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002353 (SFD)
4 P.O. BOX 1504 No. 002353 Building54-94078-105 CALLE ESTADO Address AVMida MM LA QUINTA, CALIFORNIA 92253 Owner Flip Cmk EIMM1t BUILDING: TYPE CONST. OCC: GRP. Mailing Address 52-625 HSeAiM ir1Va A.P. Number 774-291--010 L• City Zip. Tel. Ot�td •92253 Legal Description riot 1 Contractor Project Description Si=d& family &MIUm Sam_w Address City Zip Tela State Lic. City , 1440 & Classif. 4Q 9 Lic. # Sq. Ft. (M505 No. No. Dw. Arch., Engr., Size #� Stories ..Units Designer 'New _LI; - 462�0 Alter ❑ Repair ❑ Demolition ❑ Address Tel. City Zip State rtmAt alm 144 lin. ft. Of 3 -'foot . Lic. # LICENSED CONTRACTOR'S DECLARATION retabiUv, 14aUs- b6ock's �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 P DATE , OWNER -BUILDER DECLARATION Estimated Valuation I hereby affirm that 1 am exempt from the Contractor's License Law for the following 515.f# :,.4� 2���.pQ� reason: (Sec. 7031.5,Business and Professions Code: Any city or county which requires a - ! (wall ' permit to construct, after,-, improve, demolish, or repair any structure, prior to its -issuance also - -- - requires the applicant for such permit to file a signed statement.that. he is licensed pursuant to PERMIT - AMOUNT•• the provisions of the Contractor's License Law, Chapter 9 (commencing with Section 7000) of ' .Division 3 of the Business and Professions Code, or that. he is exempt therefrom, and the basis - for the alleged exemption. Any violation of Section 7031.5 by any applicant for a permit Plan Chk. Dep. 25th-,n�i Vit subjects the applicant to a civil penalty of not more than five hundred dollars ($500): '• Plan Chk. BBI.. ❑ I, as owner of the property, or my employees with wages as their sole compensation, will C� do the work, and the structure is not intended or offered for sale. (Sec. 70.44, Buisness and Const, �39n�JS! 7 Professions Coder The Contractor's License Law does not apply to an owner of property who • builds or improves thereon and who does such work himself or through his own employees, Mech'., - . _ . provided that such Improvements are not intended or offered for sale. If, however, the building 3Y000 VV orimprovement is sold within one year of completion, the owner -builder will have the burden Electrical - 76.08 of proving that he did not build or improve for the purpose of. sale.) ❑ 1, as owner of the property, am exclusively contracting with licensed contractors to con- Plumbing 103.00 l struct the project. (Sec. 7044, Business and Professions Code: The Contractor's License Law does not apply to an owner of property who builds or improves thereon, and who contracts for S.M.I. - • 5.09 such projects with a contractor(s) licensed pursuant to the Contractor's License Law.) Grading 20.00 ❑ 1 am exempt under Sec. B. & P.C. for this reason Driveway Enc. ".00 Date owner Infrastructure 1,146.23 WORKERS' COMPENSATION DECLARATION I hereby affirm that I have a certificate of consent to self:insure, or'acertificate of Worker's Compensation Insurance, or a certified copy thereof. (Sec. 3800, Labor Code.) Policy No. . Company ❑ Copy is filed with the city. -❑ Certified copy is hereby furnished. 1 TOTAL 1 2.135.5.1 1 1.885.5?C CERTIFICATE OF EXEMPTION FROM ..REMARKS V WORKERS' COMPENSATION INSURANCE (This section need not be completed if the permit is for one hundred dollars ($100) valuation or less.) - I certify that in the performance of thg work for which this permit is issued, I shall not+ =any person in any manner so as to become subject to the Workers' Compensation Laws of California. 'Date Owner NOTICE TO APPLICANT. If, alter making this Certificate of Exemption you should become ZONE: BY: subject to the Workers' Compensation provisions of the Labor Code, you must forthwith Minimum Setback Distances: comply with such provisions or this permit shall be deemed revoked. Front Setback.from. Center Line Rear Setback from Rear Prop. Line CONSTRUCTION LENDING AGENCY. Side Street Setback from Center Line I hereby affirm that there is a construction'lending agency for the performance of the work for which this permit is issued. (Sec. 3097, Civil Code.) Side Setback from Property Line Lender's Name Lender's Address FINAL DATE INSPECTOR 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. Issued by: Date l Permit 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. Validated by: Signature of applicant y j Date Mailing Address f Validation: City, State, Zip A 5 5 4 8 5 7 1885,31 CK HARD COPY CONSTRUCTION ESTIMATE NO. ELECTRICAL FEES NO. PLUMBING FEES IST FL. SQ. FT. ® $ UNITS ,A GRADING 11 YARD SPKLR SYSTEM 2ND FL. SQ. FT. SETBACK fGROUND PLUMBING6 UNDERGROUND MOBILEHOME SVC. BAR SINK POR. SO. FT. ® PLUMB. BONDING GAR. SO. FT. ® POWER OUTLET ROOF DRAINS WERROUGH WIRING DRAINAGE PIPING CAR P. SQ. FT. FOUND. REINF. GAS (ROUGH) WALL SQ. FT. HEATING (FINAL) DRINKING FOUNTAIN SQ FT ® GAS (FINAL) URINAL ESTIMATED CONSTRUCTION VALUATION $ WATER PIPING NOTE: Not to be used as property tax valuation SERVICE FLOOR DRAIN MECHANICAL FEES WATER SOFTENER VENT SYSTEM FAN EVAP.COOL HOOD SIGN WASH ER(AUTO)(DISH) APPLIANCE DRYER GARBAGE DISPOSAL FURNACE UNIT WALL FLOOR SUSPENDED LAUNDRY TRAY AIR HANDLING UNIT CFM I KITCHEN SINK ABSORPTION SYSTEM. B.T.U. TEMP USE PERMIT SVC WATER CLOSET' COMPRESSOR HP POLE, TEMIPERM LAVATORY HEATING SYSTEM FORCED GRAVITY AMPERES SERV ENT SHOWER BOILER B.T.U. SO. FT. ® c BATH TUB SO. FT. ® c WATER HEATER MAX. HEATER