazing UA I.Btu/hr,-F) .................„„ 1.35 (23„4%) 0oarvie l_rA (BtU/hr-F) . , . , . . . ., . .. ., 276 (47,9%1 Inti lt.ration UA I Btu/hr-F 1 ,. „ . , . .. 165 ( 2;-- ,” 6% ) Total UA (Btu/hr-F) „,..,.„..,...,...,.. 576 1100%) MECHANICAL �;Y'�TEM5 H e a t i n q vstem FURNACE Cooling System „ ...., ., AC: Ve-nti.lation S>'stem „ :, ,.. „ . . ... ,.... „ „ ,.., . ., NATURAL CLIMATE DATA, W. -ather Data Location SUNNYVALE CA 61 ESOI_iRED Average Temoerature (F1 „ .... ,. „ . , ,. „ ... ., 57 Minimum Temperature (F) 32 Maximum Ternnerature (F) „„..,.,.....:.,„...,,. 9n Page N < < < MICROPAS2 v2.1 File -87036 Weather-CZ4 Program -SUMMARY > > > Run -87036 Project -LOT 6 PLAN C REV pate -02/26/37 -------------------- PERFORMANCE SUMMARY ------ LOADS ------------ CONSUMPTION ------ ANNUAL PEAK FUEL ELECTRIC COST i k.Btu) i k.Btu/hr) (kBtu) (kWh) ( $ ) -------- --------- --------- -------- -------- BUILDING Hating 15765 15.,•_', 2220.5 0 $0 Coo 1 ing -5665 -20.2 708 $0 vsnt.ins_l 0 $0 Totals 22205 701 $O ----------------------------------------------------------- ------------------------- ENERGY BUDGET COMPART ON ---- BUDGETS ---- ------ CONSUMPTION -----.-- SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (kBtu/sf) ($ 1 ( $ ) ( $ } BUILDING? 1656 st of Conditioned Floor Area Heating 22205 13.4 $0 $0 $0 Cooling 7214 4,.4 $0 $C) Venting 0 0.0 $0 $0 Totals 29448 17.3 $0 $O $0 i$0.00/sf) CALIF. STANDARDS BUDGET. Multi. -Family Cluster in Climate Zone 4. Heating 13745 8,.3 $0 $0 0D Cooling 7949 4., $Q $0 Totals 2.1694 13.1 $0 $L1 TO a�--------------------------_.---- Fuel Cost _ $0.000 Der Therm (I Therm = 100 kBtu) Electricity Cost. = $0.000 Per kWh 1 kWh x 3 x 3.41 = 1 .source kBtu Xxx Peak season1 s) not. simulated - Check: Peak loads ... Energy Budgets valid Uig Page < <. < MICROPAS2 v2.1 File -8.7036 Weather-CZ4 Program -FORMAT ) > > Run -87036 Protect -LOT 6 PLAN C REV pate -02/26/87 Input file '87036' last edited on 02/25/87 CONTROL DATA RUN DATA SIMULATION CONIT R,SL DATA 1> RUN TITLE (25 char) ............,..........,..,..... ..,. 87036 2> 2> PROJECT TITLE (25 char) LOT 6 PLAN C REV NUMBER OF WARMUP DAYS (10 maximum)...... . 3> OWNIER'S NAME (25 char) PETER G `3HUTTS CZ4. 4-> SITE L0C,AT 10N ( 25 char) C11PERTINIO A 5> BUILDING TYPE (SINGLE.CLUSTER.DESIGN.NONE) CLUSTER 7) SITE AND WEATHER DATA '> GROUND TEMP DAILY FACTOR (traction' 0 ')> GROUND TEMP MONTHLY FACTOR (fraction1 SIMULATION CONIT R,SL DATA 1> BUILDING LATITUDE (decimal deq) 37:.' 2> BUILDING ROTATION (den.0=S.90=W.-Q0=E,180=N) -QO 3> NUMBER OF WARMUP DAYS (10 maximum)...... . 3 I(I 4.> GJEATHER DATA FILE NAME (CZ12e Eto ) , .. .. CZ4. 5> WIND CORRECTION FACTOR (fraction) .40 A e>> HEATING MODE GROUND R FLECTI:VSTY (fract.i��)n) 2 7) COOLING MODE GROUND REFLECTIVITY (t=raction) 0.2 '> GROUND TEMP DAILY FACTOR (traction' 0 ')> GROUND TEMP MONTHLY FACTOR (fraction1 I 10> GROUh-ID TEMP ANNUAL FACTOR ( fraction ) .... ....... 0 11> HVAC SIZING; LOCATION (25 char) CUP'ERTINO SIMULATION CONIT R,SL DATA ZONE DATA #> NUMBER OF ZONES (5 maximum) 1 #> NUMBER OF SIMULATION SEASONS (8 only) SEASON SIMULATE NIAME SEASON 1> WINTER YES A 2> L.1INITER SPRING YES 3> SPRING/SUMMER YES 4> SUMMER YES 5> SUMMER/FALL YES 6> FALL./WINITER YES 7> PEAK HEATING NO 8> PEAK COOLING ING NO GENERAL OUTPUT SPECIFICATIONS r�I 1> COPY OF INPUT DATA (YES. NO, FORMAT) FORMAT 2> SUMMARY (YES ,NIO) ............:...,....... YES 3 ) F ()RM 2 ( YE S . NIO 1 N0 ?+> HVAC SIZING: CALCULATIONS ( YES. NO) NO ZONE DATA #> NUMBER OF ZONES (5 maximum) 1 t Page 2 < < < MICROPAS2 v2.1 File -87036 Weather-CZ4 Program -FORMAT > > > Run -87036 Project -LOT 6 PLAN C REV Date -02/26/87 ZONE 'HOUSE' 0 NAME (HOUSE.SUNSPACE.etc) ....................... HOUSE 2> FLOOR AREA lsoft).........„„...................... 1656 3> VOLUME tcuftl.... ........... .........,,.,.,.... 13973 4> HEAT CAPACITY lBtu/F), ........ ............... .,. 3484 5> INTERNAL GAIN (Btu/day) .......................... 72665 6> INTERNAL GAIN SCHEDULE (I:NTERNAL.NONE.etc) ...,... INTERNAL 7> INFILTRATION BASE ACH (ac/hri „.„......,........ .66 8> INFILTRATION TEMPERATURE ACTH i ac / hr -F ) „ ,.., ..., . . „ 0 Q> INFILTRATION WIND ACH (ac/hr-moh1 ......,...„.....,.., 0 10) HEAT EXCHANGER SYSTEM NAME (HE:ATEX,NONE.etc) NONE 11> HEATING SYSTEM NAME (FURNACE_.NONE.etc1 „........ FURNACE 12> CrOLING SYSTEM NAME`. (HEATPUMr-. (`.(ONE . etc) „ ..., ... .. AC 15> VENTILATION SYSTEM NAME (NATURAL.NONE.etc) NATURAL 14> HEATING MODE THERMOSTAT NAME (HE.ATCNST.etc) ..„. HEATCNST 15> COOLING MODE THERMOSTAT NAME (COOLCNST.etc) ..... COOLCNST 16> HVAC SIZING: NUMBER OF PEOPLE „....... .,.„.„ 4 17> HVAC SIZING. APPLIANCE GAIN (Btu) .. 1200 18> HVAC SIZING: INFILTRATION (TIGHT.MEDIUM.LOOSE) LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) „.,„,,.„„„.,,.„„. 1.1 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE (soft) (Btu/hr (deg) (deg) TIVITY NAME -sf-F) (fracl ---1-__ ___2 ---- ---3---- ---4---- ---5---- ----6---- ---7----- 1> FRNTWALL 210 .09 0 G0 0.5 HOUSE 2) RGHTWALL 443 .09 -90 90 0.5 HOUSE ' 0 BACKWALL 406 ..00 180 90 0.5 HOUSE 4> GARGWALL 164 .09 0 90 0.0 HOUSE 5> FRNTDOOR 20 „06 0 90 0.5 HOUSE 6> GARGDOOR 20 .52 0 90 0.0 HOUSE 7> FCOOR 731 .10 0 0 0.0 HOUSE 5> DROPCLG 1 867 .05 0 0 0,. 5 HOUSE A> EFAMCLG1 1 34 -- . .05 180 27 0.5 HOUSE 10> KNEEWALL 1:37 „08 r 90 0.0 HOUSE 11> EYFFLOOR 2ct_0 .05 u 0 00 HOUSE ye' GLAZING SURFACE DATA GLAZING :1URFACE S #> NUMBER OF SURFACES (30 maximum) .,..,. „..,. 6 NAME AREA U -VALUE AZIMUTH TILT NUMBER ZONE TREAT - ( soft) (Btu/hr (deg) ( deg) OF NAME TIENT -sf-F) PANES NAME ---7----- ---8---- 1> FRNTGLI 22 .65 0 90 2 HOUSE. DRAPE 2> RGHTGLI 32 .65 -135 90 2 HOUSE DRAPE 3> RGHTGL2 68 .65 -90 90 2 HOUSE DRAPE 4> RGHTGL3 44,.5 -45 90 2 HOUSE DRAPE .65 Pane 3 < < < MICROPAS2 v2.1 File -87036 Weather-CZ4 Program -FORMAT > > > Run --87036 Project -LOT 6 PLAN C REV Date -02/26/87 5> BACKGLI 38 .65 180 90 2 HOUSE DRAPE 6> SKYLITE 4 .70 O 27 2 HOUSE SKYSH GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 2 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME ---1---- --2-- --3-- --4-- --5-- --6-- ---7---- ---8---- --9-- ---10--- 1.> GRAPE 0 0 0 1 .75 NONE 0 0 NONE 2> SKYSH 0 0 0 1 .55 NONE 0 0 NONE MASS DATA #> NUMBER OF MASSES (10 maximum) ................... 0 SYSTEMS DATA ENERGY COST; 11 FUEL COST (dollars/therm) .....,................... 0.0 2> ELECTRICITY COST (dollars/kWh) „...,..,........ 0.0 HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ........... 1 NAME HEATING SEASONAL. HEATING DUCT SIZING FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION __-1---- ---2---- ---3---- ----4---- ---5---- -----6----- 1> FURNACE FUEL. „71. UNLIMITED 0 ATTIC COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) .........,... 1 NAME SEA50NAL. COOLING LATENT DUCT SIZING- SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Btu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION ---1--------2--------3--------4-------5-------6----------7----- 1> AC 8.0 UNLIMITED 0 0 0.2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (sift) (Safi) (ft) (den) IENCY IENCY ---1---- --2-- __--:5----_ --4-- --5--_--<�----_ --7-- _---8--- --�?--- --10-- 1> NATURAL 0 0 0 21 21 8 90 1.0 1..0 Pape 4 < < < MICR0pAS2 v2'1 Fil*-87036 Weather-CZ4 Program -FORMAT > > > Run -87036 Project -LOT 6 PLAN C REV Date -02/26/87 =============================================================================== THERMOSTAT SYSTEMS SCHEDULE DATA ============= #) NUMBER OF HOURLY SCHEDULES (lO maximum} ''''','.' 1 HOURLY SCHEDULE 'INTERNAL` 1> NAME #> NUMBER OF THERMOSTAT SYSTEMS (lO maximum! ',,.'., 2 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY 0'021 5. TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE 9' 0'056 /F) |F) (F` TEMP/F} TEMP(F) TEMP(F\ NAME 0.045 ---l---- ---2--- ---3--- ---4--- ---5--- ---6--- ---7--- --- 8---- 18' 1> HEATCNST 65 so BO O O O NONE 0.055 2> CO0LCN5T 65 80 65 O O O NONE SCHEDULE DATA ============= #) NUMBER OF HOURLY SCHEDULES (lO maximum} ''''','.' 1 HOURLY SCHEDULE 'INTERNAL` 1> NAME (INTERNAL,SETBACK,eto} '''.''''''..''''.'.'. INTERNAL 2) HEATING /ON.OFF.AUT0.OPEN.CLOSED.UP'BACK.RAMP.frac) 1' O'024 2' 0.022 S. 0'021 4' 0'021 5. 0,021 6' 0'026 7' 0'038 8' 0'05q 9' 0'056 10. 0'060 ll' 0'059 12. 0'046 13' 0.045 14' 0'030 15' 0'028 16. 0.031 17' 0'057 18' 0.064 19' 0,064 20' O.052 21' 0'050 22' 0.055 23' 0.044 24' 0'027 W COOLING (ON,0FF,AUT0,0PEN,CL0SED'UP,BACK'RAMP,frao) 1. O'024 2. O'022 3. 0'021. 4' 0'021 5. 0'021 6' O.026 7. 0'038 8. 0'05o q. O'OW lO' 0.060 11' 0'059 12' O'O46 Q. 0'045 14. 0.030 15' 0.028 16' 0'031 17' 0'057 18. 0.064 lo' 0'064 20' 0'052 21' 0'050 22. 0.055 23. 0'04& 24' 0'027 White Eagle Subdivision Lot 6 Package E Analysis ggl l Project Title „ . , . a ,. . .... , . ,.:, .....:, ,.. , .:.:.:. LOT 6 PACKAGE F Owner's Name :..: ..................:...,..... PETER G SHUTTS Site Location ........................... CUPER.TINO Building TYne ........................... CLUSTER DESIGN DATA Floor area (.raft) „ „ .. ... .. ....:. .... 1656 Glazing area r zaft) , ... ,, ,, , ,: ,..:: ,. ,: ,: ,....:.:.. 331.2 Glazing Percr-_ntags .:. , , .... 20% Glazing UA (Btu/hr--F) ...... ,.... : ,. , .., . , :.. 215 (36. 3% ) Oraaue UA (Btu/hr-F) .:..: , .. ,. _ ......... ,.... 212 (35.8%) Infi.ltrat:ion UA r Btu/hr-F l ... ,. „ ... .. , .. 165 (27.Q%) Total UA (Btu/hr-F) ...:..:. .. .:..:., .. :..:.. .. . 592 1100%) MECHANICAL SYSTEMS Heating System .......................... FURNACE IPW Fage 1 < < < MICROPAS2 v2,1 File-87036AB Weather-CZA Program -SUMMARY ` > Run-87036AB Froject-LOT b PACKAGE E Date -02/26/87 M I C R O P A S 2 v2.1 PC-DO5 8OS 7 - 07/18/86 Calculations BY: BUILDERS ENERGY SERVICES 565 CHAPMAN COURT" SANTA CLARA CA 95050 ( 408) 984-5398 PROJECT DATA Run Title . .. , ..:....: , :. , .. ......... 07036AB Coolinp System .......................... AC: Ventilation Syeterr ........,...:..........., NATURAL CLIMATE DATA Weather Data Location :.,..:.:....:............ SUNNYVALE CA 61 ESOL/RED Average Temperature (F) ................. 57 Minimum Temperature (F) ................. 32 Maximum Temperature (F) .., ., ..: , .... ,. ., .... .. :. 90 Page < < < MICR0PAS2 v2.1 File-87036AB Weather-CZ4 Program -SUMMARY > > ' Run-87036AB Pro.iect-LOT 6 PACKAGE E Date -02/26/87 ------------------- PERFORMANCE SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST (kBtu) (kBtu/hrI (kBtu) (k.Wh1 ($) ---------------------------------------- BUIL.DI:NG Heating 14683 1>,3 20681 C) $0 Cooling -9150 -27.3 63 $0 Vent a nca C1 $0 Total s 20681 963 $0 ----------------------------------------------------------- ------------------------ ENERGY BUDGET COMPARISON ---- BUDGETS ---- ------ CONSUMPTION - SOURCE SOURCE FUEL ELECTRIC TOTAL ( k:Btu 1 ( kBt.0/sf I ( $ 1 ( $ ) ( $ -------- -------- -------- -------- --------- BUILDING. 1656 st of Conditioned Floor Area Heating 20681 12.5 $O $0 $O Cooling 9253 5„9 $0 $0 Venting O 0.0 $0 $O Totals 30534 18.4 $0 $O $0 ($0„ 00/sf I CALIF. STANDARDS BUDGET: Multi. -Family Cluster in Climate Zone 4 Heating 1374.5 3.3 $0 $0 $0 Cooling 784.9 4.8 $0 $0 lota.ls 21694 13.1. $0 $0 $0 ( $0.00/sf 1 Fuel Cost = $0.000 roer Therm (1 Therm = 100 k.Btu ) Electricity C:ost = $0.000 Per k1,1I-) 1 k.lAh x 3 x 3. 6.1 = 1 source kBtu '>-:” Peak seasonisI not simulated - Check peak. loads ;r,r:K Energy Budgets valid Page l < < < MICROPAS2 v2.1 File-87036AB Weather-CZ4. Program -FORMAT > > > '' Rein-87036AB Project -LOT 6 PACKAGE E Date -02/26/87 Input file '87O36AB' last edited on 02/26/87 CONTROL DATA RUN DATA ZONE. DATA #> NUMBER OF ZONES (5 maximum) ...................,,., 1 0 RUN TITLE (25 (-.har) ......................... , ,,,.,. 87O36AB 2> 2) PRO7EC:T TITLE (25 char) ,. , . L.0T 6 PACKAGE E NUMBER OF WARMUP DAYS (10 maximum) ,........,„.. 3> owNER'S NAME f25 char) „...,.. „..,,......,......,.,, PETER G SHUTTS C26- (4 > SITE LOCATION ( 25 ��:har) „ .... ,. „ ., ., ..., .. ,. „ „ ,. u „ .., , C UPERTINO 5> BUILDING TYPE_ (SINGLE, CLUSTER. DESIGN. NONE) ,.. CLUSTER 7> SITE AND WEATHER DATA 8> GROUND TEMP DAILY FACTOR f fraction 1 „ , , 0 9> GROUND TEMP MONTHLY FACTOR (fraction) 1 10> GROUND TEMF ANNUAL FACTOR (fraction) ZONE. DATA #> NUMBER OF ZONES (5 maximum) ...................,,., 1 1> BUILDING LATITUDE (decimal deg) ,,,,.., X7,3 2> BUILDING ROTATION -9O 3> NUMBER OF WARMUP DAYS (10 maximum) ,........,„.. 3 4.> WEATHER 11ATA FILE NAME ICZ12.et.c:) „„...,.,,.,...,„,.,. C26- 9) WIND CORRECTION FACTOR (fraction) .................. ,4 6> HEATING MODE GROUND REFL.EC:T:CVITY (fraction) „ , „ 2 7> COOLING MODE GROUND REFLECTIVITY (fraction) 2 8> GROUND TEMP DAILY FACTOR f fraction 1 „ , , 0 9> GROUND TEMP MONTHLY FACTOR (fraction) 1 10> GROUND TEMF ANNUAL FACTOR (fraction) 11> HVAC SIZING- LOCATION I25 char) ........,......... CUPERTINO SIMULATION CONTROL DATA #> NUMBER OF SIMULATION SEASONS (8 on.lvl ,.„.,...... 3 S(EA,SON SIMULATE NAME SEASON -_-__- _--------- .1> WINTER YES 2 % (.•!,INTER/SPRING YES 3> SPRING/SUMMER YES 4> yUMIIER Y1 S 5> SUMMER/FALL YES t. > FALL /WaNTER YE.S 7> PEAK HEATING NO 8> PEAK COOLIIVG NO GENERAL OUTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES,NO.FORMAT) FORMAT 2> SUMMARY IYF_S.NO),..,,,.,.,....,.,.,,.,,....,........, YES 3> FORM 2 (YES,E\10).... ........... ......,...,.....,.......,,.,, NO Aft 4> HVAC SIZING: CALCULATIONS (YES,NO) NO ZONE. DATA #> NUMBER OF ZONES (5 maximum) ...................,,., 1 Page 2 < < < MIC:ROPAS2 x.-2.1. File-87036AB Weather-CZ4 Program -FORMAT > > > Run-87036AB Project -LOT 6 PACKAGE E Date -02/26/87 ZONE 'HOUSE' 1> NAME (HOUSE,SUNSPACE.etcl ............ .......... HOUSE 2> FLOOR AREA (sort) ............................... 1656 3> VOLUME (cult) ... ............................„... 13973 4> HEAT CAPACITY (Btu/F) ..............,............,. 3684. 5> INTERNAL GAIN (Btu/daY) ......................... 72665 6> INTERNAL GAIN SCHEDULE (INTERNAL,NONE,etc) ....... INTERNAL 7> INFILTRATION BASE ACH fac/hr) ......... _..,. .66 3> INFIL.TRATION TEMPERATURE ACH (ac/hr-F) ...,..,..,..,. 0 9> INFILTRATION WIND ACH (ac/hr-wh) .......... 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX.NONE.etc+ .... NONE 11.> HEAT.ING SYSTEM NAME (FURNACE.NONE.etal ......,... FURNACE 12> COOLING SYSTEM (NAME (HEATPUMP.NONr.etc) ,........ AC 13> VENTILATION SYSTEM NAME (NATURAL.NONE.etc) NATURAL IN> HEATING MODE THERMOSTAT NAME (HEATCNST.etc! „..., HEATCNST 10 COOLING NODE THERMOSTAT NAME (COOLCNST.etc) „..„ COOLCNST It> HVAC SIZING: NUMBER OF PEOPLE „....„„............ 4 17> HVAC SIZING: APPLIANCE GAIN (Btu) .... 1200 11> HVAC SIZING- INFILTRATION (TIGHT.MEDIUM,LOO=SE) . LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) ................. 10 NAME NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE (raft) !Btu/hr (deg) (degl TIVITY NAME MENT -sr” -F) -sf-F) ( frac + PANES ---1---_ 2 ---- ----3---- ---4---- ---5----- ---6---- ---7---- 1 > FRNTWALL JQ3. 7 "09 0 90 , 5 HOUSE 2> RGHTWALL 4.65.2 .09 -90 qO .5 HOUSE 3> BACKWALL 361.2 .09 180 90 ,5 HOUSE 4> GARGWALL 164. ..09 0 90 0 HOUSE 5> FRNTDOOR 20 ,06 n 90 .5 HOUSE 6> GARGDOOR 20 .52 0 90 0 HOUSE 7> FLOOR 731 .03q 39 0 n O HOUSE S> DROPCLGI 971 .034 0 0 ..5 HOUSE 9> KNEEWALL .137 .09 0 00 0 HOUSE 10> EXPFLOOR 240 .05 0 0 r HOUSE GLAZING SURFACE: DATA GLAZING SURFACES #> NUMBER OF SURFACES (30 maximum! ... .,.............. 4 NAME AREA i_) -VALUE AZIMUTH TILT NUMBER ZONE TREAT- ( wft l (Btu/hr ( deg) ( deg) OF NAME MENT -sf-F) PANES NAME ---1---- - 2--- ---3----- ----4--- --5--- --6--- ---7---- -- 0---- 0 SGLASS 82.8 .65 0 90 2 HOUSE DRAPE 2> EGLASS 82.8 .65 -90 90 2 HOUSE DRAPE 3> WGLASS 82.8 .65 90 90 2 HOUSE DRAPE 4> NGLASS 82.8 .65 180 90 2 HOUSE DRAPE Pape "'3 < < < MICROPAS2 v2.1 File-87036AB Weather-CZA Program -FORMAT > > > Run-87036AB Project -LOT 6 PACKAGE E Date -02/25/87 06 GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 1 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAM SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME ---1---- --2-- --3-- --4.-- --5-- --6-- ---7---- ---8---- --9-- ---10--- 1' DRAPE 0 0 0 1 ,.75 (NONE 0 0 NONE MASS DATA #> NUMBER OF MASSES (10 maximum 1 „ , , „ , .., ID SYSTEMS DATA ENERGY COSTS 11 FUEL COST (dollars/therm) „„,,.. ........,..,,..,.... 0.0 2> ELECTRICITY COSI idol Jars/kWh? .....,..,.. 0,0 HEATING SYSTEMS VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... l NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- F_FFIC- ( cfm 1 (W/cfm) (F) (raft) (soft) I ft) (deca) IENC:Y IENCY 1 ---- -- 2-- ___3___ --4-__ --7__ --10-- 1> NATURAL 0 0 0 33 33 2 90 1 1 THERMOSTAT SYSTEMS NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 #> NUMBER OF HEATING SYSTEMS (5 maximum) 1 NAME HEATING .SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION ---1---- -------- ----3---- ---- 4.---- ---5---- -----F,- _ -- 1> FURNACE FUEL .71 UNLIMITED 0 ATTIC: COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) .........,... 1 NAME SEASONAL. COOLING LATENT DUCT SIZING: SIZING: '<<�a EER CAPACITY LOAD GAIN LATENT DUCT I Btu/Wh I (Btu/hr) FRACTION FRACTION LOAD LOCATION ---1 --- ---2----- ---- 3---- ---4---- ---5---- ---6----- -----�----- %U 11 AC 9.5 UNLIMITED 0 0 .2 ATTIC' VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... l NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- F_FFIC- ( cfm 1 (W/cfm) (F) (raft) (soft) I ft) (deca) IENC:Y IENCY 1 ---- -- 2-- ___3___ --4-__ --7__ --10-- 1> NATURAL 0 0 0 33 33 2 90 1 1 THERMOSTAT SYSTEMS NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 Page 4 < < < MICROPAS2 v2.1 File-87036AB Weather-CZ4 Program -FORMAT > > >. Run-87036AB Project -LOT 6 PACKAGE E Date -02/26/37 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F1 TEMP(F) TEMP(F) NAME ---1-------2------3------4------5------6------7------8---- 1> HEATCNST 65 80 80 0 0 0 NONE 21 COOLCNST 65 80 65 0 0 0 NONE SCHEDULE DATA Q NUMBER OF HOURLY SCHEDULES (10 maximum) ......... 1 HOURLY SCHEDULE 'INTERNAL' A" 1> NAME (INTERNAL.SETBACK.etcl .,............ INTERNAL wo ?> HEATING (ON.OFF".AUTO. OPEN.CLOSED.UP.BACK.RAMP.frac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6 . 0.026 7 . 0.038 S . 0.059 % 0.056 10. 0.060 11. 0.059 12,. 0.046 i3. 0.005 1.0. 0.030 15. 0.02c. 1.6. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 ( 21. 0,.050 22. 0.055 23. 01.044. 24„ 0.027 3> COOLING (ON.OFF.AUTO.OPEN.CLOSED.UP.BACK.RAMP,frac) 1. 0„024 2. 0„022 3. 0.021 4.,, 0.021. 5,. 0.021 6. 0.026 7. 0.038 8. 0.059 1 U.. 0.056 10„ 0.060 11. 0.05a 12. 0.04.6 13. 0.065 14. 0.030 15. 0.028 16. 0.031 17. 0.057 1_. 0.064 1 9 . 0.064 20„ 0.052 �f 1. 0.0_0 22. 0.055 23. 0.044 24., 0.02 White Eagle Subdivision Lot 7 Micro+ -,as Anal osis 'rk�r Page 1 ! l C MICROPAS2 v2.1. File -87037 Weather-CZ6 Program -SUMMARY > > > Run -87037 Project -LOT 7 PLAN C Date -02/26/37 M I C R 0 P A S 2 v2.1 PC -DOS 8OS7 - 07/18/86 Calculations BY: BUILDERS ENERGY SERVICE 565 CHAPMAN COURT SANTA C:LARA CA 95050 ( r -4r8) 986-5398 PROJECT DATA Run Title _ .......,....... ............. . 87037 Project: Title .................. ........ .... ......, .... LOT 7 PLAN C Owner's Name ............. PETER. G SHUTTS Site Location ....... ........ ............. CUPERTINO Building Tyoe......,..,,.......,............. CLUSTER DESIGN DATA Floor area (soft) ......,............,..,....... 1656 Glazing area f raft l .......................... „ . „ ., 208.15 Glazing uercentage (%) ...........,......... 12.6% Glazing UA (Btu/hr-Fl .,.......,.... , ....„ 135 (22..4%) Opaaue UA (Btu/hr-F! ..... ,.... ,..... ...... ,. 302 150.2%) Infiltration UA (Btu/hr-Fl „., 165 127,,&%) Total UA (Btu/hr-Fl .,.....„.........,........ 602 (100%) MECHANICAL SYSTEM'S Heating System _ _ .........,,......„,....... FURNACE Coolino System ... ,. ,... ,... AC Ventilation -System ,........ .. .. NATURAL CLIMATE DATA Weather Data Location .........,............. SUNNYVALE CA 61 ESOL/RED Average Temperature (F) ............ .._ . 57 Minimum Temperature (F) ..........,....... 