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SFD (07305)
TAh r P.O. BOX 1504 No: V305 } Building - 7&105 CALLE ESTADO ' Address 53-645 Mendoza LA QUINTA: CALIFORNIA 92253 - Owner Rusty RhadeS BUILDING: TYPE CONST.-' OCC: GRP. • - - Mailing .' Address 39=311 Hidden Water A.P. Number .774-132-018 City,?_,92260 p@�Falm.-esert. .340-5091 Legal Description " Contractor. Project Description S.F.D. Sale Address ` City Zip Tel.: State LIc •. y ' City- & Classlf Lic. #Sq. Ft. 1514 No. No. Dw 's Size Stories Units Arch., Engr., Designer New ❑ Add ❑: - Alter O; . ' Repair ❑ Demolition: ❑ Address Tel. City Zip State Lic. # �„_LICENSED.CONTRACTOR'S DECLARATION I hereby,affird.that I am licensed under provisions of Chapter 9 (commencing with Section 7000) o! ---Di iision 3-of,,th-e Business pnd Professions Code, and my license is in full force.and • effect. -•v' "� .r-',` �•••� - . SIGNATURE DATE r ' OWNEWBUILDER DECLARATION • I hereb�irm that I am exempt from the Contractors License Law for the followingEstimated Valuation (} reason: (Sec. 7031.5,Busdness and Professions Code: Any city or county which • requires' a - permit to construct, after, improve, demolish, or repair any structure, prior to its issuance also requires the applicant for such permit to We a signed statement that he is licensed pursuant to PERMIT � AMOUNT the provisions of the Contractors License Law, Chapter 9 (commencing with Section 7000) of ' Division 3 of the Business and Professions .Code, or that.he is exempt therefrom, and the basis - - for the alleged exemption. Any violation of Section 7031.5 byany applicant fora permit Plan Chk. Dep.*���•� subjects the applicant to a civil penalty of not more than five hundred dollars ($500). - 0 I, as owner of the property, or my employees with wages as their sole compensation, will Plan Chk. Bal.. do the work, and the structure is not intended or offered for sale. (Sec. 7044, Buisness and Const. T. ou • Professions Code: The Contractor's License Law does not apply to an owner of property who builds or improves,thereon and who does such wont himself or through his own employees, Provided : that`,such.:iniprovements are not intended or offered for safe. ff. however, the building Mech. • or improvement i Js,' Sore within one year of completion, the owner -burbler will have the burden n • of provfhg lfiafhe did not build or Improve for Mpurpose o/sale.) e Electrical .e.. ,a' O I, as owner ofithe property, am exclusively contracting with licensed contractors to con- Plumbing•!. struct'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 S•M•j• -----b—. Z-3 - such projects with a contractor(s) licensed pursuant to the Contractor's License Law.) - Grading 0 1 am exempt under Sec_ w• & P.C. for this reason Driveway Enc. ZU. , Date owner Infrastructure _ },� a 3•3 0. WORKERS' COMPENSATION DECLARATION' r I hereby affirm that 1 have a certificate of consent to self -insure, or a certificate of Workers Compensation Insurance, of a certified copy thereof. (Sec. 3800, Labor Code.) Policy No —Company - Q ®°�© t311 0 Copy is filed with the city. 0 Certified copy is hereby fumtshed.• Y3 .%438.8 ` TOTAL CERTIFICATE OF EXEMPTION FROM REMARKS WORKERS' COMPENSATION INSURANCE (This section need not be completed N the penrut is for one hundred dollars ($100) valuation 3C7 i+`7 •° ie i 4 ?•.1 : t'91:,. 1. .� 1. a.pFtn . �.; .+ or less.) I certify that in the performance of th? work for which this permit is issued, I shall not employ any person in any manner so as to become subject to the Workers' Compensation Laws of California Date Owner NOTICE TO APPLICANT: ff. after making this Certificate of Exemption you .should become ZONE:• BY: subject to the Workers' Compensation provisions of the Labor Code, you must forthwith ' comply with such provisions or this perm!l shall be deemed revoked. - Minimum Setback Distances: Front Setback from Center Line Rear Setback from Rear Prop. Line CONSTRUCTION LENDING AGENCY Side Street Setback from Center Line' I hereby affirm that there is a construction lending agency for the performance of the.' - work for which this permit is issued. (Sec. 3097, Civil Code.) Side Setback from Property Line - • Lenders Name - Lenders Address - FINAL DATE II�,S�E(yOR This is a building permit when property filled out, signed and `validated, aril is subject to expiration it work thereunder is suspended for 180 days. I certify that I have read this application and state that the above information is correct. Issued by: Date PerRllt ' 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 the •above-.' mentioned property for inspection purposes w Validated by: Signature of applicant Date .,Mailing Address - -Validation: - City_ State, Zip � CONSTRUCTION ESTIMATE NO. ELECTRICAL FEES NO. PLUMBING FEES 1ST FL. SO. FT. ® $ UNITS SLAB GRADE S 9� �� ROUGH PLUMB. BONDING YARD SPKLR SYSTEM 2ND FL. SO. FT. FORMS SEWER OR SEPTIC TANK ROUGH WIRING MOBILEHOME SVC. BAR SINK POR. SO. FT. ® GAS (ROUGH) METER LOOP GAR. SO. FT. ® POWER OUTLET ROOF DRAINS GAS (FINAL) TEMP. POLE DRAINAGE PIPING CAR P. SO. FT. ® GROUT WATER HEATER WALL SD. Ff. FINAL INSP. DRINKING FOUNTAIN. SO FT ® WATER SYSTEM URINAL ESTIMATED CONSTRUCTION VALUATION $ _$ WATER PIPING NOTE: Not to be used as property tax valuation N FRAMING 0011 e ///` ci ,- �+�'® FLOOR DRAIN MECHANICAL FEES //D/�O WATER SOFTENER VENT SYSTEM FAN EVAP.COOL HOOD SIGN WASHER(AUTO)(DISH) APPLIANCE DRYER GARBAGE DISPOSAL FURNACE UNIT WALL FLOOR SUSPENDED LAUNDRY TRAY AIR HANDLING UNIT CFM KITCHEN SINK ABSORPTION SYSTEM B.T.U. TEMP USE PERMIT SVC WATER CLOSET COMPRESSOR HP POLE,TEMIPERM LAVATORY HEATING SYSTEM FORCED GRAVITY AMPERES SERV ENT SHOWER BOILER B.T.U. SO. FT. ®c BATH TUB SO. FT. ® c WATER HEATER MAX. HEATER OUTPUT, B.T.U. SO. FT. RESID ® 11/. c SEWAGE DISPOSAL INSULATIONISOUND��j SO.FT.GAR ® 3/ac HOUSE SEWER FINISH GRADING GAS PIPING PERMIT FEE PERMIT FEE PERMIT FEE DBL TOTAL FEES MICRO FEE MECH.FEE PL.CK.FEE __JCONST. FEE ELECT. FEE SMI FEE PLUMB. FEE STRUCTURE PLUMBING ELECTRICAL HEATING & AIR COND. SOLAR SETBACK 16-'j f% G fdr PLUMBIN(Oy/ UNDERGROUND A.C. UNIT COLL. AREA SLAB GRADE S 9� �� ROUGH PLUMB. BONDING HEATING (ROUGH) STORAGE TANK FORMS SEWER OR SEPTIC TANK ROUGH WIRING DUCT WORK ROCK STORAGE FOUND. REINF. �� /0 GAS (ROUGH) METER LOOP HEATING (FINAL) OTHER APPJEOUIP. REINF. STEEL GAS (FINAL) TEMP. POLE GROUT WATER HEATER SERVICE FINAL INSP. BOND BEAM WATER SYSTEM FINAL INSP. GRADING cu. yd. $ ptus x$ _$ LUMBER GR. N FRAMING 0011 e ///` ci ,- �+�'® FINAL INSP. ROOFING�/�" //D/�O n REMARKS: VENTILATION FIRE ZONE ROOFING ' FIREPLACE SPARK ARRESTOR GAR. FIREWALL LATHING % aj Yp MESH INSULATIONISOUND��j FINISH GRADING FINAL INSPECTION CERT. OCC. FENCE FINAL INSPECTOR'S SIGNATURESIINITIALS ' GARDEN WALL FINAL Desert Sands Unified School District CERTIFICATION,tF PAYMENT 1:w.61Q 1%AGILITY_ FEES vow ItAcc3i 0 �mmQuna DATE: Departt of Community Development 78-105 Calle Estado La.Quinta, CA 92253 This is to erti th MUD developer of which is located at within this District, has paid school facility fees imposed pur uant to the authori y g by Gov rnment Code e iolt 53 80 in the amou t of $� I• ) coveting a total of square feet of ( ) residential or ( ) industrial/commercial a elopment and that building permits for this footage in this development may now be issued by your jurisdiction, �K� L -L- L op , 'N' f TO t, � ` for DESERT SANDS NIFIED SCHOOL DISTRICT White - Building Department • Yellow - Facilities Planning • Pink - Accounting • Gold - Developer (10)-37 '. Tures J0a aNu taaaa aseateso rAlr, to • : r John M. Hage 397 R. Catal na u.0 Pasadena, Cal. 91106 errs a wt. L I 3 1 SPACE ASOVR THIS LINK SHOpT FOFtRfi DuoOF TRUST AND ASSIGNMENT OF PIER I (INDIVIDUAL This Deed of Trust, tnada this 31st. day of Auq:lst, Rusty Rhodes, an unmarried man i Aw �2_ O at Y N ` 1 1 FOR R[CORD[W't3 UO[��� • P.M. 1989 , bow"m 'whose address is 39311 Hidden Water., Palm Desert, Cal. 92260 terein called TRUSTAR, (number and sirmI feltyt (qutl t f L P A S f O f I n A n C l A l, I n e ,, a (.alif„ntie rtttl,nration, hrrein rolled TRl'.