OUTPUT, B.T.U. SQ. FT. RESID ® 11/4 c SEWAGE DISPOSAL SQ.FT.GAR ® 3/4c HOUSE SEWER 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 ,A GRADING 11 LUMBER GR. SETBACK fGROUND PLUMBING6 UNDERGROUND A.C. UNIT COLL. AREA SLAB GRADECROUGH PLUMB. BONDING HEATING (ROUGH) STORAGE TANK FORMS WERROUGH WIRING DUCT WORK ROCK STORAGE FOUND. REINF. GAS (ROUGH) METER LOOP HEATING (FINAL) OTHER APPJEQUIP. A/CREINF. STEEL /�p GAS (FINAL) TEMP. POLE GROUT WATER HEATER SERVICE FINAL INSP. BOND BEAM $ PCX WATER SYSTEM ,A GRADING 11 LUMBER GR. FINAL INSP. ` ''' JJJ FINAL INSP. v xml cu. yd. $ plus x$ =$ /y�KFRAMING ROOFING AZO "�, z I REMARKS: VENTILATION FIRE ZONE ROOFING FIREPLACE SPARK ARRESTOR GAR. FIREWALL LATHING MESH INSULATIONISOUND FINISH GRADING FINAL INSPECTION CERT. OCC. FENCE FINAL INSPECTOR'S SIGNA GARDEN WALL FINAL Q COUNTY OF RIVERSIDE, ENVIRONMENTAL HEALTH SERVICES DIVISION _ PERMIT APPLICATION FOR A SUBSURFACE SEWAGE DISPOSAL SYSTEM �t3( U Applicant: Submit this form with four copies of a scaled plot plan (1-20 scale) drawn to County specifications required on the attached check list. A non-refundable filing fee of $30 is required when the application is submitted. Check must be made payable to the County of Riverside -� Building Department Application Log N \ ..ter CQ_t"r'V \e- P - r - Tame (Owner, Agent, Contractor, Etc.) _ Mailing -Address !� _sem,.. �_ L�� . , ! r- .t c Existing New Addition Replacement - �•. (- `� f' .� 'n" City Gals. Zip Code Telephone fState (2) Leach line sq. ft. *Job Property Address *City or, Community *Legal Description of Prpty. (Lot, PM, TR) Leach bed (Bottom trench area) ft. rock/ Sq. Ft. *Assessor's Parcel No. A ency Use Use of Permit Lot Size per running ft. Or Well SFD, MH Site Prep Etc. bottom N/A C ] Planning Case N area -� 45; - ,4 L� ignature of Applicant """"" Date *The above information must be verified from Building Application STAFF USE - DO NOT WRITE BELOW THIS LINE Certification of Existing S.D. System reqd WQCB Clearance reqd. Soils feasibility report reqd. Detailed boring report reqd. PA Detailed contour plot plans reqd. 0 H Initial Date � k Yes ] No ] U_� ! "�=,A Yes ] No ] Yes C ] No[ ] Yes ] No ] Yes C ] No C ] _ H Staff Specialist approval read. Yes[ ] No[ ] Lot Inspection Date U y - Soils/boring report by G F^ �(� Proj. N Date Soils Map Page Soil Type Approvedkby Date U z 0 H H U w Type of System: No. of Bedrooms) (1) Septic Tank Soil Rate Required Existing New Addition Replacement _ i It.X a Gals. (2) Leach line sq. ft. Sidewall allowanceInstall Line(s) Leach bed (Bottom trench area) ft. rock/ Sq. Ft. Ft. Long, Ft. wide-' Sq. Ft. of per running ft. with Min. inches rock bottom N/A C ] below drain lines area Leach lines/bed-special design (3)Pit Diameter No. Pit Seepage Pit total depth t'e' for slope: Applicable 5'[ ] 6'[ Y9 Pits BIS N/A Overburden factor t�-1 Max. allowable depth �.� C+ � ...r; . � � UV `�.� k r' i'•;Y ':�..,' i !�1 /'� l�if � � (.� � � ,, t ic.,� � � rC. �^�- ( ' � { I This application is'approved denied for the design of a subsurface disposal s --stem as indicated on the accompanied plot plan using the requirements set forth in Section B above. A building'permit is necessary for the installation of the above -designed system. C1') Septic tank and sewer lines must be 50' from any wells (2) Leach lines must be 100' min. from any wells including expansion area U) Seepage pits must be 150' min. from any wells including expansion area Signature of Health Official Date RECEIPT NO. Issued by Date District: Riverside [ ] Indio ] Hemet C ] Perris [ ] Rancho Calif. C ] BlytheC ] Distribution: WHITE -Office file YELLOW -Applicant PINK -Bldg. Dept. GOLDENROD -Pending File DOH SAN 122 (Rev. 2/86) 10!4 r". ��fIEO S o = o Desert Sands Unified School District H BERMUDA DUNES RANCHO MIRAGE 82-879 HIGHWAY 111 • INDIO, CALIFORNIA 92201-5678 • (619) 347-8631 INDIAN WELLS ti PALM DESERT %P LA OUINTA '1p IN DIO y� May 6, 1986 City of La Quinta Department of Community Development 78-105 Calle Estado La Quinta, CA 92253 Re: plot Plan 86-287 Gentlemen: The developer of the above referenced lot has mitigated i:ts impacts on our overcrowded schools by payment of the amount of $628 per unit to be applied to the cost of district educational facilities made necessary by such. new development. Sincerely, --� ) ,,, I. n _...'� John D. Brooks Assistant Superintendent Business Services JDB/crm FNFRGY CONSFRVATTON STANDARDS, RFSTDFNTTA1- COMFI-TANCF. MRTFOI.-TO PREPARM-POW Pine n ZreeN"mevelopment ppnJFCT! La Quinta, California PRrPAPFD BY! PAT VFLLFY ELErTpTr. HFATT0f, P ATR CONDTIJONTNG, 87-197 ;TE RA AUFNUF ANDTO. CA 97?n1 (61 9) 317-n?33 TTATF LTC- *3=w SIGNED BY ----------------- CALCULATION RY TfTrF0PA!3- 1.0P.. 12-26473 COMPLIANCE C n E C KL I ST ��� C + �[�� \ V�—OP/��� FORM 2 For Low -Rise Residential Buildings L_6 r/5 (except hotels and motels) X17 (Revised 6/84) Step 1: Enter on the form the values for each measure from your building plan and specifications sheet. Step 2: Enter points on this page while working through the point system Building Shell Measure Points Total Floor Area . . . . . . . . . . . . . . . /I/ Oft 1. Slab -on -Ground; Perimeter /Sv ft., Qepth in. R- 2. Raised Floor R -Value. . . . . . . . . . . . . . . . R- 3. Ceiling Insulation or Construction Assembly . . . . . . R-�_ Attic, Percent of Roof Over Conditioned Space /60 % . . . . . . ,/ifS 6 ft2 4. Wall Insulation or_Construction Assembly. . . . . . . . . ... . R--,//_ Glazing; Total p Floor Area Single Double Triple 5. North -Facing. S ft2f4a ft2 6. East -Facing ft2 �C�ft2 ft 2 7. South -Facing. . . e ft2 o ft2 ft2 8. West -Facing . ft 22 ft 22 ft2 9. Skylight. . . . . ft 2 ft2 ft 2 10. Shadino Coefficient (excluding overhang) a. East . . . . . . . . . . . SC . . . . . . . . . . . . . b. South. . . . . . . . . . . . . SC . . . . . . . . . . . . . c. Nest . . . . . . . . . . . . . SC . . . . . . . . . . . . . d. North` . . . . . . . . . . . . . . SC . . . . . . . . . . . . . e. Skylight . . . . . . . . . .SC . . . . . . . . . . . . . 