32 Maximum Temperature !F) ........., . ,... ,. u .... 90 Page 2 t i t MICROPAS2 v2.1 File -870137 Weather--CZ4. Program -SUMMARY > Run -37037 Pro.iect-LOT 7 PLAN C Late -02/26/87 ------------------- PERFORMANCE SUMMARY ----- LOADS ----- ------ C:ON$UMPTION------- ANNUAL PEAK FUEL ELECTRIC COST ( kBtL.i ) (kBtu/hr) (kBtu) ( kl4h) ($) -------- -------- --------- -------- -------- BUILDING Heating 16127 1.6.6 22714. 0 $0 Cooling -8277 -29„1 1035 $0 Venting 0 $0 Totals 22714. 1035 $0 ----------------------------------------------------------- ------------------------ ENERGY BUDGET COMPARISON ---- BUDGET ---- ------ C.ONS0MPTIOC) ------ >CAURCE SOURCE FUEL ELECTRIC TOTAL (kFt'_1) (kBtul'st ) ( $ ) I $) ( $ 1 -------- -------- -------- -------- -------- BUILDING. 1656 wr --)f Conditioned Floor Area Heatins7 22714. 13,.7 $0 $0 $0 C'.no1, z ng 10584. 6. 4. $0 $0 Vent ing 0 0.0 $0 $0 -------- -------- -------- -------- -------- Totals 332<:)8 20.1 $0 $0 $Q ($O. X10/ sr ) CALIF., STANDARDS BIJ[11,-�-ET. Multi -Family Cluster in Climate Zone 4. Heat inQ 1374.5 8,.3 $0 $0 $1D Coo Iing 794.9 4..8 $O 110 Totals 21.694. 13.1 $0 $0 $0 ( $0,. 00/.sf ) ---------------------------------------------------------------------- Fi_1e1 Cost = $0.000 oer Therm (1 Therm = 100 k.E3tu I Electrio.ity Cost = $0..000 ner kWh 1 kWh x 3 x 3.4.1 = I sources kBtu X'. X Pea4 se:a_on(-I oat simulated - Check r_eak loads ,: A x Enercly Budgets valid Page 1 < < < MICROPAS2 v2.1 File -8.7037 Weather-CZG Program -FORMAT > > > Run -87037 Project -LOT 7 PLAN C Date --02/26/87 Input file °87037' last edited on 02/25/87 CONTROL DATA RUN DATA 1> RUN TITLE (25 tDharl ................ .............. 37037 2.) PROJECT TITLE f25 char) „...,„.,.....„.....„„..., , LOT 7 PLAN C 3> OWNER'S NAME (.21.5 chard ................ PETER G SHUTTS 4.> SITE LC1C.AT.10h.i i 2-'S charr l U P E R T INC, 5) BUILDING, TYPE (S.INGLE.CLUSTER.DESIGN.NONE) ...... CLUSTER ITE ARID WEATHER DATA hIMULATION CONTROL. DATA #> NUMBER OF SIMULATION SEASONS (,3 only) „ ... 8 SEASON SIMULATE NAME SEASON 1------- ---2---- 1> BUILDING LATITUDE (decimal deg) .._ ............. 37.,3 2 > BUIL.DING ROTATION ( deQ. Ci=� 90=W. -90=E. 181-1=N 1 -4-5 -', 3> NUMBER OF WARMUP DAYS (10 maximum) ........,..,:.. 3 4-\ WEATHER DATA FILE NAME (CZ1 2, etc) „ ,. ,. ,..., . ,. „ ... „ .. CIG. 5> WIND CORRECTION FACTOR (traction) .......,,.....,, ,40 h? HEATING- MODE GROUND REFL.ECTI'JITY � rTaction) 2 7> COOLING MODE GROUND REFLECTIVITY (fraction) ..... 0.2 ,E•> GROUND TEMP DAILY FACTOR (fractionl „... .,.„ ..,.. 0 9\/ GROUND TEMP MONTHLY FACTOR (fractionl „..„...,..... I 1n> GROUND TEMP ANNUAL. FACTOR (fractaon) 0 1> 11> HVAC SIZING; LOCATION (.25 char) ..................., CUPERTINO hIMULATION CONTROL. DATA #> NUMBER OF SIMULATION SEASONS (,3 only) „ ... 8 SEASON SIMULATE NAME SEASON 1------- ---2---- ZONE DATA #> NUMBER OF ZONES (5 maximum) �. 1> WINTER YES 2> WINTER/SPRING YE5 3> SPRING/SUMMER YES 47 SUMMER YES 5> SUMMER/FALL YES (,> FALL. iWINTEF, YES 7> PEAK HEATING NO > PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1> COPY OF INP!JT DATA OYES. NO.F0RMAT? „,..,„,„. .,,..,. FORMAT 2> SUMMARY (YES.N0) .............. YES - FORM 2 ( YES. 1.10) RIO J 4.> HVAC SIZING. CALCULATIONS (YES.NO) ............ NO ZONE DATA #> NUMBER OF ZONES (5 maximum) �. Page 2 < < < MICROPAS2 v2..1 File -870137 Weather-CZ4 Program -FORMAT > > > Run -87037 Project -LOT 7 PLAN C Bate -02/26/87 ZONE 'HOUSE' 1> NAME (HOUSE,SUNSPACE.etcl ........................ HOUSE ^_•> FLOOR AREA (sift) ,,,..., .......... ................ 1656 3> VOLUME (cuft) .. _ ......... ,, ., .................. .:....... 13973 4> HEAT C:APAC:ITY fBtu/F)......... ..,,,,,,,,,,........... 3484 5> INTERNAL GAIN (Btu/day) .............,............ 72665 6> INTERNAL CAIN SCHEDULE" (INTERNAL,NONE.etc) ....... INTERNAL. 7> INFILTRATION BASE ACH (ac/hrl .......,.........,... .66 S> INFILTRATION TEMPERATURE ACH (ac/hr-F) ,.„„„.,..,.. O 9> INFILTRATION WIND ACH fac/hr-mph) ...,............ 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX.NONE.etc) ,.,.. NONE. 10 HEATING SYSTEM NAME (FURNACE.NONE,etc) ........:, FURNACE 12> COOLING SYSTEM NAME fHEATPUMP.NONE.etc1 ........ AC 13> VENTILATION SYSTEM NAME_ (NATURAL,NONE.etc) NATURAL 14> HEATING MODE THERMOSTAT NAME (HEATCNST.etc) HEATCN'O-r 1.5> COOLING MODE THERMOSTAT NAME tCOOLCNST,etcl COOLCNST 16> HVAC SIZING: NUMBER. OF PEOPLE .... „ . . ,. 4. 17> HVAC SIZING: APPLIANCE GAIN (Btu) .............. 1200 18? HVAC SIZING. !NFILTRATION fTIGHT,MEDIUM.LOOSE) . L005E OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) „., , , ,,..,,.. 1.2 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE. TREAT- (.sift) (Btu/hr (deg) (deg) TIVITY NAME OF NAME MF_NT -af-F) ffracl -sf-F) ---1---- ?---- ---3---- ---4---- ----5---- ---6---- ---7---- 1 > FRNTWALL 210 .00 O `a! 0.5 HOUSE 2> RGHTWALL 288 .09 -90 90 0.5 HOUSE 3> BACKWALL 006 .09 180 90 0.5 HOU$E 4> LF_FTWALL 441 .09 90 90 0.5 HOUSE 5> CSAR GWALL 164 .0? 0 90 0.0 HOUSE 6> FRNTDOOR 20 .16 0 90 0.5 HOUSE 7> GARGDOOR 20 .52 0 90 0.0 HOUSE= 8> FLOOR 731 .10 0 0 0,.0 HOUSE 9> DROPCL.GI 07 ,.05 O O 0.5 HOUSE 10> BEAMCLGI 134 .05 180 27 0.5 HOUSE 1.1> K:NE EWALL. 137 .0s 0 90 0.0 HOUSE= 12> EXPFLOOR 24.0 .05 0 O 0.0 HOUSE GLAZING; -SURFACE DATA GLAZING SURFACES i#> NUMBER OF SURFACES (30 maximum) 6 NAME AREA U -VALUE. AZIMUTH TELT NUMBER ZONE TREAT- ( raft 1 (Btu/hr (dens 1 !deg) OF NAME MF_NT -sf-F) PANES NAME 1;...: ---1---- --2--- ---3---- ---A--- --5--- --6--- ---7---- ---8----- 1> FRNTGLI 22 .65 0 DO 2 HOUSE GRAPE 2> BACKGLI 33 ,65 ISO 90 2 HOUSE DRAPE 3> LEFTGLI 32 ..65 135 90 2 HOUSE GRAPE. Page 3 GLAZING TREATMENTS #> NUMBER ( < ( MICROPA52 v2.1 File -87037 Weather-CZ4 Program -FORMAT > > ) 1 Run -37037 Protect -LOT 7 PLAN C Date -02/26/87 OVER- HEAT COOL �-;HADING 4> LEFTGL2 68 .65 90 90 2 HOUSE DRAPE HEI- 5> LEFTGL3 4.4.5 .65 45 90 2 HOUSE DRAPE SCHEDULE 6> SKYLITE 4 .70 0 27 2 HOUSE SKYSH GLAZING TREATMENTS #> NUMBER OF TREATMENTS 130 maximum) .. ............ 2 1 NAME GL.AZ OVER- OVER- HEAT COOL �-;HADING SHUTTER SHUT SHUTTER maximum) HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAM SCHEDULE GHT L.ENG HTGH FACT FACT NAME FACT NAME ---1---- --2-- --3-- ---5---- --5-- --6-- ---7---- ---8---- ---9-- ---10--- 1> DRAPE 0 O O 1. .75 NONE 0 0 NONE 2> SKYSH O O 0 .1 .55 NONE 0 O NONE MASS DATA t#> NUMBER OF MA3$ES f 1 maximum) .„.,.....„,.„.,.„.., 0 SYSTEMS DATA ENERGY COSTS 1> FUEL. COST (dollars/therm) 0.0 ?> ELECTRICITY COST (dollars/kWh) 0.0 COOLING SYSTEMS HEATING SYSTF-MS NUMBER OF COOLING :YSTEMS (5 maximum) 1 NAME CCIOLING L.ATEhIT DUCT 4\, NUMBER OF HEATING >YSTEMS (5 maximum) ........... 1 NAME HEATING SEASONAL HEATING: DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT LOCATION NAME COP ( Btu/hr 1 FRACTION LOCATION ---5---- __-1---- ---2---- ---3---- ----4---- ---5---- -----h----- ?., 0 UPiL.TMITED 1 > FURNACE FUEL 0? UNLIMITED 0 ATTIC COOLING SYSTEMS 1 #> NUMBER OF COOLING :YSTEMS (5 maximum) 1 NAME CCIOLING L.ATEhIT DUCT SIZ.ING- SIZING EER CAPACITY LOAD GAIN LATENT DUCT Btu/1,1h) ( Bt-Li/hr) FRACTION FRACT ION LOAD LOCATION ---.1---- ---2---- ---- 3---- ---4----- ---5---- -•--6---- -----7----- 1> AC ?., 0 UPiL.TMITED 0 O 0? ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- F_FFIC- ( cfm) ( W/cfm) (F) (sgft) (.soft ) (ft) (deq) IE:NCY IENCY 1> NATURAL 0 0 0 21 21. 8 45 1.0 1.,0 1 Page 4 < < < MICROPAS2 v2.1 File -87037 Weather-CZ4. Propram-FORMAT > > > Run -87037 Project -LOT 7 PLAN C Date -02/26/87 THERMOSTAT SYSTEMS SCHEDULE DATA #> NUMBER OF HOURLY SCHEDULES (10 maximum) ......... 1 HOURLY SCHEDULE 'INTERNAL'' #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 (ON,OFF.AUTO.OPEN.CLO?ED.UP.BACK.RAMP,frac) NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY 3. 0.021 TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE 7. 0.038 (F) (Fl (F) TEMPSF) TEMPfF) TEMP(F) NAME 11. ---1---- --2--- ---3--- ---4--- ---5--- ---6--- ---7--- ---8----- 15, 1> HEATCNST 65 80 a0 n 0 0 NONE 19. 2> COOLCNST 65 80 65 0 0 0 NONE SCHEDULE DATA #> NUMBER OF HOURLY SCHEDULES (10 maximum) ......... 1 HOURLY SCHEDULE 'INTERNAL'' 1> NAME (.INTERNAL.SETBACK.Ftc) .......... ........... INTERNAL 2> HEATING (ON,OFF.AUTO.OPEN.CLO?ED.UP.BACK.RAMP,frac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5,. 0.021. 6. 0.026 7. 0.038 S. 0. 05C) 9. 0..056 10., 0.060 11. 0.059 12. 0.046 1.3. 0.005 14. G,030 15, 0.028 16.. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22„ 0.055 23,. 0.044 24. 0.027 3> COOLING (ON.OFF.AUTO.OPEN.CLOSED.UP.BACK.RAMP.frac) 1. 0.024 2 „ 0.022 3. O„021 4 . 0.021 5. 0.021 6. 0.026 7. 0,038 8. 0.059 0. 0.056 1.0. 0,060 11. 0,. 059 1.2. 0.046 13. 0.065 1.4. 0. 0 0 15. 0„028:1 16. 0.031 17, 0.057 18. 0.064 19. 0.064. 20, 0.052 21. 0.050 22. 0.055 23. 0.044- 24. 0.027 LJ Iw Wr)ite Eagle Subdivisic)n Lot 7 Package E Analysis Page 1 < < < MICROPAS2 ./2.1 File-87037AB Weather-CZ4 Proqram-SUMMARY > > > Run-87037AB Project -LOT 7 PACKAGE E Date -02/26/S7 M I C R O P A 4 2 v2.1 PC -DOS 8087 - 07/181/86 Calculations By: BUILDEPS ENERGY SERVICES 565 CHAF'MAN COURT SAt`JTA CLARA CA 9505C1 (408) 984-5398 PROJECT DATA )gun Title .....,... . . ......... .. .. 87037AB F'ro. ect Title . ............... ,, . , ... ,.., . LOT 7 PACKAGE E Owner's Name „ .............,..u,... PETER G SHUTT-S Site Location CUF'ERTIN0 Building Tyoe ..,.......,..,,....,..,.. CLUSTER DESIGN DATA Floor area (.sa-ft) 1656 GiaYinq area fsaftl 331.2 Glazing oercentage (%) .................... 20% Glazing LIA (Btu/hr-F) 0......„. 21.5 (35.2%) O naaue UA (Btu/hr--F) .............. ,.. , ., 230 (37. 7% ) Infdltration UA fBtLa/hr-F) „„.........,.... 165 (27%) Total UA (Btu/hr-F) ........... ., .. 610 f100%) MECHANICAL S'Y'STEM_ Heating Svstt=rn ................... FURNACE Cc -,ling Sust.em AC Ventilation Gaystern „.... ...,.. NATURAL C:LTMATE DATA Weather Data Location ................... SUNNYVALE CA 61 ESOL/RED Average TeMlDeratUre (F) ..........„.,.... 57 Minimum Ternnerature (F) ................. 32 Maximum T,amiD?rature ( F) „ . „ , ... 90 I Page 2 < < < MICROPAS2 v2.1 Fi.le-87037AB Weather-CZ4. Program -SUMMARY i > Run-87037AS ProJect-LOT 7 PACKAGE E Date -02/26/87 ------------------- PERFORMANCE SUMMARY -•---- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST ( kBtu) (k.Btu/ hr) (kBtu) ( kWh) ($) BUILDING Heating 15659 1.6.8 22054. 0 $0 Cooling -9632 -31.4 1014 $0 Ventina 0 $0 Totals 22054 1014. $Q ------------------------------------------------------------ ------------------------- ENERGY BUDGET COMPARISON Fuel Cost = $0.000 oer Therm (1 Therm = 100 k.Btul Electricity Cost = $0,.000 r?er kWh 1 kWh x 3 x 3„41 = 1 source kBtu Peak seasons) not simulated - Cheek Weak:. load=. Energy Budgets valid ---- BUDGETS ---- ------ Ci)NSUr1PTIC-1N------- �OURCE SOURCE- FUEL ELECTRIC TOTAL (k.Btu) (k6tu/sf) (.$) ($) ($) BUILDING. 165e, sf of Conditioned Floor Area Heatina 22054 13.3 $0 $0 $0 Cooling 10,372 6..3 $0 $0 Venting IJ 0. 0 $0 $0 Totals -------- -------- -------- 32426 19.6 -------- `0 $0 --------- $0 ( $0.00/sfi , CALIF. STANDARD'S BUDGET Multi. -Family Cluster in Climate Zone 4 Heating 13745 8.3 $O $0 $0 C:oolina 7949 4.8 $0 $0 Totals 21694 1.3.1. $0 $0 $0 f $0.00/sfi ) Fuel Cost = $0.000 oer Therm (1 Therm = 100 k.Btul Electricity Cost = $0,.000 r?er kWh 1 kWh x 3 x 3„41 = 1 source kBtu Peak seasons) not simulated - Cheek Weak:. load=. Energy Budgets valid 4f(fi III Page I < < < MICROPAS2 v2.1 File-87037AB Weather-CZ4 Program -FORMAT > > > Run -870374B Project -LOT 7 PACKAGE E Date -02/26/87 Input file 'S7037AB' last edited on 02/26/S7 CONTROL DATA RUN DATA 1> RUN TITLE (25 char) ...,.,.....,,.,,....,..... .... 870.37AB 2> PROTECT TITLE (25 char) ...........,,.......,,......,. LOT 7 PACKAGE E 3> OWNER'S NAME (25 chart „... PETER G SHUTTS a> SITE LOCATION (25 char) ,........,.......,.........,.. CUPERTINO 5> BUILDING TYPE (SINGLE.CLUSTER.DESIGN.NONE) ...... CLUSTER SITE AI',ID WEATHER DATA 0 BUILDING LATITUDE (decimal deg) ................... 37.3 21 BUIL.DING ROTATION (dea. 0 =S. Q 0=W. -90=E. 180=N 1 . , .. -45 3> NUMBER OF WARMUP DAYS 110 maximum) .. „ .. . .. ... . , , 3 4> WEATHER DATA FILE NAME f.CZ12.etc1 „.,.,..,. CZ6 5> WIND CORRECTION FACTOR (fraction) „ . ,.. .., „ ... .4'. u> HEATING MODE GROUND F.'L=FLECTIVITY (traction) .„..,. .2 7> COOLING MODE GROUND REFLECTIVITY (fraction) ....,. .2 8> GROUND TEMP DAILY FACTOR (fraction) ............... 0 9> GROUND TEMP MONTHLY FACTOR (fraction) ............ 1 10> GROUND TEMP ANNUAL FACTOR (fraction) ....... .,.. 0 11> HVAC SIZING: LOCATION (25 char) .,.. CUPERTINO SIMULATION CONTROL. DATA V NUMBER OF SIMULATION SEASONS (8 only) ........ 3 SEASON SIMULATE NAME SEASON ------1------- ---2---- 1> WINTER YES 2> WINTER/SPRING YES 3> SPRING/SUMMER YES 4.> SUMMER YES 5> SUMMER/FALL YES 6> FALL/WINTER YES 7> PEAK HEATING NO 8> PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES'.NO.FORMAT) „....... „..... FORMAT 2> SUMMARY (YES.NO) ...., ...,.... YES 3> FORM 2 f YES. NO) ............ ......., ...... „ ........ NO 4.> HVAC SIZING: CALCULATIONS (YF_S.NO) .............. NO ;%;;, ZONE DATA Q NUMBER OF ZONES (5 maximum) ..................... 1 ) 4 GLAZING SURFACE DATA NUMBER ZONE Page 2 OF { < MICROPAS2 v2,1 File-87037AB Weather-CZ4 PANES Propram-FORMAT > > > NAME Run-87037AB Project -LOT 7 PACKAGE E Date -02/26/87 2 HOUSE DRAPE 2 ZONE 'HOUSE' SURFACES (30 maximum) ....... HOUSE DRAPE 2 NAME AREA U -VALUE AZIMUTH 1> NAME fHOUSE.SUNSPACE.etcl ....................... HOUSE (raft) 2> FLOOR AREA Isaft)...............,.................,. (deg) 1656 3> VOLUME (tuft) ................................... -sf-F ) 13973 4> HEAT CAPACITY IBtu/F1 _--1---- 34S4 ---3---- 5> INTERNAL GAIN (Btu/day) ..........,.......... 72665 SGLASS 6> INTERNAL GAIN SCHEDULE fI:NTERNAL,NONE.etc) .....,. O INTERNAL 2> EGLASS 82.8 .65 -90 7> INFILTRATION BASE ACH (ac/hr) .....,,.......,.,........ 3> .66 82.8 8> INFILTRATION TEMPERATURE ACH (an/hr-Fl ..,......,.. 90 n 4> 9> INFILTRATION WIND ACH (ac/hr--mph) .65 O f 10> „.,.,........,. HEAT EXCHANGER SYSTEM NAME (HEATEX,NONE.etc) ... NONE 10 HEATING SYSTEM NAME_ (FURNACE,NONE,etcl ,....... _ FURNACE 12) COOLING SYSTEM NAME (HEATPUMP.NONE.etc) „. AC 13> VENTILATION SYSTEM NAME (NATURAL.NONE.etc) NATURAL J 14) HEATING MODE THERMOSTAT NAME (HEATCNST.etc) .,... HEATCNST 15> COOLING MODE THERMOSTAT NAME (COOLCNST.etc) COOLCNST lt> HVAC SIZING: NUMBER OF PEOPLE ..,........... .....,. 4 17> HVAC SIZING: APPLIANCE GAIN (Btu) ..,.. 1200 18> HVAC SIZING: INFILTRATION (TIGHT,MEDIUM.LOOSE) ., LOOSE ., OPAQUE SURFACE DATA #> NUMBER OF SURFACES 130 maximum) ................... 11 Ai NAME AREA U -VALUE AZIMUTH TELT ABSORP- ZONE (salt) (Btu/hr flea) (deg) TIVITY NAME -sf-F) f frac ) __-1---- ---2---- ---3---- ---4----- ---5---- ----6---- ----7----- 1 > Fr NTWALL 149.2 .00 0 90 .5 HOUSE 2> RGHTWALI_ 205.2 .09 --90 90 .5 HOUSE 3` BACKWALL 393.3 ,09 180 90 .5 HOUSE 4> L EFTWALL 477.7 .09 90 90 .5 HOUSE 5> GARGWALL 164 .Og O 90 O HOUSE >> FRNTDOOR 20 46 O 90 .5 HOUSE 7> GARGDOOR 20 .52 0 90 O HOUSE 8) FLOOR 731 .039 O O O HOUSE 9> DROPCLG1 971 .034 0 0 .5 HOUSE 10> KNEEWALL 137 .09 O 90 O HOUSE 11> EXPFLOOR 240 .05 O 0 0 HOUSE 4 GLAZING SURFACE DATA NUMBER ZONE TREAT - OF GLAZING SURFACES MENT PANES NAME 7 ---- ---8---- 2 HOUSE DRAPE 2 #> NUMBER OF SURFACES (30 maximum) ....... HOUSE DRAPE 2 NAME AREA U -VALUE AZIMUTH TILT (raft) (Btu/hr (deg) (deg) -sf-F ) _--1---- --2--- ---3---- ---4--- --5-- -5--1> 1> SGLASS 82.8 .65 O 90 2> EGLASS 82.8 .65 -90 90 3> WGLASS 82.8 .65 90 90 4> NGLASS 82.8 .65 180 90 G 4 NUMBER ZONE TREAT - OF NAME MENT PANES NAME 7 ---- ---8---- 2 HOUSE DRAPE 2 HOUSE DRAPE 2 HOUSE DRAPE 2 HOUSE DRAPE Page 3 < < < MICROPAS2 v2.1. File-87037AB Weather-CZ4. Program -FORMAT > > Run-87037AB Pro.iect-LOT 7 PACKAGE E Date -02/26/87 GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 1 NAME GLAZ OVER- OVER.- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME ---1---- --2-- --3-- --4-- --5-- --6-- ---7---- ---8---- --9-- _--10--- 1> DRAPE 0 0 0 1 .75 NONE 0 O NONE MASS DATA #> NUMBER OF MASSES (10 maximum) „,..............„. 0 SYSTEM5- DATA ENERGY COSTS 1> FUEL COST (dollars/therm) .......... 0.0 2.> EL.ECTRICITY COST f dollars/kWh ) „ .. ,. ,.., ...., . „ .. ,... C'., O HEATING, SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ., 1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr,) FRACTION LOCATION ---1---_ ---2---- ---3---- ----4---- --- 5 ---- -----h----- 1> FURNACE FUEL .71. UNLIMITED 0 ATTIC COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) „,..,.. 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT [Btu/Wh) (BtLi/hr) FRACTION FRACTION LOAD LOCATION ---1---- ---2---- -- --3---- ---4---- ---5---- ---6---- ----- 7------ 1.> Ai_: g,.5 UNLIMITED 0 0 .2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) .1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (crm ) [ W/cfm ) ( F ) ( raft ) ( _sift ) ( ft 1 ( deg ) IENCY IENCY ---1---- --2-- ---3--- --4--- --5--- --6--- --7-- ---5--- --9--- --10-- 1> NATURAL 0 0 0 33 33 2 45 1 1 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 Paoe 4 < ( < MICROPAS2 v2,2 File-87037AG Weather-CZ4 Prooram-FORMAT > ) > Run-87037AB Project -LOT 7 PACKAGE E Dote -02/26/87 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE <Fl (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ---2---- ---2--- ---3--- ---4--- ---5--- ---h--- ---7--- ---8---- 1> HEATCNST 65 80 80 O O O NONE 2> C00LCNST 65 80 65 O O O NONE <�CHEDULE DATA ============= #> NUMBER OF HOURLY 5CHEDULE5 (1O maximum) .'''.,''' 1 HOURLY SCHEDULE ^ZNTERNAL` l> NAME (ZNTERNAL'SETBACK.etc) '','''.'.,','''''.''' INTERNAL 2> HEATING (ON.OFF.AUT0.OPEN.CL0SED.UP.BACK'RAMP'frao) l. 0'024 2' 0'022 J' 0'021 4, 0.021 5' O'O2l 6' 0.. 026 7' 0'038 8. 0. 054 9' 0'056 lO. 0.060 1l' 0.059 12. (D,, 046 13' 0'045 14. 0'030 1.5' 0'028 l�' 0'031 17' 0'057 18. 0'064 19' 0'064 20. 0.052 21' 0'050 22. 0'055 23' 0'044 24. 0'027 3> COOLING (ON.0FF,AUTO,OPEN'CLO5ED,UP,BACK.RAMP.frac) l' 0'024 2' 0'022 J' 0'021 6' 0'021 5' 0'021 6' 0'026 7' 0.038 8. 0'059 g' 0'056 lO' 0. 060 11' 0'059 12' 0'046 13' 0'045 14. 0.030 15' 0.028 16' 0'031 17. 0'057 is., 0'0611 19' 0.064 20' 0,052 21' 0'050 22' ID. 055 23' O.044 24' 0'027 White Eagle Subdivision I_at r Mi ercpaz Anal is i s, ��a Page I ( < < MICROPAS2 v2.1 File -87038 Weather-CZ4 Program -SUMMARY > > > Run -87038 Pro.7ect-LOT 8 PLAN B REV Date -02/25/87 M I C R O P A S 2 v2.1 PC -DOS 8087 - 07/18/86 Calculations By: BUILDERS ENERGY SERVICES 565 CHAPMAN) COURT SANTA CLARA CA 95050 (408) 984-5398 PROJECT DATA Run Title ............................... 87038 Project Title ........................ LOT 8 PLAN B REV Owner's Name ............................ PETER G SHUTTS Site Location ........................... CUPERTINO Building Type ........................... CLUSTER DESIGN DATA Floor area (saft) ....................... 1610 Glazing arca (sift) ..................... 239 Glazing percentage .................. 14.8% Glazing UA (.Btu/hr-F) ................... 155 (26.7%) Opaque UA (Btu/hr-F) .................... 251 (43.2%) Infiltration UA (Btu/hr-F) 175 (30.1%) Total UA (Btu/hr-F) ..................... 581 (100%) MECHANICAL SYSTEMS Heating System .......................... FURNACE Cooling System .......................... AC Ventilation System ....................... NATURAL CLIMATE DATA Weather Data Location ................... SUNNYVALE CA 61 ESOL/RED Average Temperature (F.) ................ .57 Minimum Temperature (F) 32 Maximum Temperature (F) ................. 90 Page 2 < < < MICROPAS2 v2.1 File -87038 Weather-CZ4 Program -SUMMARY > > > Run -87038 Project -LOT 8 PLAN B REV Date -02/25/87 ------------------- PERFORMANCE ------•------------ PERFORMANCE SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST (kBtu) (kBtu/hr) (kBtu) (kWh) ($) -------- -------- -------- -------- -------- BUILDING Heating 15252 16.0 21481 0 $0 Cooling -7343 -27.1 918 $0 Venting 0 $0 Totals 21481 918 $0 -----_.