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2221 LAS PALMAS DR; B; 80-924; Permit
... ,, ~} . i •. - LICE~l5CONTRACTOR'SDECLARATiON . I' . . '·-.. . . APPUCAJION & PERMIT l,he'.eby affirm :1~ajJ am licensii{under provl--USE !3ALL POINT p EN.ONLY· ·1:200 E·LM AVENUE '(714) 438-5525 slons oJ _Chapter 9 (comm~nclng with Section · : . · · · CITY OF CARLSBA0.,-!3W,ILDING .D.EP~RT~ENT • ;:...: APPLICANT TO F1LL-.11~· .iNFOR - MATION WITHIN RED t,.INES. . 7000) of: Division· 3 of the Business and Profes-· · · · · · -----,----,, ~ionsCode,andmylicense·islnfu'ilforceandef-~ E I-!!'Us.' LICE_N'sE· ' -PE.RMIT NUMBER feet. .·Ji, · · _ !· ~,'vi...._.,~ · ,, , -, ....,.., 'l~ --.. __ • .. ·O: ·I-.· .v..,1:,;,-~-.· --.. I, owN,ER-BUILDER DECLARAT.1.PN 'ciwNER''S PHONE ,STATE Llce::NsE , , · ··/J· -if·') DI pereby affirm-that I am exempt froll) the Cc:m---f.?·~ :'1..1.&-'.".'l t....-.,, , · · .V : . e;;,(_, -tractor's ·qcen~p 'Law fpr the•.·foltowing reason : t-;;t;;;7.';:~:-;';--f-;;";;;;::-';-=~~=:e:...-=c...::.L..:..:o.:::.,,,."'-'!,:;,c,L--J...2=-="--~_!g~~~~~ : ;v ..,v-;.,J -I ~ -I,. ' ' -. (Sec. 7031.5 ,Business and .Professions Co,;le), Any co NTRACTo'R •·s ADDR Es.s • , • city 9_r county which requires_ a permit IC? con-1 r...1..-.,-.. -}J ' -. ,-. ·-,;__;:_. · ' .. - svuct, ·alter,. lmprov~, ~emollsh; or rep_aIr any 1_ .. 'J' Q,1,:S'f~~ltl J, structure, pnc:ir -to ,Its Issuance· also requires the / DESIGNER· - applicant for such .permit to fil!l a signed sta\e-I:::> . -~. l!JM· ·ment.that he:·ls'llcensed pursuant to the,provl-~~~~~;:£~~1lid=6WS:!:!!~~~LJ:£~l-+.....JL..L.....JL.,..L...l-.l.....,1. .... .L,J...:..J-. , . . -:" ,,11 _ slons 9f· t~e. Con\rac;:tor's Ljcense. Law-(Chapter 9 · · ' ·, · · _' · _ -• -· ,l/<1}. "C.. ~,e;,.{' P:.·. ••• co_mmencJng "'-Ith Section 7000'of Division ;3 of t:-:--~=:..o:...::,.;c....;:.:....;:::_~_,_:.._ __ .,_;,.:;..,~~L..~==~:....::....:~::..-....:::::=::... ___ -'--_--.:.1 DESIGNEFl'S ADDREss· · ... -7?(/~ a.Sa, DESl,GN~R'S 'P,.H,ONE the·Busin'ess·and.Professlons .Code) or that is,ex-·, · • Ch-· u•-c; -r:7 · empt therefrom _and the basis,.for the alleged ex-, : · C;fr)S ~. / O /_'{;.,~~ · · ·. · -... A/.,· · · .. ,r '1 --'7 -t;.LO";'l '!' emptlon.AnyvlcilatioiiofSe9tloniP31.5·by·anap-: ' •• _..(t:'__QIJJ~~'-'--. ·, ·>-' ., ... l/H,/ 1 l/26/BlJ91.\ h·:· .. p_li_cant for a permit subjects the applicant' to ·a civil,penal\y of no) more than five hund.red.(!ollars ($5QO); ' DI, as ow_rier of. the prop~rty,, or iT\Y employe<is with ·wages as !_heir sole compensation, will do· the worli, and th·e ,structure:1s -not· 1niended· or of-1 fef\)d for _sa!!l (Sec. 7044,_ Buslnl)SS, and. Profe~-. : slons Code: The Contractor's tlcense Law does not apply ·to an owner ,;if ,property "!ho .1;m·llds or · improves thereon and who does such woik himself or through his own employees, provlde.d that such fmprovements are· n·ot intendiid or. of-· BLC\(} SQ, :FT• BLDG USE ... , .. j ,,:drr1·· PLtJMl;UNG' PERMIT L~··d -E~CH"_FIXTU~~·Til/\P ,JI _ _lf~E.Ac,1:l Bl)ILDING SEWER ----------,_ . -,,. . ' •.fl,O.R Kl NG ~PAC~ OCC,. GP STANDARD PL,!,N 11 ·1/0~~1 rY~E co~s~ AMT. QTY.: I MECHANICAL PERMIT :K:' ~I I J INSTALL FURN. DUCTS UP Tei 100,00.0 'BTU' ~-";J. _.,_ -,- OVER lQQ,~ciQ.~TU.,_, lered for sale. !f,. however, the building or improve-1 ment Js sold within on~ year of completion,. the ·1 . . . , __ ____ .• _ . -. -,. owner-builder will have the burden of proving that , . . ·EACH GAS:SYSTEM-1 T0-4 OUT-LEFS_ · __ -. ~: _ ... BOll::ER/COMP.RESSOR 3-15 HP. c , EACl:lWATE!l HEATER AND/0~. VENT B_OILERlCOMPRE~SOR UP TO 3 ~P, ~=1:'.d not build or Improve for the purpose ?f -I ~ACH GAS-SYST~M'5 OR·MO~E ----. ' --. -:-' BOILE,~/~OMP_R~ss·o.R ~s-~b ~i, I., . !:ACfl~gAL, ALT~~ •. !!EPAIRWATER PIP~' ~~~-'--,...;-VENT FAN·SINGL(puct ;. • JNU~BE_R_ o·F STORIES · ·1 _o.cc. LCtA'D AM;r. i f:k...-,,- .. Ni>iei ; ' 'Noflialid Unless M_~c/Jine:t;a_,:titit!fl l ,i, -,-•i: ... 'i,·---... , ......... ,._ ~-I ' ~ '~...,~-. ~-·· ~ -f'·· , .. ~ ., ': ·-;... ~: '.+.' •'p .,., r . , ~ ~I J: t.1, ! '~. I ; .: ·_. ~ -] '(. -- ··o ·j:! <'·' 0 i, > DI, as owner of ihe property, am exclusively con- tracting with licensed c_ontractors .to construct the project (Sec: 7044, Business and Professions Code: The Contractor's License Law does not-ap- ply to a/1 owner of property \•ho bulic;ls or Im- proves thereon, and who contracts ·for such _pro, jects with a contractor(s) license pursuant to tt]e contractor's License Law). f;ACH· LAWN S~RIN~t'EIISYST~M --. -"::_ ~ I· .. , '.· '.~----,-::-~11 T, MEGH EXHAUST,:.. H-000/DUCTS WA.T~R SO_FTfiER_ . v;L~:4i~ :::.· ·: .. , .· --,_.:-.-.. .z . I am ·e)(empt under Sec ____ ~ B. & P.G: .. 1 f6rthls reaso,._ __ ~---~~---- Date Owner WORKERS' COMPENSATION DECLARATION I hereby ~!firm that I have a certlficat!3 of con- sent to self-Insure, o~ a certificate of Workers' Compensation Insurance; or ,a certified copy thereof (Sec. 3800, Labor Code). POLICY NO ___________ _ COMPANY ___________ _ OCopy Is filed with the city. D Certlfiec! copy Is hereby furnished. CERTIFICATE OF EXEMPTION FROM WORKERS' COMPENSATION INSURANCE (,This section need not, be qompleted if-the 'per- mit Is ·tor one hundred dollars ($10!)) or less). . I certify that In the performarice·of.the work for wtilQh this permit Is, lssueq,l,!ban not e!Tiploy any persqn In any manner.so as to become.subjecno the Workers' CompensaU9n Law,s of California. NOTICE TO APPLICANT: If, after making this Cer- tificate of Exempiion, you.should becom·e subje-ct io the Workers'' Compen\latron proal ' s of the Labor e,,you must'forihwlth,com ly Ith such prov~ or t':'is permit shatlt>e·de m revok'ed. ·1,hereby afffr111 'that there i's a 'i:onstruc\lon'len- dlhg ag~ncy for tt,e perfqrmance, (\f the •work, for which this P,8r!T1It.ls.lssued (Sec. 3097, Civil Code). :::----.:· ., ' I o· .. ..i..,;,.._,.,.:::-~ . ' 1./ ~~~~=--~'-'-,---.+~~ . 0. -~-.. , ',i:$_:ocJ· J__,?_A~1 D J, TOTAL-PlUMBING . CONT.RA¢TOR CONTRACTQJ! '',fl: ' -----~- .. ·---~---~-------~--'-#-~-~ .... ·.1UTY.. ELECT:RI.C;t,.,L _ _P~RMIT AMT. ClTY. M0!31L~ HQME PERMIJ , · · ELECTRI¢AL · . NEW CONSTEA AMP/S~'H /BKR "'l-OD ,,,,-. AW~ ING ' ' •. -, MECHANICA'l" ' 1 PH:-.25 -3 f!H : P-ORCH MOBILE HOME ExIsj BlDG EA AMPJSWT/BKR SET-UP' · SOLAR , 1 PH .25 3.P.H RAr,(ADA, CABANA rY.un:..<.-'.,.'-!" I , !lEMODEL/ALTER PE!l CIRC!JIT !:ENCE OVER 6' I .II .. --. ? • _ . I -..i , I' _ j ' 11 :fEMP PO LE -200 AMPS TOTALMOBIL£HQ_r.,,E, ---.. ~-_L__ _U_. __ -MICO-FILM --~-'-'--I I • -I ] . ; I OVER 200 :AMPS -'I, ·r I I 'TEMP OCCUMNGY~(30 DAY~ I', 1-1-I -~' o<..._()(I.. I 1:.1 :I TOTAL ~lECTRICAL CONTR~CTOR 1-0-,,..-TOTAL FEES PAYABLE ,A l: , I : ·1 ·j..-,~ t>-.h.#- I HAVE CAREF,ULL·X EXAMINEQ THE COMPLE;rEb "APPLICATION AND PERMIT, AND'Do HEREBY CERTIFY-THA'I' ALL INFORMATION HEREON IS TRUE AND CORRECT AND I ' FURTHER• CERTI.FY 1'-ND·AGR!;,E IF A PERMIT IS ISSUED;TO COMPLY WITH ALL CITY, ~-. . ··:;~ ,CQUNJ:Y AN.D STAT,E LAWS GOVERNING BUILDING .CONSTRUCTION; WHETHER SPECIFl~D HEREII\J O'R NOT. ,I,Al.$O .A.GREE T-O SA·VE INDEMNIFY .A.ND-KEEP HA.RM-- LESS THE CITY oF:CARLSBi>;D. AGAINST ALL LIABILITIES, JUDGMENTS, COSTS AN_D -.-~-IIU~ 7 'C{ ~o EXPENSES WHl(,H MAY IN ANY wAy ACCRUE AGAINST SAl,D•CITY iN•CONSEQUENCE · . • -· -·,c qF-THE,QA.Ai1fl'.I_NG OF T,H_IS P~RMIT. • AGEN~. ~r: --------:--. --I •I f. ,} / • • ' • .Sl7".E .. ADDRESS: .,.. ·!I; ", ·9WNER:' ~--~ . : .. ... \;_·\!~~). ~-. :[,~,i·,\. :. P:,J:;ffi.yilT;t:,lOr, .zo ~~'£·.~({- ' ,, . . -\ "Ii . r ·-i . INSPECTION = ', . ·,, DATE. WOOD F>LOOR .. FO~N'o-4,TIGN.• f;,<;>~~s,sET_BACK; •_TOIi.a.ET _UNDE'.~·FLOOR __F"'t..UMBING. UNDER FLOOR HEATING ! ~ -- ,O.K TO JNST ALC S,UB F-t:.o_<m ·, •SL:AEl FLOOR - UNDER SLAB PLl!MBING FOOTING• -FQRMS.• ?,ETBACK • TOIL;ET -bl< TO POUR_ CONCR'ET:E'.. FRAME RQUGH EL:!=,CTR[CAL. ROUGH PLUMBING . ROUGH HEATJNG[~E;_t-iTiLATING ·)=RAMEci OK.• PLACE INSl/LATION INSULATION OK '! _PL'ACE WAL:LBOAR0 'IO\Ll,.J30A~D OK! PLACl;'.}"/\P~ ·., .... , ·-.:,,_"1- _E)0'1;R1.Q~ Ll\T!:i q~. Pt.ACE sTu¢co 1-· .1 •· •• ~.. .,.,., •· .....l: ' ! ; _ . fNSPECTOR ·•\- ~ ~ \ ·, ..-~-1-.' \ ''vi FIELD INSP. ~CtlON. RECORD -.. ' ..... . , - \ HdiNsPicTbR!S,iroJ:Es ~~-"~\ .. ,,_, ·7_.; ·--~~ --i ·: ... 1! .. -\ .. \ -.. •• 'tt .' _i_ ' .. ,:l ----· ·\ :~ l ,-.. l '• { .... -,!:..; -~' ~· :.:---· ... -_ __,.. - ' ...... ·:...::. ; -... ~~ ·~ ~--~':.. -·,--: -~-"t \ '. .. -·'-".: .. ,-;, ... "l_ ·;•., \. ... ;, _.., /-,., i~>:~t, O M '. \ \. r . .r-- :I :. ... \ lb • . ----__ '!-___ -/·:1 ·./. -Z,/~-Yvc)' ;J L ___ . 7 4 71 \ ' , . .... ... "'l~ ' . I ~ -r ,. /· / ·- ,, ~ . . _,;?")) ~- • _f • -/. . . ' .: ~~ . ---~ ·°'·i ~-;}:·"-··· . ~7 I 7J~ff . ,· . :· -. . -~-~ FIREPCAG~., . , . • ·1 f-· v . , (_,,/;,IC. C . J .. _DAM~Rtr~TE;~L · 1? --.1 • , /· •• < PL~TE;·,;.,,1:_t'_t'f_~OF CHIMNE~ ...... :u= ~--~ .-. ,, )\ -I :II.I OTHER-:~ T~F' POW~'~ (POLE) SEWER GAS "l:ESJ S~ PqOL ·., STEEL BONDING, ,. PREDECK ~ FEN~E PREPLAST.ER Sl'IOWN • FRAM'!':::. ·• :PAN FINAL INSP B:Y BLDG:DE.PT :I OTt:i_ER, pr:I';'.iI~~Eliiq ~c:>M.PLETED l;L~q ,.,~T,ER~P-ERM-T~MP GAS ~ETER-f PERM-TEMR . CE'.RT OF. <?S:GUPANCY -ISSl}ED : . _· _ _i ---------· ·--- ,: •;,~--*'--~\. -. '\ \. l \·;" -,. ., .... .., ".\. ~ .... .....,.. ... .,..,,~--· .... -4 .. ~.·:--,.,..,..-.'tJl.<·~J-. ...... ·,··\f~\ 1.~-~ :·,,~·-,, . .. .. .:..-.!J l. ,, ... -'· ·.!'/'_,. --... - f ~ ! ·~-- ~.,; , .... "· ~. •"'! ~ ,,_. ,.., .•...,/ .... ::: ~ : ~._. ' I ~-·.·--..._· -·~~....r,.... -'· ... ! . "'~~-"$,- '·. :\:.' ............ ..... i' . "· -i;; ....... 1~,.:-, ·( •' ' PLAN_ID. ___ '2!)0~--~-~_2._4-..,::_ _____ _ DATE· 1/-IE -2o " JOB ADDRESS ______ ,-__________ ~ ____ PLAN CHECKER __ -=.----.:=-~'--- .. COMMERCIAL ADDITION OR ALTERATION CHECK SHEET ~[~ ~-~~~ AFf P-o\f~ ~utt1:eo. I 2 • 3. 4. ' 5. Identify proposed_use and type pf construction. Heating/Cooling ·energy_ design· calcs required. Fonn~ 4 & 6 dully signec Electric Lighting energy c;:alcs required. Form: 5 dully signed. submit a list of materials with approximate amounts stored. ,~ tto-n.1 wA-1t-e.~t196 -&-S1J)~fz! ~~,. · • W'r~ ~e, _ Show t;Jae Jocations-s;I;., roof ·mounted equipment,~Gm;;:.t;?t supports. Show access, a 120V electric service receptical with 25' and a fire extinguisher (2A, l0BC). ) -6. ·show type of. insulation. When exposed, show flame spread rating (I_II Min.). ( ) ·c . • > ( , ) ( . ) ( . ) ( ) ~~ ,, ' ( . ) 7. · Show latteral bracing of· parti_ti6n walls~ .