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002976 (SFD):1 PRP 87-076 P.O. BOX 1504 No. 002976 Building 78-105 CALLE ESTADO Address 5-365 AfflMdda Harrma LA QUINTA, CALIFORNIA 92253 wave is PattL Mailing Address City Zip ITel. Contractor 77-699 C .ij� 'irisw City_ Zip Tel.' P , CA,92256 3013.3 BUILDING: TYPE CONST: VN OCC: GRP._ A.P. Number 7.74-245-018 R-3 Legal Description L(*- 68 BIOCk 290 Project Description SJmle—Fardly D=11iM to Amatm Strua"t°ak3Ce Dei'dt=Mx-1 by State Lic. City Wig 1360No. & Classif. SOM4 BLic. # 921 Sq. Ft. Size � i 440 No. Dw.. Stories Units Arch., Engr.; Designer New Add ❑ Alter ❑. - Repair ❑ Demolition ❑ Address Tel. City Zip State _. Lica#- LICENSED, CONTRACTOR'S DECLARATION I hereby affirm that I am licensed under provisions of Chapter 9 (commencing with Section 7000)of Division 3 of the Business:and Professions Code, and my license is in full force and effect. SIGNATURE " DATE OWNER -BUILDER DECLARATION I hereby affirm that I am exempt from the Contractors License Law for the following Estimated Valuation 070 000 reason: (Sec. 7031.5,Susiness and Professions Code: Any city or county which requires a Permit to construct, alter, improve, demolish, or repair any structure, prior to its issuance. also requires the applicant for such penvit to file a signed statement that he is licensed pursuant to the provisions of the Contractor's License Law, Chapter9 (commencing with Section 7000) of Division 3 of the Business and Professions Code, or that. he is' exempt therefrom, and the basisfor the alleged exemption. Any violation of Section 7031.5 by any applicant for a permit subjects the'applicant to a clvil'penalty of not more than five hundred dollars ($500). - ❑ I, as owner of the property, or my employees with wages as.their sole compensation, will do the work, and the structure is not intended or offered for sale. (Sec. 7044, Buisness and— Professions Code: The Contractor's License Law does not apply. to an owner of property who builds of improves thereon and who does such work -himself or through his own employees,- provided that such improvements are not intended or offered for sale. If, however, the building or improvement is sold within one year of completion, the. owner -builder will have the burden of proving that he did not build or, improve for the purpose of sale.) O 1, as owner of the property, am exclusively contracting with licensed contractors to con- 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 such projects with a contractors) licensed pursuant to the Contractor's License Law.) - ❑ 1 am exempt under Sec. B. & P.C.- for this reason c •r PERMIT. i AMOUNT Plan Chk: Dep. - . _ 250.00 Plan Chk. Bal. - Y - e 2�9t Co6st. CwvV V Mech. '. a �w 00 Electrical 50160 . Plumbing 67,0 S.M.I. 4.94 Grading Driveway Enc. Date Owner Infrastructure -2majae Pam- c' 25„00 WORKERS' COMPENSATION DECLARATION i I hereby affirm that I have a certificate of consentto self -insure, or a certificate of Worker's Compensation Insurance, or a certified copy thereof. (Sec. 3800, Labor Code.) Policy No. Company O Copy is filed with the city. ❑ Certified copy is hereby furnished. i CERTIFICATE OF EXEMPTION FROM WORKERS' COMPENSATION INSURANCE (This section need not be completed i1 the permit is for one hundred dollars ($100) valuation or less.) I certify that in the performance of the 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+' fir. NOTICE TO APPLICANT. If, ,after making 'this Certificate of Exemption you should become subject to 'the Workers' Compensation' provisions of the Labor Code, you must forthwith comply with such provisions:or this permit shall be deemed revoked. ' CONSTRUCTION LENDING AGENCY I hereby affirm that there is a construction lending agency for the performance ofthe work for which this permit is issued. (Sec. 3097, Civil Code.) Lender's Name Lender's Address This is a building permit when properly filled out, signed and validated, and is subject to expiration if work thereunder is suspended for 180 days. I certify that I have read this application and state that the above information is correct. I agree to comply with all city and county ordinances and state laws relating to building construction, and hereby authorize representatives ..of this city to enter the above- mentioned property -for inspection purposes. Signature of applicant Date Mailing Address City, State, Zip HARD COPY TOTAL 7 2w J 532,83 .REMARKS ZONE: BY: Minimum Setback Distances: FrontSetback. from Center Line Rear Setback from Rear Prop. Line Side Street Setback from Center Line Side Setback from Property Line FINAL DATE INSPECTOR Issued by: Date 3/587 Permit Validated by: Validation: 6%462 3 6 D3283 it CONSTRUCTION ESTIMATE NO. ELECTRICAL FEES NO. PLUMBING FEES IST FL. SO. FT. ® $ UNITS GRADE ROUGH PLUMB. BONDING YARD SPKLR SYSTEM 2ND FL. SO. FT. ® /SLAB ` ( ORMS Fi-6— 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. I SO. FT. ® GROUT WATER HEATER WALL SQ. FT. FINAL INSP. DRINKING FOUNTAIN SQ. FT. ® WATER SYSTEM URINAL ESTIMATED CONSTRUCTION VALUATION $ WATER PIPING NOTE: Not to be used as property tax valuation FINAL INSP. FLOOR DRAIN MECHANICAL FEES WATER SOFTENER VENT SYSTEM FAN EVAP.COOL HOOD SIGN WASHER(AUTO)(DISH) APPLIANCE DRYER VENTILATION 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, TEM/PERM 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 ® 11/4 c SEWAGE DISPOSAL SO.FT.GAR ® 3/4c HOUSE SEWER FINISH GRADING GAS PIPING PERMIT FEE PERMIT FEE PERMIT FEE DBL TOTAL FEES MICRO FEE MECH.FEE PL.CK.FEE CONST. FEE ELECT. FEE SMI FEE PLUMB. FEE STRUCTURE PLUMBING ELECTRICAL HEATING & AIR COND. SOLAR SETBACK GROUND PLUMBING UNDERGROUND A.C. UNIT COLL. AREA GRADE ROUGH PLUMB. BONDING HEATING (ROUGH) STORAGE TANK /SLAB ` ( ORMS Fi-6— SEWER OR SEPTIC TANK ROUGH WIRING DUCT WORK ROCK STORAGE FOUND. REINF. GAS (ROUGH) METER LOOP HEATING (FINAL) OTHER APP./EQUIP. REINF. STEEL GAS (FINAL) TEMP. POLE GROUT WATER HEATER SERVICE FINAL INSP. BOND BEAM WATER SYSTEM GRADING cu. yd. $ —Plus—X$—=$ LUMBER GR. FINAL INSP. FRAMING FINAL INSP. ROOFING �J ' REMARKS: VENTILATION FIRE ZONE ROOFING FIREPLACE SPARK ARRESTOR GAR. FIREWALL LATHING MESH ,2�6NSUD FINISH GRADING FINAL INSPECTION CERT. OCC. FENCE FINAL INSPECTOR'S SIGNATURES/INITIALS, GARDEN WALL FINAL AMENDMENT TO INSTRUCTIONS DATE May 25, 1983 ESCROW No. 4849 The previous instructions in this Escrow are hereby modified or amended in the following particulars only: The legal description of the property is amended to be as follows: Lot 6 in Block 290 of Santa Camelita at Vale La Quinta, Unit no. 26,. as per map recorded in book 20 page 50 of Maps, Riverside County Records. ALL OTHER TEEM AND CCNDITICNS F04kM TM SAME. PACIFIC FEDERAL. SAVINGS- AND MAN 'ASSOCIATICN By:, Caroline Sheffield -.-R.'&.0.-,,-Dept. Patricia K. Keeley A Single Family Residence MR. and MRS. DAVID KEELEY 54-365 Herrera Ave * La Quinta, Ca. ------------------------------------------------------------ TITLE 24 COMPLIANCE NOTES: 1. Provide gaskets at'all duplex / J -Box outlets at exterior walls. 2. Ducts shall be fabricated, installed and insulated according to chapter 10 UMC (Uniform Mechanical Code). 0 3. Provide automatic setback thermostats. 4. Provide R-12 or greater blanket insulation (externally wrapped) at all water heaters. r 5. Provide R-3 or greater pipe insulation for first five feet pipe closest to water heater or whatever shorter length is in unconditioned space. 6. Provide tight fitting closeable metal or glass doors over entire fireplace opening (unless such devices interfere with intregal circulation devices). 7. Wall insulation to be 5.5" (R-19) mineral fiber insulation or equivalent. -See accompanying construction assemblies. 8. Roof/Ceiling insulation to be 2 layers 5.5" (R-19) mineral fiber insulation or equivalent. See accompanying construction assemblies. 9. This Calculation per AB 163 (Fall 1984 P400-84-016). 10. All glazing shall be DUAL pane. All EAST facing glazing shall receive off-white vertical or mini -blinds to serve as an additional shading device. 11. Contactor may submit alternate equipment specifications to the City of La Quinta provided proposed equipment complies with accompanying Heat Gain and Heat Loss Calcs and has minimum SEER = 8.6 and C.O.P. = 2.80. ......++++++++++ MICROPAS SUMMARY ++++++++++++++++ Custom Budget - 61202 kbtu, 45.7 kbtu/sf Actual Residence - 60030 kbtu, 44.1 kbtu/sf DISCLAIMER: C.M. ENERGY CONSULTING provides these calculations as HVAC design assistance in i accordance with State approved calculation procedures, and is not responsible for actual HVAC design. ------------------------------------------------------------ D O C U M E N T A T I O N PREPARED BY: * ------------------------------------------------------------ C.M. ENERGY CONSULTING 43-650 Carmel Circle, Palm Desert, Ca. Telephone: (619) 346-8014 TITLE 24 ENERGY COMPLIANCE DOCUMENTATION ---------------------------------------- Dat.ea February. 9, 1987 Project: A Single Family Resi.dence for: Mr . ' and Mrs. David Keeley at: 54-365 Herrera Ave * La Ouinta, Ca. by: CORNERSTONE CUSTOM BUILDERS Job #a 120.87 CLIMATE ZONE 15 I HEREBY CERTIFY THAT THIS BUILDING MEETS ALL REQUIREMENTS OF TITLE 24, PART 2, CHAPTER 2-53 OF THE CALIFORNIA ADMINISTRATIVE CODE, WHEN DESIGNED ACCORDING TO THIS DOCUMENTATION. C Signed:-- C.M. ENERGY CON I TING 43-650 Carmel Circle Palm Desert, Ca. ( 619 ) 346=8014 •M�croPas Model'Budget.' o • �7 BUILDING DESIGN AND EQUIPMENT SUMMARY MICROPAS FORM2 Project Title ...PACKAGE D MODEL BUDGET Date: 2/09/87 Page I Run Title Cornerstone Builders -------------------------- Owners Name .... Mr and Mrs David Keeley I I Location ....... 54-365 Herrera Ave I (checked by) I Building Type. .: SINGLE I I Climate Zone ... 15 1 (date) I ---------------------- < < < MICROPAS 2.0 File-KEELEYM Program-FORM2 > > > BUILDING ENVELOPE DESIGN--20NE 'HOUSE' ------------------------------- --------- 1. Total Floor Area .. 1360 sqft 2. Volume .............. 12702 cuft 3. SURFACES: Description Area U -Value R -Value a. Wall 1058 sqft 0.090 b. Door .21 sqft 0.330 c. Ceiling 1020 sqft 0.027 d. Ceiling 340 sqft 0.032 e. Slab Perimeter 148 ft 0.770 4. GLAZINGS: Description Area % F.A. U -Value Type ----------- a. South ---- 49 sqft ------------- 3.67. ---- 0.65 Double b. West 49 sqft 3.67. 0.65 Double c. North 49 sqft 3.6% 0.65 Double d. East 49 sqft 3.6% 0.65 Double e. Horizontal 20 sqft 1.57. 0.65 Double Total 218sgft 16.0% 5. SHADINGS: Cooling Cooling. Description ----------- Area Shad. Coef. Shad. Fact. a. South ---- 49 sqft ----------- 0.36 ----------- 0.41 b. West 49 sqft 0.36 0.41 c. North 69 sqft 0.36 0.41 d. East 49 sqft 0.36 0.41 6. OVERHANGS: NONE 7. MOVEABLE INSULATION: NONE B. INFILTRATION CONTROL: (Construction Type: MEDIUM ) 0.50 ac/hr 9. THERMAL MASS: Total Thick- 'Conduc- Heat Air Film Description Area ness tiVity Cap. Conductance ----------- ----- a. FLRTILE 340 sqft ------ 2 in ------- ---- 0.98 28 ----------- 1.30 to HOUSE b. SLABTOP 1020 sqft 2 in 0.98 28 0.36.to HOUSE I • :7 • BUILDING DESIGN AND EQUIPMENT SUMMARY MICROPAS FORM2 Page 2 Project Title .. PACKAGE D MODEL BUDGET Run Title ...... Cornerstone Builders Date: 2/09/87 < < < MICROPAS 2.0 File-KEELEYM Program-FORM2 > > > HEATING, VENTILATING,. AND AIR CONDITIONING SYSTEMS --ZONE 'HOUSE' ---------------------------- ------------------------------------ 10. HEATING SYSTEM: b. Model _ NOT APPLICABLE d. Capacity (Btu/hr) .11. COOLING SYSTEM: a. Type ......... FURNACE c. EFF/COP ...... 2.50 a. Type ......... HEATPUMP b. Model — NOT APPLICABLE c. SEER ......... 