11. Horizontal South Overhang Length. ft . . . . . . . . . . . . . 12. Movable Insulation, a.Floor Area. a . . . . . . . . . . . 13. infiltration (indicate Standard, Medium o7 fight} 14. Ther -nal Mass Exterior lull Thermal Mass Area, Heat Capacity, R -Valu: . . . . . . . ft2, HC, R - Interior Thermal Plass Area, Heat Capacity, R-VaIU . . . . . . . 30 ft2, HC, R- HVAC Svstem** 15. Gas Furnace without Refrigeration.Cool inG (Seasonal Efficiency) . . . . . . . . . . . . . . . SE 16. Heat Pump (Energy Efficiency Ratio)*** . . . . . . . . . . . . 'EER 17. Gas Furnace witia Refrigere ion: ;:oc,Iing*** Seasonal Efficiency and Sdasor-L: Energy Efficiency Ratic . . . . . . . . . . . . . SE SEEP, 18. Active Solar (Net Solar FrE.r-_ior., A) . . . . . . . . . . . . . %KSF IS. Zonally Controlled Electri: Resistance Sp ce Heating . . . . . . . . . . (-Yes/No) Domestic Water Heating** 20. Solar With Gas Backup (Net Solar Fraction, 4) . . . . . . . . . %NSF 21. Other hater Heating (Describe type) Point System Compliance Total. . . . . . . . . . . . . . . *north shading earns points only in Climate Zones 8, 9, 10, 12, 13, 14 and 15. **Attach documentation, for efficiencies and Net Solar Fraction. ***Heat pumps and refrigeration cooling do not Earn points in Climate Zones 1, 3, 5, 7 and 16. FORM J -1.T (Transparent) Including Calculation Procedures A, B, C, D Copyright by the Air Conditioning Contractors of America Formerly: National Environmental Systems Contractors Association 1228 17th Street N.W. Washington, D.C. 20036 Plan No. Date Calculated by 1983d in U.S.A. WORKSHEET FOR MANUAL J LOAD CALCULATIONS FOR RESIDENTIAL AIR CONDITIONING For: Name /0/Al&_ n/e&-,5�' Pd JCC L .6/9All e -A/ - Address 1-6 T /S- 4 /'9 2— City City and State or Province L-0 Q 4t? /0-/ 7,5 i. o By: Contractor P,�(V 7' 6 i o—oe= LE (2 7'� / C, Address Q':;lt- / 9 2 5'/clg�!-"e '9 4.1 4 - 31/ 7- 5'2-33 City / A/ 17 Z 2-0 / Design Conditions Winter Summer Outside db OF Inside db d OF Outside db OF Inside db _' OF Winter Design Temperature Difference 3 OF Summer Design Temperature Difference 3/ OF Room RH SD 'f76 Daily Range -30 Heating Summary Total Heat Loss for Entire House (Line 15) _ 45- 7 F 2- Btuh Ventilation CFM = P% Winter Design Temperature Difference = 3(, OF. Heat Required for Ventilation Air = 1.1 X CFM X - OF = e% Btuh Design Heating Load Requirement F2- (house) D (Vent) _ / S% 1Btuh Cooling Summary Total Sensible Gain 2, / �i 6 D Btuh (Calculation Procedure D) Design Temperature Swings Total Latent Gain + / 3 gd Btuh (Calculation Procedure D) Normal 3° (Ye ) 4.5° ( ) Total = Sens. + Lat. = 2 Z Btuh Ventilation CFM = "�- 12n c/ p-- AlIr'C Equipment Summary Make Model S'�/ C 0OC7/ Type "o5lP % R&Alt Heating Input (Btuh) Heating Output (Btuh)!Z Z-,57cn Efficiency Sensible Cooling (Btuh) 2E Latent Cooling (Btuh) Total (Btuh) SO COP/EER/SEER/HSPF :2, Cooling CFM / 4� Heating CFM ! d O Space Thermostat Heat ( ) Cool ( ) Heat/Cool ( ) Night Setback (X ) Construction Data Windows U Floor _ Partitions Doors Walls Basement Walls Roof Ground Slab ON C )e-�9d6 Ceiling %P IF 016NOT'WRITE'.IN 8 V ® NOTE: USE CALCULATION PROCEDURE D TO Cy Name of Room RunningFt Exposed Wall- ©Room Dimensions, Ft Directions Room Faces TYPE .EXPOSURECeilingHt; OF M -- =MEN M Gross Expoed - Windows and Glass Doors MInfiltration :Proc. : People @ 300 and Appliances 1200 NOTE: USE CALCULATION PROCEDURE D TO Cy I Name of Room 2 Running Ft Exposed Will 3 Room Dimensions, Ft Entire House 3 4 4 !Ceiling Ht, Ft Directions Room Faces TYPEHTM OF EXPOSURE Cons. No. Area or Length Btuh Htg Clg Area or Lenach Btuh Area 01' Length Btuh ___r__ Htg Clg Area Btuh 11 or Length ! Iltg Cig Vea or Length Btuh Arca or Length L Htg Htg Htg — CIE, Htg Clg 5 �Gross (Exposed a b 2, - lWalls and Partitions c d! V.,indows ;and Glass a b Yo % -3790 iDoors Nindows land Glass Nord 7;,561 10 E &W or NE: & NW tDoors South or SE & SWq4 .8 Other Doors �5 M I{Exposedb 'Walls and c Partitions d O;Ceilings 1 q _.L L — ---------------- b — — -- 1! Floors 9CI b --,,I nfil ,,ration ... Calc. Proc. B Ht-= Total Btuh Loss = 6+8+9+10=11 ".,I! Duct Btuh Loss 15 Total Btuh Loss = 13 4-14 1 .16, People @ 300 and Appliances 1200 3 }_1 Sensible -i Gain= 7 �8+91 10+114-12+ 16 Z 7V)I Duct Btuh Gain %1 177 -A Total Sensible Gain = 17-L 18 NOTE' USF CI�LCM ATIn" PPOC-c"IIPE D T- Calculation Procedures A, B, C, Calculation Procedure A - Summer Infiltration for the Entire House 1. Air Changes Per Hour from Table 5 ............. :......... :............................. - 0,30 AC/HR 2. Volume of Conditioned Space ........................... = Floor Area X Ceiling Height ) Sq. Ft. X ( g ) Ft. Cu. Ft. 3. Total Infiltration = 3Q AC/HR X ( Cu. Ft. X 0.0167 = Sid CFM Calculation Procedure B - Summer Infiltration Htm For Windows & Doors I. Design Temperature Difference = Summer Design - Room Temperature = 3/ OF 2. Total Infiltration from Calculation Procedure A ......................................... = -5-K: CFM 3. Sensible Gain = '1.1'X 3/ ° F X ��� CFM ...... = 7j Btuh 4. Total Area of Windows and Doors (Lines 7 & 8 on J) ............. ......................... = LA -6 Sq. Ft. 5. Htm = i 79 Btuh _ / y6 Sq. Ft . ............ = Btuh/Sq. Ft. Calculation Procedure C - Latent Infiltration Gain For The Entire House 1.. Grains of Moisture Difference from Table 1 .........................................:.. = d gr. 2. Total Infiltration from Calculation Procedure A ......................................... _ S` CFM 3. Total Latent Load = 0.68 X V gr X S CFM = D Btuh Calculation'Procedure D - Equipment Sizing Calculation Mechanical Ventilation = Design Temp. Diff. (No. 1; Calculation Procedure B) Design Grains (No. 1; Calculation Procedure C) _ Desired Temp. Swing ( ) Temp. Swing Multiplier (TSM) _ Vent CFM OF Diff. - gr Sensible Ventilation Load = 1.1 X Vent CFM U X , / OF Diff. Sensible Load for Structure from Line 19 ............................................... . Total Sensible Load .................................. (Structure Load + Ventilation Load) Temperature Swing Multiplier ........... Equipment Sizing Load, Sensible ........ Temp. Swing Multipliers Summer DSN 4'/2 ° 30 85-90 0.85 0.95 95 0.90 1.00 100 0.95 1.00 105 1.00 1.05 110 1.05 1.10 Btuh + 0 Btuh Btuh X (TSM) = Z l Btuh Latent Load for Appliances & People = 230 X 14 No. of People ............... _._ i 3 �� Btuh Latent Ventilation Load = 0.68 X Vent CFM 0 X f2 gr (No. 1 Calc. Procedure C)+ _ D _ Btuh Latent Infiltration Load from Calculation Procedure C ..................................... + Btuh Equipment Sizing Load, Latent .......... Btuh Enter the Equipment Sizing Loads on the Cooling Summary on the Front of the J-1 Form. Page 1 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -SUMMARY ) > > Run -NONE Project -NONE File-CLARENCE M I C R 0 P A S Version 1.0b - 12/26/83 Calculations By: C O M P A N Y N A M E Address City' State Zip Code Telephone PROJECT DATA Run Title ............................... NONE Project Title ........................... NONE Owner's Name PINE TREE DEVELOPMENT Site Location ........................... LOT 15 LA QUINTA C//9 Z Run Type ................................ COMPLIANCE Building Type ........................... SINGLE DESIGN DATA Floor area (sf) ......................... 1440 Glazing area (sf) ....................... 126 Glazing percentage (%) .................. 9% Glazing UA (Btu/hr-F) ................... 81 (157..) Opaque UA (Btu/hr-F) .................... 302 (567.) Infiltration UA (Btu/hr-F) .............. 153 (29%) Total UA (Btu/hr-F) ..................... 536 (100'/.) MECHANICAL SYSTEMS Heating System .......................... HEATPUMP 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 Page 2 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -SUMMARY > > > Run -NONE Project -NONE File-CLARENCE ------------------- PERFORMANCE SUMMARY ----- LOADS ----- ------ CONSUMPTION ------- ANNUAL PEAK FUEL ELECTRIC COST (kBtu) (kBtu/hr) (kBtu) (kWh) ($) -------- -------- -------- -------- -------- BUILDING Heating 3336 12.9 0 122 $9 Cooling -25098 -31.6 3137 $220 Venting 0 $0 Totals 0 3259 $228 ----------------------------------------------------------- ------------------------ ENERGY BUDGET COMPARISON ---- BUDGETS ---- ------ CONSUMPTION ------- SOURCE SOURCE FUEL ELECTRIC TOTAL (kBtu) (kBtu/sf) ($) ($) ($) ---------------------------------------- BUILDING: 1440 sf of Conditioned Floor Area Heating 1250 0.9 $0 $9 $9 Cooling 32094 22.3 $220 $220 Venting 0 0.0 $0 $0 -------- -------- -------- -------- -------- Totals 33344 23.2 $0 $228 $228 ($0.16/sf) CALIF. STANDARDS BUDGET: Single Family Home in Climate Zone 15 Heating 1008 0.7 $4 $0 $4 Cooling 52272 36.3 $358 $358 -------- -------- Totals 53280 37.0 -------- -------- -------- $4 $358 $362 -------------------------------------------------------------------- ($0.25/sf) Fuel Cost = $0.380 per Therm (1 Therm = 100 kBtu) Electricity Cost = $0.070 per kWh 1 kWh x 3 x 3.41 = 1 source kBtu *** All seasons not simulated - Totals are not annual ** Peak season(s) not simulated - Check peak loads Page 1 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -TABLE > > > Run -NONE Project -NONE File-CLARENCE --------------------------------- Season Ambient Conditions for RUN SEASON HORIZRAD AMBIENT WETBULB GROUND WINDVEL WINDDIR ------------ (Btu/sf) -------- (deg. F) -------- (deg. F) -------- (deg. F) -------- (mph) (deg.) -------- WINTER 1136 55 43 53 -------- 2 22 SUMMER 2298 -------- 92 -------- 72 -------- 92 -------- 2 22 ------------ tot/ave ------------------------------------------------------------------ 1717 73 57 73 -------- 2 -------- 22 -------------------------- Season HOUSE Loads for RUN SEASON TEMPER. HEATBTU COOLBTU VENTBTU VENTACH (deg. F) Q Btu) Q Btu) Q Btu) (ac/hr) ---------------------------------------------------- WINTER 72 3336 -1347 0 0.00 SUMMER 80 0 -23751 0 0.00 tot/ave 76 3336 -25098 0 0.00 -------------------------------------------------------- --------------------------------------- Season HOUSE Energy Consumption for RUN SEASON HEATERG COOLERG VENTERG ------------ (kWh) -------- (kWh) -------- (.KWh) WINTER 122 168 -------- 0 SUMMER 0 2969 0 ------------ tot/ave --------------------------------------- -------- 122 -------- 3137 -------- 0 --------------------------------------------------------------------------- Season