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SFD (347448)
54125 Avenida Madero 347448 BUILDING'PERMIT DEPARTMENT OF BUILDING & SAFETY FIELD OFFICE PERMIT NO, 3474 4 8 PERMIT NO. 1347448 1 COUNTY OF RIVERSIDE Owner ' DST CONSTRUCTION ESTIMATE /T NO. ELECTRICAL FEES NO. PLUMBING FEES DateDist. 111-1,--71. 1ST FL.. 2ND FL. FOR. GAR. SQ. CAR P. WALL ESTIMATED CONSTRUCTION SQ. FT. Ga $ RA Z, UNITS MH Permit Fee E SQ. FT.C 1 YARD SPKLR SYSTEM Cop E SQ. FT. MOBILEHOME SVC. BAR SINK C / I /( (R j/ J/j I i / / ./t. / `Ga FT. (a} /V 0 POWER OUTLET ROOF DRAINS Parcel No. ! SQ. FT. @ r DRAINAGE PIPING Mech. Fee Dbl E SQ. FT. Q DRINKING FOUNTAIN Set Backs SQ. FT. @ URINAL Construction Fee Dbl E VALUATION $ WATER PIPING NOTE: Not to be used os property tax voluotion D SSS SWIM POOL, PVT FLOOR DRAIN ;Electrical Fee Dbl E Zone/ MECHANICAL FEES Ty SWIM POOL, COMM WATER SOFTENER SMI Fee E Plumbing Fee VENT SYSTEM ❑ FAN ❑ EVAP. COOL ❑ HOOD Bond Amt. E SIGN WASHER (AUTO) I DISH) Fino of Inspector !--, ` APPLIANCE ❑ DRYER Sp.Insp. Fee E GARBAGE DISPOSAL E Const. Lender Address FURNACE ❑ UNIT ❑ WALL ❑ FLOOR ❑ SUSPENDED "I certify that to the performopce of the work forlwhich this permit is issued I shag not employ any person in any manner so as to beco a subject to the workmen's com- pensation laws of California." Owner Signature Builder Signature egistr.Fee E LAUNDRY TRAY Witness Fee E Reinsp. Fee AIR HANDLING UNIT CFM Owner/Agent IDLE METER KITCHEN SINK Tel. Zip ABSORPTION SYSTEM O B.T.U. E TEMP USE PERMIT SVC WATER CLOSET City Zip COMPRESSOR HP Received Trees requited POLE, TEMP/PERM LAVATORY 0 HEATING SYSTEM ❑ FORCED ❑ GRAVITY Sewage System AMPERES SERV ENT SHOWER City/Zip Workers' Comp. AVT-o4yes ❑ no ❑ BOILER B.T.U. SQ. FT. Ca, ¢ BATH TUB SQ. FT. Cui ¢ WATER HEATER SQ. FT. RESID @ 1 Y.¢ SEWAGE DISPOSAL SQ. FT. GAR Co, '/.¢ HOUSE SEWER GAS PIPING PERMIT FEE PERMIT FEE PERMIT FEE DBL. 4,FEES MOB. HM. FEE MICRO FEE MECH. FEE PL. CK. FEE CONST. FEE ELECT. FEE SMIFEE FEE PLUMB. FEE PERMIT NO, 3474 4 8 Supp. Permit Job Address - Space Zip ', mea177- Owner ' Community /V.19/ /T Valuation E DateDist. 111-1,--71. Off. F.C. . MH Permit Fee E Micro Film Fee Cop E Use of Permi +Gf ( C / I /( (R j/ J/j I i / / ./t. / Parcel No. ! Use No. Ck.by Mech. Fee Dbl E PI. Ck. Fee E Set Backs Lot S4ee SGIx/O O Construction Fee Dbl E Legal Description t / /`/ !•i/h/ F D SSS 51 ;Electrical Fee Dbl E Zone/ Grp Al Ty Unit / SMI Fee E Plumbing Fee Dbl E Bond Amt. E Plan No. /-// 4Y6 Pion Checker Fino of Inspector !--, ` lZ s Sp.Insp. Fee E Denial. Fee E Const. Lender Address Branch City Zip "I certify that to the performopce of the work forlwhich this permit is issued I shag not employ any person in any manner so as to beco a subject to the workmen's com- pensation laws of California." Owner Signature Builder Signature egistr.Fee E Mileage Fee E Witness Fee E Reinsp. Fee E Owner/Agent Tel. Zip notal Fees E Addr A / City Zip M. 0. ❑ ❑ Cosh ❑ Check Received Trees requited rac 0 e Tel.License q O2 Sewage System Address City/Zip Workers' Comp. AVT-o4yes ❑ no ❑ _I LL P THIS PERMIT SHALL BECOME VOID IF WORK IS NOT COMMENCED WITHIN 120 DAYS. CESSATION OF verified by District WORK FOR 120 DAYS SH LSO foAUSEAERMIT TO BECOME VOID. \ I HEREBY AGREE T l 9CTION WITH THIS PERMIT WILL BE DONE IN ACCORDANCE WITH THE LAWS OF RIVEiRSIDECOU TY MND STATE OF CALIFORNIA. I HEREBY CERTIFY THAT THE INDIVIDUAL WHO PREPARED THE PLANS AND SPECIFICATIONS HAS DONE SO IN ACCORDANCE WITH SECTION 5541 OF THE BUSINESS AND PROFESSIONS CODE OF THE STATE OF CALIFORNIA. NOY Buena Engineers, Inco IMF AN EARTH SYSTEMS, INC. COMPANY 79-811 COUNTRY CLUB DRIVE, SUITE #4 0 BERMUDA DUNES, CALIFORNIA 92201 • (619) 345-1588 November 16, 1987 Candelario Felix 83-170 Alvarado Thermal, CA 92274 Project: 54=125 Avenida Madero La Quinta`, CA Subject: Report of Field Densities Single Family Residence B7 -0197-P1 87-11-717 From October 5, 1987, a representative of our firm performed density tests in the building pad area on the above referenced project. Tests were performed at random locations in accordance with ASTM D 2922-81 and ASTM D 3017-78 Nuclear Density Test Procedure. Testing was performed as per authorization of Candelario Felix. The estimated locations of the tests are presented on the attached plan with their results being summarized on' the attached test report sheet. A total of two (2) density test were performed. Tests results indicate that after reworking areas of low density, a minimum of ninety (90) percent relative compaction has been obtained within the areas tested. The maximum density -optimum moisture were determined in the laboratory in accordance with ASTM D 1557-78, Method A or C. Test results are as follows: Soil Description USCS Gray brown si ) ty f ine sand SM VENTURA (805) 642-6727 BAKERSFIELD SANTA BARBARA (805) 327-5150 (805) 966-9912 MaximumDensity-ODtimumMoisture 113.0 pcf 11.0 T LANCASTER (805) 948-7538 BERMUDA DUNES SAN LUIS OBISPO (619) 345-1588 (805) 544-6187 November 16, 1987 -2- B7-0197-P1 87-11-717 1. The projects are located at 54-125 Avenida Madero in La Quinta, California. 2. Prior to our arrival at the site, pad grade had been made and compacted. 