9.50 d. Capacity (Btu/hr) 12. VENTILATION SYSTEM: a. Type ......... NATURAL • MICROPAS ASSUMPTIONS -Building Total M1. Building Latitude .. 33.0.deg 1• 1• MICROPAS ASSUMPTIONS -ZONE 'HOUSE' Z1. Zone Heat Cap .... 3040 Btu/F Z3. Vent .Inlet Area .. 20 sgft Z5. Vent Height ...... 1.0 ft Z6. THERMOSTAT SETTINGS: a. Heating Temperature: b. Cooling Temperature: c. Venting Temperature: d. Setbacks: M2. Wind Correction Factor ... 0.25 Z2. Internal Gain ..... 86991 Btu/day Z4. Vent outlet Area .. 20 sgft Z6. Vent Azimuth 0 deg Heating Season Cooling Season --- --- ---------- 65 65 80 80 80 65 No No • Page I MICROPAS 2.0 File-KEELEYM Weather-CZ15 Program -SUMMARY > > > Run -Cornerstone Builders Project -PACKAGE D MODEL BUDGET Date -2/09/87 M I C R 0 P A S 2.0 CP/M - 4/15/85 Calculations By: C.M. ENERGY CONSULTING 43-650 Carmel Circle Palm Desert California 92260 (619) 346-8014 10 PROJECT DATA Run Title.............0................... Cornerstone Builders Project Title ............................ PACKAGE D MODEL BUDGET Owner's Name .............................. Mr and Mrs David Keeley Site Location .........4.... .............. 54-365 Herrera Ave Building Type ............................. SINGLE DESIGN DATA Floor area (sgft) ........................ 1360 Glazing area (sgft) ..................... 217.6 Glazing percentage (%) .................. 16% Glazing UA (Btu/hr-F) ................... 141 (27.7'/.) Opaque UA (Btu/hr-F) ..................... 254 (49.9%) • Infiltration UA (Btu/hr-F) .............. 114 (22.4%) Total UA (Btu/hr-F) ...........:......... 509 (100%) MECHANICAL SYSTEMS • Heating System .......................... FURNACE Cooling System .......................... HEATPUMP Ventilation System ...................... NATURAL CLIMATE DATA • Weather Data Location ................... EL CENTRO CA MKW/RED Average Temperature (F) ......:.......... 73 Minimum Temperature (F) ................. 34 Maximum Temperature (F) .................. 110 10 u • • r, u C7 1• I• 1• 1• Page 2 < ( < MICROPAS 2.0 File-KEELEYM Weather-CZ15 Program -SUMMARY > > > Run -Cornerstone Builders Project -PACKAGE D MODEL BUDGET Date -2/09/87 PERFORMANCE SUMMARY ------------------------ ENERGY BUDGET COMPARISON ---- BUDGETS ---- ------ CONSUMPTION ------- SOURCE SOURCE FUEL ELECTRIC TOTAL Q Btu) (kBtu/sf) --------------------------------=------- BUILDING: 1360 sf of Conditioned Floor Area Heating 768 0.6 $5 $0 $5 Cooling 60433 44.4 $473 $473 Venting. 0 0.0 $0 $0 -------- -------- ------ -------- -------- Totals 61202 45.0 $5 $473 $477 ($0.35/sf) . CALIF. STANDARDS BUDGET: Single Family Home in Climate Zone 15 Heating 952 0.7 $6 $0 $6 Cooling 49232 36.2 $385 $385 -------- -------- -------- -------- -------- Totals 50184 36.9 $6 $385 $391 ($0.29/sf) -------------------------------------------------------------------- Fuel Cost = $0.600 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.080 per kWh b I kWh x 3 x 3.41 = 1 source kBtu *** Peak season(s) not simulated - Check peak loads *** Energy Budgets o.k. ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST Q Btu) (kBtu/hr) Q Btu) (kWh) ($) BUILDING Heating 1921 12.0 768 0 $5 Cooling -56121 .-33.1. 5907 $473 Venting 0 $0 Totals -----------------------------------------------------------=-------- 768 5907 $477 ------------------------ ENERGY BUDGET COMPARISON ---- BUDGETS ---- ------ CONSUMPTION ------- SOURCE SOURCE FUEL ELECTRIC TOTAL Q Btu) (kBtu/sf) --------------------------------=------- BUILDING: 1360 sf of Conditioned Floor Area Heating 768 0.6 $5 $0 $5 Cooling 60433 44.4 $473 $473 Venting. 0 0.0 $0 $0 -------- -------- ------ -------- -------- Totals 61202 45.0 $5 $473 $477 ($0.35/sf) . CALIF. STANDARDS BUDGET: Single Family Home in Climate Zone 15 Heating 952 0.7 $6 $0 $6 Cooling 49232 36.2 $385 $385 -------- -------- -------- -------- -------- Totals 50184 36.9 $6 $385 $391 ($0.29/sf) -------------------------------------------------------------------- Fuel Cost = $0.600 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.080 per kWh b I kWh x 3 x 3.41 = 1 source kBtu *** Peak season(s) not simulated - Check peak loads *** Energy Budgets o.k. Page I < < < MICROPAS 2.0 File-KEELEYM Weather-CZ15 Program -TABLE > > > Run -Cornerstone Builders Project -PACKAGE D MODEL BUDGET Date -2/09/87 Season HOUSE Energy Consumption for RUN ---------------------------------------- SEASON HEATERG COOLERG VENTERG Q Btu) (kWh) (kWh) WINTER 558 38 0 WINTER/SPRING 207 357 0 SPRING/SUMMER 0 1.517 0 SUMMER 0 2582 0. SUMMER/FALL 0 1168 0, FALL/WINTER 4 245 0 tot/ave 768 5907 0 ---------------------------------------- -------------------------------------- Season TILETOP Mass Conditions for RUN -------------------------------------- SEASON TEMPER. HOUSE (F) Q Btu) ------------- -------- ------- WINTER 7.2.6 -23 WINTER/SPRING 73.9. 21 SPRING/SUMMER 76.5 -2 . SUMMER 79.8 1. SUMMER/FALL 77.2 -2 FALL/WINTER 72.8 -72 tot/ave 75.5 - -78 ------------------------------- -------------------------------------- Season SLABTOP Mass Conditions for RUN SEASON TEMPER. HOUSE ------------- (F) Q Btu) WINTER -------- 72.7 -------- -103 WINTER/SPRING 73.9 -22 SPRING/SUMMER 76.5 4 SUMMER 79.8 -4 SUMMER/FALL 77.3 -48 FALL/WINTER ------------- 73.0 -166 tot/ave -------------------------------------- -------- 75.5 -------- -339 Page 2 < < < MICROPAS 2.0 File-KEELEYM Weather-CZ15 Program -TABLE > > > Run -Cornerstone Builders Project -PACKAGE D MODEL BUDGET Date -2/09/87 • EM ------------------------------------------------------------------- Season Temperature Conditions -------------------------------------------------------------------- for RUN SEASON AMBIENT WETBULB GROUND HOUSE TILETOP SLABTOP (F) <F) (F) (F) (F) (F) AD ------------- WINTER -------- 54.7 -------- .42.9 --=----- 53.0 -------- 72.5 -------- 72.6 -------- 72.7 WINTER/SPRING 63.0. 46.5 59.7 73.9 73.9 73.9 SPRING/SUMMER 79.8 55.5 78.0 76.5 76.5 76.5 SUMMER . 92.1 71.5 92.0 79.8 79.8 79.8 SUMMER/FALL 82.0 59.8 86.0 77.2 77.2 77.3 FALL/WINTER 66.7 53.1 63.0 72.6 72.8 73.0 • ------------- -------- -------- -------- ----- ------ -------- tot/ave --------------------------------- 73.0 54.9 72.0 ------------------------ 75.4 7.5.5 ---------- 75.5 -------- [M Page 1. < < < MICROPAS 2.0 File-KEELEYM Weather-CZ15 Program -FORMAT > > ) Run -Cornerstone Builders Project -PACKAGE D MODEL BUDGET Date -2/09/87 • . Input file 'KEELEYM' last edited on. 2/09/87 CONTROL DATA RUN DATA 1> RUN TITLE (25 char) Cornerstone Builders 2> PROJECT.TITLE (25 char) PACKAGE D MODEL BUDGET 3> OWNER'S NAME.(25 char) ............................Mr. and Mrs David Keeley 0 SITE LOCATION (25 char) 54=365 Herrera Ave 5> BUILDING TYPE (SINGLE,CLUSTER,DESIGN,NONE) ...... SINGLE SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deg) .................. 33.0 2> BUILDING ROTATION (deg,0=S,90=W,-90=E,180=N) .... 0 3> NUMBER OF WARMUP DAYS (10 maximum) 3 0 WEATHER DATA FILE NAME (CZ12,etc) ................ CZ15 5> WIND CORRECTION.FACTOR (fract•ion) 0.25 6> HEATING MODE GROUND REFLECTIVITY (fraction) ..... 0.2 7> COOLING MODE GROUND REFLECTIVITY (fraction) ..... 0.2 8> GROUND TEMP DAILY FACTOR (fraction) .............. 0 9> GROUND TEMP MONTHLY FACTOR (fraction) 1 10> GROUND TEMP ANNUAL FACTOR (fraction) ............ 0 I1> HVAC SIZING: LOCATION (25 char) ................ LA QUINTA SIMULATION CONTROL DATA V NUMBER OF SIMULATION SEASONS (8 only) ........... 8' SEASON SIMU- NAME LATE SEASON ----=-1------ ---2---- 1> WINTER YES 2> WINTER/SPRING YES 3> SPRING/SUMMER YES • 0 SUMMER YES 5> SUMMER/FALL YES 6> FALL/WINTER YES 7> PEAK HEATING NO B> PEAK COOLING NO • GENERAL OUTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES,NO,FORMAT) ............... NO. 2> SUMMARY (YES,NO)................................ YES 3> FORM 2 (YES,NO)................................. NO 0 HVAC SIZING: CALCULATIONS (YES,NO) .............. NO • SEASON OUTPUT SPECIFICATIONS #> SEASON OUTPUT DESIRED (YES,NO) YES 1> AMBIENT SUMMARY (YES,NO) ........................ NO 2> ZONE LOADS (YES,NO) NO 1• • Page 2 < < < MICROPAS 2.0 File-KEELEYM Weather-CZ15 Program -FORMAT > > > Run -Cornerstone Builders Project -PACKAGE D MODEL BUDGET Date -2/09/87 3> ZONE ENERGY CONSUMPTION (YES,NO) ................ YES 0 ZONE.HEAT FLOWS (YES,NO)......................... NO 5> MASS SUMMARY (YES,NO) ........ :.................. YES 6> TEMPERATURE SUMMARY (YES,NO) YES 7> PEAK.CONDITIONS (YES,NO) ......................... NO ZONE DATA #> NUMBER OF ZONES (3 maximum) 1* ZONE 'HOUSE' OPAQUE SURFACE DATA #> NUMBER OF SURFACES (20 maximum) 8 1> NAME (.HOUSE,SUNSPACE,etc) ..................0.... HOUSE AZIMUTH 2> FLOOR AREA (sgft) .......................... ...... 1360 • 3> VOLUME (cult) ................................... 12702.4 (deg). 0 HEAT CAPACITY (Btu/F) ........................... 3040 5> INTERNAL GAIN (Btu%day) ......................... 86991 6> INTERNAL GAIN SCHEDULE (INTERNAL,NONE,etc) ....... INTERNAL 7> INFILTRATION BASE ACH (ac/hr) .................... 0.50 ---4---- 8> INFILTRATION TEMPERATURE ACH (ac/hr-F) .......... 0 1> 9) INFILTRATION WIND ACH (ac/hr-mph) ................. 0 180 10> HEAT EXCHANGER SYSTEM NAME (HEATEX,NONE,etc) ... NONE 2> 11> HEATING SYSTEM NAME (FURNACE,NONE,etc) ......... FURNACE -90 12> COOLING SYSTEM NAME (HEATPUMP,NONE,etc) ........ HEATPUMP 3> 13> VENTILATION SYSTEM NAME (NATURAL,NONE,etc) ..... NATURAL 0 10 HEATING MODE THERMOSTAT NAME (HEATCNST,etc) .... HEATCNST 0 15> COOLING MODE THERMOSTAT NAME (COOLCNST,etc) .... COOLCNST 90 I6> HVAC SIZING: NUMBER OF PEOPLE .................. 6 5> 17> HVAC SIZING: APPLIANCE GAIN.(Btu) .............. 1200 0 18> HVAC SIZING: INFILTRATION (TIGHT,MEDIUM,LOOSE) . MEDIUM 6> ROOF2 340 .032 OPAQUE SURFACE DATA #> NUMBER OF SURFACES (20 maximum) 8 I• GLAZING_ SURFACE DATA NAME AREA U -VALUE. AZIMUTH TILT ABSORP- ZONE • (sqft) (Btu/hr (deg). (deg) TIVITY NAME -sf-F) (frac) ---1---- ---2---- ---3---- ---4---- ---5---- ---6---- ---7---- 1> NWALL 240.6 .090 180 90 0.5 HOUSE 2> EWALL 270.6 .090 -90 90 0.5 HOUSE 3> SWALL 276.6 .090 0 90 0.5 HOUSE 0 WWALL 270.6 .090 90 90 0.5 HOUSE 5> ROOFI 1020 .027 0 0 0.5 HOUSE 6> ROOF2 340 .032 0 0 0.5 HOUSE 7> EDOORI 21 .33 -90; 90 0.5 HOUSE 8> SLABEDGE 148 .77 0 0 0.5 HOUSE I• GLAZING_ SURFACE DATA LJ n Page 3 < < < MICROPAS 2.0 File-KEELEYM .Weather-CZ15 Program -FORMAT > > > Run -Cornerstone Builders Project -PACKAGE D MODEL BUDGET Date -2/09/87 GLAZING SURFACES #> NUMBER OF SURFACES (20.maximum) 5 NAME AREA U -VALUE AZ.IMUTH TILT NUM ZONE (sgft) (Btu/hr (deg) (deg) OF NAME -sf-F) PANES ---1---- 2--= ---3-- --4--- --5--- --6--- ---7---- 1> NGLASS 49.4 0.65 180 90 2 HOUSE 2> EGLASS 49.4. 0.65 -90 90 2 HOUSE 3> SGLASS 49.4 0.65 0 90 2 HOUSE 0- WGLASS 49.4 0:65 90 90 2 HOUSE 5> SKYLIGHT 20 0.65 0 0 2 HOUSE GLAZING TREATMENTS TREAT- MENT NAME ---8---- SHADECOE SHADECOE SHADECOE SHADECOE SHADECOE #> NUMBER OF TREATMENTS (20 maximum) ............... 1 NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUT SHUT HEI- HANG HANG SHAD SHAD SCHEDULE U -VALUE TRAN GHT LENG HIGH FACT FACT NAME FACT ---1---- --2-- --3-- --4-- --5-- --6-- 7 -------- 8--- --9-- 1> SHADECOE 0 0 0 .41 .41 NONE 0 0 MASS DATA #> NUMBER OF MASSES (5 maximum) .................... 2 MASS 'FLRTILE' 1> NAME (SLAB,MASSWALL,WATER,etc) ................... FLRTILE 2> TYPE (NODAL,ISOTHERM,ENERPHASE) ................. NODAL 3> SURFACE AREA (sgft) .........................:... 340 0 THICKNESS (inches) ............................... 2.0 5> VOLUMETRIC HEAT CAPACITY (Btu/cuft-F) ........... 28 6> CONDUCTIVITY (Btu-ft/hr-sgft-F) ......... :....... 0.98 7> SIDE #1 MASS SURFACE NAME (SLABTOP,etc) ......... TILETOP B> SIDE #1 AIR FILM CONDUCTANCE (Btu/hr-sgft-F) .... 