----------------------------------------------------- ------------------------ ENERGY BUDGET COMPARISON Fuel Cost = $0.000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 Per kWh 1 kWh x 3 x 3.41 = 1 source kBtu XXX Peak season(s) not simulated - Check Peak loads A*x Energy Budgets valid t 1 ---- BUDGETS ---- ------ CONSUMPTION ------ SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (kBtu/sf) ($) ($) ($) BUILDING: 1610 ------------------------- sf of Conditioned Floor Area -------- _------- Heating 21481 13.3 $0 $0 $0 Cooling 9390 5.8 $0 $0 Venting 0 0.0 -------- --------- --------- $0 -------- $0 -------- Totals 30871 19.2 $0 $0 $0 ($0.00/sf) CALIF. STANDARDS BUDGET. Multi -Family Cluster in Climate Zone 4 Heating 13363 8.3 $O $0 $0 Cooling 7728 4.8 $0 $0 -------- Totals -------- -------- --------- 21091 13.1 -------- $0 $0 $0 --------------------------------------------------------------------- ($0.00/sf) Fuel Cost = $0.000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 Per kWh 1 kWh x 3 x 3.41 = 1 source kBtu XXX Peak season(s) not simulated - Check Peak loads A*x Energy Budgets valid t 1 Page l ( ( < MICROPA�2 v2'1 File -87038 Weather-CZ4 Program -FORMAT > > > w1i Run -87038 Project -LOT 8 PLAN B REV Date -02/25/87 =============================================================================== Inout file "87038` last edited on 02/25/87 CONTROL DATA ============ RUN DATA l> RUN TITLE (25 char) .'..'''''''''.'''..''.'.'.,'' 87038 2> PROJECT TITLE (25 char) '''''''''.'''''..''''.''' LOT 8 PLAN B REV 3> OWNER'S NAME (25 char) ''''''.'''.'''''.''''''''' PETER 6 5HUTTS 4> SITE LOCATION (25 char) '''.'''''''''.'.'.''''.'' CUpERTINO 5> BUILDING TYPE (SINSLE,CLUSTER,DESIGN,NONE) '.'.'' CLUSTER SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deg) '''.''.,.'''''''' 37'3 2> BUILDING ROTATION (deg'O=S,90=W,-90=E,180=N) '''' -45 3> NUMBER OF WARMUP DAYS (10 maximum) ''.','.,'''.'. 3 4�> WEATHER DATA FILE NAME (C212'oto) ............... CZ4 5> WIND CORRECTION FACTOR (fraction) '''''''''.'''.' '4O b> HEATING MODE GROUND REFLECTIVITY (fraction) '.''' '2 7> COOLING MODE GROUND REFLECTIVITY (fraction) ..''. 0'2 8> GROUND TEMP DAILY FACTOR (fraction) '.''''''.,''' O 9> GROUND TEMP MONTHLY FACTOR (fraction) '''''''.,'' l 10> GROUND TEMP ANNUAL FACTOR (fraction) '''''-''''' O 11> HVAC SIZING: LOCATION (25 char) '''.'''''.',.''' CUPERTIN0 SIMULATION CONTROL DATA ZONE DATA == ========= #> NUMBER OF ZONES (5 maximum) '.'...''.'..''.'''''. 1 #> NUMBER OF SIMULATION SEASONS (8 only) '''''','''' 8 SEASON SIMULATE NAME SEASON ------l------ ---2---- 1> WINTER YES 2> WINTER/SPRING YES 3> SPRING/SUMMER YES 4> SUMMER YES 5> SUMMER/FALL YES b> FALL/WINTER YES 7> PEAK HEATING NO 0� ~� 8> PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES,NO.FORMAT) ''''..''.'.''' FORMAT 2> SUMMARY (YES.N0) '..,.'''''.,'''''''''''''.''.''' YES J> FORM 2 ( YES' NO ) ' . , . , . ' . ' ' ' ' ' ' ' ' ' . . ' ' . ' ' ' , . ' ' . ' ' ' NO 4> HVAC SIZING: CALCULATIONS (YES,N0) .............. NO ZONE DATA == ========= #> NUMBER OF ZONES (5 maximum) '.'...''.'..''.'''''. 1 Page 2 < < < MICROPAS2 v2.1 File -87038 Weather-CZ4 Program -FORMAT > > > Run -87038 Project -LOT 8 PLAN B REV Date -02/25/87 ZONE 'HOUSE' 1> NAME (HOUSE,SUNSPACE.etc) ....................... HOUSE 2> FLOOR AREA (sgft) ............................... 1610 3> VOLUME (.tuft) ................................... 14812 4> HEAT CAPACITY (Btu/F) ........................... 34.15 5> INTERNAL GAIN (Btu/day) ......................... 72665 6> INTERNAL GAIN SCHEDULE (INTERNAL,NONE.etc) ...... INTERNAL 7> INFILTRATION BASE ACH (ac/hr) ................... .66 8> INFILTRATION TEMPERATURE ACH (ac/hr-F) .......... 0 9> INFILTRATION WIND ACH (ac/hr-mph) ............... 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX,NONE,etc) ... NONE 11> HEATING SYSTEM NAME (FURNACE,NONE,etc) ......... FURNACE 12> COOLING SYSTEM NAME (HEATPUMP,NONE.etc) ........ AC 13> VENTILATION SYSTEM NAME (NATURAL,NONE,etc) NATURAL 16> HEATING MODE THERMOSTAT NAME (HEATCNST,etc) HEATCNST 15> COOLING MODE THERMOSTAT NAME (COOLCNST,etc) COOLCNST 16> HVAC SIZING: NUMBER OF PEOPLE .................. 4 17> HVAC SIZING: APPLIANCE GAIN (Btu) .............. 1200 18> HVAC SIZING: INFILTRATION (TIGHT.MEDIUM.LOOSE) . LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) ................. 15 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE (saft) (Btu/hr (deg) (deg) TIVITY NAME -sf-F) (frac) ---1---- ---2---- ---3---- ---4---- ---5---- ---6---- ---7---- 1> FRNTWALL 108 .09 0 90 0.5 HOUSE 2> LEFTWALL 10 .09 90 90 0.5 HOUSE 3> BACKWALL 144 .09 180 90 0.5 HOUSE 4> RGHTWALI 191 .09 -90 90 0.5 HOUSE 5> RGHTWAL2 147 .09 -45 90 0.5 HOUSE 6> RGHTWAL3 235 .09 -135 90 0.5 HOUSE 7> GARGWALL 300 .09 0 90 0.0 HOUSE 8> FRNTDOOR 20 .46 90 90 0.5 HOUSE 9> GARGDOOR 20 .52 0 90 0.0 HOUSE 10> FLOOR 724. .10 0 O O.0 HOUSE 11> DROPCLGI 533 .05 O 0 0.5 HOUSE 12> BEAMCLGI 171 .05 0 27 0.5 HOUSE 13> BEAMCLG2 204 .05 180 27 0,5 HOUSE 14> KNE=EWALL 62 .08 0 90 0.0 HOUSE 15> EXPFLOOR 143 .05 0 0 0.0 HOUSE GLAZING SURFACE DATA GLAZING SURFACES #> NUMBER OF SURFACES (30 maximum) ................. 6 GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 2 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME ---1---- --2-- --3-- --4-- --5-- --6-- ---7---- ---8---- --9-- ---10--- 1> DRAPE 0 O 0 1 .75 NONE 0 0 NONE 2> SKYSH 0 0 0 1 .55 NONE 0 0 NONE MASS DATA #> NUMBER OF MASSES (10 maximum) ................... 0 SYSTEMS DATA ENERGY COSTS 1> FUEL COST (dollars/therm) ....................... 0.0 2> ELECTRICITY COST (dollars/kWh) .................. 0,0 i�"HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ........... 1 NAME HEATING SEASONAL HEATING DUCT SIZING: Page 3 FUEL < ( ( MICROPAS2 v2.1 File -87038 Weather-CZ4 Program -FORMAT > > > NAME Run -87038 Project -LOT 8 PLAN B REV Date -02/25/87 ---1---- ---2---- ---3---- NAME AREA U -VALUE AZIMUTH TILT NUMBER ZONE TREAT- UNLIMITED O ATTIC (sgft) (Btu/hr (deg) (deg) OF NAME MENT -sf-F) PANES NAME ---1---- --2--- ---3---- ---4--- --5--- --6--- ---7---- --- 8---- --8---- 1> 1> FRNTGLI 32 .65 O 90 2 HOUSE DRAPE 2> BACKGLI 104 .65 180 90 2 HOUSE DRAPE (Btu/Wh) 3> LEFTGLI 29 .65 90 90 2 HOUSE DRAPE ---- 3---- 4> LEFTGL2 29 .65 45 90 2 HOUSE DRAPE 0 5> LEFTGL3 37 .65 135 90 2 HOUSE DRAPE 6> SKYLITE 8 .70 180 27 2 HOUSE SKYSH GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 2 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME ---1---- --2-- --3-- --4-- --5-- --6-- ---7---- ---8---- --9-- ---10--- 1> DRAPE 0 O 0 1 .75 NONE 0 0 NONE 2> SKYSH 0 0 0 1 .55 NONE 0 0 NONE MASS DATA #> NUMBER OF MASSES (10 maximum) ................... 0 SYSTEMS DATA ENERGY COSTS 1> FUEL COST (dollars/therm) ....................... 0.0 2> ELECTRICITY COST (dollars/kWh) .................. 0,0 i�"HEATING SYSTEMS 1 #> NUMBER OF HEATING SYSTEMS (5 maximum) ........... 1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION ---1---- ---2---- ---3---- ----4---- ---5---- -----6----- 1> FURNACE FUEL .71 UNLIMITED O ATTIC COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) ........... 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Btu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION ---1---- __- 2 ---- ---- 3---- ---4---- ---5---- ---6---- -----7------ 1> AC 8.0 UNLIMITED 0 0 0.2 ATTIC iia 1 Page 4 < < < MICROPAS2 v2.1 File -87038 Weather-CZ4 Proqram-FORMAT > > > ' Run -87038 Protect -LOT 8 PLAN B REV Date -02/25/87 VENTILATION SYSTEMS THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ----2--- ---3--- ---4--- ---5--- ---6--- ---7--- ---8---- 1> HEATCNST 65 80 80 0 0 O NONE 2> COOLCNST 65 80 65 0 0 0 NONE SCHEDULE DATA #> NUMBER OF HOURLY SCHEDULES (10 maximum) ......... 1 HOURLY SCHEDULE 'INTERNAL' 1> NAME #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 (ON.OFF.AUTO.OPEN.CLOSED,UP,BACK,RAMP,fr,ac) NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND (i 6. FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- 11. 0.059 (cfm) (W/cfm) (F) (soft) (soft) (ft) (deg) IENCY IENCY 0.031 ---1---- --2-- ---3--- --4-- --5--- --6--- --7-- ---8--- --9--- --10-- 22. 1> NATURAL 0 0 0 24 24 8 45 1.0 1.0 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ----2--- ---3--- ---4--- ---5--- ---6--- ---7--- ---8---- 1> HEATCNST 65 80 80 0 0 O NONE 2> COOLCNST 65 80 65 0 0 0 NONE SCHEDULE DATA #> NUMBER OF HOURLY SCHEDULES (10 maximum) ......... 1 HOURLY SCHEDULE 'INTERNAL' 1> NAME (INTERNAL,SETBACK,etc) ..................... INTERNAL 2> HEATING (ON.OFF.AUTO.OPEN.CLOSED,UP,BACK,RAMP,fr,ac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0.026 7. 0.038 8. 0.059 9. 0.056 10. 0.060 11. 0.059 12. 0.046 13. 0.045 14. 0.030 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22. 0.055 23. 0.044 24. 0.027 3> COOLING (ON,OFF,AUTO,OPEN,CL_OSED,UP,BACK,RAMP,frec) 1. 0.024 2. 0.022 3. 0.021 4. 0.021, 5. 0.021 6. 0.026 7. 0.038 8. 0.059 9. 0.056 10. 0.060 11. 0.059 12. 0.046 13. 0.045 14. 0.030 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.064. 20. 0.052 21. 0.050 22. 0.055 23. 0.044 24. 0.027 1 White Eagle Subdi*ijsion Lot � Paokage E Analysis Page 1 C < < MICROPA52 v2.1 File-87038AB Weather-CZ4 Program -SUMMARY > > > Run-87038AB Project -LOT 8 PACKAGE E Date -02/25/87 M I C R 0 P A S 2 v2.1 PC -DOS 8087 - 07/18/86 Calculations By: BUILDERS ENERGY SERVICES 565 CHAPMAN COURT SANTA CLARA CA 95050 (408) 984-5398 PROJECT DATA Run Title ............................... 87038AB Protect Title .....................,.... . LOT 8 PACKAGE E Owner's Name .......................... PETER G SHUTTS Site Location CUPERTINO Building Type .......................... CLUSTER DESIGN DATA Floor area (raft) ....................... 1610 Glazing area (salt) ................... 322 Glazing percentage (%) .................. 20% Glazing UA (Btu/hr-F) ................... 209 (36.7%) Opaque UA (Btu/hr-F) .................... 185 (32.5%) Infiltration UA (Btu/hr--F) .............. 175 (30.8%) Total UA (Btu/hr-F) ..................... 569 (100%) MECHANICAL SYSTEMS Heating System FURNACE Cooling System .......................... AC Ventilation System ..................... NATURAL CLIMATE DATA Weather Data Location SUNNYVALE CA 61 ESOL/RED Average Temperature (F) 57 Minimum Temperature (F) 32 Maximum Temperature (F) ........... ..... 90 r 1 Page - < < < MICROPAS2 v2.1 File-87038AB Weather-CZ4 Program -SUMMARY > > > Run-87038AB Protect -LOT 8 PACKAGE E Date -02/25/87 ------------------- PERFORMANCE SUMMARY ------ LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST (kBtu) (kBtu/hr) (kBtu) (kWh) ($) -------- -------- -------- -------- -------- BUILDING Heating 13730 15.6 19339 0 $0 Cooling -8814 -28.6 928 $0 Venting 0 $0 Totals 19339 928 $0 ----------------------------------------------------------- ------------------------- ENERGY BUDGET COMPARISON Fuel Cost = $0.000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu Peak season(s) not simulated - Check peak loads Energy Budgets valid ---- BUDGETS ---- ------ CONSUMPTION - -- --- SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (kBtu/sf) ($) ($) ($) BUILDING: 1610 ------------------------ sf of Conditioned Floor Area -------- -------- Heating 19339 12.0 $0 $0 $0 Cooling 9492 5.9 $0 $0 Venting 0 0.0 $0 $0 Totals -------- -------- -------- 28830 17.9 -------- $0 $0 -------- $0 ( $0.00/sf ) CALIF. STANDARDS BUDGET: Multi -Family Cluster in Climate Zone 4 Heating 13,363 8.3 $0 $0 $0 Cooling 7728 4.3 $0 $0 Totals -------- -------- -------- 21091 13.1 --------- $0 $0 -------- $0 ---------------------------------------------------------------------- ( $0.00/sf ) Fuel Cost = $0.000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu Peak season(s) not simulated - Check peak loads Energy Budgets valid Page 1 < < < MICROPAS2 v2.1 File-87038AB Weather-CZ4 Program -FORMAT > > > =~ Run-87038AB Project -LOT 8 PACKAGE E Dote -02/25/87 =============================================================================== Inout file ^87038AB" last edited on 02/25/87 CONTROL DATA ============ RUN DATA 1> RUN TITLE (25 char) ''''''''''''''''''''''''''''' 87038AB 2> PROJECT TITLE (25 char) ..''''''.''''.'.'''..'''. LOT 8 PACKAGE E 3> OWNER'S NAME (25 char) ''''.'..'''.''.,'''.''''.' PETER G 5HUTT5 4> SITE LOCATION (25 char) .''''...'''''.'.'.''.'... CUPERTIN0 5> BUILDING TYPE (5INGLE,CLUSTER,DESIGN,NONE) '''''' CLUSTER SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deg) '''''','.,',.'''. �7.3 2> BUILDING ROTATION (deg,O=5.90=W,-90=E,180=N) .''' -45 3> NUMBER OF WARMUP DAYS (lO maximum) '.''.''''''''' 3 4> WEATHER DATA FILE NAME (CZ12'*to) '.''''''''''''. CZ4 5> WIND CORRECTION FACTOR (fraction) ............... '4 6> HEATING MODE GROUND REFLECTIVITY (fraction) ''''. '2 7> COOLING MODE GROUND REFLECTIVITY (fraction) ''... '2 8> GROUND TEMP DAILY FACTOR (fraction) '.'.'''.'.'.' O 9> GROUND TEMP MONTHLY FACTOR (fraction) ''''''''.'. 1 10) GROUND TEMP ANNUAL FACTOR (fraction) .'.''.'''. O 11> HVAC SIZING: LOCATION (25 char) ..''''....'.'''' CUPERTINO SIMULATION CONTROL DATA #> NUMBER OF SIMULATION SEASONS (8 only) '''.'..''.. 8 SEASON SIMULATE NAME SEASON ------1------ ---2---- 1> WINTER YES 2) WINTER/SPRING YES 3> SPRING/SUMMER YES 4-> SUMMER YES 5> SUMMER/FALL YES 6> FALL/WINTER YES 7> PEAK HEATING NO 8> PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES,NO,FORMAT) .''''','.'.... FORMAT 2> SUMMARY (YES,NO) '',''.''.'''''''..'''''''.-.''.' YES 3> FORM 2 (YES,NO) '.'.'.'''''''...'..'''''''..''''. NO 4> HVAC SIZING: CALCULATIONS (YES,N0) '',,'''.'.'''. NO ZONE DATA #) NUMBER OF ZONES (5 maximum) ''.'..''..'''''''.'.. 1 Page 2 < < < MICROPAS2 v2.1 File-87038AB Weather-CZ4 Program -FORMAT > > > Run-8703BAB Protect -LOT 8 PACKAGE E Date -02/25/87 ZONE 'HOUSE' 1> NAME (HOUSE,SUNSPACE,etc) ....................... HOUSE 2> FLOOR AREA (soft) ............................... 1610 3> VOLUME (cutt) ................................... 14812 4> HEAT CAPACITY (Btu/F) ... ............ ............ 3415 5> INTERNAL GAIN (Btu/day) ............ .............72665 (deg) 6> INTERNAL GAIN SCHEDULE (INTERNAL.NONE,etc) ...... INTERNAL 7> INFILTRATION BASE ACH (ac/hr) ........ I........... .66 3> INFILTRATION TEMPERATURE ACH (ac/hr-F) ........... 0 9> INFILTRATION WIND ACH (ac/hr-mph) ............... 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX.NONE.etc) ..,. NONE 11> HEATING SYSTEM NAME (FURNACE,N(DNE.etc) ......... FURNACE 12) COOLING SYSTEM NAME (HEATPUMP.NONE.etc) ........ AC 13> VENTILATION SYSTEM NAME (NATURAL.NONE,etc) ..... NATURAL 14> HEATING MODE THERMOSTAT NAME (HEATCNST.etc) .... HEATCNST 15> COOLING MODE THERMOSTAT NAME (COOLCNST.etc) .... COOLCNST 16> HVAC SIZING: NUMBER OF PEOPLE .................. 4 17> HVAC SIZING: APPLIANCE GAIN (Btu) ............... 1200 18> HVAC SIZING: INFILTRATION (TIGHT.MEDIUM.LOOSE) . LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) ................. 10 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE (.Suft) (Btu/hr (deg) (deg) TIVITY NAME -sf-F) ( frac) ---1---- ---2-------3---- ---4---- ---5----- ---6---- ---7---- 1> FRNTWALL 59.5 .09 0 90 .5 HOUSE 2> RGHTWALL 492.5 .09 -90 90 .5 HOUSE Ai 3> BACKWALL 204.5 .09 180 90 .5 HOUSE 4> GARGWALL 300 .09 0 90 0 HOUSE 5> FRNTDOOR 20 .46 90 90 .5 HOUSE 6> GARGDOOR 20 .52 0 90 0 HOUSE 7> FLOOR 724 .039 0 0 0 HOUSE 8> DROPCLGI 867 .034 0 0 .5 HOUSE ' 9> KNEEWALL 62 .09 0 90 0 HOUSE 10> EXPFLOOR 1.43 .05 0 O 0 HOUSE GLAZING SURFACE DATA GLAZING SURFACES #> NUMBER OF SURFACES (30 maximum) ................. 4 NAME AREA U -VALUE AZIMUTH TIL'f NUMBER ZONE TREAT - (soft) (Btu/hr (deg) (deg) OF NAME MENT -sf-F) PANES NAME --1---- --2--- ---3---r-- ---4--- --5--- -6 ---7---- ---8---- 1> SGLASS 80.5 .65 0 90 2 HOUSE DRAPE 2> EGLASS 80.5 .65 -90 90 2 HOUSE DRAPE 3> WGLASS 80.5 .65 90 90 2 HOUSE DRAPE 4> NGLASS 80.5 .65 180 90 2 HOUSE DRAPE ( Page 3 < < < MICROPAS2 v2.1 File-87038AB Weather-CZ4 Program -FORMAT > > > im Run-87O38AB Pro3ect-LOT 8 PACKAGE E Date -02/25/87 GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 1 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME -1---- - 2-- --3-- --4-- --5-- --6-- ---7---- ---8---- --9-- ---10--- 1> DRAPE 0 0 0 1 .75 NONE 0 0 NONE MASS DATA #> NUMBER OF MASSES (10 maximum) ................... 0 SYSTEMS DATA ENERGY COSTS 1> FUEL COST (dollars/therm) ....................... 0.0 2> ELECTRICITY COST (dollars/kWh) .................. 0.0 HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ........... 1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION ---1---- ---2---- ---3---- ----4---- ---5---- -----6----- 1> FURNACE FUEL .71 UNLIMITED 0 ATTIC COOLING SYSTEMS = #> NUMBER OF COOLING SYSTEMS (5 maximum) ........... 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Btu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION ---1---- - -2---- ----3---- ---4---- ---5---- ----6---- ----- 1> AC 9.5 UNLIMITED 0 0 .2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (soft) (saft) (ft) (deg) IENCY IENCY ---1---- --2-- ---3--- --4-- --5--- --6--- --7-- ---8--- --9--- --10-- 1> NATURAL 0 0 O 32 32 2 45 1 1 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 < { < MICROPAS2 v2'1 File-87038AB Weather-CZ4 Program -FORMAT > > > Run-87038AB Project -LOT 8 PACKAGE E Date -02/25/87 =============================================================================== NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ---1---- ---2--- ---3--- ---4--- ---5--- ---6--- ---7--- ---8---- 1> HEATCNST 65 80 80 O O O NONE 2> CO0LCNST 65 80 65 O O O NONE SCHEDULE DATA ============= #> NUMBER OF HOURLY SCHEDULES (10 maximum) ''.'''''' 1 HOURLY SCHEDULE `INTERNAL` 1> NAME (INTERNAL,SETBACK,etc) ''''.''''''.''''''''' INTERNAL 2> HEATING !0N,0FF'AUT0.0PEN.CL0SED,UP,BACK.RAMP.frac) 1' 0,024 2' 0'022 3' 0'021 4' 0'021 5. 0'021 6' 0'026 7' 0'038 8' 0'059 9. 0.056 10' O'OhO 11' 0.059 12' 0'046 13' 0'045 14. 0.030 15' 0.028 16' 0'031 17. 0'057 18' 0'064 19' 0.064 20' 0'052 21. 0.050 22' 0.055 23' 0'044 24' 0'027 3> COOLING (ON,OFF,AUT0,0PEN,CL0SED,UP,BACK,RAMP,frec) 1' 0.024 2. 0-022 3' 0'021 4' 0'021 5. 0'021 h. 0.026 7' 0'038 D' 0'059 9' 0'056 10' 0'060 11' 0'059 12' 0'046 13' 0'045 14. 0,030 15' 0'028 16' 0.031 17. 0'057 18' 0'064 19' 0'064 20' 0'052 21. 0.050 22' 0'055 23, 0'044 24' 0'027 White Eac le `subdivision L. :, t_ a rlicrc,oas Analysis Page 1 ( ( i MICROPAS2 v2.1 File -87039 Weather-CZ4 Program -SUMMARY > > > Run -87039 Project -LOT 9 PLAN A Date -02/25/87 M I C R 0 P A S 2 v2.1 PC -DOS 8087 - 07/18/86 Calculations BY: BUILDERS ENERGY SERVICES 565 CHAPMAN COURT SANTA CLARA CA 95050 (408) 984-5398 PROJECT DATA Run Title ............................... 87039 Proiect Title ........................... LOT 9 PLAN A Owner's Name ............................ PETER G SHUTTS Site Location ........................... CUPERTINO Building Tyke ........................... CLUSTER DESIGN DATA Floor area (raft) ....................... 1638 Glazing area (soft) ..................... 213.5 Glazing percentage (%) .................. 13% Glazing UA (Btu/hr-F) ................... 139 (23.1%) Ornaaue UA (.Btu/hr-F) .................... 279 (46.3%) Infiltration UA (Btu/hr-F) 184 (30.6%) Total UA (Btu/hr-F) ..................... 602 (100%) MECHANICAL SYSTEMS Heating System .......................... FURNACE Cooling System .......................... AC Ventilation System ...................... NATURAL CLIMATE DATA Weather Data Location ................... SUNNYVALE CA 61 ESOL/RED Average Temperature (F) 57 Minimum Temperature (F) ................. 32 Maximum Temperature (F) ................. 90 Page 2 < < < MICROPAS2 v2.1 File -87039 Weather-CZ4 Program -SUMMARY > > > Run -87039 Project -LOT 9 PLAN A Date -02/25/87 ------------------- PERFORMANCE SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL. ELECTRIC COST (kBtu) (kBtu/hr) (kBtu) (kWh) ($) ---------------- -------- -------- -------- BUILDING Heating 16985 16.6 23923 0 $0 Cooling -7176 -27.1 897 $0 Venting 0 $0 Totals 23923 897 $0 ------------------------------------.