3. The purpose of testing was to observe compliance with the minimum requirements of the City of La Quinta, California. Limitations This firm did not perform a soils investigation, did not conduct any tests to determine the general condition, adequacy or stability of soils on the property, nor did it observe the backfilling or compacting operations which were already completed at the itme our personnel were called to the site. The only services performed were the specififc moisture and density tests summarized in this report. These test results provide only limited information about the surface materials observed at the locations and depths tested and cannot be relied upon for information about subsurface conditions or compaction, or to determine the appropriateness of any design or construction of improvements on the site. No inspection was made of the contractor's work and no guarantee or warranty of that work in backfilling or compaction of the soils on the site is made or implied. If there are any questions, please do not hesitate to contact this office. Respectfully submitted, BUENA ENGINEERS, INC. R IL UJ k Wesley Arita Field Technician WA/JRV/mea Copies: 2 - Candelario Felix 2 - City of La Quinta 1 - P. S. 2-VTAfile Reviewed anp ookc F vc F f r, 0 No. C 041210 EXP. 3-31.111 Joseph R. Ve i CIVI\- @, Civil Engineer lE 0 C BUENA ENGINEERS, INC. Euena Engineers, Onca AN EARTH SYSTEMS, INC. COMPANY REPORT OF RELATIVE COMPACTIONS CONTRACTOR: ADDRESS: TEST NO. I DATE DESCRIPTION TESTED 54-125 Avenida Madero 10-05-87 Per Plan 10-05-87 Per Plan SG = Subgrade 1 2 Job No. B7 -0197-P 1 DATE: November 16, 1987 Report No. 87-11-717 JOB & LOCATION: La Quinta, CA %MOISTURE I DRY DENSITY I RELATIVE MAXIMUM IN PLACE IN PLACE COMPACTION I DENSITY SG I 17.0 I 107.2 I 95 11 13.0 WE CERTIFY THAT THESE TESTS WERE PERFORMED IN CONFORMANCE WITH COPIES: BUENA ENGINEERS, INC. V TV LLJ dcc LAJ co In lo is 79-811 COUNTRY CLUB DRIVE, SUITE #4 e BERMUDA DUNES, CALIFORNIA 92201 • (619) 345-1588 November 16, 1987 Candelario Felix 83-170 Alvarado Thermal, CA 92274 Project: 54-125 Avenida Madero La Quinta, CA Subject: Report of Field Densities Single Family Residence B7 -0197-P1 87-11-717 From October 5, 1987, a representative of our firm performed density tests in the building pad area on the above referenced project. Tests were performed at random locations in accordance with ASTM D 2922-81 and ASTM D 3017-78 Nuclear Density Test Procedure. Testing was performed as per authorization of Candelario Felix. The estimated locations of the tests are presented on the attached plan with their results being summarized on the attached test report sheet. A total of two (2) density test were performed. Tests results indicate that after reworking areas of low density, a minimum of ninety (90) percent relative compaction has been obtained within the areas tested. The maximum density -optimum moisture were determined in the laboratory in accordance with ASTM D 1557-78, Method A or C. Test results are as follows: Soil Description USCS Gray brown silty fine sand SM VENTURA (805) 642-6727 BAKERSFIELD SANTA BARBARA (805) 327-5150 (805) 966-9912 MaximumDensity-OptimumMoisture 113.0 pcf 11.0 F LANCASTER (805) 948-7538 BERMUDA DUNES SAN LUIS OBISPO (61 9J 345-1588 (805) 544-6187 i - November 16, 1987 -2- B7-0197-P1 87-11-717 1. The projects are located at 54-125 Avenida Madero in La Quinta, California. 2. Prior to our arrival at the site, pad grade had been made and compacted. 3. The purpose of testing was to observe compliance with the minimum requirements of the City of La Quinta, California. Limitations This firm did not perform a soils investigation, did not conduct any tests to determine the general condition, adequacy or stability of soils on the property, nor did it observe the backfilling or compacting operations which were already completed at the itme our personnel were called to the site. The only services performed were the specififc moisture and density tests summarized in this report. These test results provide only limited information about the surface materials observed at the locations and depths tested and cannot be relied upon for information about subsurface conditions or compaction, or to determine the appropriateness of any design or construction of improvements on the site. No inspection was made of the contractor's work and no guarantee or warranty of that work in backfilling or compaction of the soils on the site is made or implied. If there are any questions, please do not hesitate to contact this office. Respectfully submitted, BUENA ENGINEERS, INC. RIL. Lk Wesley Arita Field Technician WA/JRV/mea Copies: 2 - Candelario Felix 2 - City of La Quinta 1 - P. S. 2 - VTA file Reviewed a JVe Joseph Civil Engineer BUENA ENGINEERS, INC. , cjFESSIO pPr DOZE ` Fisc No. C 041210 EXP• 3-31AI i clv1 •,. JJq Qc\ REPORT OF RELATIVE COMPACTIONS CONTRACTOR: ADDRESS: TEST NO. I DATE DESCRIPTION TESTED 54-125 Avenida Madero 10-05-87 Per Plan 10-05-87 Per Plan SG = Subgrade 1 2 Job No. B7 -0197 -PI DATE: November 16, 1987 Report No. 87-1 1-717 JOB & LOCATION: La n, Uinta, CA % MOISTURE I DRY DENSITY RELATIVE MAXIMUM IN PLACE IN PLACE I COMPACTION I DENSITY SG 14.5 108.3 96 113.0 SG I 17.0 I 107.2 I 95 113.0 WE CERTIFY THAT THESE TESTS WERE PERFORMED IN CONFORMANCE WITH COPIES: BUENA ENGINEERS, INC. V ' az - ui LLJ LL CD 2c V*- LLj 4, LLJ C% ICY =D 0 T co O In -2? U 1j) 4 PROJECT DATA SUMAY owner project system type documentation author date .7 Form 1 checked by date SITE INFORMATION Heating Degree Day (from Appendix C) .......................................................... HDD 1 ' Z OF- day Outside Design Temperature (from Appendix C or Appendix G) ...................... Tow 2 of PROPOSED BUILDING ENVELOPE INFORMATION Gross Floor Area if Low -Rise (from Calculations) ............................................ Al 3 1`12 Gross Wall Area if High -Rise (from Calculations) ............................................ Aw 4 h2 Designed Glazing Area (from Calculations) ........................................................ Ag 5 ft2 Basic Glazing Area 116%of Line 3 if low-rise or 40% of Line 4 if high-rise)........ Abg 6 Description of Assembly U.\L. PA61* ` Glazing Ugl 7 Btu/ (hr.f12•oF) Ug2 8 13tu/(hr.ft2.oF) tL Ug3 9 Btu/ (hr .ft2•OF) Wall S 1 iii Uwl 10 12 Btu/ (hr•ft2•OF) 'Uw2 11 Btu/ (hr .ft2.OF) Uw3 12 Btu/ (hr .ft2•OF) Uw4 13 Bt's/ Ihr•ft2•°F) Ceiling/Roof nL— Q Ucl 14 u k Btu/(hr.ft2..°F) L.3 AL-%._ Ut2 15 Btu/ (hr •ft2.°F) Floor Ufl 16 Btu/ (hr .ft2•°F) U12 17 Btu/ (hr.ft2.OF) PROPOSED SPACE HEATING SYSTEM (Chapter 7) Gas Furnace Building Design Hourly Heat Loss (from Form 2) ..................................... qn 18 Btu/hr Maximum Allowed Bonnet Capacity, 1.5 x Line 18 ............................................... 19 Btu/hr Proposed Furnace Make Model Description Rated Bonnet Capacity Electric Resistance Alone Electric Resistance Life Cycle Cost (from Form 5) .................................... sLCC,' 20 $ Lowest Life Cycle Cost of the Other Systems (from Form 51 ................... sLCC0A11121 $ Non-Depletable Energy w/Electric Resistance Beck -Up Percentage of Annual Heat Loss Met by Non-Depletable Energy Source (from Calculations)............................................................................... 22 % Heat Pump Percentage of Annual Heat Loss Met by Electric Resistance (from calculations) ... ...... .......... ..................................................... ....... .I .......... .., % PROPOSED WATER HEATING SYSTEM INFORMATION (Chapter 8) Electric Reslstanw Alone Electric Resistance Life Cyclo Cgst (from Form 6) .................................. wLCCe 24 $ Lowest Life Cycle Cost of the Other Systems (from Form 6) ................... wLCClo ,st 25 $ PROPOSED SWIMMING POOL HEATING SYSTEM INFORMATION (Chapter 9) Solar Life Cycle Cost (from Form 71.............................................................. pLCCs 26 $ Natural Gas Life Cycle Cost (from Form 71 ..........:................... pLCCng 27 $ HOURLY AND ANNUAL • BUILDING HEAT LOSS RATE Chan); One: Proposed Design Standard Design- Form' esign Form -- - Enforcement Agency Use Only •' r' • +:a.T. .;' ,,i •• s!d,.ii. .L ' owner building permit number ti ' t'... PZZ to tl n system type "lyes •c • Y •.r.•1!.r7,'! i ' A Z Ste; ( Ll documentation author gale SITE INFORMATION Z °lrlJ Heliting Degree Day (from Appendix) .......... HDD •dxv: `' aA zee s` Outside Design Temperature (from Appendix) ..................OF of Outside January Mean Temperature (from Appendix) ............. Tjen °F PROPOSED 13UI '! (j.; ,• ` ` PR LDING ENVELOPE INFORMATION 1 •' ... ;Y • i ' ` ` I; ',.•*"` + ;' Gros Floor Ara (from piano) ......................... Af it' ` Gros Wail . I Area (froplans) ........ _d O h ................ Ave h Y Designed GWing Area (from plans) Ag I , ... ... ,'1,:' • Bask Glaring Ara 116% of Af if low-rise or 40% of Aw if high-rise) . .Abe h2 HOURLY HEAT LOSS •. ..;.,I tl+tie DESIGN TEMPERATURE DIFFERENCE IFor All Assemblies Other Than The Three Below. .70°F — > 1 °F -i&Th 1 OF - "` ci %abs •. A. VI Tow from above s. ?• s , " ti?.is,'. ,. ° _r, For Insulated Floor Over Vented Unheated Space .......... Line 1 =2 Thl T .\ For Uninsulated Floor Over Vented Unheatad Space........ Line 2,— b''F Thp 3 F zs. to For Slob -on Ground Floors ........... 70°F — i- F -ATha 4 1 F Tian from above CONDUCTIVE HEAT LOSS Averageu"+," tt 1 v:of Assembly, Area, ft or or R2 from AT hourly heat.:] i•, i •. Description o Assembly Y Length, ft Graph 4.1 from a I .SI• •d ' '`4",i iV.' i' ' `I G na Glarhtg x X : 'Apaix9e: wALA g✓p "r,`i we 1 1 Z X 1 1 X ' .+- ;i. c. L '4 Ceili Roof S?5 I OJ X o 3 p 1 X ' : 1 X x a g=;lejy;,t; bio i t X x sry , Ntii•'h Floor 00 x Lifx a D ✓3. k R ' M,tu I Other 1 x subtotal • 13 • e/ f 4. INFILTRATION ...... , 1 `C7 ft= x Q ` 7 h x • 113. X "S . oR , ' a: $3 t. ..1'•,' ' F ' 6 Al tram snow Welonted frorti Th rom Average Table a•7 t,lne 1 Calling Hight Subtotal7 Irne 21' tWhrline 4 DUCT HEAT LOSS (Entar 0 if there are no ducts) ...... , , .. 0.1e x Line i, Gil-` L:,• . 9 t i• TOTAL HOURLY HEAT LOSS, 4L g hr ANNUAL HEAT LOSS, °L. ifs •,.t 0 1f. .O X 24 hr/did ♦ F 10 . . ° •,1 Y ^ o itJ ,P +i. ay/Yr X Btu/hr I X_ F d MOO Hourly Hut Loss C from =Tn from : •,.+*n'°..,;. ,. Si.' from above from Line 9 Tacte 3-8 Line 1 l' PROPOSED CONALICTION ASSEMBLY 1. BUILDING ENVELOPE COMPLIANCE Y Form 3 (NR -8/81) Check on* and write In construction assembly number below (e.g. Wall -1, Roof -2, eto.) O Wall— Roof- 0 aII-Raaf-Q Floor- LI t s of Construction .Components R - Value Wall: Area _ ft2 1> Outside Surface Air Film -Z< 3. 0Z N11 t•.- . Framin§ type. Cooling Hosting If wood complete the following and adjust construction assembly inside Surface Air Elim 7. CoT S. ' Sketch of Construction Assembly construction assembly, and appropriate factors below: Wall: Area _ ft2 1, 0 1 Outside Surface Air Film -Z< 'i7 t•.