1.3 9> SIDE #1 ZONE NAME (HOUSE,AMBIENT,etc) ........... HOUSE 10> SIDE #2 MASS SURFACE NAME (SLABBOT,NONE,etc) ... NONE 11) SIDE #2 AIR FILM CONDUCTANCE (Btu/hr-sgft-F) ... 0 12> SIDE #2 ZONE NAME (AMBIENT,GROUND,NONE,etc) .... NONE MASS 'SLABTOP' 1> NAME (SLAB,MASSWALL,WATER,etc) .................. SLASTOP 2> TYPE (NODAL,ISOTHERM,ENERPHASE) ................. NODAL 3> SURFACE AREA (sqft) ............................. 1020 4> THICKNESS (inches) .............................. 2.0 5> VOLUMETRIC HEAT CAPACITY (Btu/cuft-F) ........... 28 6> CONDUCTIVITY (Btu-ft/hr-sqft-F) ........0........ 0.98 7> SIDE #1 MASS SURFACE NAME (SLABTOP,etc) ......... SLABTOP 8> SIDE #1 AIR FILM CONDUCTANCE (Btu/hr-sgft-F) .... 0.36 9> SIDE #1 ZONE NAME (HOUSE,AMBIENT,etc) ........... HOUSE 10> SIDE #2.MASS SURFACE NAME (SLABBOT,NONE,etc) ... NONE 11> SIDE #2 AIR FILM CONDUCTANCE.(Btu/hr-sgft-F) ... 0 SHUTTER SCHEDULE NAME ---10--- NONE Page 4 < < < MICROPAS 2.0 File-KEELEYM Weather-CZ15 Program -FORMAT > > > Run -Cornerstone Builders Project -PACKAGE D MODEL BUDGET Date -2/09/87 12> SIDE #2 ZONE NAME (AMBIENT,GROUND,NONE,etc) .... NONE SYSTEMS DATA ENERGY COSTS 1> FUEL COST (dollars/therm) .......................... 0.60 2> ELECTRICITY COST (doll.ars/kWh) 0.08 HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (3 maximum) ........... 1 Je NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT NAME COP (Btu/hr) FRACTION LOCATION -1---- ---2---- ---3---- ----4---- ---5---- -----6----- 1> FURNACE FUEL 2.5. UNLIMITED 0.2 ATTIC IAp I• COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (3 maximum) 1 NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Btu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION ---1---- ---2---- ----3---- --- 4 -------- 5---- ---6---- -----7----- 1> HEATPUMP 9.5 UNLIMITED 0 0 0.2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (6 maximum) ....... 1, NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (sgft) (sgft) (ft) (deg) IENCY IENCY ---1---- --2-- 3--- --4-- --5--- --6--- --7-- ---8--- --9--- --10-- 1> NATURAL 0 0 0 19.8 .19.8 1 0 1.0 1.0 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (6 maximum) ........ 2 NAME HEATING COOLING VENTING HEATING COOLING VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME ---i---- ---2--- ---3--- ---4--- ---5--- "-6--- ---7--- ---8---- 1> HEATCNST 65 -80 80 0 0 0 NONE 2> COOLCNST 65 80 65 0 0 0 NONE SCHEDULE DATA #>. NUMBER OF HOURLY SCHEDULES (5 maximum) .......... 1 Page 5 < < < MICROPAS 2.0 File-KEELEYM Weather-CZ15 Program -FORMAT > > > Run -Cornerstone Builders .Project -PACKAGE D MODEL BUDGET Date -2/09/87 HOURLY'SCHEDULE 'INTERNAL' 1> NAME (INTERNAL,SETBACK,etc) ..................... INTERNAL 2> HEATING MODE (ON,OFF,AUTO,OPEN,CLOSED,UP,BACK,fraction) 1. 0.024' 2.. 0'.022 3. 0.021 4. 0.021 5. 0.021 6. .0.026 7. 0.038 B. 0.059. 9.. 0.056 10. 0.060" .11. 0.059 12. 0.046 13. 0.045 14: 0.030 15. 0.028 1.6. 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 MODE (ON,OFF,AUTO,OPEN,CLOSED,UP,BACK,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 B • McroPasiCompliance ud0 AW.i.i. B • McroPasiCompliance ud0 BUILDING DESIGN AND EQUIPMENT SUMMARY MICROPAS FORM2 Project Title .. COMPLIANCE BUDGET Date: 2/09/87 Page 1 Run Title• .. Cornerstone Builders -------------------------- Owners Name.... Mr and Mrs David Keeley I I Location ....... 54-365 Herrera Ave I (checked by) I Building Type .. SINGLE I I Climate Zone ... 15 I (date) I < < < MICROPAS 2.0 File-KEELEYC Program-FORM2 > > > BUILDING ENVELOPE DESIGN --ZONE 'HOUSE' v 1. Total Floor Area .. 1360-sqft 2. Volume 12702 cuft 1! 3. SURFACES: Description ----------- Area U -value Air Film R -value ness a. Wall ---- 888 sqft ------- 0.058 0.98 ------- 1.30 to HOUSE b. Ceiling 1340 sqft 0.027 c. Slab Perimeter 148 it 0.770 d. Wall -shaded 160 sqft, 0.055 e. Door -shaded 21 sqft 0.330 4. GLAZINGS: Description ----------- Area ---- % F.A. U -value ------------- Type ---- -a. South 42 sqft 3.1% 0.65 Single b. West 85 sqft 6.3/ 0.65 Double c. North 47 sqft 3.5/. 0.65 Double d. East 34 sqft 2.51. 0.65 Double e. Horizontal 20 sqft 1.5% 0.65 Double Total 228 sqft 16.87. 5. SHADINGS: Cooling Cooling Description ----------- Area Shad: Coef. Shad. Fact. a. South ---- 42 sqft ----------- 0.75 ----------- 0.75 b. West 85 sqft 0.66. 0.75 c. North 47 sqft 0.66 0.75 d. North 20 sqft 0.51 0.58 e. East 34 sqft 0.56 0.64 6. OVERHANGS: Glazing Overhang Overhang Description Area Height Length Height a. South 42 sqft 6.7 it 1.5 it 7.0 b. West 85 sqft 6.4 it 1.5 it ,it 0.0 it ' c. North 47 sqft 3.7 it 1.5 it 4.6 it d. East 34 sqft 5.2 it 8.0 it 0.0 it 7. MOVEABLE INSULATION: NONE 8. INFILTRATION CONTROL: (Construction Type: MEDIUM ) 0.50 ac/hr 9. THERMAL MASS: Total Thick- Conduc- Heat Air Film Description Area ness tivity Cap. Conductance a. FLRTILE 78sgft 4 in 0.98 28 1.30 to HOUSE b. S1_ABT0P.___.,_._ 1282 sqft 4 in 0.98 28 0.36 to HOUSE BUILDING DESIGN AND EQUIPMENT SUMMARY MICROPAS FORM2 Page 2 Project Title .. COMPLIANCE BUDGET . Run Title ...... Cornerstone Builders . Date: 2/09/87 < < < MICROPAS 2.0 File-KEELEYC Program-FORM2 > > > D HEATING, VENTILATING, AND AIR CONDITIONING SYSTEMS --ZONE 'HOUSE' 10. HEATING SYSTEM: a.. Type FURNACE c. EFF/COP 2.80 11: COOLING SYSTEM: a. Type ......... HEATPUMP c. SEER ......... 8.60 12. VENTILATION SYSTEM: a. Type ......... NATURAL MICROPAS ASSUMPTIONS -Building Total ----------------------------------- b. Model _ LENNOX E160-15/CPR 18-4.6 _ d. Capacity _ 46,500 (Btu/hr) b. Model_ LENNOX HP.18-461V d. Capacity — 40,500 (Btu/hr) M1. Building Latitude .. 33.0 deg M2. Wind Correction Factor. ... 0.25 MICOOPAS ASSUMPTIONS -ZONE 'HOUSE' Zl. Zone Heat Cap .3040 Btu/F Z3..Vent Inlet Area... 104 sgft Z5. Vent Height ....:. 2.0 it Z6. THERMOSTAT SETTINGS: a. Heating Temperature: b. Cooling Temperature: c. Venting Temperature: d. Setbacks: I10 166-; Z2. Internal Gain ..... 86991 Btu/day Z4. Vent outlet Area .. 104 sqft Z6. Vent Azimuth ...... 0 deg Heating Season Cooling Season -------------- -------------- 65 65 80 8.0 80 65 No No Page 1 < < < NICROPAS'2.0 File-KEELEYC. Weather-CZ15 Program -SUMMARY > > > Run -Cornerstone Builders Project -COMPLIANCE BUDGET D.ate-2/09/87 M I C R.0 P A S 2.0 CP/M 4/15/85 Calculations By: r C.M. ENERGY CONSULTING 43-650 Carmel Circle Palm Desert California 92260 (619) 346 -8014 - PROJECT DATA Run Title .............................. Cornerstone Builders Project Title ........:.................. COMPLIANCE BUDGET Owner's Name .................. ......... Mr and Mrs David Keeley Site Location ............................54-365 Herrera Ave Building Type ........................... SINGLE DESIGN DATA Floor area (sgft) ....:................. 1360 Glazing area (sgft) ...................... 228 Glazing percentage (%) ....:............. Glazing UA (Btu/hr-F) .................... 148 (30.9%) Opaque UA (Btu/hr-F.) ..................... 217 (45.3%) Infiltration UA (Btu/hr-F) .............. 114 (23.8%) Total UA (Btu/hr-F) ..................... 479 (100%) MECHANICAL SYSTEMS Heating System .......................... FURNACE Cooling System .......................... HEATPUPIP Ventilation System ...................... NATURAL CLIMATE DATA Weather Data Location ................... EL CENTRO CA MKW/RED Average Temperature (F) ................. 73 Minimum Temperature (F) ................. 34 Maximum Temperature (F) ................. 110 r- i 11 Page 2 C < < MICROPAS 2.0 File-KEELEYC Weather-CZ15 Program -SUMMARY > > > Run -Cornerstone Builders Project -COMPLIANCE BUDGET Date -2/09/87 ------------------- r -------------------------------------------------------------------- PERFORMANCE SUMMARY -------------------------------------------------- ----------------- ----- LOADS ---- ------ CONSUMPTION. ----=-- ANNUAL PEAK FUEL ELECTRIC COST (.k Btu) (kBtu/hr) Q Btu) (kWh) ($) ------ -------- -------- -------- -------- BUILDING Heating 2047 10.7 731 0 $4, Cooling -49850 -30.8 5797 $464 Venting 0 $0 Totals 731 .5797 $468 -------------------------------------------------------------------- -------------------------------------------------------------------- ENERGY BUDGET COMPARISON -------------------------------------------------------------------- ---- BUDGETS ---- ------ CONSUMPTION ------- SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (kBtu/sf) ($) ($) ($) -------- --------- -------- -------- -------- BUILDING: 1360 sf of Conditioned Floor Area Heating. 731 0.5 $4 $0 $4 Cooling 59299 43.6 $464- $464 Venting .0 0.0 $0 $0 ------ -------- -------- -------- -------- Totals. 60030 44.1 $4 $464 $468 ($0.34/sf) CALIF. STANDARDS BUDGET: Single Family Home in Climate Zone 15 Heating 952 0.7 $6 $0 $6 Cooling. 49232 36.2 $385 $385 ------ -------- -------- -------- -------- Totals 50184 36.9 $6 $385 $391 ($0.29/sf) ------------------------------=------------------------------------- Fuel Cost = $0.600 per Therm -0 Therm = 100 kBtu) Electricity Cost = $0.080 per kWh I kWh x 3 x 3.41 = 1 source k8tu *** Peak season(s) not simulated - Check peak loads ** Energy Budgets o.k. 1Z Page I < < < MICROPAS 2.0 File-KEELEYC Weather -C215 Program -TABLE > > ) Run -Cornerstone Builders Project -COMPLIANCE BUDGET Date -2/09/87 ---------------------------------------- Season HOUSE Energy Consumption for RUN =-------------------------------------- SEASON HEATERG COOLERG VENTERG (kBtu) (kWh) (kWh) WINTER 495 0 0 WINTER/SPRING 232 394 0 SPRING/SUMMER 0 1430 0 SUMMER 0 2495 0 SUMMER/FALL 0 .1156 0 FALL/WINTER 4 321 0 tot/ave 731 5797 0 ---------------------------------------- -------------------------------------- Season TILETOP Mass Conditions for RUN SEASON TEMPER. HOUSE (F) Q Btu) ------------- -------- -------- WINTER 72.8 -13 WINTER/SPRING 73.3 1 SPRING/SUMMER. 75.4 -3 SUMMER 79.5 . -1 SUMMER/FALL 76.1 -7 FALL./WINTER 72.1 -36 tot/ave 74.9 -59 ------------------------------- -------------------------------------- Season SLABTOP Mass Conditions for RUN -------------------------------------- SEASON TEMPER. HOUSE (F) QBtu) ----------------------------- WINTER 73.1 -286 WINTER./SPRING 73.5 -166 SPRING/SUMMER 75.3 29 SUMMER 7.9.6 -35 SUMMER/FALL 76.4 -216 FALL/WINTER 72.6 -451 tot/ave 75.1 -1125 -------------------------------------- Page 2 < < < MICROPAS 2.0 File-KEELEYC Weather-CZ15 Program -TABLE > > > Run -Cornerstone Builders Project -COMPLIANCE BUDGET Date -2/09/87 ---------------------------------------------7--------------------- Season Temperature Conditions for RUN SEASON AMBIENT WETBULB GROUND HOUSE TILETOP SLABTOP ------------- (F) -------- (F) -------- (F) -------- (F) (F) (F) WINTER 54.7 42.9 53.0 -------- 72e.7 -------- 72.8 -------- 73.1 WINTER/SPRING 63.0 46.5 59.7 73,3 73.3 73.5 SPRING/SUMMER 79.8 55.5 78.0 75.4 75.4 75.3 SUMMER 92.1 71.5 92.0 79.5 79.5 79.6 SUMMER/FALL 82.0 59.8 86.0 76.0. 76.1 76.4 FALL/WINTER ------------- 66.7 -------- 53.1 -------- 63.0 -------- 71.8 72.1 72.6 tot/ave ------------------------------------------------------------------- 73.0 54.9 72.0 -------- 74.8 -------- 74.9 -------- 75.1 1 0, 1 - 1* Page 1 < t < MICROPAS 2.0 File-KEELEYC Weather=CZ15 Program -FORMAT > > > Run -Cornerstone Builders Pro,iect-COMPLIANCE BUDGET Date -2/09/87 Input file 'KEELEYC' last edited on 2/09/87 CONTROL DATA RUN DATA 1> RUN TITLE (25 char) Cornerstone Builders 2> PROJECT TITLE (25 char) COMPLIANCE BUDGET 3> OWNER'S NAME (25 char) Mr - and Mrs David Keeley 0 SITE LOCATION (25 char) 54-365 Herrera Ave 5> BUILDING. TYPE (SINGLE,CLUSTER,DESIGN,NONE) ...... SINGLE SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deg) .................. 33.0 2> BUILDING ROTATION (deg,0=S,90=W,-90=E,180=N) .... 