------------------------ ------------------------ ENERGY BUDGET COMPARISON Fuel Cost = $0.000 Per Therm (1. Therm = 100 kBtu) Electricity Cost = $0.000 Per kWh 1. kWh x 3 x 3.41 = 1 source kBtu ** Peak season(s) not simulated - Check peak loads * Energy Budgets valid cc; ---- BUDGETS ---- ------ CONSUMPTION ------ SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (kBtu/sf) ($) ($) ($) BUILDING: 1638 ------------------------ sf of Conditioned Floor Area --------- -------- Heating 23923 14.6 $0 $0 $0 Cooling 9177 5.6 $0 $0 Venting 0 0.0 $0 $0 Totals --------- -------- -------- 33099 20.2 $0 -------- $0 -------- $0 ($0.00/sf) CALIF. STANDARDS BUDGET: Multi -Family Cluster in Climate Zone 4 Heating 13595 8.3 $0 $0 $0 Cooling 7862 4.8 $0 $0 Totals 21458 13.1 $0 $0 $0 ----------------------_---------------------------------------------- ( $0.00/sf ) Fuel Cost = $0.000 Per Therm (1. Therm = 100 kBtu) Electricity Cost = $0.000 Per kWh 1. kWh x 3 x 3.41 = 1 source kBtu ** Peak season(s) not simulated - Check peak loads * Energy Budgets valid cc; Page 1 ( < < MICR0PAS2 v2.1 File -87039 Weather-CZ4 Program -FORMAT > > > Run -87034 Project -LOT 9 PLAN A Date -02/25/87 =============================================================================== Inout file "87039" last edited on 02/25/87 CONTROL DATA ============ RUN DATA 1> RUN TITLE (25 char) ... '''''''''.''..','......... 87039 2> PROJECT TITLE (25 char) ''''',''......''.','''.'' LOT 9 PLAN A 3> OWNER'S NAME (25 char) ''.'''''.',''..''.,''''''' PETER G SMUTTS a> SITE LOCATION (25 char) ''''''...'.'''''''.''.'.. CUPERTZN0 5> BUILDING TYPE (SINGLE,CLUBTER,DEGIGN,NONE) '''''' CLUSTER SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deg) '.''''...'''''..' 37.3 SIMULATION CONTROL DATA #> 2> BUILDING ROTATION (deo,O=S.90=W,-90=E,180=N) '',' O SEASON SIMULATE 3> NUMBER OF WARMUP DAYS (10 maximum) ..''''',''.''' 3 4> WEATHER DATA FILE NAME (CZ12,eto) .'.',.''.'.'''. CZ4 51 WIND CORRECTION FACTOR (fraction) .''''.,''''.''' '4O SPRING/SUMMER YES 6> HEATING MODE GROUND REFLECTIVITY (fraction) ''''. .2 - 5> 7) COOLING MODE GROUND REFLECTIVITY (fraction) ..'.' 0.2 8> GROUND TEMP DAILY FACTOR (fraction) '''''..''.''' O PEAK COOLING NO 9> GROUND TEMP MONTHLY FACTOR (fraction) '''','.,..' 1 110, 10> GROUND TEMP ANNUAL FACTOR (fraction) .'''''''''' O 2> 11> HVAC SIZING: LOCATION (25 char) ................ CUPERTIN0 SIMULATION CONTROL DATA #> NUMBER OF SIMULATION SEASONS (8 only) '''''''.''. 8 � � SEASON SIMULATE NAME SEASON ------1------ ---2---- � 1> WINTER YES 2> WINTER/SPRING YES 3> SPRING/SUMMER YES � 4> SUMMER YES - 5> SUMMER/FALL YES 6> FALL/WINTER YES � 7> PEAK HEATING NO � 8> PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES,N0,F0RMAT) .'....'.'....' FORMAT 2> SUMMARY f.YES,N0) '..'''''.,'.'.''''''''.'...'.'.' YES � 3> FORM 2 (YES,N8) ......................... ........ NO � 4> HVAC SIZING: CALCULATIONS {YES,NO} ''.....'....'' NO ZONE DATA i========= #> NUMBER OF ZONES (.5 maximum) '''..,''.'...'.''''', 1 A Page 2 ( ( t MICROPAS2 v2.1 File -87039 Weather-CZ4 Program -FORMAT > > > Run -87039 Project -LOT 9 PLAN A Date -02/25/87 ZONE 'HOUSE' 1> NAME (HOUSE,SUNSPACE,etc) ....................... HOUSE AZIMUTH 2> FLOOR AREA (sgft) ............................... ZONE 1638 3> VOLUME (cuft)................................... (deg) 15561 OF 4> HEAT CAPACITY (Btu/F) ........................... 3457 -sf-F ) 5> INTERNAL GAIN (Btu/day) ......................... PANES 72665 NAME 6> INTERNAL GAIN SCHEDULE (INTERNAL,NONE,etc) ...... ---3---- INTERNAL --5--- 7> INFILTRATION BASE ACH (ac/hr) ................... --- .66 32 8> INFILTRATION TEMPERATURE ACH (ac/hr-F) .......... 90 0 HOUSE 9> INFILTRATION WIND ACH (ac/hr-mph) ............... 40 0 180 10> HEAT EXCHANGER SYSTEM NAME (HEATEX,NONE,etc) ... NONE 3> LEFTGLI 11> HEATING SYSTEM NAME (FURNACE,NONE,etc) ......... 90 FURNACE 2 12> COOLING SYSTEM NAME (HEATPUMP.NONE,etc) ........ AC 13> VENTILATION SYSTEM NAME (NATURAL,NONE,etc) ..... NATURAL 14> HEATING MODE THERMOSTAT NAME (HEATCNST.etc) .... HEATCNST 15> COOLING MODE THERMOSTAT NAME (COOLCNST,etc) .... COOLCNST 16> HVAC SIZING: NUMBER OF PEOPLE .................. 4 17> HVAC SIZING: APPLIANCE GAIN (Btu) .............. 1200 18> HVAC SIZING: INFILTRATION (TIGHT.MEDIUM,LOOSE) . LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) ................. 12 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE (raft) (Btu/hr (deg) (deg) TIVITY NAME -sf -F ) (frac) ---1--------2-------3-------4-------5---- ---6---- ---7---- 1> FRNTWALL 55 .09 0 90 0.5 HOUSE 2> BACKWALL 152 .09 180 90 0.5 HOUSE 3> LEFTWALL 491 .09 90 90 0.5 HOUSE 4> GARGWALL 240 .09 0 90 0.0 HOUSE 5> FRNTDOOR 20 .46 0 90 0.5 HOUSE 6> GARGDOOR 20 .52 0 90 0.0 HOUSE 7> FLOOR 809 .10 0 0 0.0 HOUSE 8> DROPCLGI 438 .05 0 0 0.5 HOUSE 9> BEAMCLGI 387 .05 0 27 0.5 HOUSE 10> BEAMCLG2 340 .05 180 27 0.5 HOUSE 11> KNEEWALL 282 .08 0 90 0.0 HOUSE 12> EXPFLOOR 277 .05 0 0 0.0 HOUSE GLAZING SURFACE DATA GLAZING SURFACES #> NUMBER OF SURFACES (30 maximum) ................. 6 NAME AREA U -VALUE AZIMUTH TILT NUMBER ZONE TREAT- (saft) (Btu/hr (deg) (deg) OF NAME MENT -sf-F ) PANES NAME ---1---- --2--- ---3---- ---4--- --5--- --6--- ---7---- --- 1> FRNTGLI 32 .65 0 90 2 HOUSE DRAPE 2> BACKGLI 40 .65 180 90 2 HOUSE DRAPE 3> LEFTGLI 96 .65 90 90 2 HOUSE DRAPF Page 3 < < ( MICROPAS2 v2.1 File -87039 Weather-CZ4 Program -FORMAT > > > Run -87039 Project -LOT 9 PLAN A Date -02/25/87 4.> LEFTGL2 20 .65 45 90 2 HOUSE DRAPE 5> LEFTGL3 17.5 .65 135 90 2 HOUSE DRAPE 6> SKYLITE 8 .70 180 27 2 HOUSE SKYSH GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 2 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER NEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME ---1---- --2-- --3-- --4-- --5-- --6-- ---7---- ---8---- --9-- ---10--- 1> DRAPE O 0 0 1 .75 NONE 0 0 NONE 2> SKYSH 0 O 0 1 .55 NONE 0 O NONE MASS DATA #> NUMBER OF MASSES 110 maximum) ................... 0 SYSTEMS DATA ENERGY COSTS 1> FUEL COST (dollars/therm) ....................... 0.0 2> ELECTRICITY COST (dollars/kWh) .................. 0.0 COOLING SYSTEMS u #> NUMBER OF COOLING SYSTEMS (5 maximum) ........... 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Btu/Wh) 1Btu/hr) FRACTION FRACTION LOAD LOCATION ----1---- ___2---- ----3---- ---4---- ---5---- ---6---- -----7----- 1> AC 8.0 UNLIMITED 0 0 0.2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (sgft) (sgft) (ft) (deg) IENCY IENCY ---1-_-_ --2-- ---3-- --4-- --5--- --6--- --7-- ---8--- --9--- --10-- 1> NATURAL 0 0 0 21 21 8 0 1.0 1.0 HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ........... 1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION " ---1_._-_ _-_2_____ ___3__-- -___4--_- --- 5---- -----6----- 1> FURNACE FUEL .71 UNLIMITED O ATTIC COOLING SYSTEMS u #> NUMBER OF COOLING SYSTEMS (5 maximum) ........... 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Btu/Wh) 1Btu/hr) FRACTION FRACTION LOAD LOCATION ----1---- ___2---- ----3---- ---4---- ---5---- ---6---- -----7----- 1> AC 8.0 UNLIMITED 0 0 0.2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (sgft) (sgft) (ft) (deg) IENCY IENCY ---1-_-_ --2-- ---3-- --4-- --5--- --6--- --7-- ---8--- --9--- --10-- 1> NATURAL 0 0 0 21 21 8 0 1.0 1.0 Page 4 ( ( ( MICROPAS2 v2.1 Fil*-87039 Weather-CZ4 Program -FORMAT > > > n� Run -87039 Project -LOT 9 PLAN A Dat* -02/25/87 =============================================================================== N� THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ,....,, 2 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY � TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME M� ---l�--- ---2--- ---3--- ---4--- ---5--- ---6--- ---7--- --- 8---- � � 1> HEATCNST 65 8O 80 O O O NONE 2> C00LCNST 65 80 65 O O O NONE SCHEDULE DATA ============= #> NUMBER OF HOURLY SCHEDULES (lO maximum) .....'''' 1 HOURLY SCHEDULE `INTERNAL` l> NAME (ZNTERNAL,SETBACK,et(--) ''''.''''''.','','.'' INTERNAL 2> HEATING (ON,OFF.AUT0.OPEN,CLOSEO,UP.BACK.RAMP,freo) 1' 0'026 2, O.022 3' 0'021 4. O,021 5. 0'021 6. 0.026 7. 0'038 Q. 0.059 9' 0.056 10' 0.060 11. 0'059 12. 0.046 13. 0'045 14. 0'030 15. 0'028 16' 0.031 17. 0,057 18' 0'064 19. O,064 20' 0.052 21' 0'050 22' 0.055 23' 0'044 24' 0'027 3> COOLING (ON,OFF,AUTO,OPEN,CLO5ED,UP,BACK.RAMP,frac) l. 0'024 2' 0'022 3. 0.021 4' O.021 5. 0'021 6. 0'026 7' 0'038 S. 0'059 9. 0'056 10. 0.060 11. 0'059 12' 0'046 13' 0.045 14. 0'030 15. 0'028 16' 0'031 17. 0'057 18' 0'064 19. 0.064 20' 0'052 21. 0'050 22' 0'055 23. 0.044 24. 0'027 White Eagle 5ubdi.vision Lot 9 Package E Analysis Page 1 < < < MICROPAS2 v2.1 File-87039AB Weather-CZ4 Program -SUMMARY > > > Run-87039AB Project -LOT 9 PACKAGE E Date -02/25/$7 M I C R O P A S 2 v2.1 PC -DOS 8087 - 07/18/86 Calculations BY: BUILDERS ENERGY SERVICES 565 CHAPMAN COURT SANTA CLARA CA 95050 (408) 984-5398 PROJECT DATA Run Title ............................... 87039AB Project Title ............................ LOT 9 PACKAGE E Owner'• Name ............................ PETER G 5HUTTS Site Location ........................... CUPERTINO Building TYoe ........................... CLUSTER DESIGN DATA Floor area (soft) .....,.................. 1638 Glazing area (waft) ..................... 327.6 Glazing oercentage (%) .................. 20% Glazing UA (Btu/hr-F) ... _............. 212 (35.1%) Opaaue UA (Btu/hr-F) ...........,......... 208 (34.4%) Infiltration UA (Btu/hr-F) .............. 184 (30.5%) Total UA (Btu/hr-F) ...................... 604 (100%) MECHANICAL SYSTEMS Heating System .................... .... .,. FURNACE Coling System ............ ........... ... AC Ventilation System ...................... NATURAL CLIMATE DATA Weather Data Location ................... SUNNYVALE CA 61 ESOL/RED Average Temperature (F) ................. 57 Minimum Temperature (F) ................. 32 Maximum Temperature (F) ................. 90 Page 2 < < < MICROPAS2 v2.1 File-87039AB Weather-CZ4 Program -SUMMARY > > > Run--87039AB Project -LOT 9 PACKAGE E Date -02/25/87 PERFORMANCE SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST (kBtu) (kBtu/hr) (kBtu) (kWh) ($) --------- -------- -------- -------- -------- BUILDING Heating 15485 16..7 21810 O $0 Cooling -9151 -27.4 963 $0 Venting 0 $O Totals 21810 963 $O ----------------------------------------------------------- ------------------------ ENERGY BUDGET COMPARISON Fuel Cost = $0.000 Der Therm (.1 Therm = 100 kBtu) Electricity Cost = $0.000 Per kWh 1 kWh x 3 x 3.41 = 1 .source kBtu **y` Peak season(s) not simulated - Check peak loads * Energy Budgets valid ---- BUDGETS ---- ------ CONSUMPTION ------ SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (kBtu/sf) ($) ($) ($) BUILDING: 1638 ------------------------ sf of Conditioned Floor Area -------- -------- Heating 21810 13.3 $0 $0 $0 Cooling 9855 6.0 $0 $0 Venting 0 0.0 $0 $0 Totals --------- --------- -------- 31664 19.13 $0 -------- $0 -------- $0 ($0.00/sf) CALIF.. STANDARDS BUDGET: Multi -Family Cluster in Climate Zone 4 Heating 13595 8.3 $0 $0 $0 Cooling 7862 4..8 $0 $0 Totals -------- -------- -------- 21458 13.1 $0 -------- $0 -------- $0 --------------------------------------------------------------------- ($0.00/sf) Fuel Cost = $0.000 Der Therm (.1 Therm = 100 kBtu) Electricity Cost = $0.000 Per kWh 1 kWh x 3 x 3.41 = 1 .source kBtu **y` Peak season(s) not simulated - Check peak loads * Energy Budgets valid Page 1 < < < MICROPAS2 v2.1 File-87039AS Weather-CZ4 Program -FORMAT > ) > Run-87039AB Pro.)ect-LOT 9 PACKAGE E Date -02/25/87 Input file '87039AB' last edited on 02/25/87 CONTROL DATA noJ011970110 1) RUN TITLE (25 char) ............................. 87039AB 2> PROJECT TITLE (25 char) ......................... LOT 9 PACKAGE E 3> OWNER'S NAME (25 char) .......................... PETER G SHUTTS 4> SITE LOCATION (25 char) ......................... CUPERTINO 5> BUILDING, TYPE (SINGLE,CLUSTER,DESIGN.NONE) ......, CLUSTER SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deg) ................. 2) BUILDING ROTATION (deq,0=S.90=W,-90=E.180=N) .... 3> NUMBER OF WARMUP DAYS (10 maximum) .............. 4.> WEATHER DATA FILE NAME (CZ12.etc) ............... 5> WIND CORRECTION FACTOR (fraction) ............... 6> HEATING MODE GROUND REFLECTIVITY (fraction) ...., 7> COOLING MODE GROUND REFLECTIVITY (fraction) .. 8> GROUND TEMP DAILY FACTOR (fraction) ............. 9> GROUND TEMP MONTHLY FACTOR (fraction) ........... 10> GROUND TEMP ANNUAL FACTOR (fraction) ....,..... 11> HVAC SIZING; LOCATION (25 char) ................ SIMULATION CONTROL DATA 37.3 0 3 CZ4 ,4 .2 .2 0 1 0 CUPERTINO #> NUMBER OF SIMULATION SEASONS (8 only) 8 SEASON SIMULATE NAME SEASON ------1------ ---2---- 1> WINTER YES 2> WINTER/SPRING YES 3> SPRING/SUMMER YES 4) SUMMER YES 5> SUMMER/FALL YES 6> FALL/WINTER YES 7> PEAK HEATING NO 8) PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES.NO,FORMAT) .............. FORMAT 2> SUMMARY (YES,NO)...... ............. I ........ .... YES 3) FORM 2 (YES,NO)................................. NO 4> HVAC SIZING: CALCULATIONS (YES,NO) .............. NO ZONE DATA #> NUMBER OF ZONES (.5 maximum) ...................... 1 o til Page 2 < < < MICROPAS2 v2.1 File-87039AS Weather-CZ4 Program -FORMAT > > > Run-87039AB Project -LOT 9 PACKAGE E Date -02/25/87 ZONE 'HOUSE' 1> NAME (HOUSE.SUNSPACE,etc) ....................... HOUSE 2> FLOOR AREA (soft) ................................ 1638 3> VOLUME (cuft)................................... 15561 4> HEAT CAPACITY (Stu/F) ........................... 3457 5> INTERNAL GAIN (Btu/day) ......................... 72665 6> INTERNAL GAIN SCHEDULE (INTERNAL.NONE.etc) ...... INTERNAL 7> INFILTRATION BASE ACH (ac/hr) ................... .66 8> INFILTRATION TEMPERATURE ACH (ac/hr-F) .......... O 9> INFILTRATION WIND ACH (ac/hr-rnph) ...,........ 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX.NONE.etc) ... NONE 11> HEATING SYSTEM NAME (FURNACE.NONE,etc) ......... FURNACE 12> COOLING SYSTEM NAME (HEATPUMP.NONE.etc) ........ AC 13> VENTILATION SYSTEM NAME (NATURAL.NONE.etc) ..... NATURAL 14> HEATING MODE THERMOSTAT NAME (HEATCNST.etc) .... HEATCNST 15> COOLING MODE THERMOSTAT NAME ((--OOLCNST,etc) .... COOLCNST 16> HVAC. SIZING: NUMBER OF PEOPLE ................... 4 17> HVAC SIZING: APPLIANCE GAIN (Btu) ............... 1200 18> HVAC SIZING: INFILTRATION (TIGHT.MEDIUM.LOOSE) . LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) ................. 10 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE (sift) (Btu/hr (deg) (decd) TIVITY NAME -sf-F) (frac) ---1---- ---2-------3---- ---4------5---- ---6---- ---7---- 1> FRNTWALL 5 .09 0 90 .5 HOUSE 2> BACKWALL 127.6 .09 180 90 .5 HOUSE 3> LEFTWALL 525.1 .09 90 90 .5 HOUSE 4> GARGWALL 2.40 .09 0 90 0 HOUSE 5> FRNTDOOR 20 .46 O 90 .5 HOUSE 6> GARGDOOR 2.0 .52 0 90 O HOUSE 7> FLOOR 809 .039 0 0 0 HOUSE 8> DROPCLGI 1086 .034 0 0 .5 HOUSE 1a0 KNEEWALL 232 .09 0 90 0 HOUSE 10> EXPFLOOR 277 .05 0 0 0 HOUSE GLAZING SURFACE DATA GLAZING SURFACES #> NUMBER OF SURFACES (30 maximum) ............. 4 NAME AREA U -VALUE AZIMUTH TILT NUMBER ZONE TREAT- (saft) (Btu/hr (deco) (deg) OF NAME MENT -sf -F ) PANES NAME ---1---- 2 --- ---3---- ---4--- --5---- --6--- ---7---- ---8---- 1> SGLASS 81.9 .65 O 90 2 HOUSE DRAPE 2> EGLASS 81.9 .65 -90 90 2 HOUSE DRAPE 3> WGLASS 81.9 .65 90 90 2 HOUSE DRAPE 4> NGLASS 81.9 .65 180 90 2 HOUSE DRAPE Page 3 < < < MICROPAS2 v2.1 File-87039AB Weather-CZ4 Program -FORMAT > > > Run-87039AB Project -LOT 9 PACKAGE E Date -02/25/87 GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 1 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME ---1---- --2-- --3-- --4-- --5-- --6-- ---7---- ---8---- --9-- ---10--- 1> DRAPE 0 0 0 1 .75 NONE O 0 NONE MASS DATA #> NUMBER OF MASSES (10 maximum) ................... 0 SYSTEMS DATA ENERGY COSTS 1> FUEL COST (dollars/therm) ....................... 0.0 2> ELECTRICITY COST (dollars/kWh) .................. O.O HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ........... 1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION ---1---- ---2---- ---3---- ----4---- ---5---- ----- 6----- 1.> FURNACE FUEL .71 UNLIMITED 0 ATTIC COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) ........... 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Btu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION ---1---- ---2---- ----3---- ---4 __ _--5---- ---6---- -----7----- 1> AC 9.5 UNLIMITED O 0 .2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (raft) (salt) (ft) (dea) IENCY IENCY ---1---- --2-- ---3--- --4-- ---5--- --6--- --7-- ---8--- --9--- --10-- 1> NATURAL 0 0 0 32 32 2 O 1 1 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 Page 4 < < < MICROPAS2 v2.1 File-87039AB Weather-CZ4 Program -FORMAT > > > Run-87039AB Project -LOT 9 PACKAGE E Date -02/25/87 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ---1---- ---2--- ---3--- --- 4.--- ---5--- ---6--- ---7--- ---8---- 1> HEATCNST 65 80 80 O 0 0 NONE 2> COOLCNST 65 80 65 0 0 0 NONE SCHEDULE DATA #> NUMBER OF HOURLY SCHEDULES (10 maximum) ......... 1 HOURLY SCHEDULE 'INTERNAL' 1> NAME (INTERNIAL,SETBACK.etc) ..................... INTERNAL 2> HEATING (ON.OFF.AUTO.OPEN.CLOSED,UP.BACK.RAMP.frac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0.026 7. 0.0.38 8. 0.059 9. 0.056 10. 0.060 11. 0.059 12. 0.046 13.. 0.045 14., 0..0;31 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22. 0.055 23. 0.044 24. 0.027 3> COOLING (ON.OFF,AUTO.OPEN.CLOSED.UP.BACK,RAMP,frac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0.026 7. 0.038 S. 0.059 9. 0.056 10. 0.060 11. 0„059 12,. 0.046 13. 0.045 14. 0.030 15. 0.028 16. 0. 031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0.050 22, 0.055 23. 0.044 24. 0.027 White Eagle Lot 10 Mi,:,roc,as Analvsis I'd Page 1 < < < MICROPAS2 v2.1 File -87040 Weather-CZ4 Program -SUMMARY > > > bi Run -87040 Project --LOT 10 PLAN A REV Date -02/25/87 11 I C R O P A 5 2 v2,1 PC -DOS 8087 - 07/18/86 Calculations BY: BUILDERS ENERGY SERVICES 565 CHAPMAN COURT SANTA CLARA CA 95050 (408) 984-5398 PROJECT DATA Run Title ............................... 87040 Project Title ........................... LOT 10 PLAN A REV Owner's Name ............................. PETER G SHUTTS Site Location ........................... CUPERTINO Building Type ........................... CLUSTER DESIGN DATA Floor area (soft) ....................... 1638 Glazing area (soft) ..................... 213.5 Glazing percentage (%) .................. 13% Glazing UA (Btu/hr-F) ...........„....... 139 (23.1%) Op-aaue UA (Btu/hr-F) .................... 279 (46.3%) Infiltration UA (Btu/hr-F) ...... 184 (30.6%) Total UA (Btu/hr-F) ..................... 602 (100%) MECHANICAL SYSTEMS Heating System ............. ............ FURNACE Cooling System .......................... AC Ventilation System ................„..... NATURAL CLIMATE DATA Weather Data Location ................... SUNNYVALE CA 61 ESOL/RED Average Temperature (F) ................. 57 Minimum Temperature (F) ................. 32 Maximum Temperature (F) ................. 90 Page 2 < < < MICROPAS2 v2.1 File -87040 Weather-CZ4 Program -SUMMARY > > > Run -87040 Project -LOT 10 PLAN A REV Date -02/25/87 ------------------- PERFORMANCE SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST (kBtu) (kBtu/hr) (kBtu) (kWh) ($) -------- -------- -------- --------- -------- BUILDING Heating 161.40 16.6 22733 O $0 Cooling -6732 -23.4 841 $0 Venting O $0 Totals 22733 841 $0 ------------------------------------------------------------- ------------------------ ENERGY BUDGET COMPARISON Fuel Cost = $0.000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu Peak season(s) not simulated - Check peak loads ��* Energy Budgets valid ---- BUDGETS ---- ------ CONSUMPTION ------ SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (kBtu/sf) ($) ($) ($) BUILDING: 1638 ------------------------- sf of Conditioned Floor Area -------- -------- Heating 22733 13.9 $0 $0 $0 Cooling 8608 5.3 $0 $0 Venting 0 0.0 $0 $0 Totals 31341 19.1 $0 $0 $0 ($0.00/sf) CALIF. STANDARDS BUDGET„ Multi -Family Cluster in Climate Zone 4 Heating 13595 8.3 $0 $0 $0 Cooling 7862 4.8 $0 $0 Totals -------- -------- -------- 21.458 13.1 -------- $0 $0 -------- $0 -------------------------------------------------------------------- (.