- . Framin§ type. Cooling Hosting If wood complete the following and adjust construction assembly inside Surface Air Elim for framing: CoT Heat/ng f12 Size: Z' X Total Thermal Resistance (RT) Spacing:_._ O:C.. cooling Heating Indicate area, weight of construction assembly, and appropriate factors below: Wall: Area _ ft2 Weight _lb/ft3 MCF TDeq Roof: Area _ft2 Weight Ib/ft3 Mc Ac Floor. Area f12 (raised only) U-Value(1 IZ kr) . Z •O3o_j Cool/ng Heating Note: Total RT and U•Value must be adjusted for the effect of framing when appropriate. PROPOSED CONSACTION ASSEMBLY BUILDING ENVELOPE COMPLIANCE Form 3 fAIA_A /Oil Check one and write /a construction assembly number below (e.g. Wall -,1, xF .. Roof -2, etc. ` •' IQ4 O Roof- 0 Floor yY. List of Construction Components R -Value 4. y Sketch of Construction Assembly Frart in¢type: If wood complete the following and adjust construction assembly for framing: Size:L Spacing: 0. C.. Indicate area, weight of construction assembly, and appropriate factors below: Wall: Area _ft2 Weight _._._..Ib/ft3 MCF TDeq Roof: Area _ft2 Weight Ib/ft3 Mc Ac Floor: Area ft 2 (raised only) Outside Surface Air Film Inside Surface Air Film Total Thermal Resistance (RT) U -Value (1fRT)Q Note: Total RT and (I -Value must be adjusted for the effect y , Of framing when appropriate. Coating Hosting Cooling Hosting Cooling Heating Cooling Hosting Note: Total RT and (I -Value must be adjusted for the effect y , Of framing when appropriate. BUILDING DESIGN AND EQUIPMENT SUMMARY c• f X22'Q Is preleet title ellmate sone r►o eai aha a ..r raw er documentation autnor date cOmallance method IpretcrlatiVe or oartormance, describe) (Form page 1 of 2 pion ecN oarmlt number date Enforcement Agency Use Only BUILDING ENYELOFE DESIGH Description of Item Oimension Points. To I Floor Area fts - Z,g; $ QQ -j till ` N O 1 iJ ' '' ((, Type 2 1. Floor- Slab Perimeter, Type 1 F= ft Type 3 -Raisud, Type NC IrIG fe Type 2 h X0 L 4;;7 PA.0--r— 1 5j fts __K 2 Ceiling: Type 1 Cz-- 2 1 %3 ozz, fe — Type 5 .R Type 2 ft= --. $. Wali: Type 1 1J S l,l fta . I (rZ,A1A ) Z Type 2 fe a nV Ak `( A_ 4.Glazing: West, Type 1 — e ft= SLS ' _ Type 2 •% fts North, Type 1 \ .4 y ftj ( p , Type 2 East,TYpe 1 I/t, L— 4 3 ?'. — fta 'j • 4 '/e —`i."_ fta I — Type 2 South, Type 1 7 V A 12i % fta fta Type 2 Skylight, Type 1 V _SC to Type 2 sC h= S. Shading Coefficient. West Q l l . i SG C '_!E7 SC NortEth v may .Sc moi SC_ South % 1 I Sc S. Horizontal South Overhang 1 ` h • N 7. Movable Insulation : ha 8. Infiltration Control 9. Thermal Mass: Type 1 \ - Z,g; $ QQ -j till hs Type 2 mx , 1 ta '? qr, fe Type 3 .R NC IrIG fe 1-IJ1 >JC 1 • Z:11Type 4 __K _HG Idt ft' ,r — Type 5 .R _HG _MC fta '-] (rZ,A1A ) Z Point Total This Page ilea -azo - cec , . . __ ,{•.:H_ '"y''*C,1'P;w.-w : t4 R^'. i'w. Jj r. SUMMARY Form 2 page 2 of Z ' r' oral*" title climate zone *reject address HEATING, VENTILATING, AIR CONDITIONING SYSTEM Points 10. Heating (fill in information on proposed systeml Central Gas Furnace 96 brand and model number SE Stu/hr heating Cawcity Heat Pump brand and modal number ACOP ys v-aj —1> Btu/hr heating Capacity at 47-F Active Solar type (liquid or alr) collector brand and model number solar traction ha o collector area collector orientation collector tilt rated rated slope y - Intercept Other describe 11. Coding (fill in information on proposed system) Electric Air Conditioner band and model number seasonal EER Btu/hr cooling capacity at 95 R _ Electric Heat Pump X, " W© Btu/hr cooling capacity at 95 F Other describe 12 Mechanical Ventilation describe ACM DOMESTIC WATER SYSTEM 13. Heating (fill in information on proposed system) Gas Only Gallons brand and model number tank alae Heat Pump w/Electric Backup C —'Te C1: fZ t QZ — Gallons brand and model number tank s12e Active Solar collector brand and model number ated rated slope solar fraction . y . Intercept fts backup neater type, brand and model number Collector area Collector orientation Other describe Point Total from Page 1 . i Total Point Sears 1ro3 • 420 • CEC ENGINEERING DATA ,ci_ HP18 SERIES HEAT PunnPs HEAT PUMP OUTDOOR UNITS MATCHED REMOTE SYSTEMS "17,800 to 67,500 Btuh Cooling Capacity fags 1B 017,500 to 62,000 Btuh Heating Capacity March 1986 •ARI Standard 210 tend DOE Ratings OurNltiNl t, 0, 1064 Lennox HPIS Series Heart Pump systems Provide Low Cort Instaillaltion With Heaping -Cooling Efficiency The HP18 series outdoor units with matching indoor units are designed for builder type applications in apartments, hotels, motels, condominiums, new single'family housing or retrofits. HP18 units have SEER's pf up to 8.80 with a cooling capacity range of 17,800 to 57,500 Btuh and a COP rating of up to 2.80 with a heating capacity range of 17,500 to 62,000 Btuh. Matching blower -powered indoor units with optional supplemental electric heat are available to provide selective sizing and installation versatility. See Selec- tor table. For complete data on indoor units see individual bulletins indexed in this sedtion. Weather resistant cabinet is constructed of galvanized steel with a baked -on- outdoor enamel paint finish for maximum protection from rust and corrosion. Extra large four sided wraparound coil with durable copper tubing and ripple -edged aluminum fins pro- vides maximum efficiency. Powerful direct drive fan with totally enclosed motor draws air thru the entire, coil and discharges it up and away from shrubs and lawn. Rugged, PVC coated steel wire condenser fan and coil guards are furnished. Compressor is pro- tected fro; excessive current and temperatures. Electrical con- trol box is located for easy access. Service valves and refrigerant line connections are externally located. Available as options to be ordered extra are; refrigerant line sets and check and expansion valve kits. Outdoor units are shipped completely factory assembled, piped and wired. Each unit is test operated at the factory to ensure proper operation. The installer has only to set outdoor unit in the desired location, cortnect refrigerant lines and make electrical connections. M-dw wm,•ut,D ra,w +rears eantw nr ,we •oar C IMI, y IJ•ttD M°M W!D IIAM IVUI r11,M M Typical Applications NOTE.