~ 8. Provide a section detail of floor, walls, and all materials and method of construction. ceiling showing 9. 10. 11. 12. 13. For 1. 2. 3. Water Heaters show: . Location._ Combustion air and venting. T & P Valve, line and discharge location. Provide a floor plan showing existing and n:ew walls. Show counters, and aisle spacing as per section 3313. Show all details for toilet rooms complying.with section 1711. San Diego County Health Dept. approval :r::equired. ';ltP~f ( ) 14. AA,-l)() t +A,• ' ).~· Lighted exit si'::i~lS as per 1976 U.B.C. required. O"~ Show W\1,V'> ~ .. w,oe eo~vo~ To OFFtGfE· ·p.cofv\S LOI ~to~/ ( ) ~it1(~2~ tr, (JUI#'-= ( ) ~ i ) ; ( ) " 1n--, (7() -v) \ · 15. ,16. 17. 18. 19. 20. u. See U.B.C. Sec. 4303 b #6 for allowable ]?enetrations of fire-rated ceiling. Ccr1f?lete the c.~2:.1-:.'-:teci Industrial Waste Permit and return.'"'('-~~11-t.1"1 'to cr'f ~~ P'fJ'f'AfL~"-· ./ Shew panic i"'..ar&,1.::re for rear exit doors. Fire sprinkler plans signed by sprinkler contractor required. Approved plfu'1.S b-_.1 owners of the building are i:i;:equired. Show an enclosure for roof mounted equipment and show all piping ai:id ·e-oucts witb,in the buildi:r:ig . ..t.'f£E ArrA~ Cl..,-~ Pt:iUe---( · ~ ·· · '"'-D/!/, -.® f'l?.0-/lDliri · ~-\i Lf.JS1-tLAT/,oN · As R_E&l-Lt~ .· uJ ~-'"{ ~-i $ti-ow lN pe;=,~td.i;, ]2 T 12-~u~ 0~ WAU.-,q-. cet,G#,}b i,,N<;;,,t,IATloAf~· ( ~ -I PAGE :-.: ilr OF.-c--- 8.D. &:J-72,y' J~.·-- - ·· . '. PLAN CHECK R.EPORT PROJECT..!:~=::jj=:;;.g::::-______ -'"-~--ADDRESS z·zd .?as /4,/~~- s:~-_f'~ ... ~t:-v>;,4(n,,#c,1,:1{{,<~ /~ e:d~ eo-d~ /r;;'--/4, ~d-1 ~dr-exoteL./s-/r=~ ,:_~ /z.~~ .. ~~~ . or. /h .r~c:/4-" ~~ ct>~~ ~ ;;;--:,..£/~~ ~ ~~~ -~~/d-.11'~ . ' ?4-IA#~V~~ ~ _r'/~ ~~ ~ ~~~ /4_. ~#_......-..v..,_.e_ · 7 ;;,/4;· ;::r-cz7 v tV~rd: ~ ~~ ~ ~ ~-. So/,.--,f-c:/4/44/ ~-,;.-~ ~ ·::z'& ~~&#~~ ~ /4= s~ ~ ~ ·ffe Lf~-z. Oat<> FOZr.2· 165.2 {R9·b0) ARCH! rECr COPY i ' THE CITY OF c::::"~"'540 2i6-64-95 SAN BIES&· --!¥'R'.B ~~·PE'NeJ~EJI'lJGO';e"Jt:J::tPtfR:Nl.A':"'92101 HAZARDOUS MATERIALS INFORMATION The following information is submitted for determination of occupa;ncy group classifi- cation. Any deviations may require reqlassification of this building. ~u :> ;oe5,5 Pe.n<. ~ C,P.8k5> BA~ Ct>q ... ,1= Company Name . ;f>Q>\ pn,. e,.c \\,~ pnr t Address, :\):~Si J~rrpu.) br StAiTr Plan File No·. _SJ_,' ·='0 __ :'.....,9.r-a'.a--..1£ ______ ,,_ _________________ _ List all flammable and combustible liquids; flammable gases, explosives, hazardous ch~micals and/or any other hazardous materials. Show the maximum amounts to be in use and/or storage. MATERIALS AMOUNT IN USE AMOUNT IN STORAGE FLASH POINT Indicate proci!ss involved (spraying, dipping, etc.) ,. Ihdicate method of storaae ... --·..:.b.:.PW.J10:.u:e,;,...._.,___...,........._ __ ....... ______________ ..,.... __ ...._ _____ ....... ________ ;,-,-__ I hereby c~rtify that the use, storaae or process of hazardous materials will be limitc,d as indicated above. Smnature~JJ_~ Building Owner br Occupant Fire Department Use OCCUPANCY CL.ASSIP'ICATION SY FPB 500 ~'u., L Date . ?(t!Y:: :;i~ I '1',f'a ,1}~1vr£-v- Buildina ihspection Department Use OCCUPANCY cµssll"l,CATION av DATE ~ ()u.~-,..._ :J C,7-<fl 17 _I_N_T_E_R_D_E_P A_R_TM_EN_T_A_L~I_N_F_O_R_M_A_T_I_O_N_S_H_E_E_T II~ DATE : . C' Ji' J: r;_~ 1- BUiLDING DEPARTMENT I I, BU~LDING ADDRESS: ~fNNING DEPARTMENT 0/1 .foy ,,, "¾ ZONE -LOT SIZE LOT WIDTH ----"--------------------------'---UNITS ALLOWED UNITS PROVIDED -------------------~----,..._.,. PARKING SPACES REQUIRED PROVIDED ----------~ % COVERAGE ALLOWED PROVIDED ---------...-'i '-------------~- BUILDING HEIGHT ALLOWED PROVIDED FRONT SETBACK: SIDE SETBACK: REAR SETBACK: ALLOWED ~~----- . \PROVIDED_~~------ fNTRUSIONS iANDSCAPE & IRRIGATION PLAN COMMENTS: ENVIRONMENTAL PROTECTION REQ: . ~----; ---::::J_W,._Md~~-~-----~-.~!zc,--- DATE ------------ ENGINEERING DEPARTMENT . R. 0. W ·-~---INDUSTRIAL WASTE ------IMPROVEMENTS ________ -c-- ~~fEWER CONNECTION E°l)V ~ DRIVEWAY LOCATIONS ________ -__ _ .)GRADING PERMIT~ 11S EASEMENTS _________ DRAI·NAGE ____ _ tcAL DESCRIPTION .lf ¥1' --a, e.r?9-I ~DITION.AL COMMENTS ___ ~---~--------------------' 9,-tt, --.- SPiRir;:KKLJ.NMl-.fA.~TrIE~M /i,;/4 &fJiµj(:; ~ FIRE PROTECTION EQUIP. ______ _ FJ,;,RE ALARMS 7 EXITS ----------------FIRE HYDRAN·TS LOCATION _________________ _ AD,.,DITIONAL COMMENTS ffeT ,4ppf> P,lt /ft6N pn.s:&> ST(J/tl/lf• 1· OK TO FINAL DATE --'----------- WATER DEPARTMENT REQUIR~MENTS OF APPROPRIATE DIST~ICTS MET _____ --" __ DATE _______ - 1!'t.J)JDING DATA FORM --Form 1 BUILDING ENVELOPE COMPLIANCE ,..-: p;~,Title "Su I TE. /!;;-/31-04, 14: Documented by L. Pr" //~:i-80 I I , '2-t./•• g?) Location. /?t; /.,t)fUA-/'L //-; IZ()t.1/2.:C,, ~~4t,A,p <JA , Project Designer __ r~ t;i\-)f~ i--1_~}. t?f~.\),if\.. i~ SC) Date /?&\Jt~l!i!:) Checked by ____ _ SITE DESCRIPTION BLDG. DESCRIPTION Wall .......,, .. : i? '."' : ... _q:~. K ... ' C:,1 • .... ' ~-r-.. Roof:. f.! '\:I r:r c.t. r:!; ~ ";.,' o' Location Code Number (trqri1 Table 2 of Appendix 1) Latitude Degree Days-heating (from Tabfe 2 of Appendix 1) SF, Solar Factor (from Fig. 4.1.17 or Table 2 of Appendix 1) L\T, ASH RAE design temp -789 (from Table 2 of · Appendix 1) Occupancy Type Code Number (from Table 1 of Appendix 1) Gross heated floor area, sq. f.t. Number of floors Ground Floor Perim(;!ter, ft. Longest diagonal dimension at ground floor, ft. Height, ft. Date ____ _ ;q3 2 $_11,L 1{1_5:k-3 ~ I 4 l.j. 6' ~ I 5 & 6 o,'i 7 2z"t- 8 l ~ /_ -z_t) 10 1::-S 11 /_ (p_ Record the detailed materials data on the Materials Data Form -.Form 2 Surface Areas Aopaque wall 12 'f (j 8 Awindow · 13 / 6 0 Adoor 14 4/2. Total A0w Line 12 + 13 + 14 15 · /()80 , I '3. \ Heat Transfer Coefficients (see_ Sectio,:i 4.1.8) winter (heating) 16 ~P; , 3 (/ summer (cooling) Shading coefficient of glas{ (from Table 3 of Appendix 1) Weight of Wa11 ·constructi~n, lb/ft2 Mass Correction Factor (from Fig. 4.1.16) Equivalent Temperature Dif.fererice (from Fig. 4.1.16) Surface Areas Total 'Yo skylights Note: If Line 29 i's 5% or gr.eater, automatic light-sensitive svyitching systems_ are ,:equired in the area light£td by sky- light. Enter the difference between line 27 and 5% of line 28, or zero, whichever is the-greater . Enter the sum of line 26 and line 30 17 ~l _ Udoor 18 -1 5 _ uw 19 , 6 / ' {) ,,'( u 20 /. 0(a Udoor 21 '4·5 SC 22 _ _,__/ ____ , ____ 0..,.Q"-- w 23 _ __.7'"=0=-.,-_ MCF 24 _ _,_,--L1_5~ TDeq 25 _ __,,8._. c..:O...___ Aopaque roof Askylight ~or (26 + 27) (27/28) 26 qz.t) 27 - 28 29 30 __ o __ 31 _9_....2--+lf- I I BUILDING DATA FOHM -BUILDING ENVELOPE COMPLIANCE PROJECT TITLE ----------- I ~ Floor Heat Transfer Coeffic;ients (See Section 4.1.8) winter (heating) summer (cooling) Shading Coefficient of skylight (from Table 3 of Appendix 1) Mass Coefficient (from Fig. 4.1.16) . Absorptance (from Fig. 4.1.16) Floor Area over unheated space U-valuEl for floor HEATING DESIGN CRITERION Standard U0 w (from Fig. 4.1.2) St~ndard U0 r (from Fig. 4.1.3) Stan!::lard U0t (from· Fig. 4.1.4) Maximum allowable U0 (from Fig. 4.1.1) Proposed U0w (from Fig. 4.1.7) Proposed U0 r (from Fig. 4.1.10) Proposed U0 f (from line 40) Proposed U0 (from Fig. 4.1.1) Note: U0 r is calculated from the equation of Fig. 4.1. 10·for the proposed building using the v.alue from line 30 for the area of skylights, and the value from line 31 for the overall roof areaA0 ,, r.OOLING DESIGN CRITERION Standard OTTWw (from Fig. 4 .. 1.15) Standard OTTVr (41 x line 44) Standc1rd OTTV (from Fig.4.1.13) Proposed OTTVw (from Fig. 4.1.14) ProposedOTTYr(from Fig. ;4, 1.14) Propc:ised OTTV (from Fig. 4.1.13) Note: OTTVr for the proposed building is calculated from the equation of Fig. 4. 1. 74 using the value from line 27 for the area of skylights, and the valµe from li11e 28 for the overall roof area Aor Page 2 ol Form l uroof 32 ,{) cf uskylight 33 - Ur 34 ,of us 35 --- .SCs 36 - Mc 37 ,{14- Ac 38 I 7C/ Aof 39 - Uof 40 43 ,1:J 44 ~ I 0 45 4 .. 1. I . ...,.- 46 ,it -=.3i3 47 ~ 48 # o'-/ 49 -.;ii.+ 50 ~~ .. e- Line 50 m~ .. exceed line 46 51 ;)I, {_p 52 4, \ 53 1e.qz, 54 I 1,L,6 55 I .oq 56 1/. 01 Line 56 must not exceed line 53 \'1/\X. IL1 (r\.:.tu\:/Af.Jl_f} :=. Aow Uow +'iAar Uor -\-/\oF UoF (r i .~,. .-: . I. 1) Ao~, + A or ~ A oF ~ ?t rt c> x , 'f3)--(~1.1 .. 1v1' ~--t t'l)+.:<t~ ~--· Lf 3) ____ .. ,__._ ..... _. __ -···:·• .. , ~ ~-,-,.,~ ·-... ,,~,._...,.. ...... .. -·- FRO PO:.,[ D Uow 0= UwAt.L AwALL MCF + Uw1NDOIN' Av11Noow + UoaolZ A ooof?,. (! .. \(".,. 'i .1.7) ., --- F~~Ofosr:·_D Uor-::. Ue,)F A-rooF +-U st<.iL~.~~~VLIC,Hi (\"1(,. "l. I. \0) A or -I 6'1 ~ d J,A. Bl, ~1 ~ I ' -..iw.lo\i. ' ~ ..... -.-...,Vllo~~v,.~W -· .6~ ........ q -.. ) 4 tf i-t· -'. l /J,, ~-* .• 'J. »-;; .-,-\/\1\\h'\~·1.J C1T IV -CJ T T \/ v. ,· /\ ow· I-'] T 1 V r " /-\ n r . \.1 !1 J •'1. 1. i ·1,, r\ ,J'.· ' 1\ 01· == 3 r I (,, ;<_ io<i O ·+ 4 ,l -i.. (?/z.,-'f ._ _____ ............ .....------... -·,,....,, .. ~ 371 l ~ eo +.q2 ... ~ == 3 ~q l f.p ::.:= IB ·t:/'Z-· i-C> 61-· . \ ' 't ·, ( ) \ '() · 1 \ . l J () \ T \/ ,,, ( l J w -1. • A "" 1 T D £ l).) + (f.. F "-·:.) r--)< ~ C) 1-( l J r· )< /\ i· ,c /'. I ,l _______ .. ____ ···------~--·-· ------·---_ .......... _ ···------. -··· . . .... . (r I ( .. · 1 . I . I +) A ·0w =ll,1'5)(l~ox. 30) + (too xLx 12z,'-)(lil'3x15ox. r,) ,. ... _,,..,,...,_...,...~.---_,..,.,.~"-''•~u,,.~~-~{·!J'~+;:µ:ll't'll'."1,..,,....,__*,.,,....-~~~·""Wf ~000 == ~--\ 7.. 7-/.; l 4 ::-ltt J~S f7 1<0F'C.Y.,ED 01lVr .--: (4\-.:. Ur x Ar -..:./'1,c..-..: Mc.)+ (l.l.3 > '::,( c; >( Ac.) +(6~, tJ•,""'J.· [\ ·.) ( ' ---···---·----··----· ··-···· ···-····------········-··-···· . . r I C:-i. ·4. 1. 11-; . A or- ~ (4· \ -,.... IO 4 K ~ t-4 X' 11 ~ ,'?~- 1 ~ t _ l ¢JO~. $'f ----/,or \ 't<O POSED 0-11V :o· (f !C,. -~. 1.1:.i) n1 TV w )( A ow t-011 v,, x Ao-r A r-v-1 -1 A(•, b~.-1-~(;~~)-1-{~ !'9~0 4-~2-q 7--2-2---z.1.. 2 , ... ' -/._ .. _ ..... _----~·----.. ·--' //. Jt'JC/ .