0 3> NUMBER OF WARMUP DAYS (10 maximum) 8 0 WEATHER DATA FILE NAME (CZ12,etc) ............... CZ15 5> WIND CORRECTION FACTOR (fraction) 0.25 6> HEATING MODE GROUND REFLECTIVITY (fraction) ..... 0.2 7> COOLING MODE.GROUND REFLECTIVITY (fraction) ..... 0.2 8).GROUND TEMP DAILY FACTOR (fraction) ............. 0 9> GROUND TEMP MONTHLY FACTOR (fraction) ........... 1 10> GROUND TEMP ANNUAL FACTOR (fraction.) 0 II> HVAC SIZING: LOCATION (25 char) LA QUINTA SIMULATION CONTROL DATA #> NUMBER OF SIMULATION SEASONS (8 only) ........... 8 SEASON SIMU- NAME LATE SEASON ------1------ ---2---- 1> WINTER YES 2> WINTER./SPRING YES 3> SPRING/SUMMER YES 4> SUMMER YES 5> SUMMER/FALL YES d:-� FALL/ WINTER YES 7> PEAK HEATING NO 8> PEAK COOLING NO GENERAL OUTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES,NO,FORMAT) .............. NO 2> SUMMARY (YES,NO)................................ YES 3> FORM 2 (YES,NO.)................................. NO 4> HVAC SIZING: CALCULATIONS (YES,NO) .............. NO SEASON OUTPUT SPECIFICATIONS V SEASON OUTPUT DESIRED (YES,NO) .................. YES 1> AMBIENT SUMMARY (YES,NO) NO 2> ZONE LOADS (YES,NO) ............................. NO Page 2 < < < MICROPAS 2.0 File-KEELEYC Weather-CZ15 Program -FORMAT > > > Run -Cornerstone Builders Project -COMPLIANCE BUDGET Date -2./09/87 3> ZONE ENERGY CONSUMPTION (YES,NO) ................ YES 4> ZONE HEAT FLOWS (YES,NO) NO 5> MASS SUMMARY (YES,NO) YES ..... 6> TEMPERATURE SUMMARY (YES,NO) ...................... YES 7> PEAK CONDITIONS (YES,NO) ........................ NO ZONE DATA #> NUMBER -OF ZONES (3 maximum) 1 ZONE.'HOUSE' OPAQUE SURFACE DATA ------------------- ------------------- #> 1> NAME (HOUSE SUNSPACE etc) HOUSE . 2> FLOOR AREA (sqft) ................................. 1360 U -VALUE 3> VOLUME (cuft)...............................:... 12702.4 ZONE 4> HEAT CAPACITY (Btu/ F) ..........:................ 3040 (Btu/hr 5) INTERNAL GAIN (Btu/day) ... .......................86991 TIVITY NAME 6> INTERNAL GAIN SCHEDULE (INTERNAL,NONE,etc) ...... INTERNAL _ 7> INFILTRATION BASE ACH (.ac/hr) ................... 0.50 8> INFILTRATION TEMPERATURE ACH (ac/hr-F) .......... 0 ---3---- 9> INFILTRATION WIND ACH (ac/hr-mph) ............... 0 ---7---- 10> HEAT EXCHANGER SYSTEM NAME (HEATEX,NONE,etc) ... NONE .058 11> HEATING SYSTEM NAME (FURNACE,NONE,etc) ......... FURNACE HOUSE 12> COOLING SYSTEM NAME (HEATPUMP,NONE,etc) ......... HEATPUMP .058 13> VENTILATION SYSTEM NAME (NATURAL,NONE,etc) ..... NATURAL HOUSE 14) HEATING MODE THERMOSTAT NAME (HEATCNST,etc) .... HEATCNST .055 15> COOLING MODE THERMOSTAT NAME (COOLCNST,etc) .... COOLCNST HOUSE 16> HVAC SIZING: NUMBER OF PEOPLE .................. 6 .058 17> HVAC SIZING: APPLIANCE GAIN (Btu) ..:....... .... 1200 HOUSE 18> HVAC SIZING: INFILTRATION (TIGHT,MEDIUM,LOOSE) . MEDIUM OPAQUE SURFACE DATA ------------------- ------------------- #> NUMBER OF SURFACES (20 maximum) .......:.......... 8 NAME AREA U -VALUE AZIMUTH TILT ABSORP- ZONE (sgft) (Btu/hr (deg) (deg) TIVITY NAME -sf-F) (frac) ---1---- ---2---- ---3---- ---4---- ---5---- ---6---- ---7---- 1) N1,JALL1 243 .058 180 90 0.5 HOUSE 2> EWALLI 126 .058 -90 90 0.5 HOUSE 3> EWALL2 160 .055 -90 90 0 HOUSE 4> SWALLI 284 .058 0 90 0.5 HOUSE 5> WWALLI 235 .058 90 90 0.5 HOUSE 6>. ROOF1 1340 .027 0 0 0.5 HOUSE 7> EDOOR 21 .33 -90 90 0 HOUSE 8> SLABEDGE 148 .77 0 0 0 HOUSE GLAZING SURFACE DATA 10 •� Page 3 < < < MICROPAS 2.0. File-KEELEYC Weather-CZ15 Program -FORMAT > > > Run -Cornerstone Builders Project -COMPLIANCE BUDGET Date -2/09/87 • GLAZING SURFACES #> NUMBER OF SURFACES (20 maximum) ................. 5 li Fe 1' GLAZING TREATMENTS #> NUMBER OF TREATMENTS (20 maximum).................. 5 NAME AREA U -VALUE AZIMUTH TILT NUM ZONE TREAT- SHUT SHUTTER (sgft) (Btu/hr (deg) (deg) OF NAME MENT • U -VALUE TRAN -sf-F) SIDE #1 AIR FILM CONDUCTANCE.(Btu/hr-sgft-F) .... 1.3 PANES LENG NAME FACT - --I---- --2--- ---3---- ---4--- --5--- --6--- ---7---- ---8---- 1) NGLASS 47 0.65 180 90 2 HOUSE NOVERHG 2> EGLASS 34 0.65 -90 90 2 HOUSE EOVERHG 3> SGLASS 42 0.65 0 90 1 HOUSE SOVERHG . 4> -WGLASS 85 0.65 90 90 2 HOUSE WOVERHG 5> SKYLIGHT 20 0.65 0 0 2 HOUSE SHADECOE li Fe 1' GLAZING TREATMENTS #> NUMBER OF TREATMENTS (20 maximum).................. 5 ABSORBED INSOLATION FRACTIONS #> NUMBER OF FRACTIONS (20 maximum) .................4 GLAZING ZONE OR HEATING COOLING SURFACE MASS FRACTION FRACTION NAME SIDE ---1---- ---2---- --- 3---- ---4---- 1> EGLASS HOUSE .034 .017 2> SGLASS HOUSE- -.034 .017 3> WGLASS HOUSE .034 .017 4> SKYLIGHT HOUSE .034 .017 MASS DATA #> NUMBER OF MASSES (5 maximum) .................... 2 MASS 'FLRTILE' J> NAME GLAZ OVER- OVER- HEAT COOL SHADING SHUT SHUT SHUTTER 4.0 5> HEI- HANG HANG SHAD. SHAD SCHEDULE U -VALUE TRAN SCHEDULE SIDE #1 AIR FILM CONDUCTANCE.(Btu/hr-sgft-F) .... 1.3 GHT LENG HIGH FACT FACT NAME FACT NAME - --I---- --2-- --3-- --4-- --5-- --6-- ---7---- ---8--- --9-- ---10--- 1) NOVERHG 3.68 1.5. 4.64 .75 .75 NONE 0 0 NONE 2> EOVERHG 5.24 8<0 0 .64 .64 NONE 0 0 NONE 3> SOVERHG 6.66 1.5 7.0 .75 .75i NONE 0 0 NONE 4> 1AOVERHG 6.44 1.5 0 .75 .75; NONE 0 0 NONE 5> SHADECOE 0 0. 0 .58 .58 NONE 0 0 NONE ABSORBED INSOLATION FRACTIONS #> NUMBER OF FRACTIONS (20 maximum) .................4 GLAZING ZONE OR HEATING COOLING SURFACE MASS FRACTION FRACTION NAME SIDE ---1---- ---2---- --- 3---- ---4---- 1> EGLASS HOUSE .034 .017 2> SGLASS HOUSE- -.034 .017 3> WGLASS HOUSE .034 .017 4> SKYLIGHT HOUSE .034 .017 MASS DATA #> NUMBER OF MASSES (5 maximum) .................... 2 MASS 'FLRTILE' J> NAME (SLAB,MASSWALL,WATER,etc) .................. FLRTILE 2> TYPE (NODAL,ISOTHERM,ENERPHASE) ..................NODAL 3> SURFACE AREA (sqft) ............................. 78 4> THICKNESS (inches) .............................. 4.0 5> VOLUMETRIC HEAT CAPACITY (Btu/cuft-F) ........... 28. 6> CONDUCTIVITY (Btu-ft/hr-sqft-F) ................. 0.98 7> SIDE #1 MASS SURFACE NAME (SLABTOP,etc) ......... TILETOP 8> SIDE #1 AIR FILM CONDUCTANCE.(Btu/hr-sgft-F) .... 1.3 9> SIDE #1 ZONE NAME (HOUSE,AMBIENT,etc) ........... HOUSE 10> SIDE #2 MASS SURFACE NAME (SLABBOT,NONE,etc) ... NONE Page 4 < < < MICROPAS 2.0 Fite-KEELEYC Weather-CZ15 Program -FORMAT > > > Run -Cornerstone Builders Project -COMPLIANCE BUDGET Date -2,109/87 II> SIDE #2 AIR FILM CONDUCTANCE (Btu/hr-sgft-F) ... 0 12> SIDE #2 ZONE NAME (AMBIENT,GROUND,NONE,etc) .... NONE MASS 'SLABTOP' 1> NAME (SLAB,MASSWALL,WATER,etc) .................. SLABTOP 2> TYPE (NODAL,ISOTHERM,ENERPHASE) NODAL 3> SURFACE AREA (sgft) . .. .............. 1282 4> THICKNESS (inches) .............................. 4.0 5> VOLUMETRIC HEAT CAPACITY (Btu/cuft-F) ........... 28 6> CONDUCTIVITY (Btu-ft/hr-sgft-F) 0.98 7> SIDE #1 MASS SURFACE NAME (SLABTOP,etc) ......... SLABTOP 8> SIDE #1 AI:R FILM.CONDUCTANCE (Btu/hr-sqft-F) .... 0.36 9> SIDE #1 ZONE NAME (HOUSE,AMBIENT,etc) ........... HOUSE 10> SIDE #2 MASS SURFACE NAME (SLABBOT,NONE,etc).... NONE 11) SIDE #2 AIR FILM CONDUCTANCE (Btu/hr-sgft-F) ... 0 12> SIDE #2 ZONE NAME (AMBIENT,GROUND,NONE,etc) .... NONE SYSTEMS DATA ENERGY COSTS 1> FUEL COST (dol.lars/therm) 0.60 2> ELECTRICITY COST (dollars/KWh) ................... 0.08 HEATING SYSTEMS #> NUMBER OF HEATING SYSTEMS (3 maximum) ........... I NAME HEATING SEASONAL HEATING DUCT SIZING: FUEL EFF OR CAPACITY LOSS DUCT- NAME UCTNAME COP (Btu/hr) FRACTION LOCATION -1---- ---2---- --- 3_--- ----4---- ---5---- -----6----- 1> FURNACE FUEL 2.8 UNLIMITED 0.2 ATTIC COOLING SYSTEMS #> NUMBER OF COOLING SYSTEMS (3 maximum) ........... I NAME SEASONAL COOLING LATENT DUCT SIZING: SIZING: EER CAPACITY LOAD GAIN LATENT DUCT (Btu/Wh) (Btu/hr) FRACTION FRACTION LOAD LOCATION -1-------2--------3-------4-------5-------6---------7----- 1> HEATPUMP 8.6 UNLIMITED 0 0 0.2 ATTIC VENTILATION SYSTEMS #> NUMBER OF VENTILATION SYSTEMS (6 maximum) ....... 1 NAME FAN FAN TEMP INLET OUTLET HIGH INLET STACK WIND FLOW POWER DIFF AREA AREA DIFF AZIMUTH EFFIC- EFFIC- (cfm) (W/cfm) (F) (sqft) (sgft) (ft) (deg) IENCY IENCY -1---- --2-- ---3--- --4-- --5--- --6--- --7-- ---8--- --9--- --10-- 0 NATURAL 0 0 0 104 104 2 0 - 1.0 1.0 10 Page 5 < < < MICROPAS 2.0 File-KEELEYC Weather-CZ15 Program -FORMAT > > > Run -Cornerstone Builders Project -COMPLIANCE BUDGET Date -2/09/87 THERMOSTAT SYSTEMS #> NUMBER OF THERMOSTAT SYSTEMS (6 maximum) ........ 2 NAME HEATING COOLING VENTING HEATING COOL.ING.VENTING HOURLY TEMP TEMP TEMP SETBACK SETBACK SETBACK SCHEDULE (F) (F) (F) TEMP(F) TEMP(F) TEMP(F) NAME --1 2--- =--3--- ---4--- 5--- --6--- ---7--= ---8---- 1>. HEATCNST 65 80 80 0 0 0 NONE 2> COOLCNST 65 80 65 0 0 0 NONE SCHEDULE.DATA #> NUMBER OF HOURLY SCHEDULES (5 maximum) .......... 1 HOURLY SCHEDULE 'INTERNAL' 1> NAME (INTERNAL,SETBACK,etc) ..................... INTERNAL 2> HEATING MODE (ON,OFP,AUTO,OPEP4,CLOSED,UP,BACK,fraction) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0.0.26 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 MODE (ON,OFF,AUTO,OPEN,CLOSED,UP,BACK,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 Ii 1• • Construction Assemblies 1• SKETCH OF CONSTRUCTION ASSEMBLY C.M. ENERGY CONSULTING PROPOSED CONSTRUCTION ASSEMBLY WALL TYPE 1 (State Form 30 COMPUTER SIMULATION. Framing size 2 x 6 Framing spacing 16' o.c. LESS THAN 25 lbs./sq. ft. LIST OF CONSTRUCTION COMPONENTS 1. 0.625' WSW BOARD MINERAL FIBER INSULATION 3Q. 0'.875' STUCCO over WIRE LATH BUILDING PAPER 5. 6. 7. 8. Inside Surface Air Film ........................... 9. Outside Surface Air Film .......................... Total Thermal Resistance (Rt) 20.74 AVERAGE U VALUE OF ASSEMBLY 1.20/ 20.74 = 0.058 Use This Value For Code Comparison C Christopher Mc Fadden C.M. ENERGY CONSULTING PROPOSED CONSTRUCTION ASSEMBLY WALL TYPE 2 (State Form 30 COMPUTER SIMULATION SKETCH OF CONSTRUCTION ASSEMBLY LIST OF CONSTRUCTION COMPONENTS Q)0.625- GYPSUM BOARD 0 5.5' MINERAL FIBER INSULATION e""%0.625- GYPSUM BOARD (TYPE 'X') 4. 5. 6.. Framing size 2 x 6 Framing spacing 16' o.c. 7. LESS THAN 25 lbs./sq. ft. 8. Inside Surface Air Film ........................... 9. Outside Surface Air Film .......................... Total Thermal Resistance (Rt) 21.66 AVERAGE U VALUE OF ASSEMBLY 1.20/ 21.66 = 0.055 Use This Value For Code Comparison c Christopher Mc adden R - VALUE 0.56 19.0 0.56 0.77 0.77 C.M. ENERGY CONSULTING PROPOSED CONSTRUCTION ASSEMBLY CEILING and ROW TYPE 1 (State Form 38). POINT SYSTEM • SKETCH OF CONSTRUCTION ASSEMBLY 6 • .Framing size 2 x Framing spacing.246 o.c. LIST OF CONSTRUCTION COMPONENTS R - VALUE 1®. 2 LAYERS, 5.5- MINERAL FIBER INSULATION 38.0 2. 0.5- GYPSUM BOARD 0.45 3.. 4., 5. 7. 8. Inside Surface Air Film ........................... 0.77 I 9. Outside Surface Air Film .......................... 0.77 Total Thermal Resistance (Rt) 39.99 ATTIC MULTIPLIER 1.15 x 39.99 = 45.99 U VALUE OF ASSEMBLY e See Framing Plan for Ceiling Joist Size and Location N -(u(p �• ��-n �j �� 1.22/ 45.99 = 0.027 V�-TME -�'oP l.P.�{� sF4Js.l.l..1oG OjaF�cED - Se�'i�i �a�pES . R VALUE FOR CODE COMPARISON (1/ .027) - (.77 f .77)'-- 36.16 Ch ristopher Fadden 10 10 C.M. ENERGY CONSULTING 43-650 Carmel Circle Palm Desert, California 92260 a single family residence for: MR. and MRS. DAVID KEELEY * LA QUINTA by Cornerstone Custom Builders SQUARE FT. I Slao R VALUE A771C AREA 340 ---- WALLS ---- � ---=-. PERIMETER `CEILING --- $ ----- Forth - East - South -..West G. A L R — E ' SEp..pccoNlPaNY1NG. I"ll�l��•i°��.-.... _ VATS S S I LF tIG*�+?s W A E V iii Ci R S I�o �oro --- H- A. `�.��} 7.1� E. E DS CONSTRUCTION ASSEMBLIES W C -W] _l (gTvcco) _. $cC .. C -I ( YFNt1) = 1?40 L L L Igo q�.}.. �L16479 � v E �,c, air _ �I E { i j C.M.-ENERGY CONSULTING 43-650 Carmel Circle : Palm Desert, California 92260. " - KEELEY RESIDENCE • microPas Data (glazing) ---------------------------'�---------------"- North East d y re AV6. o�L• = I �S :.