— Specifications, Ratings and Dimensions se!hlert to change without notice. SELECTOR Lennox tARI Standard 240 Ratings HP18-411V HP18461V HP18611V HPI. High Low HP18-413V Total HP18-613V HP1949M Total 9.24 Outdoor Unit c 9.24 11.39 Model No. Cooling emp. Temp. Total SEER EER Unit 3/8 -2 Hlgh Unit Low . - « Lennox •Check and *ARI Std. Capacity Htg. Htg. Unit IBtuh/ fBtuh/ High g HSPF em p' low Tem p' p m indoor Expansion 270 SRN (Btuh) Cap. Cap- Cooling 1/3 Watt) emp. 2600 Htg. Temp. Htg, E a r Unit Valve (Bels) 1100 (Stuh) (Btuh) Watts PhasWatt)e 1 Phase 3 Phase I Watts (factory setting) O.P. Htg. .O.P. G Used Kit 385 Refrigerant -22 (charge furnished) 4 lbs. 5 oz. 5 lbs.9 oz. 6 lbs. 1 oz. 6lbs. 15 oz. 9 lbs. 5 oz. Watts 15 lbs. 3 oz. Liquid line connection o.d. (in.) (sweat) Watts 5/16 3/8 3/8 3/8 17,8W 18 Z00 9600 2226 8.16 8.00 1980 5.86 2.70 1840 1.70 20% CBF16-21 H P18-211 V 17,900 17,900 10,100 2205 8.20 8.10 1965 6.05 2.65 1585 1.85 20% 1 CBIS -21 LB-34792SA (7.8) 18,000 17,500 9,500 2150 8.45 8.35 1875 6.05 2.76 1645 1.80 20% CBS18-21 18,500 17,600 10,000 2229 8.30 8.30 1947 6.26 2.65 1828 1.80 25% CPR18-21/26V ttFactory 23,400 22,6W 121 -1-10- /E16O2 Installed HP18-261V 23.800 24.000 13;700 2985 8.05 7.95 2650 6.65 1 2.65 175 1.85 20% 19% CBF1 26 CB18-26 LB34792SA (7.8) 24,000 24,600 134600 3016 8.40 7.95 2620 5.76 2.75 2160 1.85 19% CBS18-26 24,200 24,600 13;700 2933 8.40 8.25 2670 6.10 2.70 2170 1.85 24% CPR18-21/26V ttFactory / E1602 Installed 28,700 28,500 14,700 3679 8.00 7.80 3094 6.00 2.70 2393 1.80 27% CPR18-31/41V ttFactory H P 18-311 V 18.01 29,000 14,700 3685 8.05 7.85 3065 6.45 2.75 2400 1.80 17% / E1603 Installed 29,000 29,400 15,100 3665 8.30 7.90 3100 6.30 1 2.80 2420 1.85 19% C818-31 CBS18-31 LB-34792BB 29,400 28,200 15,600 3639 8.30 8.10 3050 6.40 2.70 2465 1.85 16% CBF16 31 HPI(Use Use SEEM EM 35,400 35,600 19,000 4355 8.40 8.15 3750 6.40 2.80 2820 1.95 21% CBIS -41 LB -3479286 35,500 34,500 18,§00 4494 8.20 7.90 3746 6.50 2.70 2994 1,85 24% CPR18-31/41V ttFactory HP18-413V (Use EER) /E1603 Installed 18.01 36,000 36,000 19,400 4320 1 8.55 8.35 3750 6.50. 2.80 2840 2.00 21% 1 , CBS18-41 LB -347928B HP18-461V 40.500 40.600 23,500 4793 8.60 8.45 4249 6.55 2.80 3360 2.05 24% CPR18-46/51V ttFactory (8.2) /E1604 Installed 41,500 41,500 23,000 5020 8.60 8.20 4380 6.45 2.80 3400 2.00 25% C818-51 LB -347928C HP18-511V CBS18-51 (Use SEER) 46.000 45,500 25,000 6412 8.80 8.50 4849 6.50 2.75 3574 2.05 26% CPR18-46/61V ttFactory HP18-513V/E1604 Installed 46 500 48,500 27,_000 5645• 8.70 8.20 5035 6.60 2.80 3950 2.00 24% CB18-51 (Use EER) ' (8.2) LB -347928D H P 18-654.V CBS18-51 (Use SEER) 56,000 62.000 38,000 7320 8.00 7.65 6450 6.90 2.80 5150 2.15 24% C818-65 HP18-653V CBS18-65 L8347926D 57,500 000 39,000 7615 8.00 7.65 6489 6.80 2.80 5316 .2.16 23% 11 CPR ' -65V ttFactory (Use EER) 18.21 /E1605 Installed *Sound Retina Nu -Mr in ... ..rwe.,..e 1Rated in accordance with ARI Standard 240 and DOE; At 450 cfm (maximum) Indoor air volume per ton of cooling capacity with 25 ft. of Connecting refrigerant lines, Cooling Ratings - 95°F outdoor air temperature and 80°F db/67°F wb entering Indoor coil air. High Temperature Heating Ratings 47°F db/43°F wb outdoor air temperature and 70°F db entering indoor call air, Low Temperature Heating Ratings - 17°F db/15°F wb outdoor air temperature and 70°F db entering indoor call air. •Heating Seasonal Performance Factor. *Kit must be ordered extra and field installed. + 1tFurnished as standard with coil. SPECIFICATIONS Model No. HP78-211V HP18-261V HP18-311V HP18-411V HP18461V HP18611V HPI. HP18-413V HP18-613V HP1949M Net face area (sq. ft.) Outdoor 9.24 6.46 7,39 9.24 11.39 1367 1822 Coil Tube diameter (in.) & No. of rows 3/8- 1 3/8 - 2 3/8-2 3/8 - 2 3/8 -2 3/8 -2 3/8-2 Fins per inch 20 20 20 20 18 20 20 Diameter(in .I&No. ofblades 18-4 18-4 18-4 18-4 22-4 22-4 22-4 Outdoor Motor hp 1/6 1/6 1/6 1/6 1/3 1/3 1/3 Cfm (factory setting) Fan c 2600 2200 2400 2600 3800 3900 3970 Rpm (factory setting) 1100 1040 1040 1060 1060 1060 1090 Watts (factory setting) 220. 250 250 260 .400 395 385 Refrigerant -22 (charge furnished) 4 lbs. 5 oz. 5 lbs.9 oz. 6 lbs. 1 oz. 6lbs. 15 oz. 9 lbs. 5 oz. 12 lbs. 15 lbs. 3 oz. Liquid line connection o.d. (in.) (sweat) 5/16 5/16 3/8 3/8 3/8 Vapor line connection o.d. (in.) (sweat) 5/8 5/8 3/4 3/4 3/8 1/2 Shipping weight (lbs.) 142 7/8 7/8 1-1/8 158 169 186 234 248 276 tNumher of packages in shipment 2 2 2 2 2 2 2 t Packages consist of outdoor unit and thermostat with strbba se. _.16a- • • ELECTRICAL DATA ••...- . __...__ .