HOUSE Heat Flows for RUN ---------------------------------------------------------------------------- SEASON INFILBTU INFILACH INTERNAL OPAQCOND OPAQSOLR GLAZCOND GLAZSOLR (kBtu) -------- (ac/hr) (kBtu) Q Btu) (kBtu) Q Btu) (kBtu) ------------ WINTER -3838 -------- 0.74 -------- 5393 -------- -7573 -------- 2223 -------- -2051 -------- 3809 SUMMER 2770 0.74 5393 5466 3077 1480 5561 tot/ave -1068 0.74 10787 -2108 5300 -571 9370 Page 2 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -TABLE > > > Run -NONE Project -NONE File-CLARENCE ------------------------------- Season HOUSE Heat Flows for RUN SEASON SLABTOP (kBtu) WINTER 48 SUMMER 3 tot/ave 51 ------------------------------- Season SLABTOP Mass Conditions for RUN -------------------------------------- SEASON TEMPER. HOUSE (deg. F) Q Btu) WINTER 72 -48 SUMMER 80 -3 tot/ave 76 -51 -------------------------------------- -------------------------------------- Season SLABBOT Mass Conditions for RUN SEASON TEMPER. GROUND (deg. F) (kBtu) WINTER 72 0 SUMMER 80 0 tot/ave 76 0 ------------------------------------------------------------------ Season Temperature Conditions for RUN --------------------------------------------------------=--------- SEASON AMBIENT WETBULB GROUND HOUSE SLABTOP SLABBOT ------------ (deg. F) -------- (deg. F) -------- (deg. F) -------- (deg. F) -------- (deg. F) -------- (deg. F) -------- WINTER 55 43 53 72 72 72 SUMMER 92 72 92 80 80 80 ------------ tot/ave ------------------------------------------------------------------ -------- 73 -------- 57 -------- 73 -------- 76 -------- 76 -------- 76 Page 3 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -TABLE > > > Run -NONE Project -NONE File-CLARENCE ------------------------------------------------------------------------------- ----------------------------------------------------------------------------- ------------------------------------------------------------------------------- PeaK Conditions ------------------------------------------------------------------------------- ----------- MINIMUM ---------- ----------- MAXIMUM ---------- UNITS -------- VALUE HOUR ---- DAY --- SEASON ------------ VALUE -------- HOUR DAY SEASON AMBIENT -------- ---- --- ------------ HORIZRAD (Btu/sf) -30 7 2 WINTER 319 13 1 SUMMER AMBIENT (deg. F) 34 6 5 WINTER 110 18 1 SUMMER WETBULB (deg. F) 32 5 7 WINTER 77 18 4 SUMMER GROUND (deg. F) 53 1 1 WINTER 92 1 1 SUMMER HOUSE TEMPER. (deg. F) 65 5 1 WINTER 80 10 1 WINTER HEATBTU (Btu) 0 1 1 WINTER 12907 6 5 WINTER HEATERG (Wh) 0 1 1 WINTER 473 6 5 WINTER COOLBTU (Btu) -31596 17 5 SUMMER 0 1 1 WINTER COOLERG (Wh) 0 1 1 WINTER 3950 17 5 SUMMER MASSES SLABTOP (deg. F) 67 10 4 WINTER 80 3 2 SUMMER SLABBOT ------- ------- (deg. ----------- F) 67----11---4 WINTER ------------80-----3- 2 ---- SUMMER ------------ Page 1 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -GRAPH > > > Run -NONE Project -NONE File-CLARENCE Zone Temperatures for MINTER Day 7 (hour) TIME OF DAY Symbol Description a AMBIENT 1 HOUSE +-+-------+-------+-------+-------+-------+-------+-+ 90 I I + + I I I 80 I I I I + 1 1 1 1 1 1 1 + I 1 I I 1 1 I 1 I a a a a 1 1 70 + 1 1 + T I a a 1 I E d I 1 1 1 1 1'1 1 1 1 1 1 M e I a I P g 1 a a E r 60 + + R e I a I A e I a I T s I a I U I a I R F 50 + a a + E I I I a I I a I I a s a I 40 + a a + I a a I I I 1 I 30 + + I +--+-------+-------+-------+-------+-------+-------+-+ 0 4 8 12 16 20 24 (hour) TIME OF DAY Symbol Description a AMBIENT 1 HOUSE Page 2 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -GRAPH > > > Run -NONE Project -NONE File-CLARENCE Mass Temperatures for WINTER Day 7 (hour) TIME OF DAY Symbol ------ Description ----------- +-+-------+-------+-------+-------+-------+-------+-+ AMBIENT 90 1 + I I 2 SLABTOP 3 SLABBOT 1 + I I 80 I I + I I + I I 2 2 3 3 3 I 3 1 I 2 2 3 3 3 2 2 3 3 1 1 3 3 2 2 3 3 a a a 2 1 70 + 2 2 3 3 3 2 3 3 + T 1 2 3 3 3 3 3 3 a a I E d I I M e I a I P g 1 a a I E r 60 + + R e I a I A e I a I T s I 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 1 U I a I R F 50 + a a + E I I I a I I a I I a s a I 40 + a a + I I a a I I 30 I I + I I + +-+-------+-------+-------+-------+-------+-------+-+ 0 4 8 12 16 20 24 (hour) TIME OF DAY Symbol ------ Description ----------- a AMBIENT g GROUND 2 SLABTOP 3 SLABBOT Page 3 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -GRAPH > > > Run -NONE Project -NONE File-CLARENCE Zone Temperatures for SUMMER Day 4 (hour) TIME OF DAY Symbol Description ------ ----------- a AMBIENT I HOUSE +-+-------+-------+-------+-------+-------+-------+-+ 1 130 1 + + 1 I I 120 I I I I + + I I I I 110 I I 1 1 + + T I I E d I a a a a I M e I a a I P g 1 I E r 100 + + R e I a a I A e I a a I Ts I a I U I a a 1 R F 90+ a+ E I a s a I I I I a a I I a a I 80 + 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1+ I a I I I I 70 I I I + + I I +-+-------+-------+-------+-------+-------+-------+-+ 0 4 8 12 16 20 24 (hour) TIME OF DAY Symbol Description ------ ----------- a AMBIENT I HOUSE Page 4 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -GRAPH > > > Run -NONE Project -NONE File-CLARENCE Mass Temperatures for SUMMER Day 4 (hour) TIME OF DAY Symbol ------ Description ----------- +-+-------+-------+-------+-------+-------+-------+-+ AMBIENT 130 1 + I 1 2 SLABTOP 3 SLABBOT 1 + I I 120 I I + I I I I + I I 110 I + I I + T I I E d I a a a a 1 M e I a a I P g 1 I E r 100 + + R e I a a I A e I a a I T s I a I U 1 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 