__ AV6•- :... �Y6. ol..E+t• = q.C4 AVG.. 0'�. vv -I 143 w_I _ i�ro IGO I • v 10 i• r 10 C'.M. ENERGY CONSULTING 43-650 Carmel Circle ° Palm, Desert, • California 92260 KEELEY RESIDENCE _ (91a'z ing)' -- —®—-------------------------------•--®------- South ---- West ddd •. _ EEEEEE i Al - - --- - --- w . 4,0 X 4 I� AV 6 _ Hyl -0,1-• = I•� i• r 10 • Heat Gain,and-Heat Loss Calculations • RESIDENTIAL BUILDING LOAD CALCULATIONS—ASHRAE METHOD MICROPAS SIZING Project Title .. HVAC Date: 2/09/87 Cover Page Run.Title ...... Cornerstone Builders -------------------------- Owners Name .... Mr and Mrs David Keeley I I Locati.on ....... 54-365 Herrera Ave I (checked by) I • I I ' (date) ( <.< MICROPAS 200 File—KEELEYC , Program—HVAC SIZING > > > HEATING AND COOLING LOAD SUMMARY ------------------------- BUILDING DESCRIPTION: Floor Area 1360 sgft Volume.......................0........ 12702 cuft DESIGN CONDITIONS.: Weather Location .................... LA QUINTA Latitude .............................. 33.0 degrees Winter Outside Design Temperature 31.0 F Winter Inside Design Temperature .... 70.0'F Summer Outside Design Temperature ...120.0 F Summer Inside Design Temperature .... 78.0 F • Temperature Range .................... 35.0'F DESIGN HEATING LOAD -SUMMARY (see heating load calculations): Opaque Conductivity 8739 Glazing Conductivity ................ 7868 • Infiltration 6964. Duct Loss 2357 Total Heat Load 25929 Btu/hr • CEC Maximum: 1.3 x ( 25929 + 10 x 1360) = 51387 Btu/hr DESIGN COOLING LOAD'SUMMARY (see cooling load calculations): a • Opaque Conduction and Solar.......... 5210 Glazing Conduction .................. 8474 Glazing Solar ...................... 6543 Infiltration 6175 Internal Gain ....................... 2550 Duct Gain ........................... 2895 • Latent Load ......................... 6369 .Total Cooling Load 38215 Btu/hr I• ( 3.2 Tons) RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page H1 Project Titl6 ... HVAC Run Title Cornerstone Builders Date 2/09/87 < : MICROPAS 2.0 File-KEELEYC Program -HVAC SIZING > > > 'HOUSE' HEATING LOAD CALCULATIONS. -------------------------------- DESIGN CONDITIONS: WINTER DESIGN TEMPERATURESs Inside HOUSE Temperature ........................... 70.0 F Outside Temperature .............................. 31.0 F DESIGN TEMPERATURE DIFFERENCES Standard. ............................................ 39,0 F CONDUCTIVE HEAT LOSS: U -value Heat Area (Btu/hr- TD Loss -Description Orientation ------------------------------------- (sgft) sgft-F) (F) (Btu/hr) Frame Wall; NWALLI North ------ 243 ------- x 0:058 ------- x 39.0 = 550 EWALLI East 126 x 0.058 x 39.0 = 285 SWALLI South 284 x 0,058 x 39.0 - 642 WJ.-IALL1 West 235 x 0.058 x 39.0 = 532 Ceiling; ROOF1 Horizontal 1340 x 0.032 x 39.0` = 1672 Slab -on -grade; SLABEDGE n/a 148 x 0.770 x 39,0 = 4444 Frame Partition; EWALL2 n/a 160 x 0.055 x 39.0 = 343 EDOOR n/a 21 x 0.330 x 39.0 = 270 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 8739 Single Glazing; SGLASS South 42 x 1.10. x 39:0 = 1802 WGLASSS West 77 x 1.10 x 39.0 = 3303 Double Glazing; NGLASS North 47 x 0.65 x 39.0 = 1191 EGLASS East' 34 x 0.65 x 39.0 = 862 WGLASSD West 8 x 0.65 x 39.0 = 203 Double Sky light; SKYLIGHT Horizontal 20 x 0.65 x 39.0 = 507 CONDUCTIVE TOTALS FOR GLAZING SURFACES. 7868 INFILTRATION: (Type: MEDIUM) 12702 tuft x 0.78 ac/hr x 0.018 Btu/cuft-F x 39.0 = 6964 - DUCT HEAT LOSS: (Duct in attic) TOTAL HEATING LOAD: SUBTOTAL 23571 0.10 x 23571 = 2357 25929 r� u RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C1 Project Title ... HVAC Run Title ....... Cornerstone Builders Date: 2/09/87 < < < MICROPAS 2.0 File-KEELEYC Program -HVAC SIZING > > > DESIGN CONDITIONS: 'HOUSE' COOLING LOAD CALCULATIONS --------------------------------- CONDUCTIVE TOTALS FOR OPAQUE SURFACES 5210 a Single Glazing; SUMMER DESIGN CONDITIONS: South 42 x 1.10 x 42.0 = Inside HOUSE Temperature ......................:.. 78.0 F West 77 Outside Temperature ..............................120.0 1.10 x. F 3557 Double Glazing; Temperature Range ................................ North 35.0 F 0.65 x DESIGN EQUIVALENT TEMPERATURE DIFFERENCES 1283 EGLASS ----- 34 Standard .......................................... 0.65 42.0 F 928 • Frame Walls and Doors ................................ 40.6 F 0.65 x Ceiling Under Vented Attic ....................... 61.0 F Horizontal 20 Frame Partitions .................................. 0.65 32.0 F 546 SHADING CALCULATIONS: Over- Over- TOTAL FOR GLAZING Un - Shade hang hang Shade Glaz Glaz Shaded shaded Line Leng. High. High. High. Area Area Area Descrip. Orient. Fac#. -------- (ft) (ft) (ft) (ft) (sf) (sf) (sf) ---------- ----- SGLASS South ( 4.3 x ----- ----- 1.5) - 7.0 = ----- -0.5 / ----- ---- 6.7 x 42 ------ = -3 ------ 45 WGLASSS West ( 0.8 x 1.5) - 0.0 = 1.2 / 6.7 x 77 = 14 63 EGLASS East ( 0.8 x 8.0) - 0.0 = 6.4 / 5.2 x 34 = 42 0 WGLASSD West ( 0.8 x 1.5) - 0.0 = 1.2 / 1.0 x 8 = 10 0 CONDUCTIVE HEAT GAIN: U -value Heat Area (Btu/hr- TDeq Gain Description Orientation (sqft) sgft-F) (F) ('Btu/hr) -=------------------------ Frame Wall; NWALLI ----------- North ------ 243 ------- x 0.058 x. ------- 40.6 = -------- 572 EWALLI . East 126 x 0'.058 x 40.6 = 297 SWALLI South 284 x 0.058 x 40.6 = 669 WWALLI West 235 x 0.058. x 40.6 = 553 Ceiling; ROOF1 Horizontal 1340 x 0.032 x 61.0 = 2616 Frame Partition; EWALL2 n/a 160 x 0.055 x 32.0 = 282 EDOOR n/a 21 x 0.330 x 32.0 = . 222 CONDUCTIVE TOTALS FOR OPAQUE SURFACES 5210 a Single Glazing; SGLASS South 42 x 1.10 x 42.0 = 1940 WGLASSS West 77 x 1.10 x. 42.0 .= 3557 Double Glazing; NGLASS North 47 x 0.65 x 42.0 = 1283 EGLASS East 34 x 0.65 x 42.0 = 928 WGLASSD West 8 x 0.65 x 42.0 = 218 Double Skylight; SKYLIGHT Horizontal 20 x 0.65 x 42.0 = 546 CONDUCTIVE TOTAL FOR GLAZING SURFACES 8474 I* • TOTAL HOURLY SENSIBLE HEAT GAIN 31846 LATENT LOAD: 0.20 x 31846 = 6369 TOTAL COOLING LOAD 38215 < 3.2 Tons) RESIDENTIAL BUILDING LOAD CALCULATIONS-ASHRAE METHOD MICROPAS SIZING Page C2 Project Title..... HVAC Run. Title ....... Cornerstone Builders Date: 2/09/87 • < < < MICROPAS 2.0 File-KEELEYC Program -HVAC SIZING > > > SOLAR HEAT GAIN: Heat Area Shading Gain Description --------------------------- Orientation ' ------------- (sgft) SHGF Factor (Btu/hr) Single Glazing;.SGLASS South -------- 45 ---- x 32 ------- x 0.75 = -------- 1087 WGLASSS West 63 x 73 x 0.64 = 2949 WGLASSS Shaded 14 x 15 x 0.64 = 133 Double Glazing; NGLASS North 47 x 1'3' x 0.75 = 458 EGLASS Shaded' 34 x 13 x 0.64 = 283 WGLASSD Shaded 8 x 13 x 0.75 = 78 Double Skylight; SKYLIGHT Horizontal 20 x 134 x 0.58 = 1554 SOLAR TOTAL 6543'. INFILTRATION: (Type:.MEDIUM) 12702 cuft,x 0.64 ac/hr x 0.018 Btu/cuft-F x 42.0 = 6175 INTERNAL GAIN: 6 People x 225 Btu/person +.1200 Btu (.app.liance) = 2550 SUBTOTAL 28951 DUCT HEAT GAIN: (Duct in attic) 0.10 x 28951 = 2895 • TOTAL HOURLY SENSIBLE HEAT GAIN 31846 LATENT LOAD: 0.20 x 31846 = 6369 TOTAL COOLING LOAD 38215 < 3.2 Tons) •Equ ipment Spe--ifications • Ll Al ENGINEERING DATA LqffffoxE16 & ES16 SERIES ELECTRIC FURNACES HEATING_ UNITS UP-FLO - DOWN-FLO - HORIZONTAL ELECTRIC Page 13,000 to 102,400 Btuh Electric. Heating Capacity' Add -On Cooling — 1-1/2 thru 5 Nominal Tons MarchA.W5 Multi -Position Line Of Electric Furnaces Provide High Efficiency Performance And Installation Flexibility The Lennox E16 and ES16 electric fumaces are designed for multi -position installation in a basement, utility room, alcove, closet, crawlspace or attic. Versatile units are applicable to heating only, cooling only, heating -cooling or heat pump applications. Several models are available in varying sizes with a wide range of heating and cooling capacities. The E16Q models are applicable to either up-flo or down-flo installation. The ES160 series can be installed in the horizontal position only. For matching condensing unit data and cooling ratings see section Cool- ing Units — Condensing Units. For evaporator coil data see Cooling Units — Coils Blower Coil Unit tab section. For heat pump outdoor unit and indoor unit data and ratings see tab section Heat Pumps — Matched Remote Systems.. The optional field. additive "sl)de=in" coil installs intemal to the cabinet (up stream from the blower and electric heat elements) and is specialty matched to the unit for efficient air delivery and maximum capacity. For up-flo applications optional return air cabinets are available for installation on either side of the unit. The cabinets are trim and attractive appearing with a durable electro -bonded paint finish. Removable front panels provide complete service access to cabinet interior. Variable speed direct drive blowers have sufficient capacity to handle cooling air volume requirements. Hammock style fiberglass air filters are fumished on E16 up-flo models only. Nichrome heating elements give long service Iffe and efficient heating operation. Factory installed circuit breakers are accessible extemal to the cabinet. Optional accessories available include thermostat, return air cabinets, down-flo additive base, outdoor thermostat and filter kits. Units have been tested and rated according to Department of Energy (DOE) test procedures and Federal Trade Commission (FTC) labeling regulations in the Lennox Research Laboratory. Fumaces are U. L. listed. In. addition, units and components within are bonded for grounding to meet safety standards for servicing required by UL and NEC. Blower performance data is from unit tests conducted in the Lennox Laboratory air test chamber. Each unit is test operated at the factory and shipped assembled (except for the OX coil) with all controls mounted and prewired. The installer has only to make the necessary field duct and electrical connections. E16 MODEL — UP-FLO E16 MODEL — DOWN-FLO With Field Installed CP16Coil With Field Installed CP16 Coil Typical Applications With Feld Installed CPS16 Coil - With Eleeironic Air Cleaner And Humidifier Down -Flo Installation NOTE — Specifications, Ratings and Dimensions subject to change without notice. Up -Flo Installation With Return Air Cabinet • Cl 10 I* 1! 10 10 FEATURES Nichrome Heaters — The helix wound nichrome bare wire heating elements are exposed directly in the air stream resulting in instant heat transfer, lower element temperatures and long service fife. Element support frame is constructed of heavy gauge steel. Porcelain insulators are accurately located for proper element support and best heater operation. Elements may easily be removed from unit individually for service. . Durable Cabinet — Constructed of heavy gauge cold rolled steel with a special Lennox "Electro -Deposition" process paint finish. Cabinet interior is lined with 1/2 inch thick 1-1/2 Ib. density fiberglass insulation to keep cabinet temperatures low and minimize sound transmission. Leveling holes are provided in base for up-flo units. Installer must furnish bolts and nuts. Electrical inlets are located in side panels and cabinet cap. In addition, refrigerant line and condensate drain knockouts are furnished in the cabinet for field added coils. Complete service access is accomplished by removing the front panels of the cabinet. Blower assembly slides completely out of unit for service. Return air entry is possible in either side or bottom of cabinet for up-flo models. Cabinet and Blower Process — The cabinet and blower have a special Lennox "Electro -Deposition" process paint finish. Metal preparation consists of a special 6 station wash metal process. 1 — Spray application of a strong alkaline cleaner. 2 — Spray water rinse. 