____ _ Model No. HP18-211V HP18-261V HP18-311V HP18-411V HP18.413V Line voltage data 208/230V 60hz/lph. 208/230V 60hz/1ph. 208/230V 60hz/1ph. 208/230V 60hz/lph. 208/230V 60hz/3ph. Compressor Rated load amps 10.6 12.6 15.4 19.8 11.6 Power factor .95 .96 .95 .94 .89 Locked rotor amps 42.0 69.0 69.0 95.0 73.4 Outdoor Fan Motor Full load amps 1.2 ' 1,2 1,2 1.2 1.2 Locked rotor amps 2,2 2.2 2.2 2.2 2.2 Recommended maximum fuse size or circuit breaker size (ampsl 20 25 35 45 26 *Minimum Circuit ampaclty 14.3 17.0 j 20.5 26.9 16.4 Z;'w nauvrwr - -MU u rnenuar ro uezermine wire, ruse and disconnect size requirements. - xtremes of operating range are plus 10% and minus 6% of line voltage. ELECTRICAL DATA Model No. HP18-461V HP18-611V MP18.613V HP18-661V HP18-653V Line voltage data 208/230V 60hz/tph. 208/230V 60hz/1ph. 208/230V 60hz/3ph. 208/230V. 60hz/1ph. 208/230V 60hz/3ph. Compressor Rated load amps 21.5 23.8 15.1. 31.0 21.6 Power factor .96. .96 .90 95 90 Locked rotor amps 95.4 114.0 84.0 159 115 Outdoor Fan Motor Full load amps 2.0 2.0 2.0 2.0 2.0 Locked rotor amps 4.5 4.6 4.5 4.5 4.5 Recommended maximum fuse size or circuit breaker size (amps) 45 50 35 60 50 'Minimum Circuit ampacity 28.9 31.8 21.1 41.0 29.0 a crwnic ..we nmoum w oerermrne wire, ruse and disconnect size requirements. NOTE - Extremes of operating range are plus 10% and minus 6% of line voltage. t FIELD WIRING LENNOX rDISCONNECT' IDISCONNECTI i LENNOX I THERMOSTAT i SWITCH i I SWITCH OPTIONAL I (turn shad) '(BY OTHERS): j(BY OTHERS)) r AUXILIARY j 46-- --------+ r ELECTRIC I r HEATER UNIT I E A i-------, OPTIONAL 4. --- I OUTDOOR `THERMOSTAT F D r-------1 C IDISCONNECTI OUTDOOR r SWITCH UNIT j (BY OTHERS) ►-.------ G LENNOX'. INDOOR UNIT A - Two or Three wire power (see Electrical Table) B - Two or Three wire power (size to heater capacity) C - Two wire power (size to indoor coil blower motor) D - Two wire low voltage 118 ga. minimum) E - Six wire low voltage (18 ga. minimum) with Electric Heat Eight wire low voltage with Optional Outdoor Thermostat. F - Four wire low voltage 118 ga. minimum) G - Three wire low voltage (18 ga. minimum) - field wiring not tumished - NOTE - All wiring to conform to NEC and local electrical codes. -16h - i zsw 1 1111,4500 1705 - NOTE - Healing capacities include the effect of defrost cycles in the temperature range where they occur. HP18-651V-653V HEATING CAPACITY WITH CB18-65 OR:CBS18-6,9 INDOOR COIL UNIT Indoor Coil Air To erature Enterin Outdoor Coil (°F) Air Volume 65 46 25 1 6 (cfm) Total Htg. Comp. Mtr. Total Htg. Comp. Mtr. Total Htg. Comp. Mtr. Total Htg. Comp. Mtr. Total Htg.lComp. Mtr 70°F db Ca . (Btuh) alts In ut Ca . IBtuhl ai n ut Ca .IBtuhl alts In ut Ca . IBtuhl alts In ut Ca .IBtuhl efts In ul 2100 76 700 5805 59 100 40900 4070 29 400 3235 577 700 60 100 1 3945 400 3110 le Mn -nin NOTE Heating capacities include the effect of defrost cycles in the temperature range where they occur. HP18-511V-513V HEATING PERFORMANCE HP1S-651V-653V HEATING PERFORMANCE at 1800 am Indoor Coil Air Volumb (CB1B-51 or CBS18-51) at 21W cfm Indoor Coil Air Vnhrrnn-IfInia-s= ... ne ,n *Outdoor Temp. .+ ... Compressor Motor Total Output RATINGS Watts Input (Btuh) NOTE -To determine Sensible Capacity, Leaving Wet Bulb and Dry Bulb. temperatures 510 61 600 not shown in the tables see Miscellaneous Engineering Data section, Page 9. 4330 HP18-511V-513V COOLING CAPACITY WITH CB18-51 OR CBS78-51 4T66- 54300 INDOOR COIL UNIT 70 7 4 7 3860 Outdoor Air Temperature Enterin Outdoor Coil °F 7 1 1 Enter. Total' 95 11 105 6 1640 Wet Bulb Air Vol. Total Comp. Sensible Total Com Sensible Sensible Cool Motor To Total p' To Total Total Comp. Total Comp. To Total Sensible 3055 30.100 (°F) Icfm1 Cool Motor Cool Motor Cep. Watts do (S/T1 atlo S Ratio S T Cool Motor Cap. Watts To Total io 2760 27 000 0 700 D Bulb ° ° Cep. Watts (Btuh) Input 6 (Stuh) Input Bulb (Btuh) In76 1 00 1 04put D Bulb °F 76 1 so 1 84 (e uhl Wimp t S AM 550 83 2.00 .00 -.41800 ` 18 6789 -10 2105 1955 71 15 1805 NOTE -All values are groes capacities and do not Include indoor coil blower motor heat deduction. • HP18-651V-653V COOLING CAPACITY WITH C81M OR CBS18-65 INDOOR COIL UNIT Outdoor Alr Tem erature Enterin Outdoor Coil °F - Enter. Total ' 8595 105 16 Wet Air Bulb Vol. !Total Comp. Sensible Total Com Sensible Sensible Cool Motor To Total To Total Total Comp. Total Comp. Sensible (°F) (cfm) Cool Motor Ratio S/T Cool Motor To Total Cool Motor Cap. Watts Ratio S T Ratio S T Cap' Watts To Total D Bulb of Cap. Watts °Cap, WamIBtuhl Input IBtuhl Input IBtuh) Input D Bulb F Retlo S Bulb °F63 2100 76 84 put (Btuhl i 76 80n80 58 000 5460 56 000 5790 .81 .94 1.00 53 200 6100 83 Im _ 76 1 84 2100 96 100 50 900 6400 59 800 5510 57 300 5860 .85 .99 1.00 54 B00 6190 .87 1.00 1.00 52 400 6490 62 100 56W 86 99 1002350 67 .90 1.00 2350 2100 63 000 5670 .63 .77 .90 59 900 6000 65 5.700 654(Y 9 .92 56 900 6310 .66 .81 .95 53 900 6590 W 71 2350 "4-4 11 1 6480 900 5860 .46 .59 .72 63 600 6LL.-68IL62 IM 200 .47 .60 .74 400 6 0 7 .68 .84 .98 NOTE All values .62 .76IE a% groes capacities `and do not include indoor coil blower motor heat deduction HP18-511V-513V HEATING CAPACITY WITH CB18-51 OR CBS18-51 INDOOR Indoor Coil COIL UNIT Air Volume Air Temperature EnteringGoll oll (°F) 66 - Iciml 70°F 1145 45 25 16 Total Htg. Comp. Mtr. Total Htg. Comp. Mtr. Total Htg. Comp. Mtr. Total Htg. Comp. Mtr. Total Htg.lComp. Mtr. Cap. (Btuh) efts Input Cap. IStuh)alta In ut Ca . IBtuhl atte In ut Cep. IBtuhl alta Input Can_ Igtrrl,t n«. r....... - - - i zsw 1 1111,4500 1705 - NOTE - Healing capacities include the effect of defrost cycles in the temperature range where they occur. HP18-651V-653V HEATING CAPACITY WITH CB18-65 OR:CBS18-6,9 INDOOR COIL UNIT Indoor Coil Air To erature Enterin Outdoor Coil (°F) Air Volume 65 46 25 1 6 (cfm) Total Htg. Comp. Mtr. Total Htg. Comp. Mtr. Total Htg. Comp. Mtr. Total Htg. Comp. Mtr. Total Htg.lComp. Mtr 70°F db Ca . (Btuh) alts In ut Ca . IBtuhl ai n ut Ca .IBtuhl alts In ut Ca . IBtuhl alts In ut Ca .IBtuhl efts In ul 2100 76 700 5805 59 100 40900 4070 29 400 3235 577 700 60 100 1 3945 400 3110 le Mn -nin NOTE Heating capacities include the effect of defrost cycles in the temperature range where they occur. HP18-511V-513V HEATING PERFORMANCE HP1S-651V-653V HEATING PERFORMANCE at 1800 am Indoor Coil Air Volumb (CB1B-51 or CBS18-51) at 21W cfm Indoor Coil Air Vnhrrnn-IfInia-s= ... ne ,n *Outdoor Temp. .