%M:E, and John M. Hagey, a single man Witnesseth: celled aENErtcuRT, witnesseth: That Trustor IRREVOf.aRLT LP.•YTS, TRANSFERS AND ASSICNS 10 TRUSTEE IN rRUST, Wrr" ppgltl Or SAL[, that property in Riverside County, California, described as: The South 1/2 of Lot 4 in Block 20 Unit 2 Santa Carmelita at Vale La Quinta, as per map recorded in Book 18 Pages 55 and 56 Of Maps, in the office of the County Recorder of Riverside County, THE NOTE CONTAINS THE FOLLOWING RECITALt In the event of sale, transfer or alienation of LLtle te. the herein described property, or any part thereof, the Note and all other obligati secured hereby, regardless of maturity dates expressed thereon, will immediately become due and payable at the option of the then holder here $00 attached exPibit •A•. TOGE7 HER Wl'fH the rent,. i_m, and props thereof. SUBACT. HOM'EVER, to the right, power and suthoehy giveit to and contertea Upon &n-lkitry by paragraph 1101 of the prow iQoos Ineo"Forsted herein by reference In collect and apply rich rent%, issues and propr%. For the Propose o{ Securing:1. Ptrformanct Of each 119M:aent of Trustor incorporated of the inde6rednesr. evt0enced by one promi. refratttx ettaltisad herein. 2. i+ayrne� of f_.... tQ.ilQa OQ F 1Oey net of even date berewhh. and any eatetttloll or renewal Thereof. in Iht principal ante e%Rvtrd . v T^t to in favor of Beneficiaryor order. ). Payment of pace hrnhtr wnM as the then record owner o/ %aid prow"y hertaher may bo:m,, ..:m Benerr,:lary, when [vkkncet: anther nae to, notes, reciting his a0 aetuKd. To Protect the Security of This Ihed of Trust, Trustor Agrees: By the cte%vriun and deh.er) .d ih,% urri 111 Trov and the n(r* %mmd hereby, that ptm...m% t 1 I to (14). hacttnive. of the fkthiry, ,ted or tent Iertxder! ie Imperial Count . Septemhrr t. I v7t...nd In all �r c,wmie, SeMnihrt 7. 1976. m the M •.A and at the page of o(fr•ial Re tnds in dit office of theeou, Y rnti>nkr of the ct,umy ..Acre %ad prnprny Is heated, tailed 6el,x ,Tp,ninr the name .,f wh .twmy..ie: toumv WOK PAG[ 1"11:011,11,1111 Kern 1301 fist LOS #4"w 406 T10313 136 ORlvvsloa 1 100 me San eti rrrrro. , 1070 7S owe 12,3121 Son' 0" 1070 1147 Sm 4 Ob Vol 1020 M2923U toe Santa Barbara 41! Venture 46N wee n •high p..%i.ion., i,knh.d rn all r,.�mrr., At, prtntrJ ,M IM rr%er— 1.4..41 hereby air atl..pt..1 and im-..Ip.aurd hnrla anti Mede a pari n...l a, fully a• lhnuah .et Imth h.•rria at length: that IW well nli.rr%r and perinirm .ai.1 pr••sr.i..u.; and That the refer R,e Io preprrty, Wlsati..n%. and parties in aid pr,ni.f.4" hall be cen.trwd 1. rrfrr I•, the pr..prfly..rbligali M., and part" Ary Nth ;n this teed el Trust. Th- undrr.isnrJ Tre-tor mlur.l. that a t..py .d say N,nitr u1 Default and .d any Y. lar .1 yak hr"VrAlrr he atadrd to him a hi. a4dteq •r.inlrl..ir w rash. TATF. OF CALIFORNIA. OUNTY OF. Riverside - SS. ofTrourr,r .. ` " before am, t or". a Notary Public In and for %old State. personally appeared .-Rusty. Rhodes _ __ ... ._ Ieowo to tete he flit perwm ._ whow name is .zub2crIbe4 to the within J— - urumem and acknowledged that. he _-.ffecuted the time. IT NF SS my hand and oftisl real. malurt _...._._-_.— lie Order No. — E T. I T L E G 4 P==IT I ON S -FAN DA R D ENERGY C ON S ER' -:' RES I DENT I AL COMPLIANCE PORTFOL I O PrepAred for: Project: Prepared by: P A T K E L L E Y - E L E C'T R I C H E A T I N G & A I R C O N D I T I O N I N G 82-192 Sierra Avenue Indio, to 92201 (619) 347-5233 STATE LIC. # 376505 Signed by: (Calculation by MICROPAS, 1.0,8, 12-26-83) ENERGY USE SUMMARY ( k B t u/sf -yr ). Energy Use Standard Design Proposed Design. Heating 6,83 7.14 COMPUTER. METHOD SUMMARY File: NONE Page 1 of 3 CF -2R Project Title RUSTY RHODES Date: 01/24/90 Pr•oject.Address RESIDENCE 0.0,0 IBuilding Permit #1 Documentation Author I .1 Telephone IPlan Check / Datel Compliance Method EASY.CALC 010189A.2 REDUCED YEAR (Field Check/ Datel Climate Zone 15 I I ENERGY USE SUMMARY ( k B t u/sf -yr ). Energy Use Standard Design Proposed Design. Heating 6,83 7.14 Cooling 45.30 42.24 Venting 0.00 0.0,0 Hot Water 12.35 7.74 Total 64.49 57.12 -7.37 -11.43% COMPLIES GENERAL INFORMATION Conditioned Floor Area: 1514 sf Building Type:. 1 Single -Family Detached Building Front Orientation: 180 azimuth (south) Number of Dwelling Units: 1 , Building Latitude 33.5 Number of Conditioned Floors: 1 Floor Construction Type: SLAB Number of Bu i 1 d'i ng Zones: 1 Total Volume: 12616 cf Conditioned Footprint: 1514 sf Ground Floor Area: 1514 sf Area of Add i t i.on : None BUILDING ZONE INFORMATION Floor Candi- Infil-. Zone Area Volume tioned tration Name (sf) (cf) (Y/N) Control HOUSE 1514 12616 -Yes STANDARD OPAQUE SURFACES WITH SOLAR GAINS Actual Surface Area Insul. Azi- Solar Form 3 Type (sf) U -Val R -Val' muth Tilt. Gains. Ref.. Location/Comments Zane=HOUSE, NEW Surfaces NWALL 350.0 .0.092 R-11 90. 90 Yes WALL01 . EXTERIOR WALL EWALL 116.0 0.092 R-11 `180 90 Yes WALL01 EXTERIOR WALL SWALL 304.0 0.092• R-11 270 90 Yes WALL01 EXTERIOR WALL WWALL 252.0 0.092 R-11 0 90 `fes WALL01 EXTERIOR WALL ROOF 0.0 0.035 R-30 270 90 Yes ROOF01 ROOF W/ ATTIC DOOR 20.0 0.330 R-7 270 90 Yes DOOR01 TYPICAL DOOR COKPUTEK METHOD SUMMARY File: NONE Page 2 of 3 CF -2R Project Title RUSTY RHODES Date: 01/24/90 OPAQUE SURFACES WITHOUT SOLAR GAINS Surface Area Insul Form 3 Type (sf) U -Value R -Value Ref. Location/Comments ---------------------------------------- ------------------ Zone=HOUSE, NEW Surfaces HSECRLFL 1514.0 0.030 R-38 FLOORI FLOOR @ CRAWLSPACE INTWALL 108.0 0.090 R-19 WALL5 GARAGE WALL SLABEDGE 135.0 0.750 R-0 FLOOR2 SLAB EDGE GLAZING SURFACES Solar Gain Targeting Actual Glazing Glazing .-------- ------ ------ SurfaceA Area- Az i - Opening Char•actr• Treatmnt Plass Winter Summer Type (sf) mu th Tilt Type Name Name Name Frac t . Fr•ac t . Zone=HOUSE, NEW Surfaces NGLASS 42.0 90 90 SLIDER DBL01 6VERHN62 EGLASS 36.0 180 90 SLIDER DBL01 OVERHNG2 SGLASS 40.0 270 . 90 SLIDER DBL01- OVERHNH2 WGLASS 68.0 0 90 SLIDER DBL01 OVERHNG2 GLAZING CHARACTERISTICS Glazing Heat SC Interior SC Exterior Mass Area Charactr Glazing Frame (shade Shade (shade 'Shade Ext. Name -------- Type -------- Type ------=- U -dal open) ----- ------ Type closed) Type -------- SC DBL01 DBL01 METAL 0.60 0.77 --'---- STA,NDDRP 0.66 -------- NONE ------ 1.00 DBL02 DBL02 METAL 0.60 0.77 STANDDRP 0.66 NONE 1.00 DBL03 DBL03 WOOD 0.60. 