3 — Spray application of a corrosion resistant, paint bond- ing iron phosphate compound. 4 — Spray water rinse. 5 — Spray application of a chromic acid. 6 — Spray rinse with "de -ionized" water. After the final rinse the cabinet parts and blower enter a drying oven and are completely dried before receiving the paint finish. They are then submerged in the paint vat where an elec- troplating paint finish is applied. The paint solution and metal are given opposite electrical charges resulting in positive adhesion and even coverge of the paint to the metal surfaces. This process completely covers the entire surfaces, inside and out, including the edges of assembly holes. Following the paint process the finished components enter a high temperature oven where the Electro -bonded finish is baked on. Circuit Breakers— Units are equipped with circuit breakers to provide overload and short circuit protection. Circuit breakers are factory mounted and wired in the controls compartment. Circuit breakers. are current sensitive and temperature compensated to shut off heater if current draw is excessive. Breakers protrude through the element and control access panel for ease of access. Must be reset manually. Circuit breakers qualify as the disconnect means at unit in many areas and eliminate the need for a field supplied disconnect. Consult local electrical. code in your area. Powerful Blowers — Units are equipped with variable speed direct drive blowers. Each blower is statically and dynamically balanced as an assembly before it is installed in furnace. Motor is resiliently mounted. A choice of blower speeds is available. See blower performance tables. Change in blower speed is easily accomplished by a simple change in wiring. Blower Cooling Relay — Relay is furnished as standard equip- ment and factory installed in element and control compartment. Relay activates blower for cooling operation. Thermal Sequencer Relay — Factory installed and wired in element and control compartment. Sequencer brings the heating elements on and off the line, in 5 kw increments, with a time delay between each element. In addition; sequencer initiates and stops blower operation simultaneously with first element on and last element off. Limit Controls —` Each heating element is equipped with an accurately located limit control with a fixed' temperature 'off" setting and automatic reset. In- addition, elements have supplemental thermal cutoff safety fuses providing positive protection in case of hazardous overheating. Transformer — 24 volt (70VA) transformer is furnished as stand- ard equipment and factory installed in the element and control compartment. Large Air Filter (E16 Up -Flo Models Only) — A large hammock wraparound type filter is furnished standard. Media is one inch thick oil impregnated fiberglass. Filter mounting rack design provides quick and simple replacement of media. Filter Kit (Optional) — Available on down-flo and horizontal models. Field installs in the return air duct exterior to the unit. 16 x 20 x 1 frame filter is included with kit. 2 kits are required on E16Q4 and E16Q5 down-flo models. Filter media is washable or vacuum cleanable polyurethane coated with oil for increased efficiency. See specification table and dimension drawing. Additive Coil (Optional) — Field additive "slide -in" up-flo, horizontal or down-flo coils are available for cooling or heat pump operation. Addition of coil to unit cabinet requires no costly, time consuming plenum or duct changes. Simply remove coil access panels and slide coil in place. CH 16-51 FF and CH16-65V models are in a separate cabinet and attach to return air end of ES16Q5 unit. For complete data on coils see individual bulletins in section Cooling Units — Coils -Blower Coil Units or Heat Pumps — Matched Remote Systems. Return Air Cabinets (Optional — Up -Flo Only) — Simplifies return air duct connection to E16 up-flo model cabinets. May be installed on either side of the E16 unit. Return air cabinet is constructed of heavy gauge steel with a electro -bonded paint finish. Shipped knocked down and field assembled. Down-flo Additive Base (Optional) — An optional additive base is required for models with electric heat installed in the down-flo — position on combustible floors. Base is not furnished and must be ordered extra for field installation. See Specifications table. Thermostat (Not Furnished) — Heating thermostat is optional equipment and must be ordered extra. For all season applications a heating -cooling thermostat is available with the outdoor unit. Several models can be two'stage controlled, see electric heat data table. For two stage heating. operation a two stage heating thermostat is required and must be specified when ordering. Outdoor Thermostat (Optional) — An outdoor thermostat can be used to lock out some of the heatingelements on units where two stage control is applicable. Outdoor thermostat maintains the heating load on the low power input as long as possible before allowing the full power load to come on the line. Thermostat (LB-29740BA) and mounting box (M-1595) must be ordered extra. —2— r E16 SERIES UP -FLOW AND DOWN -FLOW SPECIFICATIONS. Model No. reE16Q2-00, E16Q2-05 E16Q2-10, E16QZ-15 E16Q3-00, E16Q3-0 E16Q3-10. E16Q3-16 E16Q3-20 "E16Q400, E16Q4-10 E16Q4-15 E161124-21)E16QS-20, I E16 25 • "E16Q5.00, E16QS-15 E16QS-25 E160.5-30 Blower wheel nominal diam. x width (in.) 9.x 7 10 x 8 10 x 8 12 x 12 Blower motor hp 1/3 1/3 1/2 3/4 Up -Flow I Net free filter area (sq. ft.) 5.3 6.3 7.8 8.7 Models Only Filter cut size (in.) 30 x 26 x 1 40 x 26 x 1 52 x 26 x 1 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 1 1 tOptional Up -Flow or Down -Flow CP16.26V CP16-31V CP16-41V CP16-46V CP16-51V CP16.65V Additive 'CP16 Down -Flow Drain Pam LB-53197CA LB-53197CS LB-53197CC LB-53197CD LB-53197CE LB-53197CF Coil Down -Flow Only CPR18.21/26 CPR18-31/41 CP818-46/51 CPR18-65 Optional Down -Flow Additive Base LB -346958A LB -3469568 LB -346958C LB -346958D Optional Filter Kit Down -Flow Models Only LB-51349CB LB-51349CB ttLB-51349CB ttLB-51349CB Optional Return Air I Cabinet (Up -Flow only) Model No. RA10-16-49 A RA10.16.53 Shipping wt.. (16S.) 54 4 56 Electrical characteristics 208-240 volt/60 hertz/1 pha e '•Up -Row Application only. LJ For CP16 coils in down -flow applications a special drain pan must be ordered extra for field installation. tFor complete coil data see individual bulletins in section Cooling Units — Coils-8lower Coil Units or Heat Pumps — Matched Remote Systems. tt2 kits required for E1604 and E16Q5 down -flow models. ES16 SERIES HORIZONTAL SPECIFICATIONS E16 SERIES ELECTRIC HEAT RATINGS Model Number ES16Q2-00, ES16g2-OS ES16Q3-00. ES16Q3-05 ES16Q4-00, ES16Q4-05 ES16Q5.00, ES16Q5-15 Model No: ES16Q2-10, ES16Q2-16 ES16Q3-10, ES1603-15 ES16Q410, ES16Q4-15 ES16Q5 20 45,000 100% ES16Q3-20 ES16Q4-20 100% Blower wheel nominal diam. x width (in.) 9 x 7 10 x 8 10 x 8 12 x 9 Blower motor hp 1/3 1/3 1/2. 3/4 Tons of cooling that can be added 1-1 /2 or 3 2-1/2 3 or 3-1/2 4 or 5 Shipping weight (lbs.) 121 131 140 116 Number of packages in shipment 1 1 1 1 62,000 100% CPS16-31V 75,000 100% Optional Additive Coils CPS16-26V 100% CPS16-41/46V CH16-51FF or CH16-65V CPS16-41146V Optional Filter it LB-51349CA — All Models — Electrical characteristics 208-240 volt/60 hertz/1 phase E16 SERIES ELECTRIC HEAT RATINGS Model Number Output Btuh tA.F.U.E. E16O2-05 16,000 100% E16O2-10 31,000 100% E16O2-15 45,000 100% E1603-05 16,000 100% E16Q3-10 31,000 100% E1603-15 46,000 100% E16O3-20 61,000 100% E1604-10 31,000 100% E1604-15 46,000 100% E16Q4-20 61,000 100% E1604-25 75,000 100% E16Q5-15 46,000 100% E16O5.20 62,000 100% E16Q5-25 75,000 100% E16Q5-30 91,000 100% tAnnual Fuel Utilization Efficiency based on DOE test procedures and according to FTC labeling regulations. ES16 SERIES ELECTRIC HEAT RATINGS Model Number Output Stuh tA.F.U.E. ES16O2-05 15,000 98.8%. ES16Q2-10 30,000 98.8% ES16O2-15 47,000 98.8% ES16O3-05 16,000 99.0% ES16O3-10 31,000 99.0% ES16Q3-15 45,000 99.0% ES16Q3-20 63,000 99.0% ES16Q4-05 16,000 99.0% ES16O4-10 31,000 99.0% ES16Q4-15 46,000 99.0% ES1604-20 64,000 99.0% ES1605-15 46,000 1 99.3% ES16Q5-20 65,000 1 99.3% tAnnual Fuel Utilization Efficiency based on DOE test procedures and according to FTC labeling regulations. 0 1! I* I* ELECTRIC HEAT DATA Model No. No. of Elements & Phase No. of Steps Volts Kw Btuh Input Input Input *Minimum Circuit Ampacity Circuit 1 Circuit 2 Circuit 3 E1602-05 ES1602-05 1 0 phase) 1 208 3.8 13,000 26.0 - 220 4.2 14,300 30.0 - - 230 4.6 15,700 240 5.0 17,100 E16Q2-10 ES16O2-10 2 0 phase) 2 208 7.5 25,600 49.0 - - 220 8.4 28,700 56.0 - - 230 9.2 31,400 240 10.0 34,100 tE16Q2-15 tES16Q2-15 3 0 phase) 3 208 11.2 38,200 49.0 23.0 - 220 12.6 43,000 56.0 26.0 - 230 13.7 46,700 240 15.0 51,200 E1603-05 ES16Q3-05 1 0 phase) 1 208 3.8 13,000 26.0 - - 220 4.2 14,300 29.0 - - 230 4.6 15,700 240 5.0 17,100 E1603-10 ES16O3-10 2 0 phase) 2 208 7.5 25,600 49.0 - 220 8.4 28,700 56.0 - - 230 9.2 31,400 240 10.0 34,100 tE16(3-15 tES1603-15 3 0 phase) 3 208 11.2 38,200 49.0 23.0 - 220 12.6 43,000 56.0 26.0' 230 13.7' 46,700 15.0 51,200 tE1603-20 tES16O3-20 4 0 phase) 4 208 15.1 51,500 49.0 45.0 - 220 16.9 57,700• 56.0 52.0 - 230 18.5 63,100 240 20.0 68,300 ES1604-05 1 0 phase) 1 208 3.8 13,000 28.0 - - 220 4.2. 14,300. 31.0 - - 230 4.6 15,700 240 5.0 17,100 E1604-10 ES16Q4-10 2 0 phase) 2 208 7.5 25,600 50.0 - - 220 8.4 28,700 57.0 - - 230 9.2 31,400 240 10.0 34,100 tE16Q4-15 tES16O4-15 3 0 phase) 3 208 11.2 38,200 50.0 23.0 - 220 .12.6 43,000 57.0 26.0 - 230 13.7 46,700 240 15.0 51,200 tE16Q4-20 tES16Q4-20 4 0 phase) 4 208 15.1 51,500 50.0 45.0 - 220 16.9 57,700 57.0 52.0 - 230 18.5 63,100 240 20.0 68,300 tE16O4-25 5 0 phase) 5 208 18.6 63,500 50.0 45.0 23.0 220 20.8 71,000 57.0 52.0 26.0 230 22.7 77,500 240 25.0 85,300 tE16Q5-.15 tES16Q5-15 3 0 phase) 3 208 11.2 38,200 52.0 23.0 - 220 12.6 43,000 59.0 26.0 - 230 13.7 46,700 240 15.0 51,200 tE1605-20 tES1605-20 4 0 phase) 4 208 15.1 51,500 52.0 45.0 - •220 16.9 57,700 59.0 52.0 - 230 18.5 63,100 240 20.0 68,300 tE16Q5 25 5 0 phase) 5 208 18.6 63,500 52.0 45.0 23.0 220 20.8 71,000 59.0 52.0 26.0 230 22.7 77,500 240 25.0 85,300 tE16Q5-30 6 0 phase) 6 208 22.5 76,800 52.0 45.0 45.0 220 25.2 86,000 59.0 52.0 52.0 230 27.5 93,800 240 30.0 102,400 'Refer to National Electrical Code manual to determine wire, fuse and disconnect size requirements. Use wires suitable for at least 16701'. tMaY be used with two stage heating. -4- TOP VIEW I eLGI OR t l ` 1 I 1 22—at RETURN AIR I L . D OPENING ' l8ther Side or eonotR) j z I 22"RETURN AIR OPENING SIDE VIEW TERMINAL STRIP ' (low Vetbga — otMr elle) ELECTRICAL INLETS Leath SideW M DIMENSIONS (inches) UP -FLOW MODELS AIRFLOW. .; t 1 mowm ' I i - SUCTION (VAPOR) I UNE ; � K UNE �r U i OPTIONAL t COIL C ,Fled Itut.11edl II CONDENSATE DRAIN F E F RETURN AIR OPENING FRONT VIEW U.L. INSTALLATION CLEARANCES Cabinet 0 inch Plenum and Outlet duct E1604- Series E16QS Series 0 inch on blower/coil units 49 Plenum and warm air duct 53 B 1 inch within 3 feet of cabinet 26-1/4 Floor 11 *Combustible "When unit is installed in the down-flo position with electric heat on a combustible floor the optional down-flo base is required. Model No. E16Q2 Series E1603 Series E1604- Series E16QS Series A 49 49 53 53 B 16-1/4 21-1/4 26-1/4 31-1/4 C 14-1/8 19-1/8 24-1/8 29-1/8 D 14 14 18 .18 E 11 14 21 26 F 2-5/8 3-5/8 2-5/8 2-5/8 G 5-1/2 7 10-112 13 H 21=1/8 21-1/8 2411/16 22 J 6-1/4 8-7/8 10-3/8 14 K 3-3/4 3-3/4 43/4 5-1/4 L 2 2 1-3/4 1-5/16 M 1 1 3/4 1/2 DOWN-FLO MODELS Model No. E16Q2 Series E1603 Series E16Q4 Series E16Q5 Series A . 49. 