+ ... Compressor Motor Total Output (Degree F) Watts Input (Btuh) 65 510 61 600 r9996 - ` 4330 55 4T66- 54300 46- 70 7 4 7 3860 46 7 1 1 40 3605 40000 15 1640 10 235 2 6 3055 30.100 52wb 2870 28 200 M15, 2760 27 000 0 700 5 1 400 550 23 ` 18 300 -10 2105 1955 15 800 15 1805 13 200 10 700 15 *Outdoor Temp. (Degree F) Compressor Motor Watts In ut Total Output ^• (Btuh) 65 5805 76.700 r9996 - ` 5375 50 47 5165 5035 64 46- 4945 40 4730 5 800 451 30 25 20 17 4290 4070 3850 3720 42.700 40 900 39 1 15 1640 10 'AdAA 6 3235 400 52wb 5 25 22 02 5 . 18 600 0 2 5 3 5 1 400 ..-v d[ ru7b relative humidity. Indoor temperature at 70°F. -16m- •Outdoor temperature at 70% relative humidity. Indoor temperature at AFF. LL-Yffff,TX0- ES12 MODEL — DOWN-FLO WITH FIELD INSTALLED CPR12 COIL E12 & ES12 SERIES ELECTRIC FURNACES UP-FLO-- DOWN-FLO — HORIZONTAL 13,000 to 102,400 Btuh Electric Heating Capacity Add -On Cooling — 1-1/2 thru 5 Nominal Tons v9 ES12 MODEL — HORIZONTAL WITH FIELD INSTALLED CPS12 COIL ENGINEERING DATA HEATING UNITS ELECTRIC Page 11 July 1, 1983 , Supersedes 0.1.82 • E12 MODEL — UP-FLO WITH FIELD INSTALLED CP12 COIL Multi -Position Line Of Electric Furnaces Provide High Efficiency Performance And Installation Flexibility The Lennox E12 and ES12 electric furnaces are designed for multi -position installation in a basement, utility room, 'alcove, closet, cabinet interior. Variable speed direct drive blowers have sufficient capacity crawlspace or attic. Versatile units are applicable to heating only, heating -cooling or heat ^ pump apXations. Several models to handle cooling air volume requirements. Hammock style fiberglass air filters are furnished on E12 up-flo models only. Nichrome heating elements are available in varying sizes with a wide ', range of heating and cooling capacities. E12Q2 and E1203 models for give long service life and efficient heating operation. Factory installed cir- are up-flo applications only. The E12Q4 and E12Q5 series models are applicable cuit breakers are accessible external to the cabinet. Optional accessories available include thermostat, return air cabinets, down-flo to either up-flo or down-flo installation. The ES12Q2, ES1203 and ES12124 additive base, outdoor thermostat and filter kits. series can be installed in the horizontal or down-flo position and the ES12125 models in the horizontal only. Units have been tested and rated according to Department of Energy (DOE) The optional field additive "slide -in" coil installs internal to the cabinet (up from test procedures and Federal Trade Commission (FTC) labeling regulations in the Lennox Research Laboratory. Furnaces are U.L. listed. stream the blower and electric heat elements) and is specially matched to the unit for efficient air delivery and maximum capacity. For In addition, units and components within are bonded for grounding to meet safety up-flo applications optional return air cabinets are available for installation standards for servicing required by UL and NEC. Blower performance data is from unit tests conducted in the Lennox on either side of the unit. Laboratory air test chamber. The cabinets are trim and attractive appearing with a durable electro -bonded finish. Each unit is test operated at the factory and shipped assembled (except for the DX coil) with all controls mounted and paint Removable front panels provide complete service access to prewired. The installer has only to make the necessary field duct and electrical connections. Typical Applications Down -Flo Installation Horizontal Installation With Electronic Air Cleaner And Humidifier y NOTE — Specifications, Ratings and Dimensions subject to change without notice. lift i l i i I I I I I -_i. . ' •III .I -r. I_ .o Up -Flo Installation With Return Air Cabinet E12 SERIES SPECIFICATIONS 11 Model No. E12Q2-05 E12Q2-10 E12Q2-16 E12Q3606 E1203-10 E1203-15 E12Q3-20 E12Q4-10 E1204-15 E12124-20 ` E12.Q4-26 E12Q6-15 E12Q5-20 E12Q6-25 E12Q6-30 Blower wheel nominal diam. x width (in.) 9 x 7 10 x 8 10 x 8 12 x 12 Blower motor he 1/4 1/3 1/2 3/4 Up -Flo I Net free filter area (sq. ft.) 6.3 6.3 7.8 000 Models OnlyFilter cut size (in.) 30 x 26 x 1. 40 x 26 x 1 44 x 26 x 1 8.7 50 x 26 x 1 Tons of cooling that can be added 1-1/2 or 3 2-1/2 or 3 3, 3-1/2 or 4 4 or 5 Shipping weight (lbs.) 121 127 160 192 Number of packages In shipment 1 1 100% E12Q5-20 ct Elerical charactorlatice 100% E12Q5-25 1 1 toptlomo Rown Air MOM o, 91000100% 208 240v/60hz/1 hese Cabinet (Up -Flo only) ShiA10:1613 pping weight (lbs.) 10.1 - 54 tOptional Additive Coils Up -Flo CP12-26V CP12-31 V, E 5 56 CP12-46V, CP12-51V CP12-65V Model Down -Flo 11 iti tDown-Flo Additive Base (Optional) ---- ---- CPR12-46V, CPR12-51V CPR12-65V iFilter Kit 10 tional► Down -Flo Models Only ---- LB-34695BC LB-34695BD tK4—t h. r,...