$0.00/sf ) Fuel Cost = $0.000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu Peak season(s) not simulated - Check peak loads ��* Energy Budgets valid Page 1 < < < MICROPAS2 v2.1 File -87040 Weather-CZ4 Program -FORMAT > > > Run -87040 Project -,LOT 10 PLAN A REV Date -02/25/87 Input file '87040' lest edited on 02/25/87 CONTROL DATA RUN DATA 1> RUN TITLE (25 char) ............................. 87040 2> PROJECT TITLE (25 char) ......................... LOT 10 PLAN A REV 3> OWNER'S NAME (25 char) .......................... PETER G SHUTTS 4.) SITE LOCATION (25 char) ......................... CUPERTINO 5> BUILDING TYPE (SINGLE,CLUS'FER,DESIGN,NONE) ...... CLUSTER SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deg) ................. 2> BUILDING ROTATION (deg.0=51.90=W,-90=E,180=N) ... 3) NUMBER OF WARMUP DAYS (10 maximum) .............. 4> WEATHER DATA FILE NAME (CZ12.etc) ............... 5> WIND CORRECTION FACTOR (fraction) ............... 6> HEATING MODE GROUND REFLECTIVITY (fraction) ..... 7> COOLING MODE GROUND REFLECTIVITY (fraction) ..... 8> GROUND TEMP DAILY FACTOR (fraction) ............. 9) GROUND TEMP MONTHLY FACTOR (.fraction) ........... 10> GROUND TEMP ANNUAL FACTOR (fraction) ........... 11) HVAC SIZING: LOCATION (25 char) ................ SIMULATION CONTROL DATA 37.3 O 3 CZ4. .40 .2 0.2 0 1 O CUPERTINO #> NUMBER OF SIMULATION SEASONS (8 only) ........... 8 SEASON SIMULATE NAME SEASON ------1------ ---2---- 1) WINTER YES 2> WINTER/SPRING YES 3> SPRING/SUMMER YES 4> SUMMER YES 5) SUMMER/FALL YES 6> FALL/WINTER YES 7) PEAK HEATING NO 8> PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES.NO.FORMAT) .............. FORMAT 2) SUMMARY (YES,NO)................................ YES 3> FORM 2 (YES.NO)................................. NO 4) HVAC SIZING. CALCULATIONS (YES,NO) .............. NO ZONE DATA #> NUMBER OF ZONES (5 maximum) ..................... 1 krr9 Page 2 < < t MICROPAS2 v2.1 File -8704.0 Weather-CZ4 Program -FORMAT > > > Run -87040 Project -LOT 10 PLAN A REV Date -02/25/87 ZONE 'HOUSE' 1> NAME (HOUSE,SUNSPACE,etc) ....................... HOUSE 2> FLOOR AREA (soft) ............................... 1638 3> VOLUME (cuft)................................... 15561 4> HEAT CAPACITY (Btu/F) ........................... 3457 5> INTERNAL GAIN (Btu/day) ......................... 72665 6> INTERNAL GAIN SCHEDULE (INTERNAL.NONE.etc) ...... INTERNAL 7> INFILTRATION BASE ACH (ac/hr) ..... '...... .66 8> INFILTRATION TEMPERATURE ACH (ac/hr-F).......... 0 9> INFILTRATION WIND ACH (ac/hr-mph) ............... 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX.NONE,etc) ... NONE 11> HEATING SYSTEM NAME (FURNACE,NONE,etc) ......... FURNACE 12> COOLING SYSTEM NAME (HEATPUMP,NONE,etc) ........ AC 13> VENTILATION SYSTEM NAME (NATURAL,NONE,etc) ..... NATURAL 14> HEATING MODE THERMOSTAT NAME (HEATCNST,etc) .... HEATCNST 15> COOLING MODE THERMOSTAT NAME (COOLCNST,etc) .... COOLCNST 16> HVAC SIZING: NUMBER OF PEOPLE .................. 4 17> HVAC SIZING: APPLIANCE GAIN (Btu) .............. 1200 18> HVAC SIZING: INFILTRATION (TIGHT.MF_DIUM.LOOSE) . LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (.30 maximum) ................. 12 TILT NUMBER NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE OF NAME (raft) (Btu/hr (deg) (deg) TIVITY NAME PANES NAME -sf-F) 2 --- ----3---- (frac) --5--- --6--- ---.1---- ---2---- ---3----- ---4---- _ --5---- - --6--- - ---7- -- 1> FRNTWALL 55 .09 0 90 0.5 HOUSE 2> RGHTWALL 491 .09 -90 90 0.5 HOUSE 3> BACKWALL 152 .09 180 90 0.5 HOUSE 4> GARGWALL 240 .09 0 90 0.0 HOUSE 5> FRNTDOOR 20 .46 0 90 0.5 HOUSE 6> GARGDOOR 20 .52 0 90 0.0 HOUSE 7> FLOOR 809 .10 O 0 0.0 HOUSE 8> DROPCLGI 438 .05 0 0 0.5 HOUSE 9> BEAMCLGI 387 .05 0 27 0.5 HOUSE 10> BEAMCI_G2 34.0 .05 180 27 0.5 HOUSE 11> KNEEWALL 282 .08 0 90 0.0 HOUSE 12> EXPFLOOR 277 .05 0 0 0.0 HOUSE GLAZING SURFACE DATA GLAZING SURFACES #> NUMBER OF SURFACES (.30 maximum) ................. 6 NAME AREA U -VALUE AZIMUTH TILT NUMBER ZONE TREAT- (saft) (Btu/hr (deg) (deg) OF NAME MENT -sf -F ) PANES NAME ---1---- 2 --- ----3---- ---4--- --5--- --6--- ---7---- ---8---- 1> FRNTGLI 32 .65 0 90 2 HOUSE DRAPE 2> BACKGLI 40 .65 180 90 2 HOUSE DRAPE 3> RGHTGL9. 96 .65 -90 90 2 HOUSE DRAPE Page 3 < < < MICROPAS2 v2.1 File -87040 Weather-CZ4 Program -FORMAT > > > Run -87040 Project -LOT 10 PLAN A REV Date -02/25/87 4> RGHTGL2 20 .65 -45 90 2 HOUSE DRAPE 5> RGHTGL3 17.5 .65 -135 90 2 HOUSE DRAPE 6> SKYLITE 8 .70 180 27 2 HOUSE SKYSH GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 2 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME ---1---- ----2-- --3-- --4-- --5-- --6-- ---7---- ---8---- --9-- ---10--- 1> DRAPE 0 0 0 1 .75 NONE O O NONE 2> SKYSH O 0 O 1 .55 NONE 0 0 NONE MASS DATA #> NUMBER OF MASSES (10 maximum) ................... O SYSTEMS DATA ENERGY COSTS 1> FUEL COST (dollars/therm) ....................... O.O 2> ELECTRICITY COST (dollars/kWh) .................. 0.0 HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ........... 1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION ---1---- ---2---- ---3---- ----4---- ---5---- ------6----- 1> FURNACE FUEL .71 UNLIMITED O ATTIC COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) ........... 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (.Btu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION ---1-------2---------3-------4-------5-------6---------7----- 1> AC 8.0 UNLIMITED 0 0 0.2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (saft) (scaft) (ft) (deg) IENCY IENCY ---1---- --2-- ---3-__ --4-- --5--- --6--- --7-- ---8--- --9--- --10-- 1> NATURAL 0 0 0 21 21 8 0 1.0 1.0 Page 4 < < < MICROPAS2 v2.1 File -87040 Weather-CZ4 Program -FORMAT > > > Run -87040 Project -LOT 10 PLAN A REV Date -02/25/87 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ---1-------2------3------4------5------6------7------8---- 1> HEATCNST 65 80 80 0 0 0 NONE 2> COOLCNST 65 80 65 0 0 0 NONE SCHEDULE DATA #> NUMBER OF HOURLY SCHEDULES (10 maximum) ......... I HOURLY SCHEDULE 'INTERNAL' 1> NAME (INTERNAL,SETBACK,etc) ..................... INTERNAL 2> HEATING (ON,OFF,AUTO.OPEN.CLOSED,UP.BACK.RAMP,frac) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0,026 7. 0.038 8, 0.059 9. 0.056 10. 0.060 11. 0.059 12. 0.046 13. 0.045 14. 0.030 15. 0.028 16. 0.031 17. 0.057 18. 0.064 19. 0.064 20. 0.052 21. 0,050 22. 0.055 23. 0.044 24. 0.027 3> COOLING (ON,OFF,AUTO,OPEN,CLOSED,UP,BACK,RAMP,frac) 1, 0.024. 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0.026 7. 0.038 8. 0.059 9. 0.056 10. 0.060 11. 0.059 12. 0.046 13. 0.045 14. 0.030 15, O,028 16. 0.031 17. 0.057 18. 0.064 19, 0.064 20. 0.052 21. 0.050 22. 0.055 23. 0.044 24, 0.027 White Eagle Subdivision Lot 1.0 Facks,-)e E Analysis Page 1 ( ( < MICROPAS2 v2.1 File-87040AB Weather -C24 Program -SUMMARY > > > Run-87040AB Project -LOT 10 PACKAGE E Date -02/25/87 M I C R 0 P A S 2 v2..1 PC -DOS 8087 - 07/18/86 Calculations By: BUILDERS ENERGY SERVICES 565 CHAPMAN COURT SANTA CLARA CA 95050 (408) 984-5398 PROJECT DATA Run Title 87040AB Project Title ........................... LOT 10 PACKAGE E Owner's Name ............................ PETER G SHUTTS Site Location ........................... CUPERTINO Building Type ........................... CLUSTER DESIGN DATA Floor area (raft) ......................... 1638 Glazing area (raft) ..................... 327.6 Glazing percentage W .................. 20% Glazing UA (Btu/hr-F! ................... 212 (35.5%) Ooaaue UA (Btu/hr-F) .................... 201 (33.7%) Infiltration UA (Bt(.A/hr-F) .............. 184 (30.80 Total UA (Btu/hr-F) ..................... 597 (100%) MECHANICAL SYSTEMS Heating System ........................... FURNACE Cooling System AC Ventilation System ...................... NATURAL CLIMATE DATA Weather Data Location ................... SUNNYVALE CA 61 ESOL/RED Average Temperature (F) ................. 57 Minimum Temperature (F) 32 Maximum Temperature (F) ................. 90 Page 2 < < < MICROPAS2 v2.1 File-87040AB Weather-CZ4 Program -SUMMARY > > >;.< Run-87040AB Project -LOT 10 PACKAGE E Date -02/25/87 ------------------- PERFORMANCE SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST (kBtu) (kBtu/hr) (kBtu) (kWh) ($) -------- -------- --------- -------- -------- BUILDING Heating 15094 16.5 21260 O $0 Cooling -8979 -27.1 945 $0 Venting 0 $0 Totals 21260 945 $0 ----------------------------------------------------------- ------------------------ ENERGY BUDGET COMPARISON Fuel Cost = $0,000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 Der kWh 1 kWh x 3 x 3.41 = 1 source kBtu * * Peak season(s) not simulated - Check Peak loads *� Energy Budgets valid ---- BUDGETS ---- ------ CONSUMPTION ------ SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (kBtu/sf) ($) ($) ($) BUILDING: 1638 ------------------------ <sf of Conditioned Floor Area -------- -------- Heating 21260 13.0 $0 $0 $0 Cooling 9669 5.9 $0 $0 Venting 0 0.0 $O $0 Totals -------- -------- -------- 30928 18.9 -------- $0 $0 -------- $0 ($0.00/sf) CALIF. STANDARDS BUDGET: Multi -Family Cluster in Climate Zone 4 Heating 13595 8.3 $0 $0 $0 Cooling 7862 4.8 $0 $0 Totals -------- -------- -------- 21458 13.1 -------- $0 $O -------- $O --------------------------------------------------------------------- ($0.00/sf) Fuel Cost = $0,000 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.000 Der kWh 1 kWh x 3 x 3.41 = 1 source kBtu * * Peak season(s) not simulated - Check Peak loads *� Energy Budgets valid Page 1 < < < MICROPAS2 v2.1 File-87040AB Weather-CZ4 Program -FORMAT > > > Run-87040AB Project -LOT 10 PACKAGE E Date -02/25/87 Input file '87040AB' last edited on 02/25/87 CONTROL DATA RUN DATA 1> RUN TITLE 1.25 char) ............................. 87040AB 2> PROJECT TITLE (25 char) ......................... LOT 10 PACKAGE E 3> OWNER'S NAME (25 chart .......................... PETER G SHUTTS 4> SITE LOCATION (25 char) ......................... CUPERTINO 5> BUILDING TYPE (SINGLE,CLUSTER,DESIGN,NONE1 ...... CLUSTER SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deg) ................. 37.3 2> BUILDING ROTATION (dea.0=S.90=W.-90=E.180=N) 0 3> NUMBER OF WARMUP DAYS (10 maximum) .............. 3 4> WEATHER DATA FILE. NAME (CZ12.etc) ............... CZ4 5> WIND CORRECTION FACTOR (fraction) ............... .4 6> HEATING MODE GROUND REFLECTIVITY (fraction) ..... .2 7> COOLING MODE GROUND REFLECTIVITY (fraction) ..... .2 8> GROUND TEMP DAILY FACTOR (fraction) ............. 0 9> GROUND TEMP MONTHLY FACTOR (fraction) ........... 1 10> GROUND TEMP ANNUAL FACTOR (fraction) ........... 0 11> HVAC SIZING: LOCATION (25 char) ................ CUPERTINO SIMULATION CONTROL DATA #> NUMBER OF SIMULATION SEASONS (8 only) ........... 8 SEASON SIMULATE NAME SEASON GENERAL OUTPUT SF'ECIF.ICATIONS 1> COPY OF INPUT DATA (YES.NO.FORMAT) .............. FORMAT 2> SUMMARY (YES,NO)................................ YES 3> FORM 2 (YES,N0)................................. NO 4> HVAC SIZING: CALCULATIONS (YES,NO) .............. NO ZONE DATA #> NUMBER OF ZONES (5 maximum) ................... 1 ------1------ ---2---- 1> WINTER YES 2> WINTER/SPRING YES 3> SPRING/SUMMER YES 4> SUMMER YES 5> SUMMER/FALL YES 6> FALL/WINTER YES 7> PEAK HEATING NO 8> PEAK COOLING NO GENERAL OUTPUT SF'ECIF.ICATIONS 1> COPY OF INPUT DATA (YES.NO.FORMAT) .............. FORMAT 2> SUMMARY (YES,NO)................................ YES 3> FORM 2 (YES,N0)................................. NO 4> HVAC SIZING: CALCULATIONS (YES,NO) .............. NO ZONE DATA #> NUMBER OF ZONES (5 maximum) ................... 1 Page 2 < < < MICROPAS2 v2.1 File-87040AB Weather-CZ4 Program -FORMAT > > > Run -87040A6 Project -LOT 10 PACKAGE E Date -02/25/87 ZONE 'HOUSE' 1> NAME (HOUSE,SUNSPACE.etc.) ....................... HOUSE 2> FLOOR AREA (sgft) ............................... 1638 3> VOLUME (cult) ................................... 15561 4.> HEAT CAPACITY (Btu/F) ........................... 34.57 5> INTERNAL GAIN (Btu/daY) ......................... 72665 6> INTERNAL GAIN SCHEDULE (INTERNAL.NONE.etc) ...... INTERNAL 7> INFILTRATION BASE ACH (ac/hr) .................... .66 8> INFILTRATION TEMPERATURE ACH (ac/hr-F) .......... 0 9> INFILTRATION WIND ACH (ac/hr-moh) ............... 0 10> HEAT EXCHANGER SYSTEM NAME (HEATEX,NONE.etc) ..,. NONE 11> HEATING SYSTEM NAME (FURNACE,NONE,etc) ......... FURNACE 12> COOLING SYSTEM NAME (HEATPUMP.NONE.etc) ........ AC 13> VENTILATION SYSTEM NAME (NATURAL,NONE.etc) ..... NATURAL 1&> HEATING MODE THERMOSTAT NAME (HEATCNST.etc) .... HEATCNST 15> COOLING MODE THERMOSTAT NAME (COOLCNST.etc) .... COOLCNST 16> HVAC SIZING: NUMBER OF PEOPLE .................. 4 17> HVAC SIZING: APPLIANCE GAIN (Btu) .............. 1200 18> HVAC SIZING: INFILTRATION (TIGHT.MEDIUM.LOOSE) . LOOSE OPAQUE SURFACE DATA #> NUMBER OF SURFACES (30 maximum) ................. 10 NAME AREA U -VALUE AZ=IMUTH TILT ABSORP- ZONE (saft) (Btu/hr (deg) (deg) TIVITY NAME -sf-F ) (.frac) ---1---- ---2 __ ---3---- ---4---- ----5---- ----6---- ---7---- 1> FRNTWALL 25.1 .09 0 90 .5 HOUSE 2> RGHTWALL 522.6 .09 -90 90 .5 HOUSE 3> BACKWALL 110.1 .09 180 90 .5 HOUSE 4> GARGWALL 240 .09 O 90 0 HOUSE 5> FRNTDOOR 20 .66 0 90 .5 HOUSE 6> GARGDOOR 20 .52 O 90 0 HOUSE 7> FLOUR 809 .039 0 0 0 HOUSE 8> DROPCLGI 1086 .028 0 0 .5 HOUSE q> KNEEWALL 282 .09 O 90 0 HOUSE 10> EXPFLOOR 277 .05 0 0 0 HOUSE GLAZING SURFACE DATA GLAZING SURFACES #> NUMBER OF SURFACES (30 maximum) ................. 4 NAME AREA U -VALUE AZIMUTH TILT NUMBER ZONE TREAT- (saft) (Btu/hr (deg) (deg) OF NAME MENT -sf-F ) PANES NAME ---1---- --2--- ---3---- ---4--- --5-__ --6--- ---7---- ---8---- 1> SGLASS 81.9 .65 0 90 2 HOUSE DRAPE 2> EGLASS 81.9 .65 -90 90 2 HOUSE DRAPE 3> WGLASS 81.9 .65 90 90 2 HOUSE DRAPE 4> NGLASS 81.9 .65 180 90 2 HOUSE DRAPE Page 3 < < ( MICROPAS2 v2.1 File-87040AB Weather-CZ4 Program -FORMAT > > > Run-87040AB Project -LOT 10 PACKAGE E Date -02/25/87 GLAZING TREATMENTS #> NUMBER OF TREATMENTS (30 maximum) ............... 1 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUTTER SHUT SHUTTER HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAM SCHEDULE GHT LENG HIGH FACT FACT NAME FACT NAME 2-- --3-- --4--- --5-- --6-- ---7---- ---8---- --9-- ---10--- 1> DRAPE O O 0 1 .75 NONE O 0 NONE MASS DATA #> NUMBER OF MASSES (10 maximum) ................... O SYSTEMS DATA ENERGY COSTS 1> FUEL COST (dollars/therm) ....,.............. 0.0 2> ELECTRICITY COST (dollars/kWh) .....,............. 0.0 HEATING .SYSTEMS #> NUMBER OF HEATING SYSTEMS (5 maximum) ........... 1 NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION 1 ---- ---2----- ----3---- ----4----- ---5---- ----- 6----- 1> FURNACE FUEL .71 UNLIMITED O ATTIC COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (5 maximum) ........... 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT 16tu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION -- 1---- --- 2---- ------3---- --- 4---- ---5---- ---6----- ----- 7-_.--- 1> AC 9.5 UNLIMITED O O .2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (10 maximum) ...... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (waft) (raft) (ft) (deg) IENCY IENCY ---1---- --2--- ---3--- --4-- --5-__ --6--- ---7-- ---8--- --9--- --10-- 1> NATURAL 0 0 O 32 32 2 O 1 1 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (10 maximum) ....... 2 Page 4 � < < < MICROPAS2 v2'1 Filc-87040AB Weather-CZ4 Program -FORMAT > > > Run -87040A8 Project -LOT 10 PACKAGE E Date -02/25/87 � N NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ---1---- ---2--- ---3--- ---4--- ---5--- ---6--- ---7--- ---8---- 1> HEATCNST 65 80 80 O O O NONE 2> COOLCNST 65 80 65 O O O NONE SCHEDULE DATA ============= #> NUMBER OF HOURLY SCHEDULES (1O maximum) ''..''''' 1 HOURLY SCHEDULE 'INTERNAL' 1> NAME (INTERNAL,SETBACK,eto) ..................... INTERNAL 2> HEATING (0N,OFF,AUT0,0PEN.CLOSED,UP,BACK,RAMP,frao) 1' 0'024 2' 0'022 3. 0'021 4' 0'021 5' 0'021 6' 0'026 7. 0.038 8' 0'059 9' 0'056 10' 0'060 11' 0'059 12' 0'046 13' 0'045 14. O'OJO 15, 0.028 16' 0'031 17. 0'057 18' 0'064 19' 0'064 20' 0'052 21' 0'050 22' 0'055 23' 0'0&4 24' 0'027 3� COOLING (ON,OFF,AUTO,OPEN,CLOSED,UP,BACK.RAMP,frao) 1. 0'024 2' 0'022 3' 0'021 4' 0'021 5. 0'021 6' 0'026 7' 0'038 8' 0'059 q' 0.056 10. 0'060 11' 0.059 12' 0.046 13' 0'045 14' O'030 15' 0'028 16' 0'031 17' 0,057 18' 0.064 19' 0'064 20' 0,052 21, 0.050 22' 0'055 23' 0.044 24' 0.027 White EacileSulb-division Residenlial Buildinci Load Calculations hyo RESIDENTIAL. BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Pro,:ect Title LOT 1 PLAN A Date: 02/25/87 Cover Page Run Title ...... 87031 ------------------------- Owner, Name .... PETER G SHUTTS Location ....... CUPER'fINO (checked by) (date) < < < MICROPAS2 v2.1 File --87031 Program -HVAC SIZING > > > HEATING, AND COOLING LOAD SUMMARY -------------------------------- BUILDING DESCRIPTION: Floor Area .......................... 1638 salt Volume .............................. 15561 cuft DESIGN CONDITIONS: Weather Location ...................., CUPERTINO Latitude ............................ 37.3 degrees Winter Outside Design Temperature ... 34.0 F Winter Inside Design Temperature .... 70.0 F Summer Outside Design Temperature ... 86.0 F Summer Inside Design Temperature .... 75.0 F Temperature Range ................... 26.0 F DESIGN HEATING LOAD SUMMARY (see heating load calculations): Opaque Conductivity ................. 10065 Glazing Conductivity ................ 5010 Infiltration ........................ 10265 Duct Loss ........................... 2534 Total Heat Load 27874 Btu/hr CEC Maximum: 1.3 x ( 27874 + 10 x 1638) = 57531 Btu/hr DESIGN COOLING LOAD SUMMARY (see cooling load calculations): Opaque Conduction and Solar ......... 2507 Glazing Conduction .................. 1531 Glazing Solar 7701 Infiltration ........................ 1442 Internal Gain ....................... 2100 Duct Gain .......................... 1528 Latent Load ......................... 3362 Total Cooling Load 20172 Btu/hr ( 1.7 Tons) 1 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOO MICROP45 SIZING Page H1 Project Title ... LOT 1 PLAN A Run Title ....... 87031 Date: 02/25/87 < < < MICROPAS2 v2.1 File -87031 Program -HVAC SIZING > > > 'HOUSE' HEATING LOAD CALCULATIONS ---------------------------------- DESIGN CONDITIONS: WINTER DESIGN TEMPERATURES: Inside HOUSE Temperature ......................... 70.0 F Outside Temperature .............................. 34.0 F DESIGN TEMPERATURE DIFFERENCES Standard ......................................... 36.0 F CONDUCTIVE HEAT LOSS: Description Orientation Frame Wall; FRNTWALL North BACKWALL South LEFTWALL East Door: FRNTDOOR North Ceiling; DROPCLGI Horizontal BEAMCLGI North BEAMCLG2 South Exposed Foor; EXPFLOOR Horizontal Raised Floor; FLOOR Horizontal Frame Partition; GARGWALL n/a GARGDOOR n/a KNEEWALL n/a CONDUCTIVE TOTALS FOR OPAQUE SURFACES 10065 Double Glazing; FRNTGLI U -value 32 x Heat Area 36.0 = (Btu/hr- TD Loss (.sgft) x soft -F) x (F) (Btu/hr) 55 x 0.090 x 36.0 - 178 152 x 0.090 x 36.0 = 492 491 x 0.090 x 36.0 = 1591 20 x 0.4.60 x 36.0 331 638 x 0.050 x 36.0 - 788 387 x 0.050 x 36.0 = 697 340 x 0.050 x 36.0 - 612 277 x 0.050 x 36.0 - 4.99 809 x 0.100 x 36.0 - 2912 24.0 x 0.090 x 36.0 = 778 20 x 0.520 x 36.0 - 374 282 x 0.080 x 36.0 - 812 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 10065 Double Glazing; FRNTGLI North 32 x 0.65 x 36.0 = 749 BACKGLI South 40 x 0.65 x 36.0 - 936 LEFTGLI East 96 x 0.65 x 36.0 = 2246 LEFTGL2 Northeast 20 x 0.65 x 36.0 = 468 LEFTGL3 Southeast 18 x 0.65 x 36.0 = 4.10 Double Skylight; SKYLITE Horizontal 8 x 0.70 x 36.0 = 202 CONDUCTIVE TOTALS FOR GLAZING SURFACES 5010 INFILTRATION: (Type: LOOSE) 15561 tuft x 1.02 ac/hr x 0.018 Btu/cuft-F x 36.0 - 10265 DUCT HEAT LOSS: (Duct in attic) TOTAL HEATING LOAD: SUBTOTAL 25340 0.10 x 25340 = 2534 27874 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING t� Page C1 Protect Title ... LOT 1 PLAN A Run Title ....... 