0.67 STANDDRP 0.57 NONE 1.00 SINGLE SINGLE METAL 1.10 0.88 STANDDRP 0.80 NONE 1.00 EXTSHADE EXTSHADE METAL 0.60 0.77 EXTSCRJ 0.66 NONE" 0.36 GLAZING TREATMENTS (Overhangs, Shading Schedules,•.and Shutters) Treat- Overhang Shading Shut. Shut. Shutter ment Window -------------- Sched. U- Trans. Schedule Name -------- Height. ------ Extens. Height ------ Name. Value Factor Name OVERHNG1 4.00 ------ 1.50 -------- 0.75 NONE ------ ------ 0.000 0.00 -------- NONE OVERHNO2 5.00 2.50 0.75 NONE 0.000 0.00 NONE THERMAL MASS Heat Inside Mass Area Thick- Cap- Conduc- Surface Form 3 Name (sf) -------- ness acity tivity R -Value Ref. -----= ------ Zone=HOUSE,, NEW Surfaces ------ ------ ------ -------- SLABEXP 215.0 3.5 23 0.98 0 NONE SLABCRPT 1299.0 3.5 28 0.98 2 NONE Location/comments ------------------ EXP SLAB ON GRADE CRPT SLAB ON GRADE F COMPUTEP METHOD SUMMARY. F.i,l e : NONE Page 3 of 3 CF -2R Project Title RUST`(, RHODES ------------------------- Date: 01/24/90 HVAC SYSTEM System Equipment Duct. Duct Type Efficiency Location R -Value Zone=HOUSE, NEW Sys tem=_• FURNACE 0.72 SE ATTIC 6.3 AC 9.0 SEER. ATTIC 6.3' VENTILATION SYSTEMS Vent. Fan fan Temp. Addn'I Addn'l System Flow Power Diff. Vent Height Name - (cfm) . (W.icfm) (.deg F) Area D i ff . NATURAL 0 0.00 0 0.0 ------ 0.0 WATER HEATING SYSTEMS # of Units Capa- Rcrvy Percent Input'' Energy System Type Systems Served c i ty Eff. . Standby Rating Pi,.l of -Factor Credits Gas Storage 1 1:' 50 99.50 1.00 4000 NONE CER,TIFIGATE OF COMPLIANCE: RESIDENTIAL' ---------------------------------------------------7--------------------------- Page 1 of 2 CF-IR Project Title RUSTY RHODES Date: 01/24/90 Pr•ojec.t Address RESIDENCE " IBuilding Permit#1 Documentation Author I I Telephone ' (Plan Check /. Datel Compliance Method EAS`( CALC 010189A.2 REDUCED YEAR I (Field I Check/ Datel Climate Zone 15 1 ----------------------------- I GENERAL INFORMATION Conditioned Floor, Area: 1514. sf Building Type: Single -.Family Detached 'Building Front Orientation: 180 azimuth (south) Number of. Dwelling Units: 1 Building Latitude- 33.5 Floor Construction Type: SLAB I:nf i 1 trat.i on Con tr•ol : STANDARD BUILDING SHELL- INSULATION Component 'I6su I Name R-value Location/Comments: , WALL01. R-11 EXTERIOR WALL ROOF01 R-30 ROOF W/ ATTIC DOOR01 R-7 , TYPICAL DOOR FLOORI R-38 FLOOR nl CRAWLSPACE .WALL5 R-19' GARAGE WALL FLOOR2 R-0 SLAB-EDGE' GLAZING Shading Devices Gl az i -rig Area Gl ass ----------------- Overhang Framing Orientation (sf)' Type, Interior Exterior (yes/no) --- --------- ------------------------------- Type . ___ Right (East) 42.0 DBL01 STANDDRP NONE. OVERHNG2 _I-.,----- METAL Front (South) 36.0 DBL01 STANDDRP NONE OVERHNG2 METAL Left (West) 40.0'DBL01 STANDDRP NONE OVERHNH2 METAL Rear (North) 68.0 DBL01 STANDDRP NONE OVERHNG2 METAL THERMAL MASS -Area Thickness Type/Cowering (sf) (-,inches) Locat i ori/Descr i p tion -----5.0 3. ---------------x---- ------------------ _---5 EXP SLAB ON GRADE SLABCRPT 1299:0 3.5' CRPT SLAB ON.GRADE CERTIFICATE OF COMPLIANCE: RESIDENTIAL Page 2 of 2 CF -IR Project Title RUSTY RHODES Date: 01/24/90 HVAC SYSTEMS System Equipment Duct Type ----------- Efficiency ---------- Location FURNACE 0.72 SE ----------- ATTIC AC.. 9.0 SEER ATTIC Duct, --------- (or approved equal)--------- R-Value Output Manufacturer/Model Number --------------- --------------------------- 6.3 72000 AMANA GHI9OA30 6.3 43000 AMANA VRC42 CEC Maximum Furnace Output: 72000 Btuh Zonally Controlled HVAC? No WATER HEATING -SYSTEMS Tank ----(or approved equal) ----- System Type Capacity Manufacturer/Model Number Special Features ---------------- -------- --- --------- ---------------- ----------------------- Gas Storage 50 NONE NONE COMPLIANCE STATEMENT s This certificate of compliance•lists'the building features and performance specifications needed to comply with Title 24,"Chapter• 2-53 and Title 20, Chapter S, Subchapter 4,,Ar•ticle 1 of the California Administrative code. This certificate- has been signed by the individual with overall design responsibility and the building owner, -who shall retain a copy of it and then tr•ansmi t the certificate to any subsequent'.purchaser of the building'. When this certificate of. compliance .is submitted for a single building plan to be built in multiple orientations, all building conservation features which vary are indicated in the Special Features/Remarks section. DESIGNER: Name: Company:_ Addr• e ss Telephone: Tatanhnna• $I- Lic #: Si gned (date) DOCUMENTATION AUTHOR Name: - Company: Pat Kelley Address: y Telephone: Si gned 9Q (date) ENFORCEMENT AGENCY Name: Title: Agency: Telephone: Signed idate) Page 1 < < < Date -02/10/90 User- Program -FORMAT > > > Run -RUSTY RHODES Project -RESIDENCE. File -NONE ---------------- CONTROL,DATA 1 . 1' RUN DATA 1> RUN TITLE (25 characters maximum) ................. . ... RUSTY RHODES 2> PROJECT TITLE (25 characters maximum) ............... ...., RESIDENCE. 3> OWNER'S NAME,(25 characters maximum) ........ ... RUSTY RHODES 4> SITE LOCATION'(25 characters maximum) ............. ..... MENDOZA LA QUINTA 5> COMMENT TEXT (70 characters maximum) : .............. ..... N/A 6> COMMENT TEXT (70 characters maximum) .............. ..... N/A 7> COMMENT TEXT.(70 cheracter•s maximum) :............... ..... N/A 1.2 SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deg.) .................. 33.5 2> BUILDING ROTATION (deg., 0-360, O=N, 90=E, etc.): ... 90. 3> NUMBER OF WARMUP DAYS (3 min, 10 max) c ............. 5 4> WEATHER DATA FILE NAME (CTZI2RY, etc.) ............ CTZI5CR 1.3 CUSTOM BUDGET DATA 1> CUSTOM BUDGET INDICATOR ('Y, •N, A, orB') : .......... .. Y 2> BUILDING TYPE (SINGLE, CLUSTER; MULTIPLE) : .......... SINGLE 3> FOOTPRINT AREA (square feet) : ....... ....... ..... 1514 0 NUMBER OF CONDITIONED FLOORS (Whole number => 1) : .. 1 5> NUMBER OF DWELLING UNITS (Whole number >= i) : ...... 1 6> ENTRY DOOR ORIENTATION (Orientation of Door')':..... 90 7> AREA OF ADDITION (square feet) ...................... 0 Pace 2 < < < Date-02/10/90 User- Program-FORMAT > } > Run-RUSTY RHODES Project-R,ESIDENGE File-NONE ---------------- 1.4 SIMULATION CONTROL DATA 1> NUMBER OF SIMULATION SEASONS (14 only) ..... 14 2> ROW SEASON SIMV= NAME LATE SEASON --------1------ -2---- 1 :.JANUARY Y 2 .FEBRUARY Y 3 ..MARCH Y 4 ...APRIL Y 5 ......MAY Y 6 ..JUNE Y 7 .....JULY Y. 8 ..AUGUST Y 9 SEPTEMBER `f 10 _OCTOBER Y 11 .NOVEMBER 'f 12 DECEMBER lr' 13 PEAK HEATING N 14 PEAK COOLING N 1.5 SEASON OUTPUT SPECIFICATIONS' 1> COPY OF INPUT DATA ('YES, Y, NO, or N) 2> AMBIENT SUMMARY (YES,,Y,-NO, or N)":............ N. 3> ZONE LOADS (YES, Y, NO, or N) ...................:..,N .4> ZONE HEAT FLOWS (YES, Y, NO, or..N.) ........ N 5} MASS SUMMARY (YES, `f, NO, or N).:. ...o. N 6> TEMPERATURE SUMMARY (YES, Y., NO; or PJ) ... ....... N ... 7> PEAK CONDITIONS.(YES;,Y, NO,, or N). ................ N Page 3 < < < Gate -02/10/90 User- Program—FORMAT > -> > Run—RUSTY RHODES Project—RESIDENCE File=NONE. 1.6 DAILY OUTPUT'SPECIFICATIONS r. 1 > ROW • SEASON AMB- ZONE ZONE MASS ` TEMP NAME I ENT LOADS HEAT SUM- SUM—. SUM . FLOWS MARY. MARY --- -----1-----= --2-- --3-- -;4-- --5-- --6-- 1 ..JANUARY N N N. N N 2 .FEBRUARY N N N N N ` 3 ..MARCH N. N - �N N N . :4a ....APRIL N N N N N 5 ......MAY N 4N N' N N 6 ... JUNE N N N N N 7 .. .JULY N N N. N N 8 ...AUGUST N N `'N N N 9 SEPTEMBER N N N. 'N N ' 10 ..00TOBER N N- N N N . 11 .NOVEMBER N N N N N 12 .DECEMBER N N N N N 13 PEAK_HEATING N N 'N N N ` 14 PEAK_COOLING N N N N N .' 1.7 HOURLY OUTPUT. SPECIFICATIONS 1> ROW SEASON! IAMB ZONE ZONE MASS TEMP. TEMP. NAME, LENT LOADS,HEAT SUM SUM— GRAPH SUM. FLOWS -MARY; MARY --- -----1------ --2-- 1 JANUARY N N N N N N ,2 :FEBRUARY N N N N -N N 3 ...'.MARCH N' N N N N ;`N 4, ...APRIL N N N N N N 5 .. ..MAY N N N- N N N ` 6 ..JUNE N N N N N- N 7 .....JULY N N. N. N N N 8 ... AUGUST N N N' -N N N . .9 SEPTEMBER N N N N N N r 10 ..00TOBER N N N N N N 11 .NOVEMBER N N' N N N N 12 .DECEMBER N .N N N N N 13 PEAK_HEATING N N N N N N 14 PEAK COOLING N N ''N N N N Page 4 Date -02/10/90 User- Program -FORMAT > > > Run -RUSTY RHODES Project -RESIDENCE File -NONE ZONE DATA 2.0 ZONE DATA 1> ZONE CONDITIONED INDICATOR ('P' only) :.............. 2> ZONE NAME (HOUSE, etc.) ............................ 3> FLOOR AREA (square feet) ........... ..... ....... 