-4 e....e *LB-51349CA '2 kits are required for down-flo applications. X Model No. Blower wheel nominal diam. x width (in. Blower motor h Tons of cooling that can be added Shipping weight (lbs.) Number of packages in shi ment Electrical characteristics tOptional Additive Coils Horizontal Model No. Down -Flo 7—Down-Flo Additive Base (Optional) iFilter Kit (Optional) tMust be ordered extra. E12 SERIES ELECTRIC HEAT RATINGS Model Number tOut ut Btuh tA.F.U.E. E1202-05 16 000 100% E12Q2-10 31,000 100% E12Q2-15 45,000 100% E12Q3-05 16 000 100% E12Q3-10 31.000 100% E12Q3-15 000 00% El Q3-20 61,000 100% E12Q4-10 31,000 100% E12Q4-15 46.000 100% E1204-20 61.000 100% E12Q4-25 75 000 100% E1205-15 46,000 100% E12Q5-20 62.000 100% E12Q5-25 75,000 1000% E12Q5-30 91000100% •- -• ••... • " tea,, ,, &„,c,ency FTC labeling regulations. udsea on uut: test procedures and according to ES12 SERIES SPECIFICATIONS ES12Q2-05 ES12Q2-05 ES12Q3-05 ES1254-05 ES12Q2-10 ES1203-10 ES1204.10 ES12Q2-16 ES1203-15 ES12Q4-15 16 000 ES1203-20 ES12Q4-20 9x7 9x7 10x8 1/4 1/3 1/3 1-1/2 or 3 2-1/2 3 or 3.1/2. 121 131 140 1 1 1 208-240v/60hz/1 phase 12-26V CPS12-31V CPS12-41/46 12-26V CPR12-31V CPR12-41V 1695BA LB-34695BB LB-34695BB ES12 SERIES ELECTRIC HEAT RATINGS Model Number tOut ut Btuh tA.F.U.E. ES12Q2-05 15,000 98.8% ES12Q2-10 30 000 98.8% ES1202-15 47,000 98.8% ES1203-05 16 000 99.0% ES1203.10 31,000 99.0% ES1203-15 45 000 99.0% ES12Q3-20 63,000 99.0% ES1204-05 16 000 99.0% ES1204-10 31000 99.0% ES1204-15 46,000 99.0% ES1204-20 64,000 99.0% ES12135-15 46 000 99.3% ES12Q5-20 65,D00 99.3% . _.__.. __. _,......,. I, , ,,,,,,,,,,,y ardseu on uue test procedures and according to FTC labeling regulations. ES12Q&15 ES12Q5.20 12 x 9 3/4 4or5 116 TM WATER HEATER (INTEGRAL TANK MODEL) rgutnaral Dafvarlptlo" The E- Itch Water Heater is a nun -reversing (heating only) air -to -water heat pump (W H H P). It is used instead of a regular water heater in order to save energy. It operates on the heat pump principle, i.e., a.compressor operating in a non- reversing refrigeration circuit extracting heat from the airand expelling it through the condenser to the water. I he unit is designed for new constru.:tiun, replacement, or wherever a suitable electric or gas water heater is not currently in place. The heat pump is shipped attached, plumbed and wired to an 82 -gallon electric water heater tank. The heat pump section contains a compressor, air -to - refrigerant evaporator coil, air fan, water circulating pump, refrigerant -to -water condenser coil, expansion device, and controls. Air is forced over the evaporator coil by the fan, while water is circulated from the bottom of the hot water storage tank through the condenser coil, and returned to the tank by the circulating pump. E -Tech Water Heaters have been thoroughly tested by utili- ties, government agencies and independent laboratories. All ratings and specifications are in accordance with standards proposed by the Air Conditioning and Refrigeration Institute or the Gas Appliance Manufacturers Association. it Installation and Operation The Model R 102 Water Heater is designed to be installed as easilvasa standard electric water heater: hot and cold lines are soldered to the stub, or, the heat pump and a 25 amp, 230 volt power supply is connected. The only additional steps required are purging air from the heal pump water lines and running a condensate line to a suitable drain. The heat pump must be protected against freezing and temperatures grcaicr than 95'-1 15' F.* This will normally exclude attic installations. The WI -11-1 P may be installed in unconditioned, freeic-protected space or in conditioned space. The space cooling effect of the W H 1-1 P may have some impact on the heating and cooling Kequirements of the condi- tioned space. The minimum siic closed space for installation is 750 cubic feet: less space is required if air I'low is permitted, such as %pith looNercd doors. In low temperature situations (from 45'-50' F depending on relative humidity and inlet %%atcr tcnperaturc) the heat pump will automatically shut off and the resistance element in the tank will he acti\atcd. In addition. thele i, a three -position s%6tch to select the normal heat pump mode, resistance Itcaung only mode. orsysiein off. The RIII2 Wnler licalrr i, designed such that if the heat pump rust he rcmoNed for servi,:c, the tank and household plumbing mai he lest undistuncCd. Placing the selector ss\ itch on "resistance heating.. insures eater heating during the ser- ice period. MODEL R102 Specifications OU•rPUT: Rated 12,100 RTU. hr (3.5 kw)** ENERGY FACTOR: 2.53 (COP) adjusted in accordance with the GAMA standard when heat trap is used on connecting water lines. RECOVERY: 18 gallons per hour at 135' F tank temperature** 25 gallons per hour at 115° F tank temperature** COOLING & DEHUMIDIFICA"T"ION: 7900131"11 hr and 1.6 pints?.hr** WEIGHT: 320 lbs. TANK CAPACITY: tit Gallons. WATER TEMPERATURE: Maximum - 140*F(60°C)*• ELECTRICAL SPECIFICATIONS: 230 VAC @ 60 H/ Maximum Amperage: INamps„ith resisianceelements @ 230 VAC. 25 amp fuses or circuit breakers required. OPFRATING •rl:ntIll- RATliKES: 400-5(10 I= (7°-10°C) Mininunn air inict depending on relali\c hunidit- and inlet eater temp. *950-1150 I 1 5°-46°CI Maximum air inict depending on mullet eater thcrnostat setting. **GAMA rating point 7S1 I I)13 63' I: W13 olt-i Applied Research LaborIatorles Listed E *T ech 3570 American Drive, Atlanta. Georgia . O,I-II • 14041 A58-0044