1 R F 90 + a + E I 1 a s a I I I a a I I a a I 80 + 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3+ I I I a I I I 70 I + I I + I +-+-------+-------+-------+-------+-------+-------+-+ 0 4 8 12 16 20 24 (hour) TIME OF DAY Symbol ------ Description ----------- a AMBIENT g GROUND 2 SLABTOP 3 SLABBOT Page 1 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -FORMAT > > > Run -NONE Project -NONE File-CLARENCE CONTROL DATA RUN DATA 1> RUN TITLE (25 characters maximum) . ................. -*'NONE 2> PROJECT TITLE (25 characters maximum) : ............. ..... NONE 3> OWNER'S NAME (25 characters maximum) : .............. ..... PINE TREE DEVELOPMENT_ - 4> SITE LOCATION (25 characters maximum) : ............. ..... LOT 15 LA QUINTA C 5> RUN TYPE (COMPLIANCE, DESIGN) : COMPLIANCE 6> BUILDING TYPE (SINGLE, CLUSTER, APARTMENT) : ........ SINGLE SITE AND WEATHER DATA 1> BUILDING LATITUDE (decimal deg.) : ................... 33.5 2> BUILDING ROTATION (deg., O=S, 90=W, -90=E, 180=N) : . 0 3> NUMBER OF WARMUP DAYS (10 maximum) : 3 4> CLIMATE ZONE (compliance runs) . .................... 15 5> WEATHER DATA FILE NAME (CZ12, etc.) : CZ15 6> WIND CORRECTION FACTOR (fraction) : ................. 0.25 7> 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 SIMULATION CONTROL DATA 1> NUMBER OF SIMULATION SEASONS (8 only) ............. 8 2> ROW SEASON SIMU- NAME LATE SEASON --- -----1------ ---2---- 1 WINTER Y 2 WINTER/SPRNG N 3 SPRNG/SUMMER N 4 SUMMER Y 5 SUMMER/FALL N 6 FALL/WINTER N 7 PEAK HEATING N 8 PEAK COOLING N Page 2 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -FORMAT > > > Run -NONE Project -NONE File-CLARENCE I SEASON OUTPUT SPECIFICATIONS 1> COPY OF INPUT DATA (YES/NO) : ....................... Y 2> AMBIENT SUMMARY (YES/NO) . .......................... Y 3> ZONE LOADS (YES/NO) . ............................... Y 4> ZONE HEAT FLOWS (YES/NO) . .......................... Y 5> MASS SUMMARY (YES/NO) . ............................. Y 6> TEMPERATURE SUMMARY (YES/NO) : ...................... Y 7> PEAK CONDITIONS (YES/NO) . .......................... Y I DAILY OUTPUT SPECIFICATIONS 1> ROW SEASON AMB- ZONE ZONE MASS TEMP. NAME IENT LOADS HEAT SUM- SUM - SUM. FLOWS MARY MARY --- -----1------ --2-- --3-- --4-- --5-- --6-- 1 WINTER N N N N N 2 WINTER/SPRNG N N N N N 3 SPRNG/SUMMER N N N N N 4 SUMMER N N N N N 5 SUMMER/FALL N N N N N. 6 FALL/WINTER N N N N N 7 PEAK HEATING N N N N N 8 PEAK COOLING N N N N N I HOURLY OUTPUT SPECIFICATIONS 0 ROW SEASON AMB- ZONE ZONE MASS TEMP. TEMP. NAME IENT LOADS HEAT SUM- SUM- GRAPH SUM. FLOWS MARY MARY --- -----1------ --2-- --3-- --4-- --5-- --6-- --7-- 1 WINTER N N N N N Y 2 WINTER/SPRNG N N N N N N 3 SPRNG/SUMMER N N N N N N 4 SUMMER N N N N N Y 5 SUMMER/FALL N N N N N N 6 FALL/WINTER N N N N N N 7 PEAK HEATING N N N N N N 8 PEAK COOLING N N N N N N ZONE DATA Page 3 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -FORMAT > > > Run -NONE Project -NONE File-CLARENCE I ZONE DATA 1> NUMBER OF ZONES (3 maximum) . ....................... 1 I ZONE #1 1> ZONE NAME (HOUSE, SUNSPACE, etc.) : ................. HOUSE 2> FLOOR AREA (sf) . ...................... ........... 1440 3> VOLUME (cf)........:.............................. 11520 0 ZONE HEAT CAPACITY (Btu/F) . 0 5> INTERNAL GAIN (Btu/day) . 86991 6> INTERNAL GAIN SCHEDULE (INTERNAL, NONE, etc.) : ..... INTERNAL 7> INFILTRATION BASE ACH (ac/hr) : 0.74 B> INFILTRATION TEMPERATURE ACH (ac/hr-F) : ............ 0 9> INFILTRATION WIND ACH (ac/hr-mph) : ................. 0 10> HEAT EXCHANGER SYSTEM NAME (HEATER, NONE, etc.) : .. NONE 11> HEATING SYSTEM NAME (FURNACE; NONE, etc.) ........ HEATPUMP 12> COOLING SYSTEM NAME (HEATPUMP, NONE, etc.) ....... HEATPUMP 13> VENTILATION SYSTEM NAME (NATURAL, NONE) : .......... NATURAL 10 HEATING THERMOSTAT NAME (HEATCNST, HEATSETB,etc.): . HEATSETB 15> COOLING THERMOSTAT NAME (COOLCNST, COOLSETB,etc.): . COOLSETB OPAQUE SURFACE DATA - I OPAQUE SURFACES BETWEEN ZONE AND AMBIENT 1> NUMBER OF SURFACES (20 maximum) : ................... 8 2> ROW OPAQUE AREA U -VALUE AZIMUTH TILT ABSORP- ZONE SURFACE (sf) (Btu/sf (deg.) (deg.) TIVITY NAME NAME -F) (FRAC.) --- --- I ---- ---2---- ---3---- ---4---- ---5---- ---6---- ---7---- I SWALL 278 0.094 0 90 0.5 HOUSE 2 WWALL 272 0.094 90 90 0.5 HOUSE 3 NWALL 244 0.094 180 90 0.5 HOUSE 4 EWALL 276 0.094 -90 90 0.5 HOUSE 5 ROOF 1440 0.035 0 0 0.5 HOUSE 6 FLOOR 0 0.105 0 0 0 HOUSE 7 DOOR 20 0.33 0 90 0.5 HOUSE 8 SLABEDGE 132 1.1 0 0 0 HOUSE Page 4 C < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -FORMAT Run -NONE Project -NONE File-CLARENCE I GLAZING SURFACE DATA I GLAZED SURFACES BETWEEN ZONE AND AMBIENT 1> NUMBER OF SURFACES (20 maximum) : ................... 5 2> ROW GLAZING AREA U-VAL. AZIMU. TILT GLAZ- ZONE TREAT - TRAN. SURFACE (sf) (Btu/ (deg.) (deg.) INGS NAME MENT NAME NAME FACT. sf-F) --- ---1---- --2-- --3-- NAME --- ---1---- --2--- --3--- --4--- --5--- --6--- ---7---- ---8---- 1 SGLASS 10 0.65 0 90 2 HOUSE CURTAIN 2 WGLASS 48 0.65 90 90 2 HOUSE CURTAIN 3 NGLASS 44 0.65 180 90 2 HOUSE CURTAIN 4 EGLASS 24 0.65 -90 90 2 HOUSE CURTAIN 5 SKYLITE 0 0.65 0 0 2 HOUSE NONE I GLAZING TREATMENTS 1> NUMBER OF TREATMENTS (10 maximum) : ................. 4 2> ROW TREAT- GLAZ.•OVER- OVER- HEAT. COOL. SHADING SHUT. SHUT. SHUTTER I ABSORBED INSOLATION FRACTIONS 1> NUMBER OF FRACTIONS (20 maximum) : .................. 0 INTER -ZONE DATA I VENTILATION BETWEEN ZONES 0 NUMBER OF INTER -ZONE VENT SYSTEMS (3 maximum) : ..... 