4> VOLUME (cubic feet) . ............................... 5> ADDITIONAL -ZONE HEAT CAPACITY (Btu/F) : ............. 6> INTERNAL GAIN SCHEDULE (INTERNAL, etc.) : ........... 7> INFILTRATION CONTROL KEYWORD ('STANDARD' 'TIGHT') 8> HEAT EXCHANGER SYSTEM NAME (NONE only, fixed) : ..... 9> HEATING SYSTEM NAME (FURNACE, RESIST, etc.) : ....... 10> COOLING SYSTEM NAME (AC, HEATPUMP, etc.) : ..... 11> VENTILATION SYSTEM NAME (NATURAL only, fixed) : .... 12> WATER HEATER TYPE KEYWORD (TANK, INSTANT, etc.) .. 13> HEATING THERMOSTAT NAME (HEATSETB or HEATCNST) ... 14> COOLING THERMOSTAT NAME (COOLCNST only) : .......... OPAQUE SURFACE WITH SOLAR GAIN! DATA ----------------------------------- ----------------------------------- 3.1 OPAQUE SURFACE WITH SOLAR GAIN^a DATA 1> NUMBER OF SURFACES (20 maximum) 2> ROW OPAQUE AREA U -VALUE BUDGET SURFACE (sf) (Btu/sf SURFACE NAME 1 -F) --- ---1---- ---2---- ---3---- 1 NWALL 350., 0.092 2 EWALL 116 0.092 3 SWALL 304 0.092 4 WWALL 252 0.092 5 ROOF 0 0.035 6 DOOR 20 0.33 P HOUSE 1514 12616 0 INTERNAL STANDARD NONE FURNACE AC NATURAL TANK HEATSETB COOLCNST . ................... 6 AZIMUTH TILT ZONE OPAQUE BUDGET (deg.) (deg.) NAME SURFACE SURFACE 1 R1IWALL 11 TYPE KEYWORD ---4---- ---5--- ---6---- ---7---- ---8---- 0 90 HOUSE R11WALL NEW 90 90 HOUSE R1IWALL NEW 180 90 HOUSE R1IWALL NEW 270 90 HOUSE RIIWALL .NEW 180 90 HOUSE R38ROOF, NEW 180 90 HOUSE DOOR NEW 3.2 OPAQUE SURFACE WITH SOLAR GAINS TYPE DATA 1> NUMBER OF SURFACE TYPES (20 maximum) : 4 2> ROW SURFACE R- FORM 3 , LOCATI.ON USER TYPE VAL REFER- and/or NOTES -----------5----------- NONE NONE NONE UNINSULATED DOOR r '' NAME ENCE) COMMENTS --- ---1---- -2- ---3---- --------4--------- 1 R1IWALL 11 WALL01 EXTERIOR, WALL 2 R19WALL 19 WALL02 EXTERIOR WALL 3 R38ROOF 30 ROOF01 ROOF W/ ATTIC 4 DOOR . 7 DOOR01 TYPICAL DOOR -----------5----------- NONE NONE NONE UNINSULATED DOOR r '' Page 5 < < < Date -02/10/90 User- Program -FORMAT > > > Run -RUSTY RHODES Project -RESIDENCE File -NONE GLAZING SURFACE DATA t , _______ 4.1.GLAZED SURFACES DATA 1> NUMBER OF SURFACES (20 maximum) .................... 4 2> ROW GLAZED AREA AZM. TILT ZONE GLAZED TREAT- BUDGET SURFACE (sf) deg. deg. NAME SURFACE MENT SURFACE NAME TYPE NAME KEYWORD --- ---1---- ---2---- =-3-- --4-- ---5---- ---6---- ---7---- ---8---- 1 NGLASS 42 0. 90 HOUSE DBL01 OVERHNG2 NEW 2 EGLASS 36 90. 90 HOUSE DBL01 OVERHNG2 NEW - 3 SGLASS 40 180 90 HOUSE DBL01 OV ERHNH2 NEW 4 WGLASS 68 270 90 HOUSE DBL01 OVERHNG2 NEW 4.2 -GLAZING SURFACE -TYPE DATA 1> NUMBER OF SURFACES (20 maximum) : ................:.... 5 2> ROW GLAZING FRAME VENT U- GLASS INTERIOR INT. E)<TERIOR EXT. TYPE TYPE TYPE VALUE ALONE SHADING DEV. SHADING DEV. NAME KEYWORD -KEYWORD S.C. DEV NAME S.C. DEV NAME S.C'.' --- ---1---- -=-2---- ---3---- --4-- --5-- -=-6---- --7-- ---8---- --9-- 1 DBL01 METAL SLIDER 0.60 0.77 STANDDRP 0.66 NONE 1.00 2 DBL02 METAL FIXED 0.60 0.77 STANDDRP 0.66 NONE 1.00 3 DBL03 WOOD HINGED 0.80 0.67 STANDDRP 0.57 NONE 1.00 4 SINGLE METAL SLIDER 1.1 0.88 STANDDRP 0.80 NONE 1.00 5 EXTSHADE METAL SLIDER 0.60' 0.77 EXTSCRN 0.66 NONE 0.'36 4.3 GLAZING TREATMENTS 1> NUMBER. OF TREATMENTS (10 maximum) ................... 2 2> ROW TREAT- GLS. OVER OVER SHADING SHUT. SHUT. SHUTTER MENT HT. HANG. HANG SCHED. ; U-VAL TRAN. SCHED. NAME LEN. HT. NAME -UE FACT. NAME --- ---1---- --2-- --3-- --4-- ---5---- --6-- --7-- 1 OVERHNGI- 4.0 1.5 0.75 NONE 0 0 NONE 2 OVERHNG2 5.0 2.5 0.75 --NONE 0 0 NONE 4.4 ABSORBED INSOLATION FRACTIONS 1> NUMBER OF,FRACTIONS (0 only, fixed) :................. 10 Page 6 < < < Date=02/ 10/90 User- Program -FORMAT > > > Run -RUST`( RHODES Project -RESIDENCE File -NONE OPAQUE SURFACE WITHOUT SOLAR GAIN DATA , 5.1 OPAQUE SURFACE WITHOUT SOLAR GAINS DATA 1> NUMBER OF SURFACES (20 maximum) : ................... 3 2> ROW SURFACE AREA U-VALU INSIDE SURFACE SURFACE BUDGET" NAME (sf) (Btu/s ZONE KEYWORD TYPE SURFACE -F) NAME KEYWORD --- ---1=--- ---2---- --3--- ---4---- ---5---- ---6---- ---7---- 1 HSECRLFL 1514 0.030 HOUSE WALL FLOOR01' NEW 2 INTWALL 108 0.090 HOUSE- WALL NSWALL01 NEW 3 SLABEDGE 135 0.75 'HOUSE'' WALL FLOOR02 NEW 5.2 OPAQUE SURFACE WITHOUT SOLAR GAINS TYPE DATA 1> NUMBER OF TYPES 2> ROW SURFACE R - TYPE VAL --- ---1---- -2- 1 FLOOR01 38 2 NSWALL01 19 3 FLOOR02 0 MASS DATA 6.0• MASS DATA (20 maximum) : ........ .... ...... 3 INSUL FORM 3 LOCATION USER. DEPTH REFER- and/car NOTES ENCE) COMMENTS --3-- ---4---- --------- 5--------- ----- --------- 12 FLOORI FLOOR a CRAWLSPACE NONE 6 WALL5 GARAGE WALL NONE 0 FLOOR2 SLAB EDGE NONE 1> NUMBER OF MASSES -(5 maximum) 2 MASS #1 1> MASS NAME (SLAB-,.MASSWALL, WATER, etc.) .......... SLABEXP 2> TYPE (NODAL, ISOTHERM) NODAL 3> SURFACE AREA (sf) .............................. ... 215 4> THICKNESS (inches) .......... ..... ............ ... 3.5 5> VOLUMETRIC'HEAT CAPACITY (Btu/cf-F) : ............ ... 28 6> CONDUCTIVITY (Btu-ft/hr•-sf-F) : 0.98 7> SIDE #1 MASS SURFACE NAME (SLABTOP, etc.) : ......... SLBTOPEX 8> SIDE #1 SURFACE CONDUCTANCE (Btu/hr•-sf-F) : .....1.3 9> SIDE -#1 ZONE,NAME (.HOUSE, AMBIENT, etc..),: ........... HOUSE 10> SIDE #2 MASS SURFACE NAME (SLABBOT, etc.') : SLBBOTEX II> SIDE #2 SURFACE CONDUCTANCE (Btu/hr-sf-7F) : 0 12> SIDE #2 ZONE NAME (HOUSE, AMBIENT, GROUND, etc.) : GROUND 13> INSULATION R -VALUE (R -Value) : ..................... 0 14>"FORM 3 REFERENCE (name) . ......... ....... ..... NONE 15> LOCATION/COMMENTS (text, 18 char.) ................EXP SLAB ON GRADE 16>"BUDGET MASS TYPE (NEW, CHANGING, EXISTING) : ....... NEW 17> SLAB ON GRADE INDICATOR (YES, Y, NO, or N) : ....... Y Page 7 < < < Date -02/10/90 User- Program -FORMAT > X > Run -RUSTY RHODES Project -RESIDENCE File -NONE MASS #2 1> MASS NAME (SLAB, MASSWALL, WATER, etc.) SLABCRPT 2> TYPE (NODAL, ISOTHERM) NODAL - 3> SURFACE AREA (sf) ................................. 1299 4> THICKNESS (inches) . ... .. .................... 3.5 5> VOLUMETRIC HEAT CAPACITY (Btu/c.f-F) : ................ 28 6> CONDUCTIVITY (Btu-ft/hr-sf-F) : ....................... 0.98 7> SIDE #1 MASS SURFACE NAME (SLABTOP, etc.) : .... .. SLBTOPCP 8> SIDE #1 SURFACE CONDUCTANCE (Btu/hr-sf-F) : 0.36 9> SIDE #1 ZONE NAME (HOUSE, AMBIENT, etc.) : .......... HOUSE 10> SIDE #2 MASS SURFACE NAME.(SLABBOT, etc.) : ........ SLBBOTCP 1,1> SIDE #2 SURFACE CONDUCTANCE (Btu/hr-sf-F) ...... 0 12> SIDE #2 ZONE NAME (HOUSE, AMBIENT, GROUND, etc.) ..GROUND 13> INSULATION R -VALUE (R -Value) : ....... 14> FORM 3 REFERENCE (name) :.. .. NONE 15> LOCATION/COMMENTS (text, 18 char.) :............. .. CRPT SLAB ON GRADE '16> BUDGET MASS TYPE'(NEW,.CHANGING, EXISTING) NEW 17> SLAB ON GRADE INDICATOR (YES, Y, NO, or N) : ....... Y SYSTEMS DATA 7.1 AIR-TO-AIR HEAT EXCHANGER SYSTEMS 1> NUMBER OF HEAT -`EXCHANGER SYSTEMS (0 only).: ..... 0 7.2 HEATING,SYSTEMS 1> NUMBER OF HEATING SYSTEMS'(3 maximum) : ............. 1 2> ROW HEATING HEATING HEATING RATED DUCT/ BUDGET SYSTEM FUEL EFFIC- CAPACITY LOC-LNS. HT SYST NAME NAME. IENCY (Btu/hr) KEYWORD TYPE --- ---1---- ---2---- ---3---- ---4---- ---5---- ---6---- 1 FURNACE FUEL 0.72 � 500000. ATTIC6- NEW 7'.3 COOLING SYSTEMS 1> NUMBER OF COOLING SYSTEMS (3 maximum) ............. 1 2> ROW COOLING SEASONAL COOLING .LATENT DUCT/ BUDGET SYSTEM EER CAPACITY LOAD LOC -INS. CL SYST NAME ( Btu/Wh ) ( Btu/h r) .FRACTION KEYWORD TYPE --- ---1---- =--2---- ---3---- ---4---- ---5---- ---6--- 1 AC 9 500000 0 ATTIC6 NEW Page 8 <.< < Date -02110790 User Program -FORMAT > > > Run -RUSTY RHODES Project -RESIDENCE. File -NONE 7.4 VENTILATION SYSTEMS .1> NUMBER OF VENTILATION SYSTEMS (1 only, fixed) ..... 