49 53 53 B 16-1/4 21-1/4 26-1/4 31-1/4 C 141/8 19-1/8 241/8 1 29-1/8 D 11 14 21 26 E 2-5/8 3-5/8 2-5/8 2-5/8 F 1-1/2 1-1/2 1-1/2 4-3/4 G 6-1/4 8-7/8 10-3/8 14 H 3-3/4 3-3/4 4-3/4 5.1/4 J 2-3/8 2-3/8 1-3/4 5-3/16 K t12-13/16. •1413/16 0'17-3/16 21-5/16 5.5/8 8-118 10-5!8 13-178 EML 17-1/4 15-1/2 18 16 •17-3/8 with CPIS-41V or CPR18-31/41V down -flow coils. "21-3/4 with CP16-51V or CPR18-46/51V down -flow coils. 114.13/16 with CPR18-21/26V down -flow coil. NOTE — When installing on a combustible floor, an additive base is required. Make an opening in the floor — 155-5/8 in. v0de by 20-1/8 in. front to rear for LB34695BA base (06(22 series), 21-3/8 in. wide by 20-1/8 in. front to rear for LB -3469588 base (E1603 series). 26-3/8 in. wide by 20-1/8 in. front to rear for LB -346958C base (E16Q4 series), 31-3/8 in. wide by 20-1 /8 in. front to rear for LB -346958D (E16Q5 series). E 22 D RETURN AIR OPENING E TOP VIEW • - I AIR I FLOW �eLowER / -�•' t�.. �. '®w _E*u�.'u�5i uif nomad__ etuaam..EP'mT,mare,m.ni A 1-1116-1 17.7f8—OJ SUPPLY AIR OPENING S _ SIDE VIEW OPTIONAL FlLTER IT ,�•�� 1 IEIOQ4 & Ell.. M J F O� LIQUID UCT10N (VAvoal LINE OPTIONAL COIL UNE K CONDENSATE Wield Inatelledl DRAINS t 2-38 5Is l �l FRONT VIEW II (EISQ5 MODEL51 OPTIONAL FILTER KIT' IE1602 & E18Q31 jams �II—H 64&G -it J SUCTION UQUID LINE(VAPOR) OPTIONAL COIL LINE (Pied InsmRadl K CONDENSATE A DRAINS 5 ' L I I 1 ELECTRICAL INLETS ' Moth Sides) ' t � TERMINAL STRIP (Low Voltagel . SUPPLY AIR OPENING FRONT VIEW • • 6 OPTIONAL RETURN AIR CABINET (For Up -Flow Models Only) FIELD WIRING t 9 NOTE — Return air cabinet shipped nar4 knocked down and must be LENNOX 14 RETURN AIR field assembled. 1 THERMOSTAT 1 OPENING B `Inott furnished) 26-1/8 is �,s—.{ LENNOX I I ELECTRIC ' FURNACE B � r�� OPTIONAL 1 1 OUTDOOR 1 O.. THERMOSTAT — A A — Two wire power for each circuit required. (not furnished) i I 2 22-9re—� See Electrical Data table. I B RETURN AIR l KNOCKOUT --- -- - '- B — Two wire low voltage (not furnished) — 18 ga. minimum. —`_(both $WOs) J NOTE — All wiring must conform to NEC and local electrical codes. t•72 Model No. RA10-16-49 RA10-16-53 A 49 53 B 14 16 DIMENSIONS (inches) ES1602 = ES16Q3 — ES16Q4 HORIZONTAL MODELS 9.7118 - e P e 1 - 1-3/4 e Pma 1 . \I AIR ETURN AI 1BLOWER � 17-7/8 �a�u�s I OPENING 22 26.118 N WqB 6Wa e 1 / FLOW 11A. ELECTRICAL 1 0 1TERMINAL STRIP D C D INLETS T (Low Voltage) ROP and Bottom( 0 314 11 a9 J TOP VIEW INLET END OPTIONAL COIL SUCTION r -OPTIONAL COIL IField Installed) (vapor) Et) (Field Installed) 7.7118 > - 1 --- ---OPTIONAL 2-3/8-11 �-+ Lr------, J/8 \\\ FILTER KIT �/ \\� OPTIONAL S I l�� \ IES1603 & ES16041 `\ FILTER KIT B 1 SLOWER 1 i`"�UQUID UNE 3.3/4\\A \ /Gpai / 9/4\A /1ES18021 8 I ------ -�_J " 19 2 E \\\ / / '- -1a \e�`CCC\ % ._ t ! \\ ' -- ---- 2.3/16 ---- 2-3/1-- -- -- _---t J i 7-1/18 CONDENSATE DRAINS i7 am) ��6F18.1/4- 2-5/8 FRONT VIEW - CPSIS-28V COIL SECTION (ES1602 Model*) CPSI"V & CPSISAI/46V COIL SECTION FRONT VIEW IESI603 & ES16G4 Models) e --F- is 1. Model No. A B C D E F ES1602 Series 16-1/4 14-1/8 11 2-5/8 6-1/4 17-1/4 ES1603 Series 21-114 19-1/8 14 3-5/8 8-7/8 15-1/2 ES1604 Series -6— V ENGINE HP18 SERIES MATCH HEAT PUMP OUTDOOR UNITS sY l *17,800 to 57,500 Btuh Cooling Capacity e *17,500 to 62,000 Btuh Heating Capacity Ma *ARI Standard ?AO and DOE Ratings Lennox HP18 Series Heat Pump Systems Provide �..._ Low Cost Installation With Heating -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 of 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 section. 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 from 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, connect refrigerant lines and make electrical connections. can,r+u,,,o�.wias a.. cOrarawts u 1ma1 Typical Applications NOTE — Specifications, Ratings and Dimensions subject to change without notice. 0 0 I• I[] 10 I* I` 1• 10 FEATURES Weather Resistant Cabinet — Heavy gauge galvanized steel cabinet is subject to a five station zinc phosphate metal wash pro- cess. This preparation process results in a perfect bonding surface for the finish coat of baked -on enamel. The outdoor enamel paint finish gives the cabinet long lasting protection from the weather. Drainage holes are furnished in the base and base channels for moisture removal. Heavy duty channels under the base raise the unit off the mounting surface away from the damaging moisture. Accessible Control Box — Conveniently located for easy access. All controls are. pre -wired at the factory. Dependable Compressor — Rugged and reliable compressor is hermetically sealed, suction cooled and overload protected. Inter- nally protected from excessive current and temperature. Operates efficiently at low outdoor temperatures during heating mode. Strategically located discharge muffler reduces sound level. A crankcase heater is furnished and provides proper lubrication and protection from slugging. Running gear is spring mounted within sealed housing. In addition, compressor is installed on resilient rub- ber mounts in the unit, assuring quiet and vibration free operation. HP18-651V-653V model is equipped with a Lennox compressor. Powerful Outdoor Fan — Efficient direct drive fan moves large volumes of air uniformly through the entire outdoor coil resulting in high refrigerant cooling capacity. Vertical discharge of air minimizes operating sounds and eliminates hot air damage to lawn and shrubs. Fan motor is totally enclosed for maximum protec- tion from weather, dust and corrosion. A rain shield on the motor provides additional protection from moisture. Fan service access is accomplished by removal of fan guard. Corrosion resistant PVC coated steel wire fan guard is furnished as standard. Large Outdoor Coil — Lennox designed and fabricated coil is constructed of precisely spaced ripple -edge aluminum fins machine fitted to seamless copper tubes. Precise coil circuiting gives uniform refrigerant distribution for high efficiency. Extra large four sided wraparound coil configuration provides extra large surface area for excellent heat transfer with minimum air resistance. Fins are equipped with collars that grip tubing for maximum contact area. Inverted coil circuiting prevents ice buildup at coil base in low am- bients. Discharge gas enters bottom of coil during defrost and heat of refrigerant flows counter to water drainage resulting in extremely clean and unobstructed fins and tubes. Fin spacing allows rapid and complete water drainage. Flared tubing connections and silver soldering provide tight, leakproof joints. Long fife copper tubing is corrosion -resistant and easy to service. Coil is factory tested under high pressure to insure leakproof construction. Corrosion resistant PVC coated coil guard is furnished as standard. Entire coil is accessible for cleaning. Refrigerant Line Connections, Electrical Inlets and Service Valves — Vapor and liquid line connections are located outside of the cabinet and are made with sweat connections. Brass ser- vice valves prevent corrosion and provide access to refrigerant system. Drier with internal check valve and strainer are factory in- stalled in the liquid line. One-shot vapor valve, liquid line service valve and gauge pons are accessible outside of the cabinet. A sight glass is furnished and factory installed. Refrigerant line connec- tions, valves and field wiring inlets are all conveniently located in one central area of the cabinet. See dimension drawing. Defrost Control — A clock timer defrost control is furnished as standard equipment. It gives a defrost cycle (if needed) for every 45 or 90 minutes (adjustable) of compressor "on" time. A sensing element mounted on the outdoor coil determines when the defrost cycle is required and also when to terminate a cycle. Expansion Valve — Designed and sized specifically for use in heat pump system. Sensing bulb is located on the true suction line bet- ween reversing valve and compressor thus sensing true suction temperature in any cycle. Factory installed and piped. —16— Reversing Valve — 4 -way interchange reversing valve effects a rapid change in direction of. refrigerant flow resulting in,quick changeover from cooling to heating and vice versa. Valve operates on pressure differential between outdoor unit and indoor unit of the system. Factory installed and piped. High Pressure Switch — Factory installed and wired. Protects system from abnormal operating conditions. Manual reset. Start Controls — Furnished and factory installed. Provides assistance for compressor start under loaded conditions or in the event of low voltage. Suction Line Accumulator (HP18-461V, 510V, 650V models only) — Factory installed and piped. Traps and prevents large amounts of liquid refrigerant from flooding directly into the com- pressor and causing damage on start-ups and refrigerant cycle change. Thermostat Furnished (Shipped Separately) - A two stage heating—single stage cooling thermostat is furnished as standard. Thermostat and subbase are shipped in a separate package and are not in the package with the unit. For alternate thermostats available see the Lennox Price Book. Thermostat is equipped with adjustable heat anticipation, temperature setting scale in OF and °C, manual system selector (Cool— Off —Heat) and fan selection switch (On—Auto) for continuous or intermittent blower opera- tion. Separate bulbs control compressor and auxiliary heating operation. Emergency heat relay (P-8-3251) is required for use with outdoor thermostat applications. Relay must be ordered extra. 0 Refrigerant Line Kits (Optional) — Lines are available in several lengths and must be ordered extra. See Refrigerant Line Kit table for selection. The refrigerant lines (vapor and liquid) are shipped refrigeration clean. Lines are cleaned, dried and pressurized at they factory and sealed by means of a rubber plug. Vapor line is fully insulated. Lines are furnished with a flare fitting (Indoor unit con- nection) on one end and less any fitting (stubbed) on the opposite end for connection to the outdoor unit. •" J Outdoor Thermostat Kit (Optional) — An outdoor thermostat ' can be used to lock out some of the electric heating elements on indoor units where two stage control is applicable. Outdoor ther- mostat maintains the heating load on the low power input as long as possible before allowing the full power load to come on the line. Thermostat kit (LB-29740BA) and mounting box (M-1595) must be ordered extra. Check and Expansion Valve Kits (Optional) — Must be ordered extra and field installed on indoor units. See Selector table for kit requirement. Completely Tested and Certified — Units have been thoroughly tested with matching indoor units in the Lennox research Labora- tory environmental test room and accurately rated according to U.S. Department of Energy (DOE) test procedures and Air -Condi- tioning and Refrigeration Institute (ARI) Standard 240 conditions. In addition, units are U.L. Listed and have been sound tested in the Lennox reverberant sound test room and rated according to ARI Standard 270. Units coming within the scope of the ARI standard (135,000 Btuh or less) are Certified under the ARI Cer- tification Program. DOE covered products are rated under 65,000 Btuh with single phase power input. Units and components within are bonded for grounding to meet safety standards for servicing required by U.L. and N.E.C. SELECTOR Lennox tARI Standard 240 Ratings HPIS311V HP18.411V HP18413V HP18461V HP18-511V HP18-513V High Low Net face area (sq. ft.) 9.24 6.46 Total 9.24 11.39 Total 18.22 Outdoor Unit a. > Lennox *Check and Model No. Cooling em p. em p. Total SEER EER Unit 20 High Unit Low : -u 9 Indoor Expansion *ARI Std. Capacity Htg. Htg. Unit (Btuh/ (Btuhl High HSPF emp, low Temp. E n Unit Valve 270 SRN (Btuh) Cap. Cap. Cooling Watt) Watt) Temp. 3800 Htg. Temp. Htg. 3 0 Used Kit (Bels► 1060 (Cap. (Cap. Watts 1 Phase 3 Phase Htg. 250 .O:P. Htg. C.O.P. m 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 Ibs. 15 Ibs. 3 oz. Watts 5/16 5/16 Watts 3/8 C 3/8 1/2 Vapor line connection o.d. (in.) (sweat) 17,800 18,200 9,600 2225 8.15 8.00 1980 5.85 2.70 1640 1.70 20% CBF16.21 248 Z76 LB-34792BA 17,900 17,900 10,100 2205 8.20 8.10 1965 6.05 2.65 1585 1.85 20% CB18-21 HP18-211V 18,000 17,500 9,500 2150 8.45 8.35 1875 6.05 2.75 1545 1.80 20% CBS18-21 (7.8) 18,500 17,600 10,000 2229. 