87031 Date. 02/25/87 < < < MICROPAS2 v2.1 File -87031 Program -HVAC SIZING > > > 'HOUSE' COOLING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS: SUMMER DESIGN CONDITIONS: Inside HOUSE Temperature ......................... 75.0 F Outside Temperature .............................. 86.0 F Temperature Range ................................ 26.0 F DESIGN EQUIVALENT TEMPERATURE DIFFERENCES Standard........................................ 11.0 F Frame Walls and Doors ............................ 9.6 F Ceiling Under Vented Attic ....................... 30.0 F Frame Partitions ................................. 1.0 F CONDUCTIVE HEAT GAIN: North 32 x U -value x Heat 229 BACKGLI South Area x (Btu/hr- TDea Gain Description LEFTGLI Orientation (saft) x. sgft-F) (F) (Btu/hr) -------•-------------------- Frame Wall; FRNTWALL ----------- North ------ 55 x ------- 0.090 ------- x 9.6 -------- = 48 14.3 BACKWALL South 152 x 0.090 x 9.6 = 131 125 LEFTWALL East 491 x 0.090 x 9.6 - 424 Door; FRNTDOOR North 20 x 0.460 x 9.6 = 88 Ceiling; DROPCLGI Horizontal 438 x 0.050 x 30.0 = 657 BEAMCLGI North 387 x 0.050 x 30.0 = 581 BEAMCLG2 South 340 x 0.050 x 30.0 - 510 Exposed Foor; EXPFLOOR Horizontal 277 x 0.050 x. 1.0 - 14 Frame Partition; GARGWALL n/a 240 x 0.090 x 1.0 - 22 GARGDOOR n/a 20 x 0.520 x 1.0 - 10 KNEEWALL n/a 282 x 0.080 x 1.0 - 23 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 2507 Double Glazing; FRNTGLI North 32 x 0.65 x 11.0 - 229 BACKGLI South 40 x 0.65 x 11.0 - 286 LEFTGLI East 96 x. 0.65 x 11.0 = 686 LEFTGL2 Northeast 20 x 0.65 x 11.0 - 14.3 LEFTGL3 Southeast 18 x 0.65 x 11.0 = 125 Double Skylight; SKYLITE Horizontal 8 x 0.70 x 11.0 - 62 CONDUCTIVE TOTAL FOR GLAZING SURFACES 1531 rim 111 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C2 Pro,ect Title ... LOT 1 PLAN A Run Title ....... 87031 Date: 02/25/87 < < ( MICROPAS2 v2.1 File -87031 Program -HVAC SIZING > > >. SOLAR HEAT GAIN: Heat Area Shading Gain Description Orientation (sa-ft) SHGF Factor (Btu/hr) --------------------------- ------------- -------- ---- ------- -------- Double Glazing; FRNTGLI North 32 x 13 x 0.75 = 312 BACKGLI South 40 x 28 x 0.75 = 840 LEFTGL1 East 96 x 64 x 0.75 - 4608 LEFTGL2 Northeast 20 x 42 x 0.75 - 630 LEFTGL3 Southeast 18 x 55 x 0.75 - 722 Double Skylight; SKYLITE Horizontal 8 x 134 x 0.55 = 590 SOLAR TOTAL 7701 INFILTRATION: (Type: LOOSE) 15561 tuft x 0.47 ac/hr x 0.018 Btu/cult-F x 11.0 - 1442 INTERNAL GAIN: 4 People x 225 Btu/person + 1200 Btu (appliance) = 2100 1 SUBTOTAL 15282 DUCT HEAT GAIN: (Duct in attic) 0.10 x 15282 - 1528 TOTAL HOURLY SENSIBLE HEAT GAIN 16810 LATENT LOAD: 0.20 x 16810 - 3362 TOTAL COOLING LOAD 20172 ( 1.7 Tons)' RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Project Title .. LOT 2 PLAN A REV Date: 02/25/87 Cover Page Run Title ...... 87032 --------------------------- Owners Name .... PETER G SHUTTS Location ....... CUPERTINO (checked by) (date) ( < < MICROPAS2 v2.1 File -87032 Program -HVAC SIZING ) ) ) HEATING AND COOLING LOAD SUMMARY -_-..----------------------------- BUILDING DESCRIPTION: Floor Area .......................... 1638 raft Volume .............................. 15561 cuft DESIGN CONDITIONS: Weather Location .................... CUPERTINO Latitude ............................ 37.3 degrees Winter Outside Design Temperature ... 34..0 F Winter Inside Design Temperature .... 70.0 F Summer Outside Design Temperature ... 86.0 F Summer Inside Design Temperature .... 75.0 F Temperature Range ................... 26.0 F DESIGN HEATING LOAD SUMMARY (see heating load calculations): Opaaue Conductivity ................. 10065 Glazing Conductivity ................ 5010 Infiltration .................. ..... 10265 Duct Loss ........................... 2534 Total Heat Load 27874 Btu/hr CEC Maximum: 1.3 x f 27874 + 10 x 1638) = 57531 Btu/hr DESIGN COOLING LOAD SUMMARY (see cooling load calculations): Onaaue Conduction and Solar ......... 2507 Glazing Conduction .................. 1531 Glazing Solar ....................... 7701 Infiltration ........................ 1442 Internal Gain ....................... 2100 Duct Gain ........................... 1528 Latent Load ......................... 3362 Total Cooling Load 20172 Btu/hr ( 1.7 Tons) u RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD e MICROPAS SIZING Page H1 Proieet Title ... LOT 2 PLAN A REV Run Title ....... 87032 Date: 02/25/87' < < < MICR0PAS2 v2.1 File -87032 Program -HVAC SIZING > > > 'HOUSE' HEATING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS: WINTER DESIGN TEMPERATURES: Inside HOUSE Temperature ......................... 70.0 F Outside Temperature .............................. 34.0 F DESIGN -TEMPERATURE DIFFERENCES Standard ......................................... 36.0 F CONDUCTIVE HEAT LOSS: North 32 x U -value x 36.0 = Heat BACKGLI South 40 Area 0.65 (Btu/hr- 36.0 = TD Loss Description 96 Orientation (soft) x raft -F) 2.246 (F) (Btu/hr) Frame Wall; FRNTWALL North 55 x 0.090 x 36.0 - 178 x RGHTWALL West 491 x 0.090 x 36.0 = 1591 0.70 BACKWALL South 152 x 0.090 x 36.0 = 4.92 Door; FRNTDOOR North 20 x 0.460 x 36.0 = 331 Ceiling; DROPCLGI Horizontal 438 x 0.050 x 36.0 = 788 BEAMCLGI North 387 x 0.050 x 36.0 = 697 BEAMCLG2 South 340 x 0.050 x 36.0 612 Exposed Foor; EXPFLOOR Horizontal 277 x 0.050 x 36.0 = 499 Raised Floor; FLOOR Horizontal 809 x 0.100 x 36.0 = 2912 Frame Partition; GARGWALL n/a 240 x 0.090 x 36.0 = 773 GARGDOOR n/a 20 x 0.520 x 36.0 - 374 KNEEWALL n/a 282 x 0.080 x 36.0 =- 812 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 10065 Double Glazing; FRNTGLI North 32 x 0.65 x 36.0 = 749 BACKGLI South 40 x 0.65 x 36.0 = 936 RGHTGL1 West 96 x 0.65 x 36.0 = 2.246 RGHTGL2 Northwest 20 x 0.65 x 36.0 = 4.68 RGHTGL3 Southwest 18 x 0.65 x 36.0 = 410 Double Skylight; SKYLITE Horizontal 8 x 0.70 x 36.0 = 202 CONDUCTIVE TOTALS FOR GLAZING SURFACES 5010 INFILTRATION: (Type: LOOSE) 15561 cuft x 1.02 ac/hr x 0.018 Btu/cult-F x 36.0 = 10265 SUBTOTAL 25340 DUCT HEAT LOSS: (Duct in attic) 0.10 x 25340 = 2534 TOTAL HEATING LOAD: 27874 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C1 '! Project Title ... LOT 2 PLAN A REV Ruin Title ....... 87032 Date: 02/25/87 < < ( MICROPAS2 v2.1 File -87032 Program -HVAC SIZING ) ) ) 'HOUSE' COOLING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS: CONDUCTIVE TOTALS FOR OPAQUE SURFACES 2507 Double Glazing; FRNTGLI SUMMER DESIGN CONDITIONS: 32 x 0.65 x 11.0 = 229 BACKGLI South Inside HOUSE Temperature ......................... 0.65 75.0 F 286 RGHTGLI West Outside Temperature .............................. x 86.0 F 11.0 = 686 RGHTGL2 Temperature Range ................................ 20 26.0 F x 11.0 - 143 DESIGN EQUIVALENT TEMPERATURE DIFFERENCES Southwest 18 x 0.65 x 11.0 = Standard ......................................... Double Skylight; SKYLITE 11.0 F x 0.70 x Frame Walls and Doors ............................ 62 9.6 F Ceiling Under Vented Attic ....................... 30.0 F Frame Partitions ................................. 1.0 F -,� CONDUCTIVE HEAT GAIN: U -value Heat A Area (Btu/hr- TDea Gain Description Orientation (saf°t) saft-F) (F) (Btu/hr) -------------------------------------- Frame Wall; FRNTWALL North ------ 55 x ------- 0.090 x ------- 9.6 --------- - 48 Am RGHTWALL West 491 x 0.090 x 9.6 = 424 BACKWALL South 152 x 0.090 x 9.6 = 131 Door: FRNTDOOR North 20 x 0.460 x 9.6 = 88 Ceiling; DROPCLGI Horizontal 438 x 0.050 x 30.0 - 657 BEAMCLGI North 387 x 0.050 x 30.0 = 581 BEAMCLG2 South 340 x 0.050 x 30.0 = 510 Exposed Foor; EXPFLOOR Horizontal 277 x 0.050 x 1.0 = 14 Frame Partition; GARGWALL n/a 240 x 0.090 x 1.0 = 22 GARGDOOR n/a 20 x 0.520 x 1.0 = 10 KNEEWALL n/a 282 x 0.080 x 1.0 = 23 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 2507 Double Glazing; FRNTGLI North 32 x 0.65 x 11.0 = 229 BACKGLI South 40 x 0.65 x 11.0 = 286 RGHTGLI West 96 x 0.65 x 11.0 = 686 RGHTGL2 Northwest 20 x 0.65 x 11.0 - 143 RGHTGL3 Southwest 18 x 0.65 x 11.0 = 125 Double Skylight; SKYLITE Horizontal 8 x 0.70 x 11.0 = 62 CONDUCTIVE TOTAL FOR GLAZING SURFACES 1531 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C2 Protect Title ... LOT 2 PLAN A REV Run Title ....... 87032 Date: 02/25/87 < < < MICROPAS2 v2.1 File -87032 Program -HVAC SIZING > > > SOLAR HEAT GAIN: Heat Area Shading Gain ' Description Orientation (raft) SHGF Factor (Btu/hr) Double Glazing; FRNTGLI North 32 x 13 x 0.75 = 312 BACKGLI South 40 x 28 x 0.75 = 840 4 RGHTGLI West 96 x 64 x 0.75 - 4608 RGHTGL2 Northwest 20 x 42 x 0.75 = 630 RGHTGL3 Southwest 18 x 55 x 0.75 - 722 Double Skylight. SKYLITE Horizontal 8 x 134_ x 0.55 = 590 SOLAR TOTAL 7701 INFILTRATION: (Type: LOOSE) 15561 cuft x 0.47 ac/hr x 0.018 Btu/cuft-F x 11.0 = 14.42 INTERNAL GAIN: 4 People x 225 Btu/person + 1200 Btu (appliance) = 2100 SUBTOTAL 15282 DUCT HEAT GAIN: (Duct in attic) 0.10 x 15282 = 1528 TOTAL HOURLY SENSIBLE HEAT GAIN 16810 LATENT LOAD: 0.20 x 16810 = 3362 TOTAL COOLING LOAD 20172 ( 1.7 Tons. i` A4 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Proaect Title .. LOT 3 PLAN B Date: 02/25/87 Cover Page,' Run Title ...... 87033 -------------------------- Owners Name .... PETER G SHUTTS Location ....... CUPERTINO ; (checked by) (date) ;. < < < MICROPAS2 v2.1 File -87033 Program -HVAC SIZING > > > HEATING AND COOLING LOAD SUMMARY --------------------------------- BUILDING DESCRIPTION: Floor Area .......................... 1610 sqft Volume — ............................ 14812 cuft DESIGN CONDITIONS: Weather Location .................... CUPERTINO Latitude 37.3 degrees Winter Outside Design Temperature ,.. 34.0 F Winter Inside Design Temperature .... 70.0 F Summer Outside Design Temperature ,.. 86.0 F Summer Inside Design Temperature .... 75.0 F Temperature Range ................... 26.0 F DESIGN HEATING LOAD SUMMARY (see heating load calculations): Opaque Conductivity ................. 8676 Glazing Conductivity ............. — 5607 Infiltration ........................ 9771 Duct Loss ........................... 2405 Total Heat Load 26459 Btu/hr CEC Maximum: 1,3 x ( 26459 + 10 x 1610) = 55327 Btu/hr DESIGN COOLING LOAD SUMMARY (see cooling load calculations): Opaque Conduction and Solar ......... 1901 Glazing Conduction .................. 1713 Glazing Solar ....................... 9253 Infiltration ........................ 1373 Internal Gain 2100 Duct Gain ........................... 1634 Latent Load ......................... 3595 Total Cooling Load 21569 Btu/hr ( 1.8 Tons) RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page H1 ProJeet Title ... LOT 3 PLAN B Run Title ....... 87033 Date: 02/25/87 < < < MICROPAS2 v2.1 File -87033 Program -HVAC SIZING > > >; 'HOUSE' HEATING LOAD CALCULATIONS ---------------------------------- DESIGN CONDITIONS: WINTER DESIGN TEMPERATURES: Inside HOUSE Temperature ......................... 70.0 F Outside Temperature .............................. 34.0 F DESIGN TEMPERATURE DIFFERENCES Standard ......................................... 36.0 F CONDUCTIVE HEAT LOSS: Description Orientation Frame Wall; FRNTWALL Northeast RGHTWALL Northwest BACKWALL Southwest LEFTWALI Southeast LEFTWAL2 East LEFTWAL3 South Door; FRNTDOOR Southeast Ceiling: DROPCLGI Horizontal BEAMCLGI Northeast BEAMCLG2 Southwest Exposed Foor; EXPFLOOR Horizontal Raised Floor: FLOOR Horizontal Frame Partition; GARGWALL n/a GARGDOOR n/a KNEEiWALL n/a CONDUCTIVE TOTALS FOR OPAQUE SURFACES 8676 Double Glazing; FRNTGLI U -value 32 x Heat Area 36.0 - (Btu./hr- TD Loss (salt) x soft -F) x (F) (Btu/hr) 108 x 0.090 x 36.0 = 350 10 x 0.090 x 36.0 32 144 x 0.090 x 36.0 = 467 191 x 0.090 x 36.0 - 619 147 x 0.090 x 36.0 - 476 235 x 0.090 x. 36.0 = 761 20 x 0.460 x 36.0 = 331 533 x 0.030 x 36.0 = 576 171 x 0.050 x 36.0 204 x 0.050 x 36.0 - 367 143 x 0.050 x 36.0 - 257 724 x 0.100 x 36.0 - 2606 300 x 0.090 x 36.0 972 20 x 0.520 x 36.0 = 374 62 x 0.080 x 36.0 = 179 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 8676 Double Glazing; FRNTGLI Northeast 32 x 0.65 x 36.0 - 749 BACKGLI Southwest 104 x 0.65 x 36.0 = 2434 LEFTGLI Southeast 29 x 0.65 x 36.0 = 679 LEFTGL2 East 29 x 0.65 x 36.0 - 679 LEFTGL3 South 37 x 0.65 x 36.0 = 866 Double Skylight; SKYLITE Horizontal 8 x 0.70 x 36.0 - 202 CONDUCTIVE TOTALS FOR GLAZING SURFACES 5607 INFILTRATION: (Type: LOOSE) 14812 cuft x 1.02 ac/hr x 0.018 Btu/cuft-F x 36.0 = 9771 DUCT HEAT LOSS: (Duct in attic) TOTAL HEATING LOAD: �o SUBTOTAL 24054 0.10 x 24054 - 2405 26459 rye RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C1 Protect Title ... LOT 3 PLAN B Run Title ....... 87033 Date: 02/25/87 < < < MICROPAS2 v2.1 File -87033 Program -HVAC SIZING > > >;; 'HOUSE' COOLING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS: SUMMER DESIGN CONDITIONS: Inside HOUSE Temperature ......................... 75.0 F Outside Temperature .............................. 86.0 F Temperature Range ............................... 26.0 F DESIGN EQUIVALENT TEMPERATURE DIFFERENCES Standard ......................................... 11.0 F Frame Walls and Doors ............................ 9.6 F Ceiling Under Vented Attic ....................... 30.0 F Frame Partitions ................................. 1.0 F CONDUCTIVE HEAT GAIN: Northeast 32 x U --value x Heat 229 BACKGLI Southwest Area x (Btu/hr- TDea Gain Description LEFTGLI Orientation (saft) x soft -F) (F) (Btu/hr) --------------------------- Frame Wall; FRNTWALL ----------- Northeast ------ 108 x ------- 0.090 ------- x 9.6 -------- - 93 207 RGHTWALL Northwest 10 x 0.090 x 9.6 = 9 265 BACKWALL Southwest 144 x 0.090 x 9.6 - 124 62 LEFTWALI Southeast 191 x 0.090 x 9.6 = 165 LEFTWAL2 East 147 x 0.090 x 9.6 - 127 LEFTWAL3 South 235 x 0.090 x 9.6 = 203 Door; FRNTDOOR Southeast 20 x 0.460 x 9.6 88 Ceiling; DROPCLGI Horizontal 533 x 0.030 x 30.0 - 480 BEAMCLGI Northeast 171 x 0.050 x 30.0 - 257 BEAMCLG2 Southwest 204 x 0.050 x 30.0 - 306 Exposed Foor; EXPFLOOR Horizontal 143 x 0.050 x 1.0 = 7 Frame Partition; GARGWALL n/a 300 x 0.090 x 1.0 = 27 GARGDOOR n/a 20 x 0.520 x 1.0 = 10 KNEEWALL n/a 62 x 0.080 x 1.0 = 5 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 1901 Double Glazing: FRNTGLI Northeast 32 x 0.65 x 11.0 = 229 BACKGLI Southwest 104 x 0.65 x 11.0 744 LEFTGLI Southeast 29 x 0.65 x 11.0 - 207 LEFTGL2 East 29 x 0.65 x 11.0 - 207 LEFTGL3 South 37 x 0.65 x 11.0 = 265 Double Skylight; SKYLITE Horizontal 8 x 0.70 x 11.0 - 62 CONDUCTIVE TOTAL FOR GLAZING SURFACES 1713 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING: Page C2 Protect Title ... LOT 3 PLAN B Run Title ....... 87033 Date: 02/25/87 < < < MICROPAS2 v2.1 File -87033 Program -HVAC SIZING ) ) ) SOLAR HEAT GAIN: Heat Area Shading Gain Description Orientation (sq -ft) SHGF Factor (Btu/hr) m Double Glazing; FRNTGLI Northeast 32 x 42 x 0.75 - 1008 BACKGLI Southwest 104 x 55 x 0.75 = 4290 r LEFTGLI Southeast 29 x 55 x 0.75 - 1196 LEFTGL2 East 29 x 64 x 0.75 = 1392 LEFTGL3 South 37 x 28 x 0.75 = 777 Double Skylight; SKYLITE Horizontal 8 x 134 x 0.55 - 590 SOLAR TOTAL 9253 INFILTRATION: (Type: LOOSE) 14812 cuft x 0.4.7 ac/hr x 0.018 Btu/cuft-F x 11.0 = 1373 -------•- INTERNAL GAIN: 4 People x 225 Btu/person + 1200 Btu (appliance) - 2100 SUBTOTAL 16340 DUCT HEAT GAIN: (Duct in attic) 0.10 x 16340 - 1634. TOTAL HOURLY SENSIBLE HEAT GAIN 17974- 7974LATENT LATENTLOAD_ 0.20 x 17974 = 3595 °'4'4 -------- TOTAL COOLING LOAD 21569 ( 1.8 Tons) Jai A RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Project Title .. LOT 4 PLAN C REV Date: 02/26/87 Cover Page Run Title ...... 87034 -------------------------- Owners Name .... PETER G SHUTTS Location ....... CUPERTINO ; (checked by) (date) < < < MICROPAS2 v2.1 File -87034 Program -HVAC SIZING > > >;, HEATING AND COOLING LOAD SUMMARY -------------------------------- BUILDING DESCRIPTION: Floor Area ............... ,.,,........ 1656 saft Volume ,............. ............... 13973 tuft DESIGN CONDITIONS: Weather Location ,,............ ,...... CUPERTINO Latitude ... ...... .........,.,.,,,....,,.,. 37.3 dearees Winter Outside Design Temperature ..,. 34,0 F Winter Inside De=ign Temperature 70.0 F Summer Outside Design Temperature 86,0 F Summer Inside- Design Temoerature 75.0 F Temperature Range ...,.....,...,......,.. 26.0 F DESIGN HEATING LOAD SUMMARY (see heating load calculations): Oraaue Conductivity ... .......... .... 10877 Glazing Conductivity ........,.......... 4886 Infiltration ......,........,.........,. 9217 Duct Loss .,,.............. .......... 2498 Total Heat Load 27479 Btu/hr CEC Maximum: 1.3 x ( 27479 + 10 x 1656) = 57251 Btu/hr DESIGN C=OOLING LOAD SUMMARY (see cooling load calculations): Onaaue Conduction and Solar .,........ 2806 Glazing Conduction .................. 14.93 Glazing Solar ................,....... 6667 Infiltration ........... ........... 1295 Internal Gain ......,............,..... 2100 Duct: Gain ..........................., 1436 Latent Load ......................... 3159 Total Cooling Load 18957 Btu/hr ( 1.6 Tons) 1 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page H1 Proie°ct Title ... LOT 4 PLAN C REV Run. Title ....... 87034 Date: 021126/87 < <. MICROPAS2 v2.1 File -87034 Program -HVAC SIZING > > >* 'HOUSE' HEATING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS. WINTER DESIGN TEMPERATURES: Inside HOUSE Temperature ............................ 70.0 F Outside Temperature „........... 34.0 F DESIGN TEMPERATURE DIFFERENCES Standard ...,,........................................ 36.0 F CONDUCTIVE HEAT LOSS: Double Glazing: FRNTGLI Northeast 22 U -value 0„65 x Heat 515 RGHTGLI Area 32 f Btu/hr- 0.65 TD Loss Description Orientation fraft) soft -F) (F) fBtu/hr) -------------------------- Frame Wall: FRNTWALL ----------- Northeast ------ 210 x ------- 0.090 ------- x 36.0 -------- = 680 1591 RGHTWAL.L Northwest 448 x 0.090 x 36..0 = 1452 1041 BACKWALL Southwest 406 x 0.090 x 36.0 = 1315 889 LEFTWAL.L Southeast 288 x 0.090 x 36..0 = 933 Door: FRNTDOOR Northeast 20 x 0.460 x .36.0 = 331 Ceiling: DROPC:LG1. Horizontal 867 x 0.050 x 36.0 = 1561 BEAMCLGI Southwest 134 x 0.050 x 36.0 = 24.1 Exposed Foor: EXPFL.00R Horizontal 240 x 0.050 x 36.0 = 432 Raised Floor: FLOOR Horizontal 731 x 0.100 x 36.0 - 2632 Frame Partition: GARGWALL n/a 164 x 0.090 x 36.0 = 531 GARGDOOR n/a 20 x 0.520 x 36.0 = 374. KNEEWALL n/a 137 x 0.0�so x 36.0 -- 395 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 10877 CONDUCTIVE TOTALS FOR GLAZING SURFACES 4386 INFILTRATION: (Tyoe: LOOSE) 13973 cuft x 1.02 ac/hr x 0.018 Btu/cuft-F x 36.0 _ 9217 SUBTOTAL 24981 DUCT HEAT LOSS: (Duct in attic) TOTAL HEATING LOAD: 0.10 x 24.981 = 24.98 274-79 Double Glazing: FRNTGLI Northeast 22 x, 0„65 x •36.0 - 515 RGHTGLI West 32 x 0.65 x 36.0 = 749 RGHTGL2 Northwest 68 x 0..t15 x 36.0 = 1591 RGHTGL3 North 45 x 0.65 x 36.0 - 1041 BACKGLI southwest 38 x 0.65 x 36.0 - 889 Double Skylight; SKYLITE Horizontal 4 x 0.70 x 36.0 - 101 CONDUCTIVE TOTALS FOR GLAZING SURFACES 4386 INFILTRATION: (Tyoe: LOOSE) 13973 cuft x 1.02 ac/hr x 0.018 Btu/cuft-F x 36.0 _ 9217 SUBTOTAL 24981 DUCT HEAT LOSS: (Duct in attic) TOTAL HEATING LOAD: 0.10 x 24.981 = 24.98 274-79 41W RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C1 Protect Title ... LOT 4 PLAN C REV Run Title ....... 87034 Date: 02/26/87 < < C MICROPAS2 v2.1 File -87034 Program -HVAC SIZING > > >• 'HOUSE' COOLING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS: SUMMER DESIGN CONDITIONS: Inside HOUSE TernrDerature .......................... 75.0 F Outside Temnerature ...............,.....,.,....... 86.0 F Temperature Range ................................... 26.0 F DESIGN EQUIVALENT TEMPERATURE DIFFERENCE'S Standard .... ..................................... 