1 2> ROW VENT. FAN FAN TEMP. ADDN'L.ADDN`L BUDGET SYSTEM FLOW POWER DIFF. VENT HEIGHT VENT. NAME (cfm) W7cfm (F) AREA DIFF. TYPE . --- ---1---:- --2--- --3--- --4--- --5--.- --6--- ---7---- 1 NATURAL 0 0 .0 0 0 NEW 7.5 THERMOSTAT SYSTEMS 1> NUMBER OF THERMOSTAT SYSTEMS (6 maximum) 2> ROW THERMO- MINIMUM MAXIMUM DESIRED MIN. MAX. DESIRED HOURLY STAT TEMP. ' TEMP. TEMP. SET- SET- SET- SCHEDULE NAME. (F) (F) (F) BACK BACK BACK(F) NAME -=- ---1---- 2-=- ---3--- ---4--- 5-- =-6=- ---7--- ---8---- 1 HEATSETB 68 78 77 60 78 77' SETBACK 2 HEATCNST'68 78 77 0 Q 0 NONE 3 COOLCNST 60, 78 68 0 0 0 NONE WATER HEATING DATA 8.1 STORAGE WATER HEATER DATA 1> WATER HEATER TYPE (SG c,r.SE) . .. .... . .. SG 2> MANUFACTURER (name) . ...... ... NONE 3> MODEL NUMBER (number)_. NONE 4> IGNITION TYPE (GP or IID) ... .... IID 5> TANK VOLUME (ga.11cns) . ............................... 50 6> RECOVER`( EFFICIENCY (percent) . ..................... 99.5 7> STANDBY LOSS (percent/hour) ........................ 1.00 8> RATED INPUT (Btu/hour) . .... 4000 9> NUMBER OF WATER HEATERS (number) . ............ 1 10> NUMBER OF PUMPS (number) ....... ................ 0. 11> PUMP ENERGY (Wat,t-hr7year) ..... 0 12> CREDIT NAME (ASOLAR,HWRS,WSB, etc.) : NONE 13> ANNUAL SAVINGS (KBtu7year) . 0 Page 9 < < < Date-02/10/90 User- Program-FORMAT > > > Run-RUSTY RHODES Project-RESIDENCE,. File-NONE 8.2 INSTANTANEOUS WATER HEATING DATA 1> WATER HEATER TYPE CIG or .IE) : ........ 2> MANUFACTURER-(name) .... . NONE 3> MODEL NUMBER (number) : ..................... ... NONE 4> IGNIT'ION.DEVICE (GP or IID) . ....................... IID •5> RECOVERY EFFICIENCY (percent) . ..................... ...... ...... 76. 6> NUMBER OF WATER HEATERS (number) :...:. ...... 0 7> NUMBER OF PUMPS (number) .......................... 0 8> PUMP ENERGY (Watt-hr./year)) : ..•..... ...'.....,..... 0 9> PILOT LIGHT ENERGY (GAS: KBtu/yr', ELECT: N/A) ....: 0" , 10>.CREDIT NAME (ASOLAR,HWRS,WSB, etc:") : ............... NONE 11> ANNUAL SAVINGS (KBtu/year•); 0 8.3 HEAT PUMP WATER HEATER DATA 1> IJATER HEATER TYPE '(HPWH only) :...................... 0.- 2> MANUFACTURER (name) : , NONE 3> MODEL NUMBER (number) NONE 4> ENERGY FACTOR (.from LAMA directorX) .... 0 5> NUMBER.OF,PUMPS (number) : ......11.... ........ 0 6> PUMP ENERGY (Watt-hr/year) ..... .................... 0 7> CREDIT NAME,(ASOLAR,HWRS,WSB,.,et,c.) ...........:... NONE 8> ANNUALSAVINGS (KBtu/year) . 0 8.4 EXTERNAL CALCULATIONS.DATA 1> EXTERNAL CALCULATION ENERGY (KBtu/year).:......:.. -0 Paye 10 .< < < Date=G2/10/90 User- Program -FORMAT > > > Run -RUSTY RHODES Project -RESIDENCE ---------------- File -NONE SCHEDULE DATA 9.0 HOURLY SCHEDULES 1`> NUMBER OF HOURLY SCHEDULES (2 -maximum) - : :'..: - ....... 2 HOURLY SCHEDULE #1 1> HOURLY SCHEDULE NAME (INTERNAL; SETBACK) : .......... INTERNAL 2> HEATING HOURLY SCHEDULE DATA (fraction) 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 HOURLY SCHEDULE DATA (fraction) - 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021.. 6. 0.06 7. 0.038 8. 0.059 9. 0.056 10. 0.050 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 HOURLY SCHEDULE #2 1> HOURLY SCHEDULE NAME (INTERNAL, SETBACK) .......... SETBACK 2> HEATING HOURLY SCHEDULE DATA (fraction) 1. 0• 2. 0 3. 0 4. 0 5. 0 6. 0 7.. 0 8. 1 9. 1 10. 1 11. :1 12. 1 13. 1.. 14. 1 15.. 1 16. 1 17. 1 18. 1 19. 1 20. 1 21. 1 22. 1 23. 1 24. G 3> COOLING HOURLY SCHEDULE DATA (fraction) 1. 0 2. 0' 3. G 4... 0 5. G 6. G 7. 0 8. 1 9. 1 10. 1 11 : 1 12. 1' 13. 1 ., 14. 1 15. 1 16. 1 17. 1 '18.- 1 19. 1 .20. 1 21. 1 22. 1 23. 1. 24. 0 FORM J-1T (Transparent) Including Calculation Procedures A, B, C, D Plan NO. Copyright by the Date Air Conditioning Calculated by Contractors of America Formerly: National Environmental Systems Contractors Association ` 1228 17th Street N.W. Washington, U.S.A.D.c. Printed in . WORKSHEET FOR MANUAL J ' 1983 LOAD CALCULATIONS FOR RESIDENTIAL AIR CONDITIONING For. Name %e 4 s T �/ 2N0 0- c. S Address Dolt !4 ' City and State or Province L- r9 .._. i4 Al 7-4 C By: Contractor /�'4 r Lf L LE Address $2,:l4L S/46edeIV /�G/�, 3g7533 City 41 .37 /P so s Design Conditions Winter Summer Outside db 3 c/'F Inside db, 7d OF Outside db L d S OF Inside db 79- °F Winter Design Temperature Difference. 3 G ' F Summer Design Temperature Difference 31 OF Room RH SO �� Dally Range 30 Heating Summary Total Heat Loss foe Entire House (Line 15) = / 80 Btuh Ventilation CFM = �a Winter Design Temperature Difference = 3-6 ° F Heat Required for Ventilation Air = 1.1 X CFM X 3 *F = 2-39 Btuh Design Heating Load Requirement = SSD S �" (house) 3.38 (Vent) _ B'L90 Btuh Cooling Summary Total Sensible Gain 2 ( 7./9 Btuh (Calculation'Procedure D) Design Temperature Swings Total Latent Gain + 31 V Btuh (Calculation. Procedure D) Normal 3° (k ) 4.50 ( ) Total = Sens. + Lat. = Z 3 d S8i Btuti Ventilation CFM — Equipment Summary a %E Make AAAJ4�Model & e— /,—' Z Type S, C_ C / �/ S V� 1/& K� Heating Input (Btuh) OD Heating Output(Btuh) 77L 66 Efficiency g0 �� ODD Latent Cooling (Btuh) Total (Btuh) 3 D O c7 Sensible Cooling (Btuh) / 3 S S Heating CFM / / Z o COPlEER1SEERlHSPF: S� Cooling CFM Space Thermostat ',-'Heat( ) Cool ( ) Heat/Coot ( ) Night Setback Construction Data Windows 12 /+ L 61 LI Z a D Floor Partitions Doors . C/9 N 4 � ED � •G! EiA TNE�e' Walis S ru C 0 4OA& c? (.� r TK ' Basement Waits p /l /nlSu `197/on/ Ground Slab C9 N C', X it Roof. Ceiling Aj s ��A/ �u6. 4Fro Al s 7 tAA 15� 57S )-1s c,r 7-/ 7- 1' Name of Room Entire House I1 �� /�%+ 2 n/U`/� %l Running Ft Exposed Wall Room Dimensions, Ft Ceiling Ht, Ft Directions Room Faces TYPE HTM Area Btuh Area Btuh Area i' Btuh 3 j,�f S! 4 Stru7H* 'S — z �. '�► y 3 Area Btuh Area Btuh Area Btt EXPOSURE : No. Htg Clg Length Htg Clg Length Htg CIg length Htg Clg Length Htg Clg Length Htg Clg Length Htg ' 5 Gross a / 72-34' L 37.0 3y� Exposed b Walls and c d IPartitions '• 6 Vindows a q2, nd Glass b _ Dors (Heating) d--- 7 Vindows North nd Glass E &W or NE & NW s j D 720 3� ' i I Doors South or SE &'tW Q 4,0 j i `! 0 1 i tcooling l s Other Doors g Net a lid .Z S %G Z 2.044 5!!D /(!o 3 SG { ; 2. 52- 3y5/ i r' Exposed b r 3 yi S _ Walls and c Partitions d 1 10 Ceilings aP(H ! 5l c f !$ 5 b i I I 11 Floors a ZI) /q -/,D b I j 12 Infiltration... Calc. Proc. B Htm= I 23YI I I ; I 13 Sub Total Btuh Loss = 6+8-9=10-11 14 Duct Btuh Loss 15 Total Btuh Loss = 13+14 16 People® 300 and Appliances 1200 G ?i too1-4 I ' 17 Sensible Btuh Gain= 74 24 e4 :v4 :+. 12+'.E 7q V i is Duct'Btuh Gain � S� %q 19 Tm.1 • wp • Calculation Procedures A, B, C, D Calculation Procedure A • Summer Infiltration. for the Entire House 1. Air Changes Per Hour from Table 5 .......... .................. • ...... • • • • • • = D r U 3 CS AC1H R 2. Volume of Conditioned Space ............................ – Floor Area X Ceiling Height f 2 Y = (. 1 S 1 *4 ) Sq. Ft. X ( ? ) Ft. _ . Cu. Ft. 3. Total Infiltration = 0'1 0 3 0 AC/HR X 17- G/4 _ Cu. Ft. X 0.0167 CFM V19u 1- TCr,O C r i- r ✓ ,f- a L -0 Calculation Procedure B . Summer Infiltration Htm For Windows & Doors "F 1. Design Temperature Difference = Summer Design - Room Temperature = '3 2. Total Infiltration from Calculation Procedure A ......... .. .. • • • • • • • • • • • • • = tO CFM 3. Sensible Gain = 1.1 X 3 & • F X CFM .... 