8.30 8.30 1947 6.25 2.65 1628 1.80 25% CPR18 21/26V ttFactory /E16Q2 Installed 23,400 22,600 12,100 2885• 8.30 8.10 2495 5.50 2.65 2055 1.70 20%. CBF16-26 HP18 261V LB-34792BA '800 24,000 13,700 2985 8.05 7.95 2650 5.65 2.65 2175 1.85 19% C818-26 4,000 F24,200 24,600 13,600 3015 8.40 7.95 2620 5.75 2.75 2160 1.85 19% CBS18-26 (7.8) 24,600 13,700 2933 8.40 8.25 2670 13094 6.10 2.70 2170 1.85 24% CPR18-212 ttFactory / E16Q2 Installed 28,700 28,500 14,700 3679 8.00 7.80 6.00 2.70 2393 1.80 27% CPR18-31/41V ttFactory H P18-311 V /E1603 Installed 29,000 29•000 14,700 3685 • 1 8.05 7.85 3065 6.45 2.75 2400 1.80 17% CB18-31 (8.0) 29,000 29,400 15,100 3665 8.30 7.90 3100 6.30 2.80 2420 1.85 19% CBS18-31 LB -3479288 29,400 28,200 15,600 3639 8.30 8.10 3050 6.40 2.70 2465 1.85 16% CBF16.31 HP18-411V 35,400 35,600 19,000 4355 8.40 8.15 3750 6.40 2.80 2820 1.95 21% CB18-41 LB-34792BB (Use SEER) CPR18-31/41V ttFactory HP18-413V 35,500 34,500 18,900 4494 8.20 7.90 3745 6.50 .2.70 .2994 1.85 24% (Use EER) I I I I /E16O3 Installed 36,000 36,000 19,400 4320 8.55 8.35 3750 6.50 2.80 2840 2.00 21% CBS18-41 LB-34792BB (8.0) 40,500 40,600 23,500 4793 8.60 8.46 4249 6.55 2.80 3360 2.05 24% CPR18-46/51V ttFactory HP18-461V /E16Q4 Installed (8.2) 41,500 41,500 23,000 5020 8.60 8.20 4380 6.46 2.80 3400 2.00 25% Cal 8-5' LB -347928C CBS18-51 HP78-511V CPR18-46/51V ttFactory (Use SEER) 46,000 45,500 25,000 5412 8.80 8.50 4849 6.50 2.75 3574 2.05 26% / E16Q4 Installed H P18 -513V 46,500 48,500 x5645 8.70 8.20 5035 6.60 2.80 3950 2.00 24% C818-51 LB-34792BD' (Use EER) (8.2) CBS18.51 HP18-651V CB18-65 (Use SEER) 56,000 62, 7320 8.00 7.65 6450 6.90 2.80 5150 2.15 24% CBS18-65 LB-34792BD P1 HP18-653V §7500 1 62, 7615 8.00 7.55 6489 6.80 280 5316 2.15 23% CPR18-65V ttFactory EER) (8.2) 1 1 /E16Q5 Installed *Sound Rating Number in accordance with ARI Standard 270. tRated in accordance with ARI Standard 240 and DOE, At 450 cfrn (maximum) indoor air volume per ton of cooling capacity with 25 ft. of connecting refrigerant lines. Cooling Ratings - 9FF outdoor air temperature and 80°F db/67°F wb entering indoor coil air. r High Temperature Heating Ratings - 47OF db/43°F wb outdoor air temperature and 70°F db entering indoor coil air. Low Temperature Heating Ratings - 17OF db/15°F wb outdoor air temperature and 700F db entering indoor coil air. - *Heating Seasonal Performance Factor. •Kit must be ordered extra and field installed. ttFumished as standard with coil. a SPECIFICATIONS Model No. HP1B-211V HP78-261V HPIS311V HP18.411V HP18413V HP18461V HP18-511V HP18-513V HP18451V HP184653V Outdoor Net face area (sq. ft.) 9.24 6.46 7.39 9.24 11.39 13.67 18.22 Coil Tube diameter (in.) 8c 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.) & No. of blades 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 Fan Cfm (factory setting) 2600 2200 2400 2600 3800 3900 3970 Rpm (factory setting) 1100. 1040 1040 1060 1060 1060 1090 Watts (factory setting) 1 220 250 250 260 400 395 385 Refrigerant -22 (charge furnished) 4 lbs. 5 oz. 5 lbs. 9 oz. 6 lbs. 1 oz. 6lbs. 15 oz. 9 lbs. 5 oz. 12 Ibs. 15 Ibs. 3 oz. Liquid line connection o.d. (in.) (sweat) 5/16 5/16 3/8 3/8 3/8 3/8 1/2 Vapor line connection o.d. (in.) (sweat) 5/8 5/8 3/4 3/4 7/8 7/8 1-1/8 Shipping weight (Ibs.) 142 158 169 186 234 248 Z76 tNumber of packages in shipment 11 2 2 2 2 2 2 2 t Packages consist of outdoor unit and thermostat with subbase. -16a- 0. ELECTRICAL DATA Model No. HP18.211V HP18-261V' HP18-311V HP18-411V HP18-413V Line voltage data 208/230V 60hz/1ph. 208/230V 60hz/1ph. 208/230V 60hz/1ph. 208/230V 60hz/1ph. 208/230V 60hz/3ph. Compressor Rated load amps 10.5 12.6 15.4 19.8 11.6 Power factor 1 .95 .96 .95 .94 .89 Locked rotor amps 42.0 59.0 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 (amps) 20 25 35. 45 25 *Minimum Circuit ampacity 11 14.3 17.0 20.5 26.9 16.4 • Refer to National Electric Code manual to determine wire, fuse and disconnect size requirements. NOTE - Extremes of operating range are plus 10% and minus 5% of line voltage. ELECTRICAL DATA Model No. HP18-461V HP18-511V HP18-513V 'HP18-651V HP18.653V Line voltage data 208/230V 60hz/1ph. 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 4.5 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 '. • Refer .to National Electric Code manual to determine wire, fuse and disconnect size requirements: NOTE - Extremes of operating range are plus 10% and minus 5% of line voltage. FIELD WIRING r--------1 B r LENNOX DISCONNECT'rDISCONNECTr r THERMOSTAT i 'SWITCH " i SIMTCH :,.(fumished) ;- '(BY OTHERS) i I(BY OTHERS) I r r, E A �'",'.OPTIONAL`.' i OUTDOOR r THERMOSTAT.I • +cj rV. moi$;. `- .y Rl ' „.as�' UNri o+ ri3�w �• WISCONNECTI SWITCH -- j (BY OTHERS) .r 1 A - Two or Three wire power (see Electrical Table) 8 - Two or Three wire power (size to heater capacity) C - Two wire power (size to indoor coil blower motor) `. D - Two wire low voltage (18 ga. minimum) E - Six wire low voltage 08 ga. minimum) with Electric Heat Eight wire low voltage with Optional Outdoor Thermostat F - Four wire low voltage (18 ga. minimum) l . G - Three wire low voltage (18 ga. minimum) 1./i'; - Field wiring not fumished - i NOTE - All wiring to conform to NEC and local electrical codes. r -16b- REFRIGERANT LINE TUTS INSTALLATION CLEARANCES (inches) Outdoor Unit Model No. Line Set Length of Model No. Lines (ft.) Liquid Line (o.d. in.) Vapor Line (o.d. in.) HP18-211V HP18-261V L10-21-20 20 5/16 5/8 LIO-21-25 25 L10-21-35 35 L10-21-50 50 HP18-311V HP18-410V L10-41-20 20 3/8 3/4 L70-41-30 30 L10-41-40 40 Outdoor Unit Model No. Line Set Length of Model No. Lines (ft.) Liquid Line (o.d. in.) Vapor Line (o.d. in.) HP18-211V HP18-261V L10-21-20 20 5/16 5/8 LIO-21-25 25 L10-21-35 35 L10-21-50 50 HP18-311V HP18-410V L10-41-20 20 3/8 3/4 L70-41-30 30 L10-41-40 40 L10-41-50 50 H P18-461 V H P18 -510V L10-65-30 30 3/8 7/8 L10-65-40 40 L10-65-50 50 HP18-MV "Not Available — — — *geld fabricate. F • • �•o INLET AIR CONTROL BOX INLET i AIR NOTE — 48 Inch clearance required on top of unit. - *NOTE — One side must be 38 inches for service. Two of the remaining .sides may be 12 inches. DIMENSIONS (inches) -= -- -- Model No. A B c D E F HP18-211V,HP18-261V 28-3/4 22-1/4 2-1/8 7-142 15 -5/8 HP18-311 V,H P18 -410V HP18-461V,HP18-510V X9/16 13/16 9/16 9.5/16 18.1/16 5-3/8 HP18-650V . j 1 OIL DRAIN OUTLETS 4 fund perimeter of base) DISCHARGE 4AIR , INLET *AIR TOP VIEW ELECTRICAL INLETS o • VAPOR UNE O .Y - CONNECTION VAI I LIQUID UNE Lltltll CONNECTION POF D • C DRAIN 1-1/2 ounETs (z) 3-1/8 SIDE VIEW 3-1/8 A —16c— FRONT VIEW • I• ENGINEERING DATA - 4 CPR18 SERIES DOWN-FLO COOLING"UNITS 'colLs EVAPORATOR COILS *22,800 to 48,500 Btuh Cooling Capacity BLOWER;COIL UNITS 9 P tY ��: •ARI Standard 210 Certified Ratings With Matching Condensing Unit Page.113 Judr • Factory Hssemotea • Several Sizes To Select • Low Installation Cost W "Slide -In" E16 Cabinet • Installed Check and Expansion Valves • Flare Line Connections W Large Surface Area • Durable Copper Tubing • Leak Tested • Minimum Air Resistance • Large Drain Pan • Dual Condensate Drains E16 Unit with Field Installed CPR18 Coil Typical Application NOTE — Specifications, Ratings and Dimensions subject to change without notice. CPR18 Series Down -Flo Evaporator Coils Feature Low Cost Installation And Maximum Cooling Efficiency Lennox CPR18 series down-flo evaporator coils have been designed specifically for easy, low cost field installation in the cabinet of the E16 electric furnaces in down-flo applications. No costly, time consuming plenum or duct alterations are required. Simply remove access panels and slide the coil into'place in the coil section of the cabinet. Knockouts are provided in access panel for refrigerant lines and condensate drain. Expansion and check valves are factory installed on the coils. Lennox designed and fabricated coils are constructed of precisely spaced ripple -edged aluminum fins machine fitted to sturdy cop- per tubes. Twin coils assembled in a "V" configuration provides extra large surface and contact area for highest efficiency. Precise circuiting gives uniform refrigerant distribution. Copper tubing pro- vides long coil life and ease of service. Fins are strengthened to resist bending, which can restrict air flow and reduce efficiency. In addition, fins have collars that grip the tubing for maximum con- tact area resulting in excellent heat transfer. Flared copper tubing joints and silver soldering provide tight leak proof joints. Coils are thoroughly tested under pressure to insure leak proof construc- tion. Refrigerant lines are equipped with flare fittings for quick and easy line connection. CPR18-65V suction line requires sweat con- nection. Deep, corrosion resistant drain pan is constructed of heavy gauge galvanized steel and has dual, primary and auxiliary, drain connections. Coils have been thoroughly tested with matching condensing units in the Lennox Research Laboratory environmental test room and accurately rated according to ARI Standard 210 condi- tions and DOE test procedures. All coil assemblies are shipped factory assembled ready to install. See section Heating Units - Electric for complete E16 unit specifications. Refer to matching condensing unit bulletins indexed in section Cooling Units -Con- densing Units for cooling ratings, specifications and dimensions. • SPECIFICATIONS Model No. CPR18-21/26V CPR18-31/41V CPR18-46/51V CPR18-65V Evaporator Coil Net face area (sq. ft.) 3.0 4.22 5.83 5.83 Tube diameter (in.) 3/8 3/8 3/8 3/8 No. of rows 3 3, 3 4 Fns per inch 1 14 14 13 13 Suction line o.d. (in.) 5/8 flare 3/4 flare 3/4 flare 1-1/8 sweat Liquid line o.d. (in.) 3/8 flare 3/8 flare 3/8 flare 1/2 flare Condensate drain size Upt.) (in.) 3/4 3/4 3/4 1 3/4 Refrigerant R-22 R-22 R-22 R-22 Shipping weight (lbs.) 1 package 38 63 64 81 NOTE — For actual Stuh capacity refer to matching condensing units engineering data sheets. AIR RESISTANCE SELECTOR Coil Model No. 'E16 Unit Model No. Total Resistance (in. w .) E1602-00, E16Q2-05, CPR18-21 /26V. .08 800 E1602-10, E1602-15 1000 E16Q3-00, E1603-05, CPR18-31/41V E1603-10, E1603-15, CPR18-31/41V E16Q3-20 .06 E1604-00, E1604-10, CPR18-46/51V E16Q4-15, E16Q4-20, .13 E16Q4-25 .17 E16Q5-00, E1605•15, CPR18-65V E16Q5-20, E16Q5-25, 1200 E16Q5.30 • "See Heating Units — Electric, Page 1, for complete data and dimensions. DIMENSIONS (inches) SUCTION • A LINE EXPANSION AND CHECK VALVE Lh L Model No. Air Volume (cfml Total Resistance (in. w .) CPR18-21/26V 600 .08 800 .14 1000 .19 1200 .26 CPR18-31/41V 800 .06 1000 .09 1200 .13 1400 .17 1600 .21 CPR18-46/51V 1200 .06 1400 .08 1600 .10 1800 .13 2000 .15 •CPR18-65V 1400 .18 1600 .23 1800 .29 2000 .36 2200 .43 2400 .51 2600 .60 B X00— AUXILIARY CONDENSATE FRONT VIEW DRAIN PRIMARY )NDENSATE DRAIN SIDE VIEW Model No: I CPR18-21/26V I CPR1841/41V CPR1B46/51V CPR18-GS/ A 1LK 18-5/8 23-7/8 28-7/8 8 14-1/2 19-1/2 19 C 1 16-1/2 20-3/4 21 EHB-SW —14— �J I Mw