-.:--....... ---,,~ _, . (,/ I ')-C?t9 + ' ------=--=-= - q i '+· -·.:."' ' 'i. MA TE RIALS DAT A FORM BUILDING ENVELOPE COMPLIANCE :i' Project Title Wall Wall Type 1 Weight of wall construction, lb/ft2 (see Sec. 4.1.8) Heat Transfer Coefficient (see Sec. 4.1.8) Surface Areas (attach sheets to document any additional c·ompass orientations) Wall Type 2 Weight of wall construction, lb/ft2 Heat Transfer Coefficient Surface Areas (Attach sheets,to document any additional compass orientations) Wall Type 3 Weight of wall construction, lb/ft2 Heat Transfer Coefficient Surface Areas (Attach sheets to docLJment any additional compass orienta!ions} Form 2 Documented by Checked by ____ . Date __ _ W 1 1 _1.__7-:::;-,.- U 1 2 r b 5 Orientation 3 ,:".:) Area 4 Orientation 5 Area 6 ,·1 ! 1 I ~"'[I Orientation 7 $ Area 8 _ Orientation 9 _ Area 10 --'----- t4·7 W2 11 Lo U2 12~ Orientation 13 lJ _ ._.,,,JI Area 14 , ...... _. - t I . f Orie.ntation 15 ____ _ Area 16 --c'/ 0 Orientation 17 ____ _ Area 18' ____ _ Orientation 19 ____ _ Area 20 ____ _ W3 21 -----1-- U3 22 ___ .,___ Orientation 23 ____ _ Area 24 ---1---- Orientation 25 --+----Area 26 _ __, __ _ Orientation 27 --1---- Area 28 -+---- Orientation 29 _,_ ___ _ Area 30 +----- 1\:11\ IL lilAl S DI\ f ,~ f ORM UUI LOI NG, [NV l: LOPE COM1•L ll\l\.C-1; PROJECT TITLE Wall Type 4 Weight ofwall construction, lb/ft2 Surface Areas (Attach sheets to document any additional, compass orientations) Glass Type 1 W4 31 9 U4 32-+ Orientation 33 -y-- Area 34 / Orientation 35 ____ _ Area Orientation Area Orientation Area 36 / ~§7 /, 39 4 Shading coefficient ('from Table 3 of Appendix 1 or mfrs. data) Heat Transfer Coefficient (from mfrs. data) 41 42 J,00 Surfac,e Areas (Attach sheets to document any ad.ditional compass orientations) Glass Type 2 Orientation Area Orientation Area Orientation Area Orientation Area 43 44 45 46 47 48 49 50 Shading coefficient (from Table 3 of Appendix 1 or mfrs. data) Heat Transfer Coefficient (from m.frs. data) 51 ___ __,__ 52 ____ _ Surface Areas (Attach, sheets to document arw additional compass orientations) Glass Type 3 Orientation 53 -----Area 54 _.,.;.._ __ _ Orientation 55 __ ,__ __ Area 56 --#---- Orientation 57 _ _,_ __ _ Area 58 _,,__ __ _ Orientation 59 -'----- Area 60 ____ _ Shading coefficient (from Table 3 of Appendix 1 or mfrs. data) 61 ----,;-- Heat Transfer Coefficient (from mfrs.data) 62 ----- Surface Areas (Attach sheets to document any additional Orientation 63 ---'--- -compass orientations) Area 64 --;--- Orientation 65 ----- Area 66 _ _,_ __ _ Orientation 67 --+---- Area 68 _ _,_ __ _ Orientation 69 ----- Area 70 ----- ' PROJECT T-ITLE Roof Floor Glass Type 4 Shading coefficient (from Table 3 of Appendix 1 or mfrs. data) Heat Tr ans fer Coefficient ( from mfrs. data) Sc1rhice Art!a~ (Attach shee.ts tu document any additional cornpass orientutior1sL Orwntat1on Area Orientation Area Orientation Area Orientation 71 ___ ! -· 72 __ __,,...__ 73 ----/-.. 74 ---·f · .. 75 ----i-.... 76 i n=J---78 I 19 I Area 80 ____ _ Roof Type 1 Weight of roof construction, lb/ft2 (see Section 4.1.8) Heat Transfer Coefficient (see Section 4.1.8) Surface Area (Attach sheets to document any additional roof types) Skylight Area Skylight Shading Coefficient (from Table 3 of Appendix 1) Skylight Heat Transfer Coefficient (U-value) Floor Type 1 (floors over non-air conditioned spaces only) Weight of floor _construction, lb/ft2 (see Section 4.1.8) Heat Transfer Coefficient (see Section 4.1.8) Surface· Area (attach sheets to document any additional floor types) Doors Sur.face Area . He;;it Transfer Coefficient (U-value, see Table 4 of Appendix 1) 84 _____ _ .,,,,.,,. 85 ____ _ 86-~~""--- 87$ 88 _ 89 _ 90--/- 91~ Ill A I l'HAN!:iH:H COE:FFICIEN I PROPOSED CONSTRUCTION ASSEMBLY Sketch of Construction Assembly WEIGHT: lb/tt2 Check one: Wall Roof Floor. List of Construction Components 8, · Inside Surface Air Film Outside Surface Air Film Total Resistance Rt ,tf?- cooling . t-~ cooling ~,77 cooling -~ cooling Form 3 R ,'55 ,76 ,ao iqtt) ,fo ~ ~/ / ils, I heating • I "l heating ~ t.f, ~ @~ heating A heating I It 1, I I HJ\1\1:-,J l H ~Ull I-IC, UJ I Pl!Of'OSED CONSTRUCTION ASSE:MBL Y ,-1' ' -~· Sketch of Construc,tion Assembly WEIGHT: 31 lb/ft2 Check one: Wall Boot Floor 7. 8.· Inside Surface Air Film Outside Surface Air Film Total Resistance Rt '-~~ cooling r'Z, '5 cooling . 1,11 ~-,-/~- cooling If 17-3 .,,t;,.G- cooling Forrn .:J R {p ~,,.,~ I <f't2) .45 / ,, I d ·t ·' . t· J •lt,~ heating ; 11 heating t 1/0 . ~- heating ',;-a _tJE;- heating l If/, f I HAN::;1: I. H COi: I f-lCH:N I l'HOPOSED CONSTBUCTION ASS!:MBL Y } ( ()l)l), Sketch of Construction Assembly· WEIGHT: lb/ft2 Check one: Wall I,.--' Roof ---- Floor List of Construction Components 8. Inside Surface Ai( Film . Outside Surface Air Film Total Resistance Rt Form 3 R ,45 ' 1~0 "/ / I.. .. -;,:, ~ ~ cooiing heating I 1,; ...!l1 cooling heating "'?1/,;, "? 5 ('. L. I , .J cooling heating , 31; ;:51 cooling heating DOCUMENTATION FORM Form 4 HVAC SYSTEMS COMPLIANCE (Complete for 11ach system) (Rev. 1 5/78) 1, Documented by ~ Chucked by ____ _ Date. ____ _ DESIGN CONDITIONS Building occupancy type (Table 1 of Appendix I) ....... . Project Latitude (Table 2 of Appendix I) ............. . Heating· Degree Days (Tao le 2 of Appendix .I) .......... . . HEATING LOAD DOCUMENTATION (Attach calC!Jlations) F) .A. Outdoor Design TerQperature, Winter ................ --"'~'--':;,.-- Indoor Design Temperature, ...... : . . . . . . . . . . . . . . . . . (pf2> Outdoor Air. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Ir .i"\ . ,:;. lo" Heat Loss From Outdoor Air ...................... 5 ") ('.I ·O Temperature of adjacent unheated spaces. . . . . . . . . . . . . . . "j t'b Transmission rieating Losses ...................... J. ~ 1 ~ t,;// I f·1 . A" . .r;, n I trat1on 1r ............................. ·. . ~---~ .. - Heat .Loss From Infiltration •....................... · Ventilation Air .... , ........................... ---""----·- Heat Loss From Ventilation ..................... . Outdoor Air for Special Processes .................. . Heat Loss From Process Air. ; ..................... · _____ _ Other Heat Losses (describe) ..................... . -· OF OF ·cFM Btu/Hr. OF Btu/Hr. CFM l1' ci-=, l n .Jc;:: Btu/Hr. CFM Stu/Hr. CFM Btu/Hr. Btu/Hr. Total Heat Losses ............................. Ii 4.i-1 Btu/Hr. COOLING LOAD DOCUMENTATION (Attac:n calculations) Outdoor Design TemperattJre, summer, dry bulb ........ . Outdoor Design Temperature, summer, wet bulb •....... , Indoor Design Temp11rature, summer, dry bulb ......... . Indoor Design Temperature, summer, wet bulb ......... . Transmission Heat Gain ............. · ..........•. , Infiltration A.ir .........•..................... Heat Gain From Infiltration ..................... . Outdciqr Air for Special Processes •................... Heat Gain for Procsss Air ....................... . Solar Heat Gain Through Windows, etc., ............. . Heat Gain From Lights, Equipment, People, etc ......... . Heat Gain From Other Sources ................... . Outdoor Air: Fixed MinimtJm Type System CFM Per Person (Not to Exceed Tabulated Minimum Ventilation Ratesl .... . Heat Gain From Outdoor Air ............... . 4~ OF 1-/.. OF zi~s OF OF Btu/Hr. -CFM -Btu/Hr. F0~1 r1v.!f?' ·-CFM Btu/Hr. ~ Btu/Hr. Btu/Hr. ...__ ..... ,~ Btu/Hr . ts CFM/Person 0 ?Jb Btu/Hr. ( COOLING LOAP OOCUMENTATION (Continued) TEMPERATURE CONTROL· System Ut1lizin,g Outsid~ Air For Cooling CFM Per Persim (Not to Exceed 33% of Tapulated Recommended Ventilation Rates) Heat Gain'From Outdoor Air .. : ............ . Total Cooling Load .......• · ................... , Paee2of Form4 CFM/Person Btu/Hr. Attach manufacturer's data or other, give specification or drawing refe'rence which shows in detail the following information: . J REFERENCE (page or sheet No.) • capability to sequence heating and cooling ... , .............................. . ~:-....th,.t, • temperature control device sat·point limits •........................... · ....... . • temperature set point range between full heating and full cooling ................... . • setback and. shutoff contro·ls ................ , . . . . . . . . . .................. . • capability to terminate heating at 700 F and cooling at 7'ifJ F ...................... . Indicate dra~ing or specification reference where the temperature· control device requirements given below are documented. An automatic temperature control device shall be provi_ded for: · • each separate HVAC system ............................................. . • each zone .•....................................................... SIMULTANEOUS HEATING AND COOLING The following requirements apply to the use of new energy and need not be complied with when recovered energy is used to control temperature. In each case, when resetting hot and cold decl< temperatures, one representative zone may be chosen to represent no more than ten zones with similar heating or cooling requirements. Concurrent operation of independent heating and cc;,oling ~yst11ms serving common spaces must provide either or both of the controls give{'! below. List reference specification page or drawing number where control requirements can be verified. REFERENCE • Seque~tial temperature control of heating and cooling systems • Automatic reset of heating temp_erature, to limit energy input only_ to that level to offset heat loss due to transmission and infiltration ..... · ...... . Reheat systems -give reference specif.ications page or drawing number which will show compliance with the following when reheating 20% or more of the total air in the· system. • When serving multiple zones. controls must automatically reset the cold air supply to the highest temperature level of the zone requiring the most cooling .. , ....... . • Single zone reheat systems shall be controlled to sequence heating and cooling .......... . .,. I,~ P1191 3 of Form 4 0ual-duct or multizone systems -give reference specifications page or drawing number which will show compliance with the followin_g: u/k REFERENCE • Hot deck tempttrature -must be au_tomat1cally reset to the lowest temperature necessary to satisfy the ~one n1qu1ring the most heating ................. . ~ Cold deck temperature -must be automatically reSat to the highest . rnrnperature necessary to satisfy the zone requiring the most cooling ................. . Recoo·ling systems -give reference specifications page or ·drawing number which shows compliance with the following if recooling 20% or more of ttle total air in the system. • Controls must autom!ltically reset the temperature of heatecl supply air to the. lowest . temperature necessary to satisfy the zone requirinQ the mo~t heating •.................. HVAC SYSTEM RESTRICTIONS & SPECIAL REQUIREMENTS S11veral HVAC System types have special requirements or restrictions. In this section,. the-type of system used in the design must be listed af'ld any special restrictions given here referenced to show compliance. Supply references to proper specifi· cations page or drawing numbers. Type HVAC Systems Used -List type of system to be used here (include all systems for heating or cooling in the building) include reference for specifications for each system. Constant volume reheat system -when serving both interior and exterior zones -separate cooling coils are required if the exteri'or zone excileds 20% at the total air quantitY through the cooling coil. REFERENCE DUALiD1JCT ANP MULTIZONE SYSTEMS Constant volume dllct or multizone systems which utilii;e new energy to simultaneously heat and cool air streams which are sullsequi,ntly mixed for -temperature control are prohibited for buildings larger ~han 20,000 square feet of conditioned '!pocn. 11 1JS~. the air leakaoe for dampers utilized for th9 mixing of heating and cooling air shall be limited to a maximum ilrnl1,1cJtl of 3% of the total air quantity handled -by the dampe~ when operating at the maximum system pressure to which ri1e tlarnpers will be subjected. Manufacturer's label or nameplate shall· state leakage rates. REFERENCE ________ _ Econom1ler Cycle -For each cooling fan system, for other than dual-duct or multizone systems, which serve zones having total cooling capacity greater than 134,000 Bt1,1/hr or more than 5,0QO CFM must have .an economizer cycle unless one of tilt! ~xception$ allowed is claim~d. ' . REFERENCE ________ _ Eloctr 1c fillsistance Heating Systems -These systems shall not be used unless the total installed electric resistance heat does not exceed 10% (ten percent) .of the annual heating energy req11irement or a life cycle cost analysis, Form 8 (see Section 4.2 of this manual) shows an alternate system life cycle cost exceeds that of the electric· resistance system. Give reference if less than 10% or incluqe Fa.rm 8 if calculating life cycle cost. REFERENCE ________ _ MECHANICAL AND GRAVITY VENTILATION Mechanical ventilation -Dampers which are automatically interlocked and closed on fan shut~own are required. REFERENCE ________ _ Gravity Ventilators -Either automatic or readily accessible manually operated dampers must be provided for all openings to the outside with the exception of combustion air openings. REFERENCE ________ _ POWER CONSUMPTION IN FANS REFERENCE · Constant volume system Total Supply Air Ouantitv ............................................ . CFM Total Pressure of Supply Fan ......................•.................... Inches Water Total Supply Air Ouantitv Adjusted for Process L,.oads .......................... . -----CFM .Total Gross Floor Area ..•... '. .................. , ... _ ....•........•...•.. -----Sq. Ft. Net Fan Performance Index (FPO ........................................ . Variable volume system Total Supply Air Quantity at Maximum Flow ................. , .............. . Total Pressure of Supply Fan at Maximum Flow ............................. . Inches Water Total Gross Floor Area .. , -............................................ . -----Sq. Ft. Fan Performance Index at Maximum Flow (FPl·m) ........................... · .... . CFM Vanable Volume Adjustment·Constant ............ , ........................ . AJjusted Fan Performance Index, FP!a ..................................... . Page6of Form4 ·,·,;,,, PIPING AND DUCT INSULATION AND DUCT co·NSTRUCT!ON Rtlforences to the piping insulation, duct insulation and duct construction requirements presented in Section 4.2 of the Enor!JY Conservation Design Manual must be given l;lelow: ;? 4-PrJ&"~t- . J?_. t.,,.c; tt:'I=° ··ii . t I.' I \w ~'t:-; •" ......... ""-.... REFERENCE-------- -,, .. ,.-. - L/r/15 k,ltP Ce 11? I ~'57 POOR QUALITY ORIGINAL S r .. {.. 1. •. ' I· r:.--.,, ? ·, ( .{-', : I' _,/,1 , .. ~ ,:;:..,., _____ . __ •'\} i 1('f ~-: -/ ,,.' ',/t,, I H• f-."\1 .. i IJ,1.-., ,, , • ·,-J:,· ;· tr , ' . I •-c' • :;)1 , ,,,, , ... ' . _,1!:_i~~-~ .. -~~.'.~_.-,'.'':-:: .. A_.:~</·::.>~-~. :.~_·-.-.. ::_·:.· .. ·.·_·· .... _._-_-_-.·---=~~l:'.,.fl\,\,\1." _.:': ................... ·,·~~~-~-1\·--·1,•,t' II!~--,-:: .... ·---· .. !f''tA·.p:,1:!,_...;'0H __ .,_____ .... --~ ·---.-"··~---~ -.I 1: • .,,. •• ,1 .. , .. , •.-.. .!!,~~ x ·._z -~--· son ~ • ..u9__J'_~.....,£~,:,:t FOH SlJN rnv1E ••. _Li 0/\0 ___ _ f,11 ,l 11' ·;uN t,Mr ITE:'M AREA OR SUN GAIN OR . EQUIPMENT OPERATION. ---,-----'10\JRS/OAY QUANTITY TEMP OIFF. FACTOR tlTl,.1/HOUR • C:ONt>ITtONS DB WB ·---·.,:;;:;---·---;;·-· .. -.... ;·;;;~;;·- SOLAR. GAIN -GLASS OUHJ?OR(OA) ____ "'=·~·-.---,l~-~ -----·-· .: ... -.:-.~ .. ·--;n, . ..., /J GLASS / 3 0 so FT X / A . ~ -~_Ll__ . ·2. 2 '100M (RMI ----··--~ ·-•• ~--. -........ _____ --· -.CJ. it'. .. - GLASS _1 SQ FT X =f. X t>lr-FF.AENCE XXX XX)( XXX 0 ~-~:,~;~~--~~~z=-=-:~~.:···~{;.:: __ : _.., ___ ,._. __ __, 1 Wnt1• • _ _j. .. i) .... PFnPLE >< OU·l,ri~-~ll~ \I' Pl •1•;0°1 /!'" !1l<Yll(d·ll' !Klt,."l X x ·-·~.-~--.,_. .. ~----·-,l:ttion .. _,_ ·--··_-~SOFT X ----· -~· rr11,·,.1 r $\ ... Jlt-11.:)tNU. PEV(JI VING iX)OR~-........ PFOl'l.f )1 U (:.l'r I•, ••q OP!:'.\! OOOf!:, ··-·-------.......... -t'){,Of!S X EXH,O.UST fAN ---------·· .......... ·----·--·--·. . .. -' " ............ .. Cfll\C!". ·-·------·-·-·-......... f'l'E. T X -·-·---1:rr.1•r:1 -i·--- (I· _ ....... __ 1~1"1 X /1 1p~ TADJ-' ··-~-'l !:RSI! f !Jf Hl/M R!SE RSH ------··--·--·--·~-..-' -. "' · LOil X ASH ---·---·-·--·--··-Gl'MS/1 ,,,., r r,rni :"J j '·. -•• . ;,· · ..... , .. f_ll. : :--·, ,•...,,., ·. I• & E -20 !9· 77! /905-O . •. .l'llJCllMt I\J I/.\ l lCJN l·OHM & lfVAC EOUIPME:NT COMPLIANCE Forrn 6 References giving the specification page or drawing sheet number or manufacturer's data must be submitted to demonstrate com- . \ pliance_ with Division 6 of the standards. · ELECTRICALLY OPERATED COOLING SYSTEM EQUIPMENT ABSORPTION WATER CHILLING COOLING SYSTEM EQUIPMENT COMBUSTION HEATING EQUIPMENT (Oil and gas-fired comfort heating equipment- ELECTRICALLY OPERATED HEATING HEAT PUMPS ELECTRICAL RESISTANCE SPACE Hl;:ATING EQUIPMENT Standard rating capacity, Btu/hr Minimum EER (COP) Reference Heat sou·rce (check one) Direct fired (gas-oil) Indirect fired (steam-hot wa·ter) Minimum EER (COP) Reference Minimum combustion efficiency at maximum rated output Reference Minimum EER (COP) Reference Supplementary Heater Control Reference REFERENCE FOR Fl.)LL-LOAD ENERGY INPUT AND OUTPUT REQL)IREMENT FOR MAINTEl'JANCE FOR MANUFACTURER'S MAINTENANCE AND, FULL AND PARTIAL CAPACITY AND STAND-BY INPUT(S) AND OUTPUT(S) SPECIFICATION REFERENCE 1. 1,.oc>o ,E!uO ,, ·, ., ,,..-: ';;i\ · -~ '1i ~ ' : ' • '! ' i: ,, . .:,: ;:·,.:->i; ·:·:.:~ ... ,_j., i"'.;-;: ,:;. -:,.-. . ,,_: ·•· E••Y· Malntenancef ... ,,.,. ·····:· .. ,.,:~.k. ·1~·'''.·0'·"·.-~".? . ' · " . · ·: Latched and gask9tecl access doors, with handles, for · ~-? i. . easy component accessibility. Compressor isolated . ' · : from condenser section for service while unit is ·in opera~ion. Gas valve isolated from burner compijrtment for service while unit is in operation. Sight glass into burner section for quick accurate adjustment. 'ti ,' l I Leaktight Installation Gasketed roof curb to protect mounting. Latched and · gasketed access panels to insure component . protection. Overhanging condenser coil drains water on to the roof without pa~sing over the roof opening. " 2'h-4 ton Heating/Cooling Added flexibility of these units is obtained through the use of either na111ral or propane gas. Low operating cost is achieved through th solid state ignition system. These units are ideaHor small commer · and residential applications. CONTENTS PAGES . General Information .................................. 2-5 Selection Procedure .................................. 6-7 Cooling Capacities ..................................... 8 · Psychrometric Chart .................................... 9 Gas-Fired Capacities .................................... 9 Steam, Hot Water, Electric Heater Capacities ............... 10 Electric Heaters Utilizing Unit Disconnect .................. 11 Static Pressure Drops thtu Accessories ................... 11 Evaporator Fan Performa~c·e ............................. 12 Performance Data ..................................... 13 Electrical Data ........................................ 14 General Data . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . 15 Dimensions ....................................... 16-25 Mechanical Specifications ................•........... 26-28 ' .. ~- - '• ., CAPACITIES :r. • ~ .~ ! !•~. ,1 J t,, .'i'fr-"3'i~.;'.1'.'rir:'--..\~,Jc.,,,::;w~\; '1 ',l!-..J!I.;,,.?., ', 85 I 95 ' -~~. I 105 I , · :.1,z~ai'J,"tlMll1t:=.1t•~ 120 ,,, ,, , ' ti :~t~~:{~;·· ·•.:''.i'-" ,,, J..,•f .. ;"., '_::'2. l.,i,::;,,~, ,, '"--.,',': :,:·.> W9'T£LIIIE~TURE'ENTEfllNG EVAPORATOR: ·, :f; ..... ,~-t.~r:.1 ~.liJ!"{lf\.: .:.J:-.. ,_~; •: ! L • ,: •• •, ,ti'!J.f-..... -~~!.~ ., f~.itrr.ww:· ;,-58 61 fl.4 67 70 73 58 61 fl.4 67 70 . 73 58 61 fl.4 67 70 73 58 ' 61 64 67 70 73 MBH 20 21 22 23 24 25 19 20 21 , .. 23 24 25 17 18 20 21 22 25 15 15 17 18 19 '22 75 96, 85 73 59 45 31 97 87 76 61. 46. 31 . 97 87 77 62 46 30 98 88 . 78 63 47 31 SAHA 20 %$H 80 100 93, 86 74 61 48 100 94 87 75 62 49 100, 94 87 75, 62 49 100 95 89 76 63 50 800CFM 85 100. 100 100 89 77 65 100 100 100 91 81 7.1 100 100 100 91 ,nn ,vv -1 81 71 t ---.... --'Ill 100~ 92 ~0 100 100 ,vu -t>t> 82 100, IUU IUU 97 93 89 100 100 100 9~92' \/" '-" M5H <!4 25 26. 28 29 30 23 24 26 27 28 30 22 23 25 26 27 29 19 21 22 24 26 / 27 75 94 83 71 57 43 29 95 83 71 58 ,44 30 95 ·86 76 60 44 28 98 88 . 