3 .. = 1OF Btuh 4. Total Area of Windows and Doors (Lines 7 & 8 on J) ........... ..... • . • • = Sq. Ft. Sq. Ft. Btuh/Sq. Ft. 5. Htm• = Btuh + – Calculation Procedure C • Latent Infiltration Gain For The Entire House = 1: Grains of Moisture Difference from Table 1 ....................................... • 9r• • • – CFM 2. Total Infiltration from Calculation Procedure A ..................... . . • • • • • • • ....Btuh 3. Total Latent Load = 0.68 X gr X CFM Calculation Procedure D • Equipment Sizing Calculation 1 Temp. Swing Multipliers Mechanical Ventilation = Vent CFM Summtr.DSN 4•'/:' 30 'F Diff. 85 90 0.85 0:95 Design Temp. Diff. No. Calculation Procedure B) ( 95 0.90 1.00 t Design Grains , (No.1; Calculation Procedure C) gr 100 0.95 1.00 Desired'Temp. Swing ( ) 105 1.00 1.05 5 Temp. Swing Multiplier(TSM) = 110 1.05 • 1.10 • wp • Calculation Procedures A, B, C, D Calculation Procedure A • Summer Infiltration. for the Entire House 1. Air Changes Per Hour from Table 5 .......... .................. • ...... • • • • • • = D r U 3 CS AC1H R 2. Volume of Conditioned Space ............................ – Floor Area X Ceiling Height f 2 Y = (. 1 S 1 *4 ) Sq. Ft. X ( ? ) Ft. _ . Cu. Ft. 3. Total Infiltration = 0'1 0 3 0 AC/HR X 17- G/4 _ Cu. Ft. X 0.0167 CFM V19u 1- TCr,O C r i- r ✓ ,f- a L -0 Calculation Procedure B . Summer Infiltration Htm For Windows & Doors "F 1. Design Temperature Difference = Summer Design - Room Temperature = '3 2. Total Infiltration from Calculation Procedure A ......... .. .. • • • • • • • • • • • • • = tO CFM 3. Sensible Gain = 1.1 X 3 & • F X CFM .... 3 .. = 1OF Btuh 4. Total Area of Windows and Doors (Lines 7 & 8 on J) ........... ..... • . • • = Sq. Ft. Sq. Ft. Btuh/Sq. Ft. 5. Htm• = Btuh + – Calculation Procedure C • Latent Infiltration Gain For The Entire House = 1: Grains of Moisture Difference from Table 1 ....................................... • 9r• • • – CFM 2. Total Infiltration from Calculation Procedure A ..................... . . • • • • • • • ....Btuh 3. Total Latent Load = 0.68 X gr X CFM Calculation Procedure D • Equipment Sizing Calculation 1 Temp. Swing Multipliers Mechanical Ventilation = Vent CFM Summtr.DSN 4•'/:' 30 'F Diff. 85 90 0.85 0:95 Design Temp. Diff. No. Calculation Procedure B) ( 95 0.90 1.00 Design Grains , (No.1; Calculation Procedure C) gr 100 0.95 1.00 Desired'Temp. Swing ( ) 105 1.00 1.05 Temp. Swing Multiplier(TSM) = 110 1.05 • 1.10 Sensible Ventilation Load = 1.1 X Vent CFM X •F Diff. Btuh - .+ /-9 -7 y Btuh + Sensible Load for Structure from Line 19 ....... • • • • • ..... (Structure Load + Ventilation Load) . Btuh Total Sensible Load .............. ................ X j, • . (TSM) Tempeilture Swing Multiplier ........... Equipment Sizing Load, �ensible ........ _ ,2 17 1 Btuh No. of People... .......:..... Btuh Load for Appliances & People = 230 X fl�-- �—_ Btuh Latent Latent Ventilation Load = 0.68 X Vent CFM_ X.. gr (No.1 Calc. Procedure C)+ Latent infiltration Load from Calculation Procedure C EGulpment Sizing Load, Latent .......... _ 3 0 Btuh Enter the Equipment Mzing Loads on the Cooling Summary on the Front of the J-1 Form. Mandatory Measures Checklist: Residential MF -1R NOTE: Lowrise residential buildings subject'to the Standards must contain these measures regardless of the compliance approach used. Items marked with an asterisk (*) may be superseded by more stringent compliance requirements listed on the Certificate of Compliance. When this checklist is incorporated into the permit documents, the features noted shall be considered by all parties as binding minimum component performance specifications for the mandatory measures whether they are shown elsewhere in the documents or on this checklist only. DESCRIIMON , Building Envelope Measures * §2-5352(a): Minimum ceiling insulation R-19 weighted average. §2-5352(b): Loose fill insulation manufacturer's labeled R -Value. * §2-5352(c): Minimum wall insulation in framed walls R-11 weighted average (does not apply to. exterior mass walls). §2-5352(k): Slab edge insulation - water absorption rate no greater than 0.3%, water vapor transmission rate no greater than 2.0 perm/inch. §2-5311: Insulation spegified or installed meets California Energy Commission (CEC) quality standards. Indicate type and form. §2-5352(f): Vapor barriers mandatory iii Climate Zones 14 and 16 only. §2-5317: InCltradon/Exfiltradon Controls a. - Doors and windows between conditioned and unconditioned spaces designed to limit air leakage. b. Doors and windows certified. c. Doors and windows weatherstripped; all joints and penetrations caulked and sealed. §2-5352(e): Special infiltration barrier installed to comply with §2-5351 meets CEC quality standards. §2-5352(d): Installation of Fireplaces 1. Masonry and factory -built fireplaces have: a. Tight fitting, closeable metal or glass door b. Outside air intake with damper and control c. Flue damper and control 2. No continuous burning gas pilots allowed. HVAC and Plumbing System Measures §2-5352(8) and 2-5303: Space conditioning equipment sizing: attach calculations. §2-5352(h) and 2-5315: Setback ihermostat on all applicable heating systems. * §2-5316(a): Ducts constructed, installed and insulated per Chapter 10, 1976 UMC. §2-5316(b): Exhaust systems have damper controls. §2-5314(c): Gas -rued space heating equipment has intermittent ignition devices. §2-5314: HVAC equipment, water heaters, showerheads and faucets certified by the CEC. -§2-5352(i): Water heater insulation blanket (R-12 or greater) or combined interior/exterior insulation (R-16 or greater); first 5 feet of pipes closest to tank insulated (-3 or greater). §2-5312(Bxception I): Pipe insulation on steam and steam condensate return &'•recirculating piping. §2-5318(d): Swimming Pool Heating 1. System has: a. On/off switch on heater. - b. Weatherproof instruction plate on heater. e. Plumbed to allow for solar. 2. 75percent thermal efficiency. 3. Pool cover. ,} 4. Time clock. 5. Directional water inlet. Lighting and Appliance Measures -- .. §2-53520): Lighting - 25.lumens/watt or greater for general lighting in kitchens and bathrooms. §2-5314(c): Gas fired appliances equipped with intermittent ignition devices. §2-5314(a):' Refrigera yrs, refrigerator -freezers, freezers and fluorescent lamp ballasts certified by the CEC. Indicate make and model number. Form Revised Decerfr6er 1987 DESIGNER I ENFORCEMENT, Ll. thermostats T8084A, TS8084A DIAL -SET CHRONOTHERM THERMOSTAT - MANUALLY OPERATED TIMER PROVIDES LOW- ER TEMPERATURE SET- TING AND AUTOMATIC RETURN TO NORMAL SETTING FOR ANY DEp 1hky•, SIRED PERIOD INHEAT- ING SYSTEMS. " -~-- Manual timer allows mul- tiple temp. setback in a 24-hour period. When timer is set, thermostat switches at once to preset lower temperature. Control temperature automatically returns to upper setting at end of timer set period. Wallplate included for heating only. Use with Q611A Subbase (order separately) for heating -cooling systems although the timer mechanism is designed for heat system setback only. Setting Range: 54 to 86 F [12 to 30 Cl. Timer: Spring -wound. Minimum setback period: 2 hours. Maxi- mum Setback Period: 11-1/2 hours. Dimensions: 3-3/8 in. [85.7 mm] high, 6-1/16 in. [154 mm] wide, 2-1/8 in: [54 mm] deep. REPLACEMENT PARTS: 129802E Cover Assembly for Fahrenheit scale; 129802F for Celsius scale. 118510A Timer Dial. TRADELINE models. ELECTRICAL RATINGS (24 to 30V ac, 50/60 Hz) T8084A: APPLICATION I RUNNING I INRUSH HEATING 1 1.5 amp 1 3.5 amp COOLING 1 1.5 amp J 7.5 amp TS8084A: 0.1 amp at 0.75V dc. ACCESSORIES: Q611A Subbase to provide COOL -OFF -HEAT system switching and AUTO -ON fan switching. Q611A1037 Subbase available for isolated circuit hookups. 