11.0 F Frame Walls and Doors ................. ......... .... 9.6 F Ceiling Under Vented Attic .......................... 30.0 F Frame Parti.taons.................. 1.0 F CONDUCTIVE HEAT GAIN: Descrirtion Orientation -------------------------- ----------- Frame Wall: FRNTWALL Northeast RGHTWALL Northwest. BACKWALL Southwest LEFTWAL.L Southeast Door; FRNTDOOR Northeast Ceiling: DROPCLGI Horizontal BEAMCLGI Southwest Exposed Foor; EXPFLOOR Horizontal Frame Partition: GARGWALL n/a GARGDOOR. n/a KNEEWALI_ n/a CONDUCTIVE TOTALS FOR OPAQUE SURFACES 2806 Double Glazing; FRNTGL.1 U -value 22 Heat Area x (Btu/hr- Men Gain ( srtft ) West saft-F ) ( F ) ( Btu/hr ) ------ 210 x ------- 0.090 ------- x 9.6 --------- - 181 44.8 x 0. 090 x 9.6 = 387 406 x 0.090 x 9.6 = 351 28.5 x 0.090 x 9.6 = 24-q 20 x 0.460 x 9.6 - 88 867 x 0.050 x 30.0 = 1301 134 x 0.050 x 30.0 - 201 240 x 0.050 x 1.0 = 12 164 x 0.090 x 1.0 = 15 20 x 0.520 x 1.0 = 10 137 x 0.080 x 1.0 = 11 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 2806 CONDUCTIVE TOTAL FOR GLAZING SURFACES 14-93 ■ t Double Glazing; FRNTGL.1 Northeast 22 x 0.65 x 11.0 = 157 RGHTGLI West 32 x 0.65 x 11.0 = 229 RGHTGL2 Northwest 68 x 0.65 x 11.0 = 4-86 RGHTGL,5 North 45 x 0.65 x 11.0 = 318 BACKGLI Southwest 38 x 0.65 x 11.0 = 272 Double Skylight; SKYLITE Horizontal 4 x 0.70 x 11.0 - 31 CONDUCTIVE TOTAL FOR GLAZING SURFACES 14-93 ■ t RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING,, Pane C2 Protect Title ... LOT 4 PLAN C REV Run Title ..... 87034 Date: 02/26/87 < < <, MICROPAS2 v2.1 File -87034 Program -HVAC SIZING > > >' SOLAR HEAT GAIN: Heat Area Shading Gain Descr.iotion Orientation (raft) SHGF Factor (Btu/hr) Double G.lazin4; FRNTGLI Northeast 22 x 42 x 0..75 - 693 RGHTGLI West 32 x 64 x 0.75 = 1536 RGHTGL2 Northwest 68 x 42 x 0..75 - :2142 RGHTGL3 North 45 x 1.3 x 0.75 - 434. BACKGLI Southwest 38 x 55 x 0.75 - 1563 Dauble Sk.vliaht.: SKYL.ITE Horizontal 4 x 1.34. x 0,55 295 SOLAR TOTAL 6667 INFILTRATION: (Type- LOOSE) 13973 tuft x 0.47 ac/hr x 0.018 Btu/cuft-F x 11.0 = 1295 INTERNAL GAIN: 4 People x 225 BtU/person + 1200 Btu (ar)oliance) = 2100 SUBTOTAL 1.4361 DUCT HEAT GAIN: (Duet in attic) 0.10 x 1.4361 = 1436 i. TOTAL HOURLY SENSIBLE: HEAT GAIN 15797 LATENT LOAD: 0.20 x 15797 = 3159 TOTAL COOLING LOAD 18957 ( 1.6 Tons. f"> r„ ; RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Proiect. Title .. LOT 5 PLAN C Date: 02/26/87 Cover Page Run Titl, ...... 87035 Owners Name .... PETER G SHUTTS ; Location ......,. CUPERTINO ; (checked by) (date) < < < MICROPAS2 v2.1 File -87035 Program -HVAC SIZING HEATING AND COOLING LOAD SUMMARY -------------------------------- BUILDING, DESCRIPTION: ri Floor Area ,........,..,...,.,.,..,..... 1656 saft Volume .............................. 1.3973 curt. DESIGN CONDITIONS: =' Weather Location .........,........... CUPERTINO Latitude ..,...................,.„ 37.3 degrees Minter Outside Design Temperature ... 34.0 F Winter In=ide Design Temnerature ..,.„ 70.0 F Summer Outside Design Temperature ... 86.0 F Summer Inside Desi.an Temoerature ,..,.„ 75.0 F Temperature Range ..................,.. 26.0 F DESIGN HEATING LOAD SUMMARY (see heat.ina load calculations): Onaaue Conductivity ................. 9944 Glazing Conductivity ................,. 4836 Infiltration ........................ 9217 Duct Loss ..................,......., 2405 Total Heat Load 26453 Btu/hr CEC Maximum: 1,.3 x ( 26453 + 10 x 1656) = 55916 Btu/hr DESIGN COOLING LOAD SUMMARY (see cooling load calculations): Or..aQue Conduction and Solar ......... 2557 Glazing Conduction .........,.....,.... 1693 Glazing Solar ......,......,........... 7758 Infiltration .......................... 1.295 Internal Gain ................,....... 2100 low Duct Gain ........................... 1520 Latent Load ......................,... 3345 Total Cooling Load 20069 Btu/hr ( 1.7 Tons) RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page H1 Pro.iect Title ... LOT 5 PLAN C Run Title ....... 87035 Date: 02/26/87 < < < MICROPAS2 v2.1 File -87035 Program -HVAC SIZING > > >1 'HOUSE' HEATING LOAD CALCULATIONS DESIGN CONDITIONS: WINTER DESIGN TEMPERATURES: Inside HOUSE Temperature ......................... 70.0 F Outside: Temperature .... „....... ,..........„........ 34..0 F DESIGN TEMPERATURE DIFFERENCES Standard ..................... .................,,,. 36.0 F CONDUCTIVE HEA] LOSS: U -value Heat Area (BtLA/hr- TD Loss Descriration Orientation (raft) raft -F) (F) (Btu/hr) Frame Wall; FRNTWALL East 210 x 0.090 x 36.0 = 680 BACKWALL West 406 x 0,.090 x 3h.0 LEFTWALL South 443 x 0.090 x 36.0 = 1452 Door: FRNTDOOR East 20 x 0. 460 x 36.0 = 331 Ce, i.Iinoz DROPCLGI Horizontal 867 x 0.050 x 36,0 = 1561 BEAMCLGI West 134 x 0,.050 x 36.0 - 241 Exposed Foor; EXPFLOOR Horizontal 240 x 0.050 x 36.0 - 432 Raised Floor: FLOUR Horizontal 731 x 0.100 x 36.0 - 2h32 Frame Partition: GAR(rWALL n/a 164. x 0.090 x 36.0 - 531 GARGDOOR n/a 20 x 0,.520 x 36.0 = 374 ' KNEEWALL n/a 137 x 0.080 x 36.0 - .395 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 994.4 Double Glazi.na: FRNTGL.1 East 22 x 0„65 x 36.0 - 515 BACKGLI West 38 x 0.65 x 3(--.0 = 889 LEFTGLI Southwest 32 x 0.65 x 36.0 = 749 LEFTGL2 South 68 x 0.65 x 36.0 - 1591 LEFTGL3 Southeast. 45 x 0.(-15 x 36.0 = 1041 Dout'le 5kv),ight: SKYLITE Horizontal 4 x 0„ 70 x 36.0 = ini CCiNDUCTIVE TOTALS FOR GLAZING SURFACES 4.886 INFILTRATION' (Tyr)e: LOOSE) 13973 tuft x 1.02 ac/hr x 0.018 Btu/cuff-F x 36.0 = 9217 SUBTOTAL 2404 DUCT HEAT LOSS:: (Duct in attic) 0.10 x 24048 = 2405 i'” TOTAL HEATING LOAD: 26453 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING= Page C1 ProJect Title ... LOT 5 PLAN C I1 Rijn Title ....... 87035 Date: 02/26/87 < < < MICROPAS2 v2.1 File -87035 Program -HVAC SIZING ) ? ?' 'HOUSE' COOLING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS: SUMMER DESIGN CONDITIONS: Inside HOUSE Temperature ......................... 75.0 F Outside Temperature ......................... ..... 86.0 F Temperature Ranee .................... ........... ,.. 26.0 F DESIGN EQUIVALENT TEMPERATURE DIFFERENCES Standard .......................................... 11.0 F Frame Walls and Doors 9.6 F Ceiling Under Vented Attic 30.0 F Frame Partitions ............................... -. , 1..0 F CONDUCTIVE HEAT GAIN: East 22 x U -value x Heat 157 BACK.GL1 West Area x (Btu/hr-• TDea Gain Description LEFTGLI Orientation (soft) x raft -F) (F) (Btu/hr) -------------------------- Frame Wall. FRNTIAALL ----------- East ------ 210 x ------- 0.090 ------- x 9.6 -------- = 181 486 BACKWALL West: 4.01�1 x 0. OC10 x 9.6 = 351 318 LEFTWALL South 448 x 0.090 x 9.6 = 337 Door. FRNTDOOR East 20 x 0.4.h0 x 9.6 - 88 Ceiling: DROPCLGI Horizontal 867 x 0.050 x 30.0 = 1301 BEAMCLGI West. 134 x 0„050 x ..30.0 - 201. Exposed Foor: EXPFLOOR Horizontal 240 x 0.,050 x 1.0 = 12 Frame Partition: GARGWALL n/a 164 x (•J„090 x. 1.0 = 1S GARGDOOR n/a 20 x 0.520 x 1,0 - 10 KNEEWALL n/a 137 x O.OuO x 1.0 = 11 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 2557 Double Glazing: FRNTGLI East 22 x 0.65 x 11.0 = 157 BACK.GL1 West 38 x 0.65 x 11.0 = 272 LEFTGLI Southwest 32 x 0.65 x 11.0 - 229 LEFTGL2 South 68 x 0.65 x 11.0 = 486 LEFTGL3 Southeast 4.5 x 0.65 x 11.0 = 318 Double Skylight; SKYLITE Horizontal 4 x 0.70 x 11.0 = 31 CONDUCTIVE TOTAL FOR GLAZING SURFACES 14.93 r4; INFILTRATION: (Type: L00SE) 13973 tuft x 0„47 ac/hr x 0.018 Btu/tuft-F x 11.0 = 1295 INTERNAL GAIN: 4 People x 225 Btuioerson + 1200 Btu (appliance)- 2100 SUBTOTAL 15203 DUCT HEAT GAIN: (Duct in attic) Ol 10 x 15203 - 1520 LATENT LOAD: TOTAL HOURLY SENSIBLE HEAT GAIN 16724- LATENT 6724 0.20 x 16724=---3345- TOTAL COOLING LOAD 20069 ( 1.7 Tons) RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C2 Project Title ... LOT 5 PLAN C Run Title ....... 87035 Date: 02/26/87 < < < MICROPAS2 v2.1 File -87035 Program -HVAC SIZING > > >' SOLAR HEAT GAIN: Heat Area Shading Gain Description Orientation (sift) SHGF Factor (Btu/hr) ---------------------------- Double Glazing; FRNTGLI ------------- East -------- 22 x ---- 64 ------- x 0.75 = -------- 1056 BAr K,rGL1 West 38 x. 64 x 0.75 = 1824 LF_FTGL1 Southwest 32 x 55 x 0.75 - 1320 LEFTGL2 South 68. x 20 x 0.75 = 1428 I__EFTGL3 Southeast 45 x 5.5 x 0.75 - 1836 Double Skylight; SKYLTTE Horizontal 4 x 134 x 0.55 - 295 SOLAR TOTAL 7753 INFILTRATION: (Type: L00SE) 13973 tuft x 0„47 ac/hr x 0.018 Btu/tuft-F x 11.0 = 1295 INTERNAL GAIN: 4 People x 225 Btuioerson + 1200 Btu (appliance)- 2100 SUBTOTAL 15203 DUCT HEAT GAIN: (Duct in attic) Ol 10 x 15203 - 1520 LATENT LOAD: TOTAL HOURLY SENSIBLE HEAT GAIN 16724- LATENT 6724 0.20 x 16724=---3345- TOTAL COOLING LOAD 20069 ( 1.7 Tons) RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Project Title .. LOT 6 PLAN C REV Date: 02/26/87 Cover Page Run Title ...... 87036 --------------------------. Owner.s Name .... PETER G SHUTTS Location ....... CUPERTINO (checked by) (date) < < < MICROPAS2 v2.1 File -87036 Program -HVAC SIZING ) ) ) HEATING AND COOLING LOAD SUMMARY -------------------------------- BUILDING DESCRIPTION: Floor Area 1656 saft Volume ............................... 13973 tuft DESIGN CONDITIONS: Weather Location .............,...,.... CUPERTINO Latitude ............................,. 37.3 decrees Winter Outside Design Temperature ... 34..0 F Winter Inside Design Temperature .... 70.0 F Summer Outside Design Temperature ..,. 86.0 F Summer Inside Design Temperature ...,. 75.0 F Temperature Range ,.,.,.... ..., „. „... 26.0 F" DESI!7N HEATING LOAD SUMMARY flee heating load calculations): Ooaaue Conductivity ................,.. 994.4 Glazing Conductivity ................, 6886 Infiltration ........................... 9217 Duct Loss ..... ............. ,......... 2005 Total Heat Load 264.53 Btu/hr CEC Maximum, 1.3 x ( 264.53 + 10 x 16561 = 55916 Btu/hr DESIGN COOLING LOAD SUMMARY (see cooling load calculations): Onaaue Conduction and Solar .,....... 2557 Glazing Conduction .................. 1093 Glazing Solar ......... ............. 624.8 Infiltration ........................ 1295 Internal Gain ............,......,..... 2100 Duct Gain ................. 1.369 Latent Load ........... ............. 3012 Total. Cooling Load 18074. Btu/hr ( 1.5 Tons) RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page H1 ProJeot Title ... LOT 6 PLAN C REV gA Run Title ...._.. 87036 Date: 02/26/87 < < < MICROPAS2 v2.1 File -87036 Program -HVAC SIZING > > >• 'HOUSE' HEATING LOAD CALCULATIONS ---------------------------------- DESIGN CONDITIONS: WINTER DESIGN TEMPERATURES: Inside HOUSE Temperature ......... 70.0 F Outside Temoerature ............. 34.0 F DESIGN TEMPERATURE DIFFERENCES Standard ..........,,,,........,,......, ............... 36.0 F CONDUCTIVE_ HEAT LOSS. East 22 x U -value x 36.0 - Heat RGHTGLI Northwest 32 Area 0.65 (Btu/hr- 36.0 = TD Loss Description 68 Orientation (saft) x raft -F) 1591. (F) (Btu/hr) -------------------------- Frame Mall: FRNTWALL ----------- East ------ 210 x ------- 0.090 ------- x 36.0 --------- - 680 x RGHTWALL North 448 x 0.090 x 36.0 - 1452 0.70 BACKWALL West 406 x 0.090 x 36.0 -- 1315 Door: FRNT DOOR East 20 x 0.460 x 36,.0 = 331 Ceilinca: DROPCLGI Horizontal 867 x 0.050 x 36.0 = 1561 BEA11CLG1 West 1.34 x 0.050 x 36.0 - 241 Exposed Foor; EXPFLOOR Horizontal 24.0 x 0.0.50 x 36.0 - 432 Raised Floor: FLOOR Horizontal 731. x 0.100 x 36..0 = 2632 Frame Partition: GARGWALL n/a 164 x 0.090 x 36.0 = 531 GARGDOOR n/a 20 x 0,.520 x 36.0 = 374 KNEEWALL n/a 137 x 0.080 x 36.0 - 395 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 9q4.4- Double 94.4 Double Glazing: FRNTGLI East 22 x 0.65 x 36.0 - 515 RGHTGLI Northwest 32 x 0.65 x 36.0 = 749 RGHTGL2 North 68 x 0.65 x 36.0 = 1591. RGHTGL3 Northeast 45 x 0.65 x 36.0 - 1041 BACKGLI West 38 x 0.65 x 36.0 = 889 Double Skylight, SKYLITE Horizontal 4 x 0.70 x 36.0 - 101 CONDUCTIVE. TOTALS FOR GLAZING SURFACES 4886 INFILTRATION: (Tvr)e,, LOOSE) 13973 Tuft x 1.02 ac/hr x 0.018 Btu/cuft-F x 36.0 - 9217 SUBTOTAL 24048 DUCT HEAT LOSS: (Duct in attic) 0.10 x 24048 - 2405 TOTAL HEATING LOAD: 26453 lu(�Of�u 1 1 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C1 Project Title ... LOT 6 PLAN C REV Run Title ....... 87036 Date: 02/26/87 < < < MICROPAS2 v2.1 File -87036 Program -HVAC SIZING > > >' 'HOUSE' COOLING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS: SUMMER DESIGN CONDITIONS: Inside HOUSE Temperature .......................... 75.0 F Outside Temperature ............................... 86.0 F Temperature Range ................. ............... 26.0 F DESIGN EQUIVALENT TEMPERATURE DIFFERENCES Standard .... ....,...............,.......... 11.0 F Frame Walls and Doors ...........................,. 9.6 F Ceiling Under Vented Attic ......................,. 30.0 F Frame Partitions ........................ 1.0 F CONDUCTIVE HEAT GAIN: East 22 x U -value x Heat 157 RGHTGL.1 Northwest Area x (Btu/hr- TDea Gain Description RGHTGL2 Orientation (saft) x saft-F) (F) (Btu/hr) -------------------------- Frame Wall: FRNTWALL ----------- East ------ 210 x ------- 0.090 ------- x 9.6 -------- = 181 318 RGHTWALL North 44.8 x 0.090 x 9.6 = 387 272 BACKWALL West 406 x 0.090 x 9,6 = 351 Door: FRNTDOOR East 20 x 0.460 x 9.6 = 88 Ceiling; DROPCLGI Horizontal 867 x 0.050 x 30.0 = 1301 BEAMCLGI West 134 x 0.050 x 30.0 = 201 Exposed Foor: EXPFLOOR Horizontal 240 x 0.050 x 1.0 = 12 Frame Partition: GARGWALL n/a 164 x 0.1:90 x 1.0 - 15 GARGDOOR n/a 20 x 0.520 x 1.0 = 10 M NEEWALL n/a 1.37 x 0,. 080 x 1.0 = 11 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 2557 Double Glazing. FRNTGLI East 22 x 0,65 x 11.0 = 157 RGHTGL.1 Northwest 32 x 0.65 x 11.0 = 229 RGHTGL2 North 68 x 0.65 x 11.0 = 186 RGHTGL3 Northeast 45 x 0.65 x 11.0 = 318 BACKGLI West. 38 x 0.65 x 1.1.0 = 272 Double Skylight; SKYLITE Horizontal 4 x 0.70 x 11.0 - 31 CONDUCTIVE TOTAL FOR GLAZING SURFACES 1093 Iri 6G.I�W R'ESI.DENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C2 Protect Title ... LOT 6 PLAN C REV Run Title 87036 Date: 02/26/87 ( 4 C MICROPAS2 v2.1 File -87036 Program -HVAC SIZING > > >' INTERNAL GAIN-, Pt.ople r. 225 6tu!r-)erson + 1.200 Btu ( appliance ) DUCT HEAT GAIN: (Duct in attic) 2100 SUBTOTAL 13693 0..10 x 13693 - 1369 TOTAL HOURLY SENSIBLE HEAT GAIN 15062 0.20 x 1.5062 = 3012 TOTAL COOLING LOAD 18074. ( 1.5 Tons) SOLAR HEAT GAIN: Heat Area Shading Gain Descriotion Orientation (raft) SHGF Factor (Btu/hr) Double Glazing: FRNTGLI East 22 x 64 x 0.75 = 1056 RGHTGLI. Northwest 32 x 42 x 0.75 = 1008 RGHTGL2 North 68 x 13 x 0.75 = 66.3 RGHTGL3 Northeast 45 x 42 x 0.75 = 1.402 BACKGLI West 38 x 64 x 0.75 = 1824 Double Skvliaht: SKYL.ITE Horizontal 4 x 134 x 0.55 = 295 SOLAR TOTAL 6248 INFILTRATION: (Tyne: LOOSE) 13973 cuff x 0.47 ac/hr x 0..018 Btu/tuft-F x 11.0 - 1295 INTERNAL GAIN-, Pt.ople r. 225 6tu!r-)erson + 1.200 Btu ( appliance ) DUCT HEAT GAIN: (Duct in attic) 2100 SUBTOTAL 13693 0..10 x 13693 - 1369 TOTAL HOURLY SENSIBLE HEAT GAIN 15062 0.20 x 1.5062 = 3012 TOTAL COOLING LOAD 18074. ( 1.5 Tons) RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Pro.ect Title .. LOT 7 PLAN C Date: 02/26/87 Cover Page Run Title ...... 87037 Owners Name .... PETER G SHUTTS Location ....... CUPERTINO ; (checked by) (date) < < < MICROPAS2 v2.1 File -87037 Program -HVAC SIZING > > > HEATING AND COOLING LOAD SUMMARY -------------------------------- BUILDING DESCRIPTION: Floor Area .......................... 1656 saft Volume ............................... 13973 cuft DESIGN CONDITIONS: Weather Location ..........„......... CUPERTINO Latitude ............................ 37.3 degrees Winter Outside Design Temperature ... 34.0 F Winter Inside Design Temperature .... 70.0 F Summer Outside Design Temperature ... 86.0 F Summer Inside Design Temperature .... 75.0 F Temperature Range ................... 26.0 F DESIGN HEATING, LOAD SUMMARY (see heating load calculations): Onaaue Conductivity ................. 10877 Glazing Conductivity ................ 4886 Infiltration ........................ 9217 Duct Loss .„.......................... 24.98 Total Heat Load 27479 Btu/hr CE:C Maximum. 1.3 x ( 27479 + 10 x 1656) = 57251 Btu/hr DESIGN COOLING LOAD SUMMARY (see cooling load calculations): Opaaue Conduction and Solar ......... 2806 Glazing Conduction .................. 1493 Glazing Solar ....................... 7675 Infiltration ........................ 1295 mowInternal Gain ...................... 2100 " Duct Gain ........................... 1.537 Latent Load ......................... 3381 Total Cooling Load 20287 Btu/hr f 1.7 Tons RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page H1 Pro.ie:ct Title ... LOT 7 PLAN C Run Title ....... 87037 Date: 02/26/87 < < ( MICROPAS2 v2.1 File -87037 Program -HVAC SIZING > > >' 'HOUSE' HEATING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS: WINTER DESIGN TEMPERATURES: Inside HOUSE Temperature ......................... 70.0 F Outside Temperature ...... ..........,............. 34..0 F DESIGN TEMPERATURE DIFFERENCES Standard . ............................... ........,.. 36.0 F CONDUCTIVE HEAT LOSS: U -value Heat Area (Btu/hr- TD Loss Description Orientation (s.aft) raft -F) (F) (Btu/hr) ------------------------------------- Frame Wall: FRNTWALL Southeast ------ 210 x ------- 0.090 ------- x 36.0 -------- - 680 RGHTWALL Northeast 288 x 0.090 x 36.0 - 933 BACKWALL Northwest 406 x 0.090 x 36.0 - 1315 LEFTWALL Southwest 448 x 0.090 x 36.0 = 1452 AA Door: FRNTDOOR Southeast 20 x 0.460 x 36.0 - 331 Ceiling: DROPCLGI Horizontal S67 x 0„050 x 36.0 = 1561 BEAMCLGI Northwest 134 x 0.050 x 36.0 = 241 Exposed Foor: EXPFLOOR Horizontal 24.0 x 0.050 x 36.0 = 432 Raised Floor: FLOOR Horizontal 731 x 0.100 x 36.0 - 2632 Frame Partition: GARGWALL n/a 164. x 0.090 x 36.0 = 531 GARGDOOR n/a 20 x 0.520 x 36.0 - .374 KNEEWALL n/a 137 x 0.080 x 36.0 - 395 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 10877 Double Glazing: FRNTGLI Southeast 22 x 0.65 x 36.0 - 515 BACKGLI Northwest 38 x 0.65 x 36.0 889 LEFTGLI West 32 x 0.65 x 36.0 - 719 LEFTGL2 Southwest 68 x 0.65 x 36.0 = 1591 LEFTGL3 South 45 x 0.65 x 36.0 - 1041 Double Skylight: SKYLITE Horizontal 4 x 0.70 x 36.0 - 101 ,,. CONDUCTIVE TOTALS FOR GLAZING SURFACES 4.886 INF=ILTRATION: (Tyne: LOOSE) 13973 curt x 1.02 ac/hr x 0.018 Btu/curt-F x 36.0 - 9217 SUBTOTAL 24981 DUCT HEAT LOSS: (Duct in attic) 0.10 x 24981 - 2498 w TOTAL HEATING LOAD: 27479 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C1 Project Title ... LOT 7 PLAN C �.... Run Title ....... 87037 Date: 02/26/87 < < < MICROPAS2 v2.1 File -87037 Program -HVAC SIZING > > V 'HOUSE' COOLING LOAD CALCULATIONS ---------------------------------- DESIGN CONDITIONS: CONDUCTIVE TOTALS FOR OPAQUE SURFACES 2806 Double Glazing: FRNTGL1. SUMMER DESIGN CONDITIONS: 22 x 0.65 x 11.0 = 157 BACKGLI Northwest Inside HOUSE Temperature .......,................... 0.65 75.0 F 272 LEFTGLI. West Outside Temperature ............................... x 0.65 86.0 F 229 LEFTGL2 Southwest Temperature Range ...,...........,.., ............... 0.65 x 26.0 F LEFTGL3 South u DESIGN EQUIVALENT TEMPERATURE DIFFERENCES 0.65 x 11.0 = 318 Double Skylight; SKYLITE Horizontal 4 Standard .........................................,. 0.70 11.0 F 31 Frame Walls and Doors ............................ 9.6 F Ceiling Under Vented Attic ....................... 30.0 F Frame Partitions .................................. 1.0 F CONDUCTIVE HEAT GAIN' U -value Heat Area (Btu/hr- TDea Gain Description Orientation (saft) soft -F1 (F) (Btu/hr) ------------------------------------- Frame Wall; FRNTWALL Southeast ------ 210 x ------- 0.090 x ------- 9.6 -------- = 181 RGHTWALL Northeast 288 x 0.090 x 9.6 = 249 PACKWALL Northwest 406 x 0.090 x 9.6 = 351 L.EFTWALL Southwest 448 x 0.090 x 9.5 = 387 Door; FRNTDOOR Southeast 20 x 0.460 x 9.6 = 88 Ceiling; DROPCLGI Horizontal 867 x 0.050 x 30.0 = 1301 BEAMCLGI Northwest 134 x 0.050 x 30.0 = 201 Exposed Foor: E.XPFLOOR Horizontal. 