77 61 44 ...::ff SAHA 25 %SH 80 100 93 86 73 59 45 100 93 86 74 61 48 100 94 87 74 61 48 100 94 88 75 62 498 1000 CFM 85 100 100 100 87 74 61 100 100 100 89, 78 67 100 100 100 89 78 67 100 100 100 90 79 68 90 100 100 100 92 84 76 100 100 100 93 86 79 100· 100 100 94 88 82 100 100 100 97 93 89 ,-'-' '--"ll!BH ---..... ~ 3~ 36 '>A "O 31 33 ;:!'Ill , ,SB' 38 28 29 31 33 34 36 ~ 25 27 29 31 33 75 93 82 71 58 44 30 9 .. ~ ,.., 59 44 c;:, .. , 00 73 i>l 98-il!i 74 bU 45 30 SAHA30 %St,i 80 100 92 84 71 57 43 100 92 84 7,1 58 45 100 92' 84 71 58. 45 100 93 85 73 ~o 47 1250 CFM 85' .100 100 100 85 69 53 100 100 100 86 7.1 56 100 100 100 86 72, 58 100 100 100 88 7'5 62 90 100 100 100 100 86 72 100 100 100 94 ,, 88 82 100 100 100 95 90 85 100 100 100 96 91 86 MBH 42 44 45 47 48. 50 39 42 44 :~, 48 50 36 '38. 41 44 46 49 29 · 32 " 34 36 40 44 75 . 94 84 73 59 44 29 94 84 73 59 44. ,29 95 85 75 61 46 31 96 87 78 62 46 30 SAHA 40 %SH 80 100 93 85 73 60, 47 100 93 86 73 60 47 100 93 86 75 63 51 100 95 90 78 65 52 1690CFM 85 100 .100 100 88 , 76 64 100 100 100 88 76 64 100 100 100 90 79 68 100 100 100 92 84 76 90 100 100 100 100 84 68 .100 100 100 94 88 82 100 100 100 95 90 as· 100 100 ,100 96 92 88 MBH 26 27 28 29 29 30 25 26 • 27 h111J:, 29 30 24 25 26 27 27 28 21 21 21 22 23 25 75 100 94 82 68 54 40 100 92 80 57, 53 39 100 87 87 71 51 39 100 99 88 72 55 48 SFHA 25 %SH 80 100 100 96 84 70 56 100 100 95 83 70 , 57 100 100 96 85 72 59 100 100 99 86 73 60 12509FM 85 100 100 100 96 85 72 100 100 100 98 87 76 100 100 100 100 89 78 100 100 100· 100 90 79 90 100 100 100 100 95 87 100 100 100 100 95 88 100 100 100 100 99 93 100 100 100 100 100 100 MBH 31 34 35 36 37 37 30 33 34 ;\';MJ 36 37 28 , 31 32 33 35 36 24 26 28 29 -- 75 89 82 71 58 45 33 91 83 72 58 45 33 94 85 73 59 45 33 . 96 86 75 61 --SFHA 30 %SH 80 100 92 87 75 63 "6, 100 94 89 76 64 47 100 97 90 n 66 48 100 96 94 80 -- 1250 CFP,1 85 100 100· 100 87 75 59 100, 100· 100 89 76 60 100 100 100 90 78 61 100 100 100 94 --90 100 100 100 100 89 72 100 100 100 100 91 74 100 100 100 100 93 76 100 100 100 100 -- MBH 41 41 42 43 43 45 38 40' 41 ;,4,Ul 42 43 35 · 36 37 38 40 42 28 29 31, 32 33 35 75 96 89 78, 65 52 .40 97 89 78 66 51 40 100 91 79 ·es 51 39 100 91 80 66 -- SFHA 35 %SH 80 100 99 94 82 70 53 100 100 95 82 70 53 100 100 96· 83 72 54 100 100 99 85 -- 1650 CFP,1 85 100 100 100 94 82 67 100 100 100 95 82 66 100 100 100 96 89 67 100 100 100 99 --90 100 100 100 100 96 79, 100 100 100 100 97 80 100 100 100 100 99 82 100 100 100 100· -- MBH 43 46 48 49 51 51· 42 45 47 .tt\1'11! 50 50 40 42 45 46 48 48 35 36 39 40 -- 75 93 79 71 57 45 34 94 80 72 58 45 34 97 so· 73 58 45 34 96 81 75 61 -- SFHA 40 %SH 80 100 89 88 74 63 46 100 90 89 76 64 47 100 91 90 77 65 48 100 92 92 79 -,-• 1650CFM 85 100 100 99 86 76 58 100 100. 100 89 77 59 100 100 100 90 78 60 100 100 100 92 -- 90 100 100 100 92 89 74 100 100 100 .95 90 75 100 100 100 96 91 77 100 100 100 98 -- MBH 53 58 60 63 68 70 50 53 G7 t~w.1't 63 66 47 50 53 56 59 62 42 45 48 50 53 56 75 99 87 ·73 59 47 35· 100 89 75 60 47 35 100 92 77 62 48 35 100 96 81 65 49 36 SFCA/SACA 50 %SH 80 100 99 88 75 62 49 100 100 90 77 63 50 100 100 93 79 65 51 100 100 97 84 68 54 2000CFM 85 100 100 99 89 76 fl.4 100 100 100 91 78 65 100 100 100 94 81 68 100 100 100 98 86 71 90 100 100 100 99 89 77 100 100 100 100. 91 79 100 100 100 100 94 82 100 100 100 100 99 88 MBH 79 83 88 93 97 104 75 79 84 ,., .• ,, 93 96 70 74 79 82 87 92 63 67 71 75 79 83 75 100 89 74 60 47 35 100 91 76 61 48 35 100 93 78 63 49 36 100 96 83 68 50 36 SFCA/SACA 75 %SH 80 100 100 90 76 63 50 100 100, 92 78 84 51 100 100 95 81 66 52 100 100 99 85 70 54 3000CFM 85 100 100 100 91 78 65· 100 100 100 93 80 67 100 100 100 96 83 69 100 100 100 100 88 73 90 100 100 100 100 92' 79 100 100 100 100 94 82 100 100 100 100 97 85 100 100 100 100 100 90 MBH 105 111 118 125 132 139 100 106 114 '.•JlllJi, 126 133 94 100 107 113 119 125 84 90 95 101 106 112 75 93 85 71 57 44 3' 95 86 72 se· 44 34 96 88 73 58 44 34 96 90 75 59 45 33 SFCA/SACA 100 %SH 80 100 99 89 75 61 49 100, 99 90 75 62 49 100 100 92 77· 63 50 100 100 94 80 66 51 4000CFM 85 100 100 96 87 , 76 63 100 100 97 88 77 '.64 100 100 99 89 79 65 100 100 100 91 82 67 90 100 100 100 97 92 79 100 100. 100 99 ·93 80 100 100 100 99 95 83 100 100 100 100 97 86 MBH 13:4 142 151 159 168 176 126 134 142 150 158 166 118 125 133 141 149 156 106 113 120 126 75 90 82 69 56 44 34 92 84 70 51 44 34 94 85 71 58 45 34 96 88 73 59 -- SFCA/SACA 125 %SH 80 96 95 84 72 59 47 99 96 86 73. 60 48 100 98 88. 75 61 49 100 99 91 78 SOOOCF~ 85 100 99 . 97 85 74 61 ·100 100 96 88 75 62 ·100 100 98 87 76 63 100 100 99 90 -- 90 100 100 100 95 88 76 100 100 100 97 90 '17 100 100 100 96 91 80 100 100 100 100 -- MBH 159 168 178 187 197 207 152 161 171 180 189 199 144 153 162 171 180 188 130 139 147 155 - 75 93 83 70 56 44 34 '95 85 71 57 44 34 95 86 72 58 45 34 97 87 73 59 -- SFCA/SACA 150 %SH 80 97 95 85 73 . 59 47 98 96 87 74 60 48 98 97 89 75 62 49 100 99 91 78 -- 6000CFM 85 100 98 96 86 74 62 100 99 97. 87 75· 63 100 100 96 88 76 64 100 100 96 90 -- 90 100 100 100 97 90 77 100 100 100 96 91 79 ,100 100 100 98 92 81 100 100 100 99 -- NOTE: If other 1han standard air quantities are used, ~pply,capaclty correction factors from Taole 8-2. Shaded blocks indicate Ai'll rated capacity, TABLE 8-2 -Cooling Correction Factors (Apply to Table 8-1 Capacities for CFM Other Than Standard) ,;i-20 •·· Total Cooling Capacity Mult1pli~r,, .970 1.000 1.015 1.030 .; ,.,, % Sensible Heal (SH) Multiplier .940. .970 1,000 ,1.030 1,060 •, NOTE: Calculate total and sens1ble ·capacities in MBH and multiply by above factors to determine revised capacities. 8 I. ·~-,, ;; .;~T 9·1 -Psychrometrlc .Chart • .• ' -i" • ,: .... -.. -·~ J ' ,, / .. , "· .... _:. ,i' ... .,. 6 ' .... , . -' ,., ,... -... ~....... -• -··-~'1"""'-l" --,· .............. . / ,/ Y->~.~/ :/J ;,/{: -;}'c':i_ , • . ''. -/___..:-----,; . '+: . .. ! /. ' i ,/ . . ,· :2~: .;.~,/_~t;,Y.~~-;-; _·;,?~ ~~: .: .:.--:.'-;ir:: :.--~.; . ,;;;t-,. ·-!•. ,~ . _:_.__;~~ ---.,~-:·.:·:-->~ .. -~,: -... ~--.,,.,...--..... :--~ : ...... -.. ----:··=·· ·- -T A'.:· __ ._",·,. ..... _,.. . ~ • I ,Y ~---... ·-:~ • ' • , ,:· --•• .... ·,,-... ··:--.... :/ ;,··-.... .... : i .....• --~--~ ....... . •. / ," • • 1-· . • • • . .,,..,, ..._ • l •. I • • :z-----.~, ..-. .,,•' :1~ .. -~,,,,,-: ·-.' ..(: ··-. : ... r-. . : ,"'l' •• .:.:1~-~:-... ,, •• p I • , ,:• I .• ·.; :':~:-~:--_,.: -': . ; . '-:,:--·\ r::~ . •. :. • N' • • /--c--~----r~,__ w· > ·' • t • .~•--:: · .. _~, __ 7·.-:··: -------.. -: :·--·· . -·· -~..,---I , ~ ,. -.,-·. I •• ,·. ·, .. •: i ~.. : .. , -,. . :· -l '~ l-: , : -.. ~· ! ., .. --·-r · 1 · ·1 .. . ' · ' . . · '•, •• : !.._ ; • i .. -..., 1· ..... ·! · , .M .. :.~r-: ~ _ -~~-t--. _ _ __ :.1 T::.L.-~.r.--: . ~. ~ .......... ~ TABLE Q-1 -Gas-Fired Healing Capacities HEATING HEATING AIR NOMINAL INPUT OUTPUT TEMPERA· unrua CFM AGA AGA JURE -' MBH MBH Rise· ~ . SFHA 2_5/30 L 1060 75 .. 56.5 49F 1200 125 94.0 72F SFHA 3_5/40 L 1290 100 75.0 54F SFtJA 40 ti 1650, 150 )13.0 63F SF(;A 50 L 2000 100 75.0 3.5F SFCA 50 H 150 113.0 52F SFCA 75 L 3000 150 )130 46F --SFCA 75 H·_ 250 188.0 58F TABLE 9-2 -Gas-Fired or Electric Heater Temperature Rise Correction Facto~ SFCA 100 L 200 150.0 35F .. 4000 SFCA 100 H 300 225_0· 52F o/oCFM NOMi- VARIATION -20 ~1s ~-10 -5 "lAl. +5 +10 +15 +20 SFCA 125 L 500Q 200 150.0 28F ___ ,_ SFCA 125 H 300 225.0 41F -SFCA 150 L 6000 300 225.0 35F SFCA 150 H 400 300,0 46F FROM NOMINAL TEMPERATURE RISE 1.25 1.17 1.11 1.05 1.00 .95 .91 .87 .83 MULTIPLIER 'At Norn1nal CFM 9 • • • ••• • • • • •• . • D9CUMENTATION FORM BUILDING LIGHTING COMPLIANCE . Project Title -PA ~O f>A A ·)i_ "£s i) ~j· t-,\i-__.~~ fl r-t.-· ·5LO{?, .:If 14- Location Q f\ i!. k ~ SA 'O 1 . c... Ak, · ~ 0 ('-l,b A ,. . ProjectArc~itec>r~~Ie~ 1 L~NP;W~ ·/ Form 5 Doc.ume~t~~ by L. i Z. _: · · Date I 1-.'S'-~o Check(ld py 1;:,\ • Q · Date .\ \-S-P.>o Room No. Room RCR Task Areas Note Sq. Ft. No. Sq. Ft. Total Watts Sq. Ft. Appl. .1Occ. 0cc. /Task Sq. Ft. /Sq. Ft. Allotted Watts Design_ Watts -----~-----,,-------r---~---~~~-~~~---~--~..-------~ I' a· ! S~3S I, o '5 035·. 4-o 4-0 17~ 2-,3 o~r=--,e,~- \00 4. \ DF-Yle-:~ \ 14-o 4,3 -o~~,v~ '3Go ll .o 4-, ~) 0 r:, (:, \ ~ 3:::, ·1 . I . . i . ; i . I · · ·· I .. I --· · · I I , ·· I ·I I I ! t!'T' A .,.,,,_,~ -~-. --- ' •• -;-··-· •• .1. ,,._., -v~ •. d. N COM.F!LiANC.E r1im;;;,.,~J _,,.//.h/.,/-7'1'A & · I · · · ! bone:::;·,,;-'-: ---· ---·" : · ··,I 1··~ ~-~_1. "Jrnh Erhrry • nav--: h" 1,-· : · · '.! >·:: ---~ ! · I n thi:, L .. ~ "''. . _: ! . . .. . -· .. ·r-: i .• : •• : .. :,c~. · I D If ! l ngineer • • • • • • • • • • • ILL U'M IN AT IO M Ch L ~UL AT IO X-S PROJECT TITL~ ~t,on,A)(.. Bus. ?A-rt-I'-! 14-auILDPiG NAME_ Bu I L..o 1)1,J .(? ~ \ 4-.......;.. _________________ .,....,. _______ _ BY L. C DATEj_\-S'-So __ _ JOB NO. "Z.oo-5" e:... ROOM I I - ~&-. . • .. . --··----· ~----·--··-,-·----:------ CLG,. MTG. RI FUTURE LUMEHS cu FOOT ~ NAME · W. L. AREA HT;. HTo RR DESCRIPTION MF CANDLES REM.UXS --· -... ;_. __ ........ .._ .. _____ ·--~w A wt'e~ou':.~ q5 53 S 0"35' 2,o i \ -(o l ·l,.4 l -L.~m~ ~ct-1 ~ 11 A 11 '3.0, I 4-co . ¾ 3o, I J,.1,m~,fe &fllW '°'_,... ' ,....,) rr O It,.~.,.. 'l tA , ' 4-~.s s' 7' 't' l, 1t-m ,P ·w J' "" tl1to. \ e.11 ~ v~'i:,Ci ~IS:ii.N•• 1-r•. l,S 5,'l 1.,l,,oo Z,o ?>I""~ Tr, &,i7 Pe., . . -l ' , . _L 11 ' 1. l l .J rx l .1 C7y~1~e:... I \ ti. l~--Z.. e' el .. 4A "3 -i ~,p Z ~ 4-" Dl i 1, "I oo % ' 70- l\ 11, \ ' "" 2'' g' 3~8 £1,·-Lf\-w\11 i.,. 4-"tt:-'\. °i>7 / "t O 0. % 17 -' lo ,~ \ l.o 0 ~\ s' '·4.\ 4--L;.w.~ t,)(4 v tr," · ,~ 7, -Z.co ¼' 7 SJ \o \ 4-\4-o 51' B' 4-~ l -i 4" l• 3 ·-A-wtP · le D 1,, 1, 1 fJO ¾ '75 ~ to H \ \ o· ~\ ' . l 4.8 4-... {.. o,.,,..f" 1.,..,. 4,-.. ~·· 1.,·4,800. ½ 71., .... # B 7 -?o(/_~\D~ 4-\ 4-Sto e,' B' 5.o 1,, ... l, j}w-. p 1.,, ." 4-c i . lo 1., Q·;;;, . ¾ i i~ . ' -, --~.,... "'1r'R STA1 EMEN" OFDE~1.vN' ~ .r•--:-. I. ~ " -~Nl"l'..-.,-ni:i v. .... ~;-~'\f --·-. · .. "': .... :.a~ ... _,l ...... Divisicms -·-· .. --.-;~ !:·:' .--:::.;• Con~e:-·::.: -t'"'\ • r' • . . .. . . . . ·., ..... ~---1 ... ,., ; I • ., ._ h::.v:! hf~-r· , ~~; :~) :,; ~-·i ::: • .- :\.f.:-.. .::l! cc-r.. .. or ....... -, ..... on thi.:; r,. .. ..: ~ .. i .... :: ~ ' i . --\ R~ii ,rncion No-LJ,n, l Enginee -- • • • • • • • ts ~ • -~ 0 0 I • ~ ~ ~ •• ~ Ul • BUILDING DATA FORM BUILDI.NG ENVELOPE COMPLIANCE Project T.itle ':5 t) I TB lo -BI-Ow I NJ.. Location 89 1--t)Jf4,~ · A-1 /2;/)t:P./lC,1 42-i-4~Ai' ~A -, Documented by Date Project Designer _f2:!