130821 F Adapter Plate Assembly includes cover plate (to cover, old thermostat mounting), adapter ring, screws, and' 2 anchor bolts. Use this assembly for wall mounting (anchors and cover plate), for vertical outlet box mounting (cover plate and adapter ring), or for horizontal outlet box mounting (cover plate). The cover plate need not be used on new installations. Thermostat Guards. See Thermostat Guards section, page 231. aScale is in Celsius. -T8084A DO-IT-YOURSELF, DIAL SET, FUEL SAVER THERMOSTAT KIT - REPLACES STANDARD 2 -WIRE LOW VOLTAGE HEATING THERMO- STATS. KIT INCLUDES FUEL SAVER THERMO- STAT AND ALL ACCES- SORIES NECESSARY FOR DO-IT-YOURSELF INSTALLATION. Dial Set Fuel Saver ther- mostat allows homeowner to set back room temperature for any desired period. Manual timer allows multiple setbacks in a 24-hour period. Control temperature automatically returns to upper set- ting at end of timer set period. Specially designed customer package includes heating only thermostat, mounting accessories, and owners manual. Mounting ac- cessories allow for mounting directly on the wall, or on a horizontal or a vertical outlet box. continued next page .E 217 TEMPERATURE ORDER APPLICATION SETTING RANGE ANTICIPATORS NUMBER F C T8084A1013 Heating or heating -cooling (when used with Q611 54 to 86 12 to 30 Heating -0.1 to 1.2 amp, adjustable. Cooling—rated at 24 to 30 volts, nonadjustable. T8084A1021 54 to 86 12 to 30 Subbase); low voltage control systems. TS8084A1006 Heating thermostat for 54 to 86 12 to 30 Heating -0.1 amp, nonadjustable. 750 millivolt pilot gener- ator systems. aScale is in Celsius. -T8084A DO-IT-YOURSELF, DIAL SET, FUEL SAVER THERMOSTAT KIT - REPLACES STANDARD 2 -WIRE LOW VOLTAGE HEATING THERMO- STATS. KIT INCLUDES FUEL SAVER THERMO- STAT AND ALL ACCES- SORIES NECESSARY FOR DO-IT-YOURSELF INSTALLATION. Dial Set Fuel Saver ther- mostat allows homeowner to set back room temperature for any desired period. Manual timer allows multiple setbacks in a 24-hour period. Control temperature automatically returns to upper set- ting at end of timer set period. Specially designed customer package includes heating only thermostat, mounting accessories, and owners manual. Mounting ac- cessories allow for mounting directly on the wall, or on a horizontal or a vertical outlet box. continued next page .E 217 Air Command 80 Induced Draft Gas. Furnaces COMNG•HEMNG 45,000 to 140,000 BTUH Input 11/2 to 5 Tons Add-on Cooling Induced draft design delivers precise gas/air mixture for optimum combustion and minimizes external air infiltration into the home. Air Command 80 Heat Exchanger. Its unique design provides extra efficient gas heating on either natural gas or propane fuels. The exchanger's compact tubular construction provides excellent heat transfer for maximum operating efficiency. Constructed of durable steel, the heat exchanger is corrosion resistant, reliable and highly effective. Induced Draft. Amana induced draft gas furnaces utilize an integral combustion air blower that draws combustion air and mixes it with gas to deliver the precise gas/air mixture for optimum combustion efficiency. In addition to precision combustion, the induced draft feature restricts the vent during 46�!cycles to minimize up -the -chimney heat loss and reduce tside air infiltration. Venting. The furnace may be vented vertically using Type B-1 venting pipe and fittings or insulated single wall pipe and fittings in accordance with the installation instructions and local codes. Amana Electronic Ignition. Produces rapid, sure ignition and fast heating. Includes control center and ceramic ignitor that heats to 2,500°F for sure-fire ignition. The flame sensor proves ignition and constantly monitors for any interruption. Efficient, Long Life Burners. Specially designed for depen- dable operation natural or propane gas. In -shot design. with built-in cross -lighter eliminates need for adjustable air shutters. Automatic Controls. Redundant gas valve gives constant gas pressure; opens and closes silently; provides safety shut-off in the event of combustion or ignition failure. A thermostatic fan control regulates blower operation and a limit control provides a safety shut-off if the unit overheats. The power combustion feature includes a differential pressure switch for providing combustion air flow and sensing vent blockage. A special blower door interlock switch causes the furnace to become inoperative when the door is removed. Strong Steel Cabinet. The heavy steel cabinet provides strength for quiet, rattle -free operation. Foil -faced insulation lines the heat exchanger compartment to reduce heat loss and .. jIse. On upflow models the. return air can be from left side, t side, or bottom of cabinet. Large semi-permanent air filters are provided with up -flaw models. GHI Upflow Series Direct Drive Blower. Quiet, powerful, direct drive blower means there is no belt to adjust, no slipping or effective loss of power. Blower is statically and dynamically balanced for quiet operation. Efficient PSC Motor. Multiple speed Permanent Split Capacitor motor has oil ports for optional periodic lubrication to help extend motor life. Motor is rubber mounted for reduced vibra- tion and noise. Long wire leads permit easy slide out when service is required. Electrically bonded paint finish. Paint is electrically bonded in a smooth, even coating that resists rust and corrosion. A final high solids polyester overspray adds durability and good looks. Add On Air Conditioning. Units are equipped for the easy addi- tion of central air conditioning with a 40 VA transformer. Optional cooling coil cabinets speed installation. A.G.A. Certified. Amana induced draft furnaces are design certified by the American Gas Association. They are approved for common venting with a gas water heater. Natural or L.P. Gas Operation. Units are shipped from the factory set up for natural gas operation. Optional L.P. conver- sion kit easily converts any model to propane. Any conversion to propane gas is the responsibility of, and at the risk of, the person making the conversion. Strong Warranty Protection. All models feature a strong warranty. Ask for details. Factory Tested. Every Amana-built furnace is thoroughly checked and test fired before it leaves the factory. CFM & Temperture Rise vs. External Static Pressure COG/�1 CIf�•TI/1\IC elle IC/�T T/� /�Y A\1/�C �\/ITYAIIT \If�T1/�C External Static Pressure, Inches Water Column 0.2 0.3 0.4 0.5 Motor CFM I Rise CFM Rise CFM Rise CFM Rise Model Speed LO 690 48 675 49 660 51 640 52 GH145A25 MED 965 — 950 — 915 36 875 38 HI 1240 — 1170 — 1100 — 1050 — LO 725 — 720 — 700 — 675 — G H170A30 M -LO 935 55 920 56 900 58 865 60 MED 1190 44 1150 45 1115 47 1065 49 HI 1470 — 1410 37 1 1345 39 1275 41 LO 1135 46 1135 46 1130 46 1125 46 GH170A40 M -LO 1340 39 1335 39 1325 39 1300 40 MED 1570 1560 — 1525 — 1485 — HI 1895 — 1835 — 1775 — 1700 — LO 850 — 830 — 800 — 775 — G H190A30 M -LO 910 73 900 74 870 — 840 — MED 1120 60 1080 62 1050 63 1010 66 HI 1395 1 48 1335 50 1 1275 52 1 1220 55 LO 1230 54 1220 55 1210 55 1200 56 GH190A50 M -LO 1530 44 1525 44 1520 44 1515 44 MED 1770 381770 38 1755 38 1725 39 HI 2330 — 2280 — 2220 — 2125 — LO 1180 — 1175 — 1150 — 1125 — GH1115A35 M -LO 1410 60 1400 61 1375 62 .1350 63 MED 1655 51 1645 52 1620 53 1575 54 HI 2000 43 1950 44 1875 45 1800 47 LO 1530 56 1520 56 1500 57 1475 58 GH1115A50 MED 1730 49 1720 50 1700 50 1675 51 HI 2375 — 2275 — 2200 — 2125 — LO 1160 — 1150 — 1135 — 1124 — G H1140A35 M -LO 1330 — 1315 — 1295 — 1275 — MED 1585 65 1560 66 1525 68 1475 70 HI 1930 54 1875 55 1835 57 1750 59 LO 1490 70 1470 71 1450 72 1425 73 GH1140A50 MED 1660 62 1650 63 1635 63 1625 64 HI 2290 — 2230 47 2130 49 2050 51 GSI/GCI LO 730 46 730 46 700 48 675 49 45A25 MED 915 36 900 37 870 38 825 40 HI 1220 — 1160 — 1090 — 1015 — LO 740 — 730 — 700. — 675 — GSI/GCI M -LO 970 53 950 55 920 56 890 58 70A30 MED 1265 41 1220 43 1175 44 1125 46 HI 1530 — -1465 - 1400 37 1330 39 GSI/GCI LO 1050 49 1040 50 1025 51 1000 52 70A40 MED 1525 — 1490 35 1455 36 1410 37 HI 1845 — 1790 — 1715 — 1660 — LO 740 — 730 — 700 — 675 — GSI/GCI M -LO 960 69 940 71 900 74 865 — 90A30 MED 1220. 