0 I INTERIOR SURFACES BETWEEN ZONES 1> NUMBER OF SURFACES (20 maximum) : 0 MENT HEI- HANG HANG SHAD. SHAD. SCHED. U-VAL TRAN. SCHED. NAME GHT LENG. HIGH. FACT. FACT. NAME -UE FACT. NAME --- ---1---- --2-- --3-- --4-- --5-- --6-- ---7---- --8--.--9-- ---10--- I OVERHANG 5 3 0.5 0.9 0.68 NONE 0 0 NONE 2 OVERHANG 5 3 0.5 0.9 0.68 NONE 0 0 NONE 3 OVERHANG 5 3 0.5 0.9 0.68 NONE 0 0 NONE 4 OVERHANG 5 3 0.5 0.9 0.68 NONE 0.2 0 SHUTTER I ABSORBED INSOLATION FRACTIONS 1> NUMBER OF FRACTIONS (20 maximum) : .................. 0 INTER -ZONE DATA I VENTILATION BETWEEN ZONES 0 NUMBER OF INTER -ZONE VENT SYSTEMS (3 maximum) : ..... 0 I INTERIOR SURFACES BETWEEN ZONES 1> NUMBER OF SURFACES (20 maximum) : 0 Page 5 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -FORMAT > > > Run -NONE Project -NONE File-CLARENCE - ------------------------------------------------------------------------------- ------------------------------------------------------------------------------- MASS DATA 1> NUMBER OF MASSES (5 maximum) . ...................... 1 MASS #1 1> MASS NAME (SLAB, MASSWALL, WATER, etc.) : .......... SLAB 2> TYPE (NODAL, ISOTHERM) . ............................ NODAL 3> SURFACE AREA (sf)................................. 340 0 THICKNESS (inches) ................................ 4 5> VOLUMETRIC HEAT CAPACITY (Btu/cf-F) : ............... 28 6> CONDUCTIVITY (Btu-ft/hr-sf-F) : ..................... 1 7> SIDE #1 MASS SURFACE NAME (SLABTOP, etc.) : ......... SLABTOP 8> SIDE #1 AIR FILM CONDUCTANCE (Btu/hr-sf-F) : ........ 1.3 9> SIDE #1 ZONE NAME (HOUSE, AMBIENT, etc.) : .......... HOUSE 10> SIDE #2 MASS SURFACE NAME (SLABBOT, etc.) : ........ SLABBOT 11> SIDE #2 AIR FILM CONDUCTANCE (Btu/hr-sf-F) : ....... 0 12> SIDE #2 ZONE NAME (HOUSE, AMBIENT, etc.) : ......... GROUND I SYSTEMS DATA I ENERGY COSTS 1> FUEL COST (dollars/therm) . ......................... 0.38 2> ELECTRICITY COST (dollars/KWh) : .................... 0.07 AIR-TO-AIR HEAT EXCHANGER SYSTEMS 1> NUMBER OF HEAT EXCHANGER SYSTEMS (3 maximum) : ...... 0 HEATING SYSTEMS 1> NUMBER OF HEATING SYSTEMS (3 maximum) : ............. 1 2> ROW HEATING HEATING SEASONAL RATED DUCT SYSTEM FUEL EFFIC- CAPACITY LOSS NAME NAME IENCY (Btu/hr) FRACTION --- ---1---- ---2---- ---3---- ---4---- ---5---- 1 HEATPUMP ELECTRIC 8 200000 0 Page 6 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -FORMAT > > ) Run -NONE Project -NONE File-CLARENCE I COOLING SYSTEMS 1> NUMBER OF COOLING SYSTEMS (3 maximum) .6........... 1 2> ROW COOLING SEASONAL COOLING LATENT DUCT SYSTEM EER CAPACITY LOAD GAIN NAME (Btu/Wh) (Btu/hr) FRACTION FRACTION --- ---1---- ---2---- ---3---- ---4---- ---5---- 1 HEATPUMP 8 200000 0 0 I VENTILATION SYSTEMS 1> NUMBER OF VENTILATION SYSTEMS (6 maximum) : ......... 1 2> ROW VENT. FAN FAN TEMP. INLET OUTLET HIGH. INLET STACK WIND SYSTEM FLOW POWER DIFF. AREA AREA DIFF. AZIMUTH EFFIC- EFFIC- NAME (cfm) W/cfm (F) (sf) (sf) (ft) (deg.) IENCY IENCY --- --- I ---- --2-- --3-- --4-- --5-- --6--- --7-- ---8--- --9--- --10-- I NATURAL 0 0 0 0 0 2 0 1 1 THERMOSTAT SYSTEMS 0 NUMBER OF THERMOSTAT SYSTEMS (6 maximum) : .......... 2 2> ROW THERMO- MINIMUM MAXIMUM DESIRED MIN. MAX. DESIRED HOURLY STAT TEMP. TEMP. TEMP. SET- SET- SET- SCHEDULE NAME (F) (F) (F) BACK BACK BACK(F) NAME --- ---1---- ---2--- ---3--- ---4--- --5-- --6-- ---7--- ---8---- 1 HEATSETB 65 80 70 0 0 0 NONE 2 COOLSETB 65 80 78 0 0 0 NONE SCHEDULE DATA I HOURLY SCHEDULES 1> NUMBER OF HOURLY SCHEDULES (5 maximum) : ............ 3 I HOURLY SCHEDULE ##1 1> HOURLY SCHEDULE NAME (INTERNAL, SETBACK : ........... INTERNAL 2) HEATING HOURLY SCHEDULE DATA (fraction) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0.026 7. 0.038 8. 0.059 9. 0.056 10. 0:060 11. 0.059 12. 0.046 13. 0.045 14. 0.030 15. 0.028 16. 0.031 17. 0.057 18. 0.064 1'9. 0.064 20. 0.052 21. 0.050 22. 0.055 23. 0.044 24. 0.027 3> COOLING HOURLY SCHEDULE DATA (fraction) 1. 0.024 2. 0.022 3. 0.021 4. 0.021 5. 0.021 6. 0.026 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 Page 7 < < < MICROPAS Date -04/02/86 User -KELLEY ELECTRIC Program -FORMAT > > > Run -NONE Project -NONE File-CLARENCE ------------------------------------------------------------------------------- -------------------------------------------------------------------------------- HOURLY SCHEDULE #2 1> HOURLY SCHEDULE NAME (INTERNAL, SETBACK : ........... SETBACK 2) HEATING HOURLY SCHEDULE DATA (fraction) 1. 0 2. 0 3. 0 4. 0 5. 0 6. 0 7. 1 B. 1 9. 1 10. 1 11. 1 12. 1 13. 1 14. 1 15. 1 16. 1 17. 1 18. 1 19. 1 20. 1 21. 1 22. 1 23. 1 24. 0 3> COOLING HOURLY SCHEDULE DATA (fraction) 1. 0 2. 0 3. 0 4. 0 5. 0 6. 0 7. 1 B. 1 9. 1 10. 1 11. 1 12. 1 13. 1 14. 1 15. 1 16. 1 17. 1 18. 1 19. 1 20. 1 21. 1 22. 1 23. 1 24. 0 I HOURLY SCHEDULE #3 1> HOURLY SCHEDULE NAME (INTERNAL, SETBACK : ........... SHUTTER 2> HEATING HOURLY SCHEDULE DATA (fraction) I. 0 2. 0 3. 0 4. 0 5. 0 6. 0 7. 1 8. 1 9. 1 10. 1 11. 1 12. 1 13. 1 14. 1 15. 1 16. 1 17. 1 18. 1 19. 1 20. 1 21. 0 22. 0 23. 0 24. 0 3> COOLING HOURLY SCHEDULE DATA (fraction) 1. 1 2. 1 3. 1 4. 1 5. 1 6. 1 7. 0 8. 0 9. 0 10. 0 11. 0 12. 0 13. 0 14. 0 15. 0 16. 0 17. 0 18. 0 19. 0 20. 0 21. 1 22. 1 23. 1 24. 