_:'.·~Gtf~.:.U~,~~...kl&:l~~~~3:i,._.>-';,O BROWN & ZAMMIT ENGINEERING, INC •. 44-40 RAINIER AVENUE, SUITE 202 Checked by ----- SITE DESCRIPTION BLDG. DESCRIPTION Wall ~~]. ~I~ u· :§ ·c B ia11e .~ .c .g ~-E-; g,= C .g .... ·;; 8. z .... a c3 -8~1 = .g u •i;; bO i -5 ti .El ~ f! .... = ~ .o 1il 0 0' :, ·;, = .c c.-:, ~ ·au .e ,£j .!!3 ~ "t:) -;;-1 ~ • -.:, -0 t:i. 5 <:.l \) \s"\ti~~ "° '> -5 =e-.sa J ~ 2 e !. -.l ·" ·i a-! j l8]g ~ sS Date~----,. SAN DIEGO, CALIFORNIA 92120 • . PHONE: 283-731!5 Locat_ion Code Number (frpm Table 2 of Appendix 1) Latitude_ Degree Days-heating (from Table 2 of Appendix 1) SF, Solar Factor (from Fig. 4.1.17 or Table 2 of Appendix 1) D.T, ASH RAE design temp -78° (from Tat;>l_e 2 of Appendi~ 1) Occupancy Type Code Number (from Table 1 of Appendix 1) Gross heated floor area, sq. ft. Number of floors Ground Floor Perimeter, ft. Longest diagonal dimension at ground floor, ft. Height, ft. Record the detailed materials data on the Materials Data Form • Form 2 Surface Areas Aopaque wall Awindow Adoor Total A0w Line 12 + 13 + 14 Heat Transfer Coefficients (see Section 4_.1.8) winter uwall (heating) uwindo~ udoor summer uw (cooling) u Udoor Shading coefficient of glass, (from Table 3 of Appendix 1) SC Weight of Wall Constr~ction, lb/ft2 .w Mass Correction Factor (from Fig. 4.1.16) MCF Equivalent Temperature Difference (from Fig. 4.1.16) TD8q Surface Areas Aopaque roof Askylight Total '1or (26 + 271 % skylights (27/281 Note: If Line 29 is 5.% or greater, automatic light-sensitive switching systems are required in the area lighted by sky- light. Enter the difference between line 27 and 5% of line 28, or zero, whichever is the greater Enter the sum ·of line 26 and line 30 1 ;q3 2 M,l. 3· /{I.~ ,p I 4 /j..2,~ 5 C:, 6 o5'4 ,7 q_zJ 8 l- 9 ['2-() 10 1:-S 11 ll/2. 12 9tJ8 13 l/3o 14 ~ 15 /_(j/3.e'J 16 t/;?"J,3t 17~ 18 " 19 d>.J.,~~ 20 I .. {)VJ. 21 • 45 22 /,f;)t:) 23 Jt) 24 ·,15 25 So 26 t:JZ-i 27 - 28 'J. "Z-t.f 29 - 30 0 31 'l 21.f ... -.. • • • • • • • • • • • BUILDING DATA FORM -BUILDING ENVELOPE COMPLIANCE PROJECT TITLE----------- Floor Heat Transfer Coefficients (See Section 4.1.8) winter !heating) summer (cooling) Shading Coefficient of skylight (from Table 3 of Appendix 1) Mass_ Coefficient (-from Fig. 4.1.16) Absorptance (from Fig. 4.1.16) Floor Area over unheated space U-value for floor HEATING DESIGN CRITERION . . Standard U0 w (from Fig. 4.1.2) Standard U0 r (from F_ig. 4.1.3) Standard U0f (from Fig. 4.1.4) Maximum allowabie U0 (from Fig. 4.1.1) Proposed Uow (from Fig. 4.1.7) Proposed U0 r (from Fig. 4.1.10) Proposed Uof (from line 40) Proposed U0 (from Fig. 4.1.1) Note: U or is calculat~d from the equation of Fig. 4. 1. 10 for the proposed f?uilding using the v_alue from line 30 for the area of skylights, and the value ftom line 31 for the overall roof areaA0t COOLING DESIGN CRITERION Standard OTTWw (from Fig. 4.1.15) Standard OTTVr (41 x line 44) Standard OTTV (from Fig. 4.1.13) Proposed OTTVw (from Fig. 4.1.14) ProposedOTTVr(frgrp Fig. 4.1.14) Proposed OTTV (from Fig. 4.1.13) Note: OTTVr for the proposed building is calculated from the equation of Fig. 4. 1. 14 using the value from line 27 for the area of skylights, and.the value from line 28 for the overall roof areaA0r Page 2 of Form 1 Uroof 32 ,() LJ: uskylight 33 -Ur 34 'l) i us 35 -·SCs 36 -- Mc 37 .. e.f Ac 38 ,11{ Aof 39 - Uof 40 - 43 .~ 44 • I 0 45 ,43 46- 47 ~ 3iS3 4'8 ~ l>L/ 49 - 50 . -z~e Line 50 rn'tii£,. .. G t ; :. exceed line 46 51 ":;J,{.p 52 4,\ 53 (~ .. qi- 54 11.~6 55 J.r;q 56 ,,. f)~ Lihe·56 must not exceed line 53 • • • • • • • • • • •• · MAX. lJa (/\tl0v-/A'5lf)=-Aow Uow +Aar Uor -\-_ AoF UoF (ri(~. :; . I. t) A_ow + A or ..\--A OF = 4~ ( I) x , t./ $ )-(~ 2-il K , t>i))t~i, )(., LI!) ioet, +-i,u.1-,... 4'2--- 4~ ( ,1 --~-:-t?,ztt '1.. o'-l t., PROPOSED Uow = UwAt.L AwALL MC.F + Uw1«oow Av11Noow. + Uoaof?... A 0001\ (nr~. +.l.7) · A ow . ;__ c~l~X ti~~ +C1.1~ l<.llo)+ (~'f~>'-~ -t o io _ · --- PR0'f'OS\:D Uar =-Ur-ooF A'foOF + U sl(iL~YLIC.~i 0;1G·. ~t. \. \O) A or PK0f0SED U o = Aow Uow-~ A or Hor ( F I G·. 4 . \. I) -- ---- • • • • • • • • • • • ·Sl"/\ l\\ P /\ r lJ OT TV =-0 ! T Y -..: y. A ow -\-01 1 V r x A or (J !(,, ·1. \.I-~) A c•.v ·t A Qy- \ .7i% · 3(.l, }(. ~o,io + -4,1 V.... tf'v/f _ nq . ·. l ~ 0-e> +-4~L/ ' - ~ 3 ', q l ~ . /'/'J 4 .. --=---;::::: lJ> .-, ~ ~() 6 'I--. \ · r:.o FO ~ ·L D o T t v v-1 ~-(u~ 'J( Aw ". T·o E.G.J +(Ar-"' '::> F ')( ~ c) + (u F ~ AF _,( 1\T) . (f_ I(..:.. ·'·l-. L 14) . . . A _ _ . ·ow ~Ci~,~~i,~J<io) + (t~-o xt',x 12.z,t)(l•\3.><l~o,< ,)_ i o e>o ;::: -7,. \ ''t.l,' 4' ~ . . ;:;:... ' tt .!-.:;:) I c,~o . FR0f'0SED O11Vr· = (4\"-Urx Ay-xA'c. x Mc.)+ (U.Bx S.C;; ,,,~~)+(.6.;i;: '-S~..., • .,.. ['·,)_ -(VIC:,. 4. 1.11-) . Aor ,, . r'RO POSED OT1V = OT TVw )< A ow + OT1V~ x Aor ( f [ (7, 4. L 13) -·· --·-· ·--A-~--:;-~~--;:.-:~-;:··-- # . 6 'f. ~$ ~ ~~ <10)-1-~.~ l<..tf ,-,t) ~~d(o '-'-'17...f - • • • • • • • • • • • MATERIALS·DATA FORM BUILDING ENVELOPE COMPLIANCE Projec;t Title $u l1:6° ~ -f? c.,,-(2 ~ t,, .Lf Location 12A· v().U..A-R--A~t.~peitvr i lA J Project Designer \?-6~--A. le-up w~ ........ if.A t/,74' •. Wall Wall Type 1 Weight of wall construction, lb/ft? (see Sec. 4.1.8) Heat Transfer Coefficient (see Sec. 4.1.8) Surface Area's (attach sheets to document any additional compass orientations) Wall Type 2 Weight of wall construction, lb/ft2 Heat Transfer Coefficient Surface Areas (Attach shel;!tS to document any additional compass orientations) A' Wall Type 3 Weight of wall construction, lb/ft2 Heat Transfer Coefficient Surface Areas (Attach sheets to document any additional compass orientations) Form 2 Documented by · Date Checked by ____ _ Date ____ _ W1 1 87 U1 2 --~ 5 Orientation 3 · 1-S Area Orientation Area Orientation Are·a Orientation Area W2 U2 Orientation Area Orientation Area Orientation Area Orientation Area W3 U3 Orientati.on Area Orientation Area Orientation Area Orientation Area 4 '2,,.L-/-., ~ t~1 ~=±=_ 9~-10_,__ __ _ 11 C.,a 12 ~8 I ~ 13 u 14 -g.&., 15 uJ 16 Z--10 17 18 19 20 21 22 23 24 25 26 27 28 29 30 • • • • • • • • • • • MATERIALS DATA FORM-BUILDING ENVELOPE COMPLIANCE PROJECT TITLE-----'---------- r • Wall Type 4 Weight of wall construction, lb/ft2 Surface Areas (Attach sheets to document any additional compass orientations) Glass Type 1 Page 2 of Form 2 W4 31 ----#- U4 32' ___ ,,__ Orientation 33 ------,r--- Area 34 __ _,_ __ Orientation 35 --~-- Area Orientation Area Orientation Area 4 Sha.ding coefficient (from Table 3 _of Appendix 1 or mfrs. data) Heat Transfer Coefficient (from mfrs. data) 41 ___ ,__ 42-~--- Surface Areas (Attach sheets to document any additional compass orientations) Glass Type-2 · Orientation 43 _ _...,,._.,...-_ Area 44 -~~e...-- Orientation 45 ---1--- Area 46 --r---- Orientation 4 7 --+--- Area 48 _-#---- Orientation 49 _,__ __ _ Area 50 ____ _ Shading coefficient (from Table 3 of Appendix 1 or mfrs. data) Heat Transfer Coefficient (from mfrs. data) 51 ___ -#-_ 52---+- Orientation 53 __ _,_ __ Surface ~reas (Attach sheets to document any additional compass orientations) Glass Type 3 Area 54 ------ Orientation 55 ----- Area 56 --+---. Orientation 57 ------ Area 58 -4----- Orientation 59 -'----- Area 60 ____ _ Shading coefficient (from Table 3 of Appendix 1 or mfrs. data) Heat Transfer Coefficient (from mfrs.data) 61 _______ _ 62 -----,IF-- Orientation 63 ---+---Surface Areas (Attach sheets to document any additiorii,il compass orientations) Area 64 __ ,,_ __ Orientation 65 _ __, __ _ Area 66 _ _,_ __ _ Orientation 67 _...,_ __ _ Area 68 --+---- Orientation 69 ----- Area 70 ----- MATERIALS DATA FORM-BUILDING ENVELOPE COMPLIANCE Pa,ge 3 of Form 2 • PROJECT TITLE ----~------- • • Roof • . )' • Floor • • • • • • Glass Type4 Shading coefficient (.fro'm Table 3 9f Appendix 1 or mfrs. data) Heat Transfer Coefficient (from mfrs. data) Surface-Areas (Attach sheets to document any additional compass prientations). RoofType 1 Weight of roof construction, lb/ft2 (see Section 4.1.8) Heat Transfer Coefficient (see Sectipn 4.1._8) 71----1-- 72 --------Orientation 73 ----1- Area 74 __ _,_ __ Orientation 75 ---,,--- Area 76 ____ _ Orientation 77 --+---- Area 78 --E---- Orientation 79 _,,__ __ _ Area 80 ____ _, Surface Area (Attach sheets to document any additional roof types) 81 ~ 82~ 83 q1,.¢ Skylight Area Skylight Shading Coefficient (from Table 3 of Appendix 1) Skylight Heat Transfer Coefficient (U-value) Floor Type 1 (floors over non-air conditione~ spaces only) Weight of floor construction, lb/ft2 (see Section 4.1.8) Heat Transfer Coefficient (see Section 4.1.8) Surface Area (attach sheets to document any additional floor types) Doors Surface Area Heat Transfer Coefficient (U-value, see Table 4 of Appendix 1) 84_-=__,,.'---- _,,,,,,-85 ____ _ 86 _ _.,,,_.~-- 87$ 88 89 90± 91-,- • • • • • • • • • • • HEAT TRANSFEH COEFFICIENT PROPOSE,;> CONSTRUCTION ASSEMBLY List of Construction Components ·'1-<!i-ii:S?# e ???;;f ~--_____ ,_..,.._iv., t---T. t).-p ~ = ' ' . r-~6" ~(;$~, --------AvP.. ~P~ r v, u 1,,;1.,; t 8 u . ~ _>-At~$~ . . L-U-~!...J,,.,,c~-----~-i.-·~l#f'·6IJ·P6" ~"1~ J~=t::r=c:r=i:'"1-,.. _-_-_-~Aire=::.:::::~--~----.1t. l l I I f J . Inside Surface Air Film .q2,.. cooling Sketch of Construction Assembly Outside Surface Air Film • ?,..~ WEIGHT: lb/ft2 cooling Check one: Total Resistance Rt ;µ/,77 cooling Wall Roof ~ cooling Floor r, Form 3 "\ . R .~, ,78 ,8() ,q,a ,<(o ~~ -Jl,.b t-f t-{p I heating • I 7 heating ~q.~8, heating A heating • • • • • • • • • HEAT TRANSFER COEFFICIENT PROPOSED CONSTRUCTION ASSEMBLY :~.l11~fPt -- ... Sketch of Construction Assembly WEIGHT: .- Check one: · Wall Roof Floor ,,.. . ....- 31 lb/ft2 List of Construction Components e 6~~P~ v'A-vSt.-_ Ct") ~~c,;~11,D,J 6 . 7 . 8. . t~ ip_A-~ .. 4 'i p ~l!O' p,rz.,'7 ey:, Inside Surface Air Film O~tside ~urface Air Film Total Resistance Rt · U-Value (I/Rt> . . ,,_i cooling r.'Z,~ cooling Jtf,/8 cooling t.tJS cooling Form-3 ·R . G." I I I (ll) .4.:;; ·tea heating I 11 heating ./f,t heating , ()5 heating • • • • • • • • • HEAT TRANSFERCOEFFICl~NT PROPOSED CONSTRUCTION ASSEMBL V ' 'l List of Construction Components 1.--v~ 11_ ~ ~ P. {i.c,~.(ZO :2. .J.. ,rz,. '5,-ns-,~ h" ,?Gr~ B~D 4. J> i> T' Cc,c,p5 • ) . Sketch of Construction Assembly WEIGHT: Check one: Wall I,,,-' Roof Floor lb/ft2 6. 7 • 8. Inside Surface -Air Film Outside Surf~ce Air Film Total Resista_nce Rt lJ.Value (I/Rt) Form 3 R A ~ cooling heating I 1,; .~ cooling he_ating -z_,1,3 2, s~ cooiing heating ,3i ,3., cooling heating· • • • • • • • • • ,,, DOCUMENTATION FORM Form 4 HVAC SYSTEMS COMPLIANCE (Complete for each system) (Rev. 1 5/781 Project Title '31:, 1!1-B ,, 8vrJ.1 J ( ·Location /lJJ kdflt.Jl~ A:tP/~tft121j tAlJ,,J4jJA,Q/ ?!.4.., Project Designer ~J!..-WJ'i,.,RfJJA!.., ~~ . Documented by t./7P DESIGN CONDITIONS Building occupancy type (Table 1 of Appendix I) •••..••. ·Project Latitude ·(Table 2 of Appendix I) . ; .•.•..••.... Heating· Degree Days (Table 2 of Append ix _I) • • • • • • • • • • • Date //' '2 1'6D Checked by ___ _ Date ____ _ HEATING LOAD DOCUMENTATION (Attach calculations) Outdoor Design Temperature, Winter .•. ·_. -............ _.._~_+,,___ °F Indoor Design Temperature ..•...................• -~t.,..o~e::;,t..-°F O~door~r ... ····:······• .......•.......... ~J~G~~D~-CFM Heat Loss From Outdoor Air' . . . . . . . . . . . • . • . . . . . . . . s ,£' ~ a Btu/Hr. Temperature of adjacen~ unheated spaces. . . . . . . . . . . • . . . ,,_ ea °F Transmission Heating Losses ..••••.••...••.....••. /J ,~ z;Jf Btu/Hr. I f'I . A' . .I ---CFM ,,..,.L, ... , iJG n I trat1on 1r ..•.•..•.... , •.....•.•.......•. __ .___ "" .... -., • Heat Loss From Infiltration •••... ; . . . • . • . • . . . . • . • . -Btu/Hr. Ventilation Air . . . . . . . . • • • . . . . . . . . . . . • . . . . . . . . _ _;;'"'"=--- Heat Loss From Ventilation ....•.................. ~------ Outdoor Air for Special Processes ................... __ --.. __ _ Heat Loss From Process Air ....•.................. _____ _ Other Heat Losses (describe) . ·• • . . • . . . • . • . . . . . . • . . . __ •.;;..;.;.;=a.-- CFM Btu/Hr. CFM Btu/Hr. Btu/Hr. Total Heat Lossa~ . . . .. • . . . . . . . • • . • • . . . • . • • . . . . . If, Ir.if/ Btu/Hr • COOLING LOAD DOCUMENTATION (Attach calculations) Outdoor Design Tempennure, summer, dry bulb .••.•.•.. __ /(..:....;Z,., ____ °F Outdoor Design Temperature, summer, wet bulb... • . • • • . 7 / °F lridoor Design Temperarure, summer, dry bulb .•.•.••... ~ °F Indoor Design Temperature, summer, wet bulb. • • • • • • . • • °F Transmission Heat Gain . . . . • • • . • • . • • . • • •. • • . . • • • • 7 3 B Btu/Hr . . lnfiltratio-n Air ....•..•..••..• .-•••••• · •• ; • • • • • • ,._-CFM Heat Gain From Infiltration •.•••.•••••...•.•.••. -. ---Btu/Hr. FG j I r,ve: Outdoor Air for Special 'Processes. . . • • • .• . • • . . • . . • . . . -----"'--- Heat Gain for Process Air • . • . • . . • . . • . . . . . . . • . . . . . __ ... _ ------_-_ Solar Heat Gain Through Windows, etc.. • • . . . • . . . . . . . . ~ Heat Gain From Lights, Equipment, People, etc.. . . • . . • . . ~ Heat Gain From Other Sources ...•.....•.......... _,....,.......-=:::;..- Outdoor Air: Fixed Minimum Type System CFM Btu/Hr . Btu/Hr. Btu/Hr. Btu/1:ir, CFM Per Person (Not to Exceed Tabulated Minimum Ventilation Rates) ..... Heat Gain From Outdoor Air ......•.......•. 4-.s CFM/Person 0 ?/a Stu/l;r. • •· • • • COOLING LOAD DOCUMENTATION· (Continued) System Utilizing.Outsid~ Air For·Cooling CFM Per Person (Not to Exceed 33% of Tabulated Recommended Ventilation Rates) Heat Gain From Outdoor Air ..•...... ~ ...••. P119e2of Form4 -_____ CFM/Person -Btu/Hr. Total Cooling-Load ...... .' ........•..•......... · ?L/; fz.¢Bt.u/Hr . TEMPERATURE CONTROL Attach manufacturer's data or other, give specification or drawing r~ference which shows in detail the following information: REFERENCE (page or sheet No.) • C!)pability to sequence !)eating and cooling • . • • • . • • • . • • • . . : • . • . • • . .'. . . • . • . . . . . • temperature control device set point limits •••.••••.••. · ..•.•.•..•••••.•....... • temperature set point range between full heating and full cooling ••.•..•..•...•.••... • setback and shutoff controls ...••.••.•.•••...•....• · ..••••..•... · .• .' .....•. • capabilitY to terminate heating at 7rfJ F and cooling at 7~ F . ; •. , •.•.•.. .' .•••....... Indicate drawing or specification reference where the temperature control d~vice requirements given below are documented. An automatic temperature control device shall be provid~ for: • each separate i-lV·AC system .... , ..•.•..•.........•.. _ •.•.•..•••...•....•. • each zone ..•...•.••••.• : .•.• , •.•....•...•..•......••.••.•.....•....•.. SIMULTANEOUS HEATING AND COOLING The following· requirements apply to the use of new energy and need not be complied with when 111covered energy is used to e control temperature. In ·each case, whei'nesetting hot and cold deck temperatµres, one representative zone may be chosen to represent no more than ten zones with similar heating or cooling requirements. Concurrent operation of independent heating and cooling systems serving common spaces must provide either or both of the e ·. controls given pelow. List reference specification page or dr~ing number where control requirements can be verified. • • REFERENCE • Sequential temperature control of heating and cooling systems • Automatic reset of heating temperature, to limit energy input only to that level to offset heat loss due to transmission and.infiltration ••...•.•.....••......... Reheat system, -give reference specifications page or drawing number which will show compliance with the following when reheating 20% or more of the total air in the system. • When serving multiple zones, controls must automatically reset the cold air supply to the highest temperature level of the zone requiring the most cooling ..••.• 1 · •••• • Sil')gle zone reheat systems shall be controlled to sequence heating and cooling •..••••.•.• :. • · Pave 3 of Farm.4 Dual-duct or multizone systems -give reference specifications page. or dra~ir:ig number which will show compliance with • -the following: ·u/k.: REFER ENCi; • Hot deck temperature -must be automatically reset to_ the lowest temperature necessary to satisfy the zone requiring the most heating ••...•• '. . .-: ••..••• ____ _ • • Cold deck temperature -must be automatically resat to the highest temperature necessary to sa~isfy the zone.requiring the most cooling •.•.•............. Recooling systems -give. reference specifications page or drawing number which shows compliance with the follo~ing if '1' recooling 20% or more of the total air in the system. • • • • • • • Controls must automatically reset the temperature of heated supply air to the lowest temperature nece~sary to satisfy the zone requiring the most heating •.•.. ·-. • . • • • • • . • • . ----- HVAC SYSTEM RESTRICTIONS & SPECIAL REOUIREM~NTS Several HV AC System types have special requirements or re_strictions. In this··sf!!:tion, the-type of system used in the design · must be listed and any special restrictions given here referenced to show compliance. Supply references to proper specifi- cations page or drawing numbers. Type HVAC Systems Used -List type of sys~em to be used here (include all systems for heating or cooling in the building) include reference for specifications for each system. , / .. ~ ~tlw f -/4~¢CIY? tft:r.~~'7 /Zd6-PfoJ) IIM17=· --· Constant volume reheat system -when serving both interior and exterior zones -separate cooling coils are required if the exterior zone exceeds 20% of the total air quas;1titY through the cooling ~ii. REFERENCE • Page 4 of Fotm 4 DUAL DUCT AND MULTIZON~ SYSTl;MS . Constant volume duct or multizone systems which utilize new energy to simultaneously heat and cool air streams which are subsequently mixed for temperature control are prohibited for buildings larger than 20,000 square feet of conditioned • space. If used, the air leakage for dampers utilized for ths mfxing o~ heating an~ co~ling air $hall be limited to a maximum · leakage of 3% of the total air quantity handled by the dampen when operating at the maximum system pressure to which the dampers wilt' be subjected. Manufacturer:s label or nameplate $hall state leakage .rates. -. . ~ ' , .REFERENCE--------- .e Economizer Cycle -For each cooling fan system, for other than dual-duct or multizone systems, which serve zones having total cooling capacity greater t~an 134,000 Btu/hr or more than 5,009 CFM must have an economizer cycle, unless one of the exceptions allowed is claimed. REFERENCE ________ _ e Electric Resistance Heating Systems -These systems shall not be used unless the total installed electric resistance heat does not exceed l0% (ten percent) of the annual heating energy requirement or,a life cycle cost analysis, Form 8 (see Section 4.2 of this.manual) shows an aJternate system life cycle cost exceeds that of the.electric resistance system. Give reference if . less than 10% or include Form 8 if calculating life cvc,e cost. · · REFERENCE ________ _ • ·MECHANICAL ANO GRAVITY VENTILATION P-/,4' M~chanical ventilation -Dampers which are automatically interlocked and closed on fan $hutdown are required. REFERENCE ________ _ • Gravity Ventilators -Either automatic or readily accessible manually operated dampers must be provided for all openings to the outside with the exception of combustion air openings. • • • • • R~FERENCE --------- ' POWER CONSUMPTION IN FANS ft/A--· I Constant volume system Total Supply Air Ouantitv .•.•••••••••.••••••.•••••••..••••• .' •.••••••••• Total·Pressure of Su'pply Fan •.••..••. ; ••.•••..•.••...•...• · ••.....••..•. Total Supply Air Quantity Adjusted for Process Loads •••••••••• · ..•••••.••••••••• Total Gross Floor Area •.••...•..•. · •..•••.•.. : · ....•..•• :· •.••••••••• ·• . · ••• Net ·Fan Performance Index (F~I) ••••.••••••••••.• _. ••••••••.••. ; •••••••.•.••••. Variable volume system REFERENCE CFM Inches Water _____ CFM -------Sq. Ft. Total .Supply Alr OuantitY at Maximum Flow .•. , • . . . . . . . . . . . . . . • . . . • . . . . • • . . . ------ Total Pressure of Supply Fan at Maximum Flow · .•.•.•.......•...•..... ,; .•..•.. Total Gross Floor Area .• ~ .•...••..•.•..•• : ... : •.....•..•...•...•...... Fan Performance Index at Ma>!:imum Flow (FPlm) •.•.••• 1 •••••••••••••••••••••• Variable Volume Adjustment Constant ....•.......