55 1170 57 1120 60 1065 63 HI 1420 47 .1350 49 1285 52 1225 54 LO 1525 44 1475 45 1400 48 1350 49 GSI/GCI M -LO 1745 38 1690 39 1625 41 1565 43 90A50 MED 1955 — 1900 — 1820 37 1760 38 HI 2210 — 2150 — 2070 — 2000 — LO 1060 t4 — 1050 — 1040 — 1000 — GSI/GCI M -LO 1260 68 1250 68 1220 — 1200 — 115A35 MED 1580 54 1560 55 1510 56 1460 58 HI 1920 44 1835 46 1760 48 1670 51 LO 1380 62 1360 63 1335 64 1300 66•, GSI/GCI M -LO 1610 53 1570 54 1540 55 1490 57 115A50 MED 1890 — 1860 46 1800 47 1750 49 HI 2260 — 2200 - 2125 — 2050 — LO 1315 — 1280 — 1240 — 1200 — GSI/GCI M -LO 1560 66 1515 68 1475 70 1425 73 140A50 MED 1815 57 1770 59 1715 60 1660 62 HI 2340 — '2265 46 '2200 47 2100 49 COG/�1 CIf�•TI/1\IC elle IC/�T T/� /�Y A\1/�C �\/ITYAIIT \If�T1/�C CFM & Temperture Rise vs. External Static Pressure 00C/`I0If ATIMO Of IM IC^T^ ^UA L./'!C -0-U^IIT •IIS -M External Static Pressure, Inches Water Column 0.2 0.3 0.4 0.5 Motor CFM I Rise CFM Rise CFM Rise CFM Rise Model Speed LO 690 48 675 49 660 51 640 52 GH145A25 MED. 965 — 950 — 915 36 875 38 HI 1240 — 1170 — 1100 — 1050 — LO 725 — 720 — 700 — 675 — GH170A30 M-1-0 935 55 920 56 900 58 865 60 MED 1190 44 1150 45 1115 47 1065 49 HI 1470 — 1410 37 1345 39 1275 41 LO 1135 46 1135 46 1130 46 1125 46 G H170A40 M-1-0 1340 39 1335 39 1325 39 1300 40 MED 1570 — 1560 — 1525 — 1485 — HI 1895 — 1835 — 1775 — 1700 — "�""'- LO 850 — 830 — 800 — 775 — GH190A30 ) M-1-0 910 73 900 74 870 — 840 — M ED 1120 60 1080 62 1050 63 1010 66 HI 1395 48 1335 50 1275 52 1220 55 LO 1230 54 1220 55 1210 55 1200 56 G H190A50 M-1-0 1530 44 1525 44 1520 44 1515 44 MED 1770 38 1770 38 1755 38 1725 39 HI 2330 — 2280 — 2220 — 2125 — LO 1180 — 1175 — 1150 — 1125 — G H1115A35 M-1-0 1410 60 1400 61 1375 62 1350 63 MED 1655 51 1645 52 1620 53 1575 54 HI 2000 43 1950 44 1875 45 1800 47 LO 1530 56 1520 56 1500 57 1475 58 GH1115A50 MED 1730 49 1720 50 1700 50 1675 51 HI 2375 — 2275 — 2200 — 2125 — LO 1160 — 1150 — 1135 — 1124 — G H1140A35 M -LO 1330 — 1315 — 1295 — 1275 MED 1585 65 1560 66 1525 68 1475 70 HI 1930 1 54 1875 55 1835 57 1750 59 LO 1490 70 1470 71 1450 72 1425 73 GH1140A50 MED 1660 62 1650 63 1635 63 1625 64 HI 2290 — 2230 47 1 2130 49 1 2050 51 GS1/GCI LO 730 46 730 46 700 48 675 49 45A25 MED 915 36 900 37 870 38 825 40 HI 1220 — 1160 — 1090 — 1015 — LO 740 — 730 — 700 — 675 — GSI/GCI 'M -LO 970 53 950 55 920 56 890 58 70A30 MED 1265 41 1220 43 1175 44 1125 46 HI 1530 — 1465 — 1400 37 1330 39 GS1/GCI LO 1050 49 1040 50 1025 51 1000 52 70A40 MED 1525 — 1490 35 1455 36 1410 37 HI 1845 — 1790 — 1715 — 1660 — LO 740 — 730 — 700 — 675 — GS1/GC1 M-1-0 960 69 940 71 900 74 865 — 90A30 MED 1220. 55 1170 57 1120 60 1065 63 HI 1420 47 1350 49 1285 52 1225 54 LO 1525 44 1475 45 1400 48 1350 49 GSI/GC1 M-1-0 1745 38 1690 39 1625 41 1565 43 190A50 MED 1955 — 1900 — 1820 37 1760 38 HI 2210 — 2150 — 2070 — 2000 — LO 1060 — 1050 — 1040 — 1000 — GSI/GCI M-1-0 1260 68 1250 68 1220 — 1200 — 115A35 MED 1580 54 1560 55 1510 56 1460 58 HI 1920 44 1835 46 1760 48 1670 51 LO 1380 62 1360 63 1335 64 1300 66•, GSI/GC1 M-1-0 1610 53 1570 54 1540 55 1490 57 115A50 MED 1890 — 1860 46 1800 47 1750 49 HI 2260 1 — 2200 — 2125 — 2050 — LO 1315 — 1280 — 1240 — 1200 — GS1/GCI M-1-0 1560 66 1515 68 1475 70 1425 73 140A50 MED 1815 57 1770 59 1715 60 1660 62 HI 2340 — 2265 46 2200 47 2100 49 00C/`I0If ATIMO Of IM IC^T^ ^UA L./'!C -0-U^IIT •IIS -M +)OfMana. COOLING ■HEATING tions and service valves are easy to reach. Embossments in the bottom allow drainage and air flow under the unit to reduce corro- sion. Heavy vinyl coated grilles protect the fan motor and coil. Con- trols and compressor can be serviced through a single large access panel without interrupting unit operation. Electrically Bonded Paint Finish. Fights rust and corrosion better than flow coated or sprayed finishes. Hot dipped, zinc coated metal is thoroughly cleaned in a six station process and baked dry. The metal is positively charged and dipped in a negatively charged paint tank. Paint is pulled onto the metal and bonded in a complete coating that covers all surfaces evenly. A final high solids polyester overspray n adds to durability and good looks. VCFC Indoor Coil. Amana made with seamless copper tubing and ripple edged aluminum fins. 'A' coils are shipped with leakproof drain pain attached. Optional full height and counterflow cabinets are used with 'A' coils. All coils have sweat connections and are fully tested for leaks and shipped with a holding charge of dry, nitrogen. Full Factory Testing. Every unit is test run at the factory to ensure positive performance. VRCF Specifications Madel Number VRCF18- U01C VRCF24 . U01C VRCF30- U01C VRCF36- U01C VRCF42- U018 VRCF48- U01B VRCF48- U038 VRCF60- U018 VRCF60- UO3B Cooling Capacity, BfUH 680 - 1140 - - With VCFC-A0VA 19,000 24,200 30,600 34,800 43,000 47,500 47,000 57,000 57,000 With VCFC-HOHB 18,800 24,000 3Q600 34,000 40,500 45,500 45,000 57,000 57,500 SEER .20 - - 1050 1290 945 1210 940 EER 1160 1740 EER With VCFC-ADVA 9.55 9.05 9.05 955 9.60 9.60 8.80 9.60 9.00 With VCFC-HOHB 9.55 9.05 9.05 955 9.45 9.60 8.80 9.35 8.45 ARI Sound Rating (bels) &0 8.0 &0 8.0 &2 8.2 8.2 8.2 8.2 Compressor 1535 1190 1290 1750 2200 1850 2380 L.R. Amps 49.0 63.0 77.0 7&0 93.0 95.4 82.0 135.0 105.0 F.L. Amps 9.1 11.7 14.8 16.8 22.5 23.9 15.3 .30.7 19.6 Condenser Coil Face Area, Sq. Ft. 9.0 12.4 12.4 12.4 12.4 15.7 17.7 15.7 15.7 Rows Deep 1 1 2 2 2 2 2 2 2 FinsAnch 17 17 13 13 17 13 13 17 17 Condenser Fan CFM 2200 2500 3200 3200 3000 3700 3700 3500 3500 Diameter 20' 20' 20' 20' 20• 19.5' 19.5' 195' 195' Number of Blades 3 3 3 3 3 4 4 4 4 Condenser Fan Motor Horsepower 1/8 1/8 1/4 1/4 1/4 1/2 1/2 1/2 1/2 L.R. Amps 1.45 1.45 3.35 3.35 2.90 6.60 6.60 6.60 6.60 F.L. Amps b .8 1.2 1.2 1.50 2.50 250 250 250 Liquid Line, O.D., Inches 1/4 1/4 3/8 3/8 3/8 3/8 3/8 3/8 3/8 Suction Line, O.D., Inches 5/8 5/8 3/4 3/4 7/8 7/8 7/8 7/8 7/8 Refrigerant Charge SEE UNIT NAMEPLATE Electrical Data' 208/230.60-1 ' 208/230-60-1 208/230-60.1 208/230-60-1 208/230.60.1 208/23D-60.1 208/230-60.3 208/230-60-1 208/230.60-3 Number Wires (AWG) 2/12 2/10 2/10 2/10 2/10 2/8 3/1D 2/6 3/10 GRD AWG 12 10 10 10 10 10 10 10,.. 10 Min. Circuit Ampacity 12.0 15.5 2Q0 22.5 29.6 32.4 21.6 40.9 27.0 Max. Fuse Size U.S. 20 25 30 35 45 50 30 60 45 Canada 30 35 40 45 50 50 45 70 60 Circuit Breaker Size U.S. 20 25 30 35 45 50 30 60 45 Canada 25 30 35 35 40 40 35 60 45 Approx. Shipping Wt. (lbs.) 127 142 165 178 195 208 208 243 235 Static Pressure Drop Across Coil Versus CFM Static Pressure ' Drop Across Call "A" Coils VCFC/8 & VCFC24AOVA VCF30 & 36AOVA Wet Dry Wet Ory Horizontal Coils VCFC18 & 24HOHB VCFC30 & 36HOHB Wet Dry Wet Dry "A' Coll VCFC42,48AOVA Wet Dry "A" Coll VCFC60AOVA Wet Dry .10 500 820 530 840 490 825 550 680 - 1140 - - .15 750 1060 790 1080 735 1050 760 880 - 1460 - 1600 .20 - - 1050 1290 945 1210 940 1030 1160 1740 1230 1890 .25 - - 1320 1460 1120 1375 1080 1170 1460 1990 1540 2150 .30 - - - 1280 1535 1190 1290 1750 2200 1850 2380 IMPORTANT: While the above data is presented as a guide, It is important to electrically connect the unit, and property size all overcurrem protection devices and wires in accordance witY National Electrical Code and/or all local codes. W