1 ••t:� : it:J 91, Page 1 of 3 MANDATORY MEASURES CHECKLIST' All new residential buildings subject to these standards mtist.contain the following measures regardless of the compliance approach used. I I PLAN I FIELD I :PTION )DESIGNER I CHECK IINSPECTIONI COMMENTS NOT NOT _ory Features and Devices I I OK )OK I OK ) OK i •I :2(a), I I 1 1 I I mum ceiling insulation weighted average I 2(b) I I I I I I e fill insulation I I ( I I :facturer's labeled R -value I I I I I §2-5�..2(c) I I I I I I Minimum wall insulation in framed walls R-11 weighted average (does not apply to exterior mass walls) §2-5352(d) Infiltration control 1. Doors and windows weather- ) I ) stripped 2. All joints and penetrations I I I I I caulked and sealed 3. Doors and windows certified 4. Exhaust systems have damper I I I I controls I 5. Masonry and factory -built I l I I fireplaces have I I I I I l a. Tight fitting, closeablel ) I I ) ) metal or glass door I I I l I I b. Outside air intake with damper and controlI i I i I c. Flue damper and control No continuous burning gas pil'ot allowed I I I I I §2 -5352(e) - Vapor barriers in Climate Zones I I I I I 14 and 16 only §2-5352(f) I I I I Ducts constructed, installed and ) ) I ( I I insulated per Chapter 10, 1976 UMCI i I I I I I §2-5352(g) Space conditioning equipment I I I I I sizingattachheating and cooling I I I I calculations I I I I I I I I I I I Appendix D D-3 C-4 3 RE CM Faze 2 of 3 MA2\DATORT Y_AS'.'RES C_:�=CY._LIST PLAN I FIELD DESCRIPTION DESIGT�-ER { aiECl: I INSPECIIONI CO -21E QTS soil NOT §2-5352(h) I I OF: 1OK I OK I OK I Setback thermostat on all heating { I 1 or cooling systems. i I l §2-5352(1) 1 I I I I I Water heater insulation blanket I I I I I I (R-12 or greater); first S feet ofI { { 1 I I pipes closest to tank insulated I 1 1 I 1 (P,-3 or .greater) I I I I I I §2-5352(j) I I I I I I Pipe insulation on steam and steam -condensate return and re- I I I I ) I circulating piping I I I { ( 1 ` I I §2-5352(k) f I I I 1 I Swin'`•i-ng pool heating { { { { { { 1. System has E. On!off s -.;-Itch on h.ea_er.1 b. WEat}:erp-roof plate on I I I I I I Er I I I I ! c- F u c to ali0v for I { I I I { sC_1Er 1 1 1 I I I 2. %_' i,c?CEilt tlh&r':.al efficiencyl I ( 1 I for fas hEa'er 3. oc:I C.C' e- 4. ..: C]CjC1*1 .�i. r`; `ci.::; :. F...�� �•aEr i?11Et Gzs ... ._ _ :_r=)anc�-s e_u_ppe= i v. t1. - . ent iEn:.. _.n der;.e I I 1 Lighi -1` _-.Ens."wat. or grezzer f 0r z Lni:7 E_ 're of j In i'.i tC}lE=S anC C2-`3J2't,� Slat E: C ter:at - o.:- e tior.. e 71 treater L': 0. r; FotE: V6DCrr t; arS-.1 SE=Q:: r greater than 2.0 per,.!Jnch Appendix D D-4 C-43 RECM I 1 ( abs: rp- I I I O.Th' , ate no I I s V-71 61-ri. MANDATORY MEASURES CHECKLIST PLAN FIELD 'CRIPTION QE.5ILG 61ECK IINSPECTIONI COMMENTS INOT I NOT I I OK (OK I OK I OK I Uipment Efficiency -5306 and 2-5307 ;VAC equipment water heaters and -bower heads and -faucets certifiedi -,y the California Energy (CEC). :ommission.(CEC). Indicate make .nd model. number. ;ulation*Quality §2-5303 to 2-5305 Insulation specified or installed meets CEC quality standards. Indicate type and. form. C-43 RT,7,CY, Page 3 of Forms A—Z-17 T28ZAI T882Q, TSE82A CHR ONOTHERM CLOCK THERNIOSTRTS FOR COMPLETELY AUTOMATIC NIGHT S ETBACK-MORNING PICKUP TEMPERATURE CONTROL OF A HEAT. ING SYSTEM OR AUTO- MATIC DAY SETUP FOR COOLING SYSTEMS. Adjustable program auto- matically lowers and raises temperature control point for one period in every 24 hours. Pickup and setback times need only be set once for continuous operation of the systern. Thermostat and concealed wallplate mount on wall o: horizontal outlet box 0611 Subbase can be .added to T662A to provide system, and fan switching for heating -cooling control. AT75A, AT62A or R7305A,B power supplies only may be used to power the electric clock. Temp Setting Range: 54 to 86 F (12 to 30 C1 . Timer L.in. Period on HI Setting: 5.1/2 hours. Timer M,in. Period on LO Setting: 4-1;'2 hours. Approx. Dimen- s ons: 3 3'8 in. 185.6 mm1 high, 6.1/16 in. 1154 mm? v,iji-. 2-1,8 in. (54 mm; deep. ELECTRICAL RATINGS. -1 262A i:nd T 682A (5060 Hz): C.r'FLICATION 1 RLINNING INRUSH I ;, am::' 3.5 nmr !.: !Tc Z29 i.; amp 7.5 b -t; C ciz,. :;.-„'c' consumption: 1.66 waits HEAT ANTICIPATORS: . T262A-no-,aolustaole voltage type hea; aniicloato• raved at 25 voits. T8E2A-heat anticipator adjustable 0.1 to 1.2 amp: nonadjustable cooling anticipator is rated at nominal 29 vo':ts. TS882A-nonadjust6ble heat anticipator rated at 0.1 amp. ACCESSORIES: 0611 Subbase lar system and fan sv:i:chinc. Not for use with R7305A Cnronotherm Pov:er Supply (switching subbase is furnished with R7305A). R7305A Cnronotherm Power Supply --:for replacement of existing lova voltage thermostat with Chronotherm Ciock Thermostat and utilizinG the existing 2 vvires. R7305B Cnronotherm Power Supply -tor rep;acement of existing line voltage thermostat with Chronotherm C'iock Thermostat and utilizing existing 2 wires. 130621A %4ouniing Plate Assembly -for moun:Ir.g on vertical outlet bcx or for covering marks from, old thermostat. 1306216 for mounting on hor,zontal dude: box or for covering ma; ks from old thermostat. AT62A1024 Piuo-in Clock Transformer for powering clock in heating -only or heating -cooling application. 104994A Calibration Wrench. AT75A I D36 REPLACEMENT PARTS: 12998"A Clock Mo?or (for 60 Hz), 122802A Cover Assemb,y, Tnermc:?a: Guaras. See Therrnosta: Guards s-ctlon, pa, 23 1 . al:,ih pos Live OF F. �Ranoe. 4;; t; 7G F 17 to 24 C`. C meiugec:.voh TRACE LINE models. pc - sw..�......,.......+..r.,w............... �-....a�w..osa-.-.o.aau • ..+...-..tea - s .v ..�wR,.:.,-..�.......... .....,�..,,.,,.,i..s.....�.��. �......_....:.-.cam.. f: • is i. s �• fj� --........v,...a,...w.w�..........,...o..o.. v . r -- HEA