•.•.•..••••......••• : •.•. Adjusted Fan Performance Index, FP18 •••••••••••••••••••••••• : •••••••••••• Inches Water _____ Sq. Ft. _____ CFM • . Page 6 of Form 4 • PIPING AND DUCT INSULATION ANO DUCT CONSTRUCTION ' " -' References to the piping insulation; duct insulation and, d1,1ct construction requirements. presented in Section 4.2 of the · Ene~gy Conservation Design 'Ma.nual must be ~iven below: REfERENCE ______ _ • • • • • • • •• • :• .. -; ... ~: ·:~: ~~-·~-·-> '. SUPPLY Alf! OUANiiTY ,1 ... ... ~ _· _____ F (HM -Oll1L!:TAI r ---~FM ~-----(:FMsA --C-.---CFMoA , ------[Ft,• ., .. . · ~ .. ... -. E-20(9-77) (90!1- • • • • • •• • • • • • DOCUMENTATION FORM & HVAC EOUIPMENTCOMPLIANCE 1 Form 6 References giving·the specification page or drawing sheet number or manufacturer's data must be submitted to demonstrate com-. \ pliance with Division 6 of the standards. I ELECTRICALLY OPERATED COOLING SYSTEM EQUIPMENT ABSORPTION WATER CHILLING COOLING SYSTEM EQUIPMENT • I COMBUSTION HEATING'EOUIPMENT (Oil and gas-fired comfort heati!l9 equipment- ELECTRICALLY OPERATED H~ATING · HEAT PUMPS Standard rating 9apacity., Btu/hr Minimum EER (COP) Reference· Heat source (check one) Direct fired (gas-oil) Indirect fired {steam-hot water) Minimum EER (COP) Reference Minimum combustion efficiency at maximum rated output Reference Minimum EER (COP) Reference Supplementary Heater Contro_l Reference ELECTRICAL RESISTANCE SPACE HEATING EQUIPMENT REFERENCE FOR FULL-LOAD ENERGY INPUT AND OUTPUT REQUIREMENT FOR MAINTENANCE FOR MANUFACTURER'S MAINTENANCE AND, . FULL AND PARTIAL CAPACITY AND STAND-BY INPUT(S) AND OUTPUT(S) SPECIFICATION REFERENCE .. '· Q --' ·, "' ~'-i,,'i:i•i1f'J\ff It · · . ,.,,,I.it' ,,. \0 ,·. Easy Maintenance .. .-,..,,,_:":, , ·:-, , .. _. -~-. ·.· _ "'·:r.-· _,. .• ;_,:1# ,\ --Latched·-and gasketed access doo~s,' with handles; for ·--.. -1 -· ~ii-~; easy component accessibility. Compressor isolated -· · c/ from·condenser section for service while unit is in '· . >tt operation. Gas valve isolat~d from burner · l compartment for service while unit is in operation. · { Sight glass into burner section for qu!ck accurate· . .1 adjustment. Leaktlght Installation Gasketed roof curb to protect mounting. Latched and l gasketed access panels to insure component ~t( protection. Overhanglng·condenser coil drains water -... ·_,· on to the roof without pa~irig over the roof opening. •· · · { ·' . '. :, \ ..... '.:.:. ' ~ ' I.•, • • ,..;••: ," '• ~ -: : . : . ·': ·:':,.:· • ~ • • --• ' • 1 :-... _, .. . ~ . ; .. ~ ::JI_ -2¼-4 to~ Healing/Cooling · · Added flexibility of these units is obti!ined through the use of either , natural or propane ·gas. Low operating cost is achieved through ·!; · solid state ignition system. These units are ideal for small commer · - ·-·· · and residential applications. · '-• : CONTENTS PAGES ; General Information .•.••.••• ~ ••••••• , •...•••.•••••.... 2-5 Selection Procedure -••• : •.•••••.•••...•.••. _ _. ............ 6-7 Cooling-Capacities · •..••.•••••••..•..•••• _. •.•.. ·.; ......... 8 Psychrometric Chart .••••• .' ......•• _ ....••.••............. 9 Gas-Fired Capacities ..................... · ... .-........... 9 Steam, Hot Water, Electric Heater Capacities •••....••..•... 10 Electric Heaters Utilizing Unit Disconnect ._ .••.....•..••..•. 11 Static Pressure Drops thru _Accessories .•. ; ..•.• · .........• 11 Evaporator Fan Performance •.•.•..•..•.....••... · ..•...• 12 · · Performance Data ........... : ................. , .... : .. 13 Electri~ Data •.. · •..••.• · ••• : ..•••...•.••....•...•....• , 14 General Data ..... , ...•.•....••......•.••. .' .....••.... 15 Dimensions . : .. , .....•.••........• : •••.•.......... 16-25 . Mechanical ~pacifications .•..•....••.. : ..•...•.....•• 26-28 CAPACITIES . ' TABLE 1·1 :.,;_ Coollng C1p1cllla· . ••••• .. : .'!. -:, .. SAHA2Cf IOOCFM' ·' ?, "'-~ __,._,·MHN SAHA'25 %SH 1000 CFM 80 100 93 86 . 74 61 48 100_ 94 87 75 62 49 ·100 94 87 75 62 49 100 95 89 76 63 50 85 100 100 100 . 89 n 65 100 100 100 91 81 11 100 100 100 91 ,w · .;1 81 11 --'-""> 100 •-92 .a,.-75 100 1W v 00 82 100 IUU IUU 97 93 89 100 100 100 9e--Qi.., 92 .:4 · 25 ·26 28 29 30 23 24 26 ,;27 28 30 22 23 25 26 27 29 19 21 22 '24 26 / 27 75 94 83 . 71 57 43 29 95 83 71 58 • 44 30 95 86 . 76 60 44 28 98 88 77 61 44 "' 80 85 90 ~ 100~ 92·84n100100 ~ 93 86 n ~ ~ ~ 94 88 82 ~ ~ ~ ~ 93 69 100 93 86 73 59 45 100 93 86 • 74 61 48 100 94 87. 74 61 48 100 9:4 88 75 62 49 ~ -~ ~~ 87 N ~ ~ ~~oo ~ n ~ ~ 100 ~ ~ n ~ 100 ~ ~ 90 nee -"---" "°'BH • ~ ......, ,.., __ , """ 36 ~D '" 31 33 IY'" .. ; 'US 38 28 29 31 33 34 36 ~ · 25 27 29 31 33 SAHA30 1250CFM SAHA40 1690CFM SFHA25 125QC~M .. · SFHA30 1250CFM. SFHA35 . 1650CFM SFHAi40 1650CFM SFCAJSACA 150 2000CFM • - , .. SFCAJSACA 75 30!)()CFM ... SFCA/SAOA 100 4000(1FM SFCA/SACA 125 5000CFM SFCAJSACA 150 8000CFM • %S1;1 MBH ,%SH MBH 75 · 80 85 90 75 80 85 80 93 82 71 58 44 ·30 95'-,3 59 44 -v v c,:, 73 i.>1 98~ 74 ou 45 30 ~ ~ 84 11 ~ 43 ~-~ 84 11 sa ~ ~ 92· 84 11 58 ~ 100 93 es n w ~ 100 100 100 85 69 53 ·100 100 100 86 71 56 100 100 100 86 72 58 100 100· 100 88 75 62 100 100 100 100 86 72 100 100 100 ,94 88 82 100 100 100 95 90 85 100 100 100 96 91 86 42 44 . 45 47 48 50 39 42 44 ,J!Ml:, 48 50 36 38 41 44 46 49 29 32 34 36 40 44 100 100 100 100 84 68 100 100 100 94 88 82 100 100 100 95 90 85 100 100 100 96 92 88 26 'D 28 29 29 30 25 26 27 ........ ~ 29 30 24 :25 26 27 27 28 21 21 21 22. 23 25 75 100 94 82 68 . 54 40 100 . ·92 80 6l 53 . 39 100 ,87· 87 71 51 39 100 99 . 88 72 55 48 % SH · 80 · 100 100 ·98 84 70 56 100 100 95 83 70 57 100 100 98 85 72 59 100 100 · 99 86 73 60 · · · • : _1--_,,es,,....-+""1""00=--1.,.,00,,,_.,.1""'00=--""99,,,_. -as--1""2+-,,100-'""1""00,,.....,.,100-""""95=--""5"'1-1""5,+-,1"'00=--1.,.,oo,,,__1;;;00,,_.1,.,oo~-8""9-"'78-1"'00,,,_""'1;;,,;oo,,_.1,.,oo,,.....,.,100,,,_....;,.;90;..-...;:;1,,-19 90 100 100 100 100 95 87 100 100 100 100 95 88 100 100 100 100 99 93 100 100 100 100 100 100 MBH 31 34 35 36 37 37 30 33 34 (\!/36;1 36 37 28 • 31 32 33 35 36 24 26 28 29 -- 75 ·.%SH 80 100 92 87 75 83 46 100 94 89 76 64 47 100 97 90 . 77 66 48 100 98 94 80 -- 85 100 100 100 87 75 58 100. 100 100 89 76 60 100 100 100 90 78 61 100 100 100 94 -- 90 100 100 100 100 89 72 100 100 . 100 100 91 74 100 100 100 100 93 76 100 100 100 100 -- MBH 41 41 42 43 43 45 38 4Q 41 1<''-'f! 42 43 35 36 37 38 ,40 42 28 29 31 32 33 35 75 %SH 80 85 100 100 100 94 82 67 ·100 100 100 95 82 66 100 100 100 96 89 67 100 100 100 99 -- 90 100 100 100 100 96 79 100 100 100 100 97 BO 100 100 100 100 99 82 100 100 100 100 -- MBH %$H 75 · 80 43 48 48 49 51 51 42 45 47 1/<M~i 50 50 40 42 45 46 48 48 35 36 39 40 --- 93 n 11 ~ ~ 34 94 80 n ~ ~ 34 ~ ao n 58 ~ 34 98 ~ n ~ -- 85 100 100 99 86 76 58 100 100 100 89 77 59 100 100 100 90 78 60 100 . 100 100 '92 · -- 90 100 100 100· 92 89 74 100 -100 100 95 90 75 100 100 100 96 91 -n 100 100 100 98 -- MBH 53 56 80 83 86 . 70 50 53 57 "'""·"''· 83 66 47 50 53 . 56 59 62 42 ·45 48 50 53 56 '%SH .80 100 . 99 aa 75 62 -49 100 100 90 .. n 83 50 100 100_ 93 79 65 51 100 100 97 B4 68 54 85 100 100 99 89 76 64 100 100 100 . 91· 78 65 100 100 100 94 81 68 100 100 100 98 86 71 90 100 100. 100 1111 89 • 77 100 100 100 100· · 91 79 100 100 100 100 · .94 82 100 :100 100 100 99 88 MBH 79 83 . ·88 113 97 . 104 75 79 84 11:a;, 93 98 70 74 79 82 87 92 63 67 71 75 79 83 100 89 74 · 80 47 35 100 .91 76 61 48 35-100 93 78 63 · 49 36 100 98 83 66 50 36 %SH 80 ·100 100 · 90 76 83 . 50 100 100 92 78 64 51 100 100 95 81 66 52 100 100 99 85 70 54 ·85 100 100 100 . 11 78. 85 100 . 100 100 93 80 67 100 :100 100 96 83 69 100 100 100 100 88 73 90 100 100 100 100 92 79 100 100 100 100 94. 82 100 100 100 100 97 . .BS 100 -100 100 100 100 90 MBH .105 111. 118 125 132 139 100 106 114 ~l>IIJ'? 126 133 94 100 107 113 . 119 125 84 90 95 101 106 112 75 %SH . ,80 85 100 100 96 87 76 83 100 100 97 88 11 64-100 100 se 89 79 65 100 100 100 91 82 67 90 100 100 100 117 92 79 100 100 100 99 93 80 100 100 100 99 95 83 100 100 100 100 97 86 _MBH 134 142 151 159 168 176 126 134 142 150 158 166 116 125 133 141 149 156 106 113 120 126 - -75 %SH 80 .. 85· 100 99 117 85 74 81 100 100 98 86 .75 62 100 . -100 98. 87 76 63 100 100 99 90 -- 90 100 100 100 95 88 -78 100 100 100 97 90 · 11 100 100 100 98 91 80 100 100 100 100 MBH 159 188 178 187' 197 2fJT 152 181 ·171 . 180 189 199 144 153 . 162 171 180 188 130 139 '147 155 - ·75 -93 83 ·70 -58 44 34 95 85 71 . 57 44 34 95 86 72 58 45 34 97 87 73 59 -- 80 · 117 95 85 73 59 47 98 98 , 87 74 60 48 98 97 89 75 62 49 100 99 91 78 -· - 85 100 98 98 86 .74 62 100 99 117 87 75 63 100 100 98 88 76 84 100 100 98 90 -- 90 ·100 100 100 97 90 77 100 100 100 _ 98 91 79 100 100 100 sa 92 81 100 . 100 100 99 -- NOTE: If othar than standard air quantities are used, apply capacity correction factors from Table 11-2. Shaded 'blocks indicate ARI rated capacity. I TABLE 8-2 -.Cooling Correction Factors JApply to Table 8-1 ~paclties for CFM Other Than Standard) 9.~~5'i!fjd~.wlti~f':-",;-.,..,,,.,":.,-::.°';#:~~~~~~~1i~.&~#~.W,~~~1:t~i'i!I~t.&'1e'-'~;"*'~3::.r~t~~-4i~ti~~-!~?.-ift~~-.~:~?f~:;.fi.t'.: Total Cooling Ca~city Multiplier .970 .985 .-1.000 1.015, 1.030 % Sensible Heat (SH) Mµitiplier .940 ~70 1.000 1.030 1.060 ~ NOTE: Calculate total and aensible capacities In MBH and multiply by above factors.to determine r~ised capacities. 8 .. -· • •• • • • CHART 1·1 .:.-:-Psyi:hrometrlc Chart TABLE 9·1 -Gas-fired Heating Capacities . ··•1nr,c1 HEATING.; ••• _H0EAUTTIPUTNG INPUT · .·AGA'..' : .. AGA ,, ,-_:_ MBH MBH. (I SFHA 25/30 L 1060 7_5 56.5 1200· 125 94.0 SFHA 35/40 t: 1290 100 75.0 SFHA 40 H 1650 150 113.0 SFCA 50 L 100 75.0 SFCA 50 H 2000 150 113.0 SFCA 75 L 3000 150 113.0 SFCA 75 H • 250 l88.0 49F 72F 54F 63F 35F 52F 46F 58F SF9A 100 L 4000 200 . -150.0 ) 3 52 5FF SFCA 100 H 300 225.0 SFCA 125 L 200 150.0 28F l A sFcA 125 H ~-c.-· aoo-225.o 41F \s,l--'s;.;F_,,C,_A,-15""0,,..,.L'"''+---,,-6-000-'-.,-,_.,.. __ .,.;"';'.-t,:::::_aoo,..:_:""·::::::_·"'·:_2=.:_2=-.:_5:-_.o=-_-_-_-_-_-_-_-_-_-:.35:-:_:;:F::::~ SFCA 150 H 400 300.0 46F 'At Nominal CFM TABL~ 9·2 -Gas-Fired or Electric Heater Temperature Rise Correction Factors ·%CFM. VARIATION .1. • :-. FROM NOMINAL : ' ··-... TEMPERATURE. RISE MULTIPLIER 9 1.25 1.17 1.11 1.05 1.00 .95 .91 .87 .83