240 x 0.050 x 1.0 = 12 Frame Partition; GARGWALL n/m 164 x 0.090 x 1.0 = 15 GARGDOOR n/a 20 x 0.520 x 1.0 = 10 KNEEWALL n/a 137 x 0.080 x 1.0 - 11 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 2806 Double Glazing: FRNTGL1. Southeast. 22 x 0.65 x 11.0 = 157 BACKGLI Northwest 38 x 0.65 x 11.0 = 272 LEFTGLI. West 32 x 0.65 x 1.1.0 = 229 LEFTGL2 Southwest 68 x 0.65 x 11.0 - 486 LEFTGL3 South 45 x 0.65 x 11.0 = 318 Double Skylight; SKYLITE Horizontal 4 x 0.70 x 11.0 - 31 CONDUCTIVE TOTAL FOR GLAZING SURFACES 1493 ■ ■ RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C2 Protect Title ... LOT 7 PLAN C Run Title ....... 87037 Date: 02/26/87 C < < MICROPAS2 v2.1 File -87037 Program -HVAC SIZING > > >1 SOLAR HEAT GAIN: Heat Area Shading Gain Descrintion Orientation (salt) SHGF Factor (Btu/hr) --------------------------- Double Glazing; FRNTGLI. ------------- Southeast -------- ---- 22. x 55 ------- x 0.75 - -------- 908 BACKGLI Northwest 38 x 42 x 0.75 = 1197 LEFTGL.1 West 32 x 64 x 0.75 - 1536 LEFTGL2 Southwest: 68 x 55 x 0.75 - 2805 LEFTGL3 South 45 x 28 x 0.75 = 935 Double Skvl.iaht: SKYLITE Horizontal 4 x 134. x 0.55 - 295 SOLAR TOTAL 7675 INFILTRATION: (Tvr)e: LOOSE) 13973 cuft x 0.47 ac/hr x 0.013 Btu/cuft-F x 11.0 = 1295 INTERNAL GAIN: 4 Peor_,1e x 225 Btu/person + 1200 Btu (ar_,rl.iance) - 2100 SUBTOTAL 1536Q DUCT HEAT GAIN: (Duct in attic) 0.1.0 x 15369 = 1537 TOTAL HOURLY SENSIBLE HEAT GAIN 16906. LATENT LOAD: 0.20 x 1.6906 -- 3381 TOTAL_ COOLING LOAD 20287 ( 1.7 Tons RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Project Title .. LOT 8 PLAN B REV Date: 02/25/87 Cover Page Run Title .. 87038 -------------------------- Owners Name .... PETER G SHUTTS Location ....... CUPERTINO (checked by) (date) < < < MICROPAS2 v2.1 File -87038 Program -HVAC SIZING > > > HEATING AND COOLING LOAD SUMMARY -------------------------------- BUILDING DESCRIPTION: Floor Area .......................... 1610 saft Volume .............................. 14812 cuft DESIGN CONDITIONS: Weather Location .................... CUPERTINO Latitude ............................ 37.3 degrees Winter Outside Design Temperature ... 34.0 F Winter Inside Design Temperature .... 70.0 F Summer Outside Design Temperature ... 86.0 F Summer Inside Design Temperature .... 75.0 F Temperature Range ................... 26.0 F DESIGN HEATING LOAD SUMMARY (see heating load calculations): Onsaue Conductivity ................. 9060 Glazing Conductivity ................ 5607 Infiltration ........................ 9771 Duct Loss ........................... 2444 Total Heat Load 26881 Btu/hr CEC Maximum: 1.3 x ( 26881 + 10 x 1610) = 55876 Btu/hr DESIGN COOLING LOAD SUMMARY (see cooling load calculations): Opaque Conduction and Solar ......... 2221 Glazing Conduction .................. 1713 Glazing Solar ....................... 8767 Infiltration ........................ 1373 Internal Gain ....................... 2100 Duct Gain ........................... 1617 Latent Load ......................... 3558 Total Cooling Load 21350 Btu/hr ( 1.8 Tons) 1 i RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Pave H1 Proiect Title ... LOT 8 PLAN B REV Run Title ....... 87038 Date. 02/25/87 (' < < MICROPAS2 v2.1 File -87038 Program -HVAC SIZING ) ) ? 'HOUSE' HEATING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS: WINTER DESIGN TEMPERATURES: Inside HOUSE Temperature ......................... 70.0 F Outside Temperature .............................. 34..0 F DESIGN TEMPERATURE DIFFERENCES Standard ......................................... 36.0 F CONDUCTIVE HEAT LOSS: Description Orientation Frame Wall; FRNTWAkL Southeast LEFTWALL Southwest BACKWALL Northwest RGHTWALI Northeast RGHTWAL2 East RGHTWAL3 North Door; FRNTDOOR Southwest Ceiling; DROPCLGI Horizontal BEAMCLGI Southeast BEAMCLG2 Northwest Exposed Foor; EXPFLOOR Horizontal Raised Floor; FLOOR Horizontal Frame Partition; GARGWALL n/a GARGDOOR n/a KNEEWALL n/a CONDUCTIVE TOTALS FOR OPAQUE SURFACES 9060 Double Glazing; FRNTGLI U -value 32 x Heat Area 36.0 = (Btu/hr- TD Loss (soft) x soft -F) x (F) (Btu/hr) 108 x 0.090 x 36.0 = 350 10 x 0.090 x 36.0 - 32 14.4. x 0.090 x 36.0 = 4.67 191 x 0.090 x 36.0 = 619 147 x 0.090 x 36.0 = 476 235 x 0.090 x 36.0 = 761 20 x 0.4.60 x 36.0 - 331 533 x 0.050 x 36.0 - 959 171 x 0.050 x 36.0 -• 308 204. x 0.050 x 36.0 = 367 143 x 0.050 x 36.0 = 257 724. x 0.100 x. 36.0 - 2606 300 x 0.090 x 36.0 = 972 20 x 0.520 x 36.0 = 374. 62 x 0.080 x 36.0 = 179 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 9060 Double Glazing; FRNTGLI Southeast 32 x 0.65 x 36.0 = 749 BACKGLI Northwest 104 x 0.65 x 36.0 - 2434. LEFTGLI Southwest 29 x 0.65 x 36.0 = 679 LEFTGL2 South 29 x 0.65 x 36.0 = 679 LEFTGL3 West 37 x 0.65 x 36.0 - 866 Double Skylight; SKYLITE Horizontal 8 x 0.70 x 36.0 -- 202 CONDUCTIVE TOTALS FOR GLAZING SURFACES 5607 INFILTRATION: (Type: LOOSE) 14812 cuft x 1.02 ac/hr x 0.018 Btu/cuft-F x 36.0 = 9771 DUCT HEAT LOSS: (Duct in attic) SUBTOTAL 24.438 0.10 x 24438 - 2444 TOTAL HEATING LOAD: 26881 T 1 1 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C1 Protect Title ... LOT 8 PLAN B REV Run Title ....... 87038 Date: 02/25/87 < < MICROPAS2 v2.1 File -87038 Program -HVAC SIZING > ) > 'HOUSE' COOLING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS: SUMMER DESIGN CONDITIONS: Inside HOUSE Temperature ......................... 75.0 F Outside Temperature .............................. 86.0 F Temperature Range ................................ 26.0 F DESIGN EQUIVALENT TEMPERATURE DIFFERENCES Standard ......................................... 11.0 F Frame Walls and Doors ............................ 9.6 F Ceiling Under Vented Attic ....................... 30.0 F Frame Partitions ................................. 1.0 F CONDUCTIVE HEAT GAIN: Description Frame Wall; FRNTWALL LEFTWALL BACKWALL RGHTWALI RGHTWAL2 RGHTWAL3 Door; FRNTDOOR Ceiling; DROPCLGI BEAMCLGI BEAMCLG2 Exposed Foor; EXPFLOOR Frame Partition: GARGWALL GARGDOOR KNEEWALL CONDUCTIVE TOTAL FOR GLAZING SURFACES 1713 t CONDUCTIVE TOTALS U -value OPAQUE Heat 2221 Area Southeast (Btu/hr- 1'Dea Gain Orientation (scgft) 229 sgft-F) (F) (Btu/hr) ----------- Southeast ------ 108 x ------- 0.090 ------- x 9.6 -------- - 93 Southwest 10 x 0.090 x 9.6 = 9 Northwest 144 x 0.090 x 9.6 = 124, Northeast 191 x 0.090 x 9.6 - 165 East 147 x 0.090 x 9.6 - 127 North 235 x 0.090 x 9.6 = 203 Southwest 20 x 0.460 x 9.6 - 88 Horizontal 533 x 0.050 x 30.0 - 800 Southeast 171 x 0.050 x 30.0 - 257 Northwest 204 x 0.050 x 30.0 = 306 Horizontal 143 x 0.050 x 1.0 - 7 n/a 300 x 0.090 x 1.0 - 27 n/a 20 x 0.520 x 1.0 10 n/a 62 x 0.080 x 1.0 = 5 CONDUCTIVE TOTAL FOR GLAZING SURFACES 1713 t CONDUCTIVE TOTALS FOR OPAQUE SURFACES 2221 Double Glazing; FRNTGLI Southeast 32 x 0.65 x 11.0 = 229 BACKGLI Northwest 104 x 0.65 x 11.0 - 744 LEFTGLI Southwest 29 x 0.65 x 11.0 - 207 LEFTGL2 South 29 x 0.65 x 11.0 = 207 LEFTGL3 West 37 x 0.65 x 11.0 = 265 Double Skylight; SKYLITE Horizontal 8 x 0.70 x 11.0 62 CONDUCTIVE TOTAL FOR GLAZING SURFACES 1713 t ;y RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C2 Project Title ... LOT 8 PLAN B REV Run Title ....... 87038 Date. 02/25/87 < < < MICROPAS2 v2.1 Pile -87038 Program -HVAC SIZING > > > SOLAR HEAT GAIN: Heat Area Shading Gain Description Orientation (salt) SHGF Factor (Btu/hr) Double Glazing; FRNTGLI Southeast 32 x 55 x 0.75 - 1320 BACKGLI Northwest 104 x 42 x 0.75 = 3276 LEFTGLI Southwest 29 x 55 x 0.75 - 1196 LEFTGL2 South 29 x 28 x 0.75 = 609 LEFTGL3 West 37 x 64 x 0.75 = 1776 Double Skylight: SKYLITE Horizontal 8 x 134 x 0.55 - 590 SOLAR TOTAL 8767 INFILTRATION: (Type: LOOSE) 14812 cufit x 0.47 ac/hr x 0.018 Btu/cuft-F x 11.0 = 1373 INTERNAL GAIN: 4 Peoole x 225 Btu/person + 1200 Btu (appliance) = 2100 SUBTOTAL 16174 DUCT HEAT GAIN: (Duct in attic) 0.10 x 16174 = 1617 TOTAL HOURLY SENSIBLE HEAT GAIN 17791 r LATENT LOAD: 0.20 x 17791 - 3558 TOTAL COOLING LOAD 21350 ( 1.8 Tons) J J; RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING ProJeot Title .. LOT 9 PLAN A Date: 02/25/87 Cover Page Run Title ...... 87039 -------------------------- Owners Name PETER G SHUTTS Location ....... CUPERTINO (checked by) I d i a (date) < < < MICROPAS2 v2.1 File -87039 Program -HVAC SIZING ) ) ? HEATING AND COOLING LOAD SUMMARY -------------------------------- BUILDING DESCRIPTION: Floor Area .......................... 1638 saft Volume .............................. 15561 cuft DESIGN CONDITIONS: Weather Location .................... CUPERTINO Latitude ............................ 37.3 degrees Winter Outside Design Temperature ... 34.0 F Winter Inside Design Temperature .... 70.0 F Summer Outside Design Temperature ... 86.0 F Summer Inside Design Temperature 75.0 F Temperature Range ................... 26.0 F DESIGN HEATING LOAD SUMMARY (see heating load calculations): Opaaue Conductivity ................. 10065 Glazing Conductivity ................ 5010 Infiltration ........................ 10265 Duct Loss ........................... 2534 Total Heat Load 27874 Btu/hr CEC Maximum: 1.3 x ( 27874 + 10 x 1638) = 57531 Btu/hr DESIGN COOLING LOAD SUMMARY (see cooling load calculations): Opaaue Conduction and Solar ......... 2507 Glazing Conduction .................. 1531 Glazing Solar ....................... 7636 Infiltration ........................ 144.2 Internal Gain ....................... 2100 Duct Gain ........................... 1522 Latent Load ......................... 3348 Total Cooling Load 20085 Btu/hr ( 1.7 Tons) 0 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page H1 Project Title ... LOT 9 PLAN A Run Title ....... 87039 Date: 02/25/87 < < < MICROPAS2 v2.1 File -87039 Program -HVAC SIZING ) ) ) 'HOUSE' HEATING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS: WINTER DESIGN TEMPERATURES: Inside HOUSE Temperature ......................... 70.0 F Outside Temperature .............................. 34.0 F DESIGN TEMPERATURE DIFFERENCES Standard ..................................... 36.0 F CONDUCTIVE HEAT LOSS: DescriptionOrientation ------y- ------- Frame Wall; FRNTWALL South BACKWALL North LEFTWALL West Door: FRNTDOOR South Ceiling; DR0PCLG1 Horizontal BEAMCLGI South BEAMCLG2 North Exposed Foor; EXPFLOOR Horizontal Raised Floor; FLOOR Horizontal Frame Partition: GARGWALL n/a GARGDOOR n/a KNEEWALL n/a CONDUCTIVE TOTALS FOR OPAQUE SURFACES 10065 Double Glazing; FRNTGLI U -value 32 x Heat Area 36.0 = (Btu/hr- � TD Loss (saft) x soft -F) x (F)(Btu/hr) 55 x 0.090 x - 36.0 - 178 152 x 0.090 x 36.0 = 4.92 4.91 x 0.090 x 36.0 = 1591 20 x 0.460 x 36.0 = 331 438 x 0.050 x 36.0 = 788 387 x 0.050 x 36.0 = 697 340 x 0.050 x 36.0 - 612 277 x 0.050 x 36.0 - 499 809 x 0.100 x 36.0 = 2912 240 x 0.090 x 36.0 = 778 20 x 0.520 x 36.0 = 374 282 x 0.080 x 36.0 = 812 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 10065 TOTAL HEATING LOAD: 27874 Double Glazing; FRNTGLI South 32 x 0.65 x 36.0 = 749 � BACKGLI North 40 x 0.65 x 36.0 = 936 LEFTGLI West 96 x 0.65 x 36.0 = 2246 LEFTGL2 Southwest 20 x 0.65 x 36.0 - 468 LEFTGL3 Northwest 18 x 0.65 x 36.0 = 410 Double Skylight; SKYLITE Horizontal. 8 x 0.70 x 36.0 = 202 CONDUCTIVE TOTALS FOR GLAZING SURFACES 5010 INFILTRATION: (Type: LOOSE) 15561 cuft x 1.02 ac/hr x 0.018 Btu/cuft-F x 36.0 - 10265 SUBTOTAL 25340 DUCT HEAT LOSS: (Duct in attic) 0.10 x 25340 = 2534 TOTAL HEATING LOAD: 27874 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C1 Project Title ... LOT 9 PLAN A Run Title ....... 87039 Date: 02/25/87 ( < < MICROPAS2 v2.1 File -87039 Program -HVAC SIZING > > > 'HOUSE' COOLING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS: SUMMER DESIGN CONDITIONS: Inside HOUSE Temperature ......................... 75.0 F Outside Temperature 86.0 F Ternperature Range ................................ 26.0 F DESIGN EQUIVALENT TEMPERATURE DIFFERENCES Standard ......................................... 11.0 F Frame Walls and Doors ............................ 9.6 F Ceiling Under Vented Attic ....................... 30.0 F Frame Partitions ................................. 1.0 F CONDUCTIVE TOTALS FOR OPAQUE SURFACES 2507 Double Glazing; FRNTGLI CONDUCTIVE HEAT GAIN: 32 x 0.65 U -value 11.0 = Heat BACKGLI North 40 x Area x (Btu/hr- TDea Gain West Description x Orientation (scgft) 11.0 = saft-F) (F) (Btu/hr) 20 Frame Wall; FRNTWALL South 55 x 0.090 x 9.6 = 48 x 0.65 BACKWALL North 152 x 0.090 x 9.6 = 131 0.70 x LEFTWALL West 491 x 0.090 x 9.6 = 424 Door: FRNTDOOR South 20 x 0.460 x 9.6 - 88 ,.r Ceiling; DROPCLGI Horizontal 438 x 0.050 x 30.0 = 657 BEAMCLGI South 387 x 0.050 x 30.0 = 581 BEAMCLG2 North 340 x 0.050 x 30.0 = 510 Exposed Foor: EXPFLOOR Horizontal 277 x 0.050 x 1.0 = 14 Frame Partition; GARGWALL n/a 240 x 0.090 x 1.0 - 22 GARGDOOR n/a 20 x 0.520 x 1.0 = 10 KNEEWALL n/a 282 x 0.080 x 1.0 - 23 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 2507 Double Glazing; FRNTGLI South 32 x 0.65 x 11.0 = 229 BACKGLI North 40 x 0.65 x 11.0 = 286 LEFTGLI West 96 x 0.65 x. 11.0 = 686 LEFTGL2 Southwest 20 x 0.65 x 11.0 = 143 LEFTGL3 Northwest 18 x 0.65 x 11.0 = 125 Double Skylight; SKYLITE Horizontal 8 x 0.70 x 11.0 = 62 CONDUCTIVE TOTAL FOR GLAZING SURFACES 1531 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C2 Proiect Title ... LOT 9 PLAN A Run Title ....... 87039 Date: 02/25/87 < < < MICROPAS2 v2.1 File -87039 Program -HVAC SIZING > > > SOLAR HEAT GAIN: Heat Area Shading Gain Descriotion Orier.tat.ion (saPt) SHGF Factor (Btu/hr) Double Glazing; FRNTGLI South 32 x 28 x 0.75 - 672 BACKGLI North 40 x 13 x 0.75 = 390 LEFTGLI West 96 x 64 x 0.75 = 4608 LEFTGL2 Southwest 20 x 55 x 0.75 = 825 LEFTGL3 Northwest 18 x 42 x 0.75 = 551 Double Skylight; SKYLITE Horizontal 8 x 134 x 0.55 - 590 SOLAR TOTAL 7636 INFILTRATION: (Type: LOOSE) 15561 cuft x 0.47 ac/hr x 0.018 Btu/cuft-F x 11.0 = 1442 INTERNAL GAIN: 4 People x 225 Btu/oerson + 1200 Btu (ar)Dliance) = 2100 SUBTOTAL 15216 DUCT HEAT GAIN: (Duct in attic) 0.10 x 15216 = 1522 TOTAL HOURLY SENSIBLE HEAT GAIN 16738 yif LATENT LOAD: 0.20 x 16738 = 3348 TOTAL COOLING LOAD 20085 ( 1.7 Tons! RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Protect Title .. LOT 10 PLAN A REV Date: 02/25/87 Cover Page Run Title ...... 87040 -------------------------- Owners Name .... PETER G SHUTTS Location ....... CUPERTINO (checked by) (date) < < < MICROPAS2 v2.1 File -87040 Program -HVAC SIZING > > > HEATING AND COOLING LOAD SUMMARY -------------------------------- BUILDING DESCRIPTION: Floor Area .......................... 1638 saft Volume .......................... — .. 15561 cuft DESIGN CONDITIONS: Weather Location .................... CUPERTINO Latitude ............................ 37.3 degrees Winter Outside Design Temperature ... 34.0 F Winter Inside Design Temperature .... 70.0 F Summer Outside Design Temperature ... 86.0 F Summer Inside Design Temperature .... 75.0 F Temperature Range ................... 26.0 F DESIGN HEATING LOAD SUMMARY (see heating load calculations): Opaque Conductivity ................. 10065 Glazing Conductivity ................ 5010 Infiltration ........................ 10265 Duct Loss ........................... 2534 Total Heat Load 27874 Btu/hr CEC Maximum: 1.3 x ( 27874 + 10 x 1638) = 57531 Btu/hr DESIGN COOLING LOAD SUMMARY (see cooling load calculations): Opaque Conduction and Solar ......... 2507 Glazing Conduction .................. 1531 Glazing Solar ....................... 7636 Infiltration ........................ 1442 Internal Gain ....................... 2100 Duct Gain ........................... 1522 Latent Load ......................... 3348 Total Cooling Load 20085 Btu/hr ( 1.7 Tons) RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING iw Page H1 Project Title ... LOT 10 PLAN A REV Ivo Run Title ....... 87040 Date: 02/25/87 < < < MICROPAS2 v2.1 File -87040 Program -HVAC SIZING ) ) ) 'HOUSE' HEATING LOAD CALCULATIONS --------------------------------- DESIGN CONDITIONS: WINTER DESIGN TEMPERATURES: Inside HOUSE Temperature ......................... 70.0 F Outside Temperature .............................. 34.0 F DESIGN TEMPERATURE DIFFERENCES Standard ......................................... 36.0 F CONDUCTIVE HEAT LOSS: U -value Heat Area (Btu/hr- TD Loss Description Orientation (sgft) sgft-F) (F) (Btu/hr) Frame Wall; FRNTWALL South 55 x 0.090 x 36.0 - 17B RGHTWALL East 491 x 0.090 x 36.0 = 1591 BACKWALL North 152 x 0.090 x 36.0 - 492 Door; FRNTDOOR South 20 x 0.460 x 36.0 = 331 Ceiling; DROPCLGI Horizontal 438 x 0.050 x 36.0 = 788 BEAMCLGI South 387 x 0.050 x 36.0 - 697 BEAMCLG2 North 340 x 0.050 x 36.0 = 612 Exposed Foor: EXPFLOOR Horizontal 277 x 0.050 x 36.0 = 499 Raised Floor; FLOOR Horizontal 809 x 0.100 x 36.0 - 2912 Frame Partition; GARGWALL n/a 240 x 0.090 x 36.0 - 778 GARGDOOR n/a 20 x 0.520 x 36.0 - 374 KNE:EWALL n/a 282 x 0.080 x 36.0 = 812 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 10065 Double Glazing: FRNTGLI South 32 x 0.65 x 36.0 - 749 BACKGLI North 40 x 0.65 x 36.0 = 936 RGHTGLI East 96 x 0.65 x 36.0 - 2246 RGHTGL2 Southeast 20 x 0.65 x 36.0 - 468 RGHTGL3 Northeast 18 x 0.65 x 36.0 - 410 Double Skylight; SKYLITE Horizontal 8 x 0.70 x 36.0 - 202 CONDUCTIVE TOTALS FOR GLAZING SURFACES 5010 INFILTRATION: (Type: LOOSE) 15561 cuft x 1.02 ac/hr x 0.018 Btu/cuft-F x 36.0 - 10265 SUBTOTAL 25340 DUCT HEAT LOSS: (Duct in attic) 0.10 x 25340 2534 TOTAL HEATING LOAD: 27874 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C1 Project Title ... LOT 10 PLAN A REV Run Title ....... 87040 Date: 02/25/87 C < < MICROPAS2 v2.1 File -87040 Program -HVAC SIZING ) ) ) 'HOUSE' COOLING LOAD CALCULATIONS ---------------------------------- DESIGN CONDITIONS: SUMMER DESIGN CONDITIONS: Inside MOUSE Ternoerature ......................... 75.0 F Outside Temperature .............................. 86.0 F Temperature Range ................................ 26.0 F DESIGN EQUIVALENT TEMPERATURE DIFFERENCES Standard ......................................... 11.0 F Frame Walls and Doors ............................ 9.6 F Ceiling Under Vented Attic ....................... 30.0 F Frame Partitions ................................. 1.0 F CONDUCTIVE HEAT GAIN: U -value Heat Area (.Btu/hr- TDea Gain Description Orientation (saft) saft-F) (F) (Btu/hr) Frame Wall; FRNTWALL South 55 x 0.090 x 9.6 - 48 RGHTWALL East 491 x 0.090 x 9.6 = 42.4 BACKWALL North 152 x 0.090 x 9.6 = 131 Door: FRNTDOOR South 20 x 0.460 x 9.6 - 88 Ceiling; DROPCL_G1 Horizontal. 438 x 0.050 x 30.0 - 657 BEAMCLGI South 387 x 0.050 x 30.0 = 581 BEAMCLG2 North 340 x 0.050 x 30.0 = 510 Exposed Foor; EXPFLOOR Horizontal 277 x 0.050 x 1.0 14, Frame Partition; GARGWALL n/a 240 x 0.090 x 1.0 - 22 GARGDOOR n/a 20 x 0.520 x 1.0 - 10 KNEEWALL n/a 282 x 0.080 x 1.0 - 23 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 2507 Double Glazing: FRNTGLI South 32 x 0.65 x 11.0 = 2.29 BACKGLI North 40 x 0.65 x 11.0 - 286 RGHTGLI East 96 x 0.65 x 11.0 - 686 RGHTGL2 Southeast 20 x 0.65 x 11.0 - 143 RGHTGL3 Northeast 18 x 0.65 x 11.0 - 125 Double Skylight; SKYLITE Horizontal 8 x 0.70 x 11.0 - 62 CONDUCTIVE: TOTAL FOR GLAZING SURFACES 1531. t 1 RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C2 Project Title ... LOT 10 PLAN A REV Run Title ....... 87040 Date: 02/25/87 C < < MICROPAS2 v2.1 File -87040 Program -MVAC SIZING SOLAR HEAT GAIN: Heat Area Shading Gain Description Orientation (soft) SHGF Factor (Btu/hr) ---------------------------- Double Glazing; FRNTGLI ------------- South -------- 32 x ---- 28 x ------- 0.75 = -------- 672 BACKGLI North 40 x 13 x 0.75 = 390 RGHTGLI East 96 x 64 x 0.75 - 4608 RGHTGL2 Southeast 20 x 55 x 0.75 = 825 RGHTGL3 Northeast 18 x 42 x 0.75 = 551 Double Skylight: SKYLITE Horizontal 8 x 134 x 0.55 = 590 SOLAR TOTAL 7636 INFILTRATION: (Tyne: LOOSE) 15561 cuft x 0.47 ac/hr x 0.018 Btu/cuft-F x 11.0 = 1442 INTERNAL GAIN: 4 People x 225 Btu/person + 1200 Btu (appliance) = 2100 SUBTOTAL 15216 DUCT HEAT GAIN: (Duct in attic) 0.10 x 15216 = 1522 LATENT LOAD: TOTAL HOURLY SENSIBLE HEAT GAIN 16738 0.20 x 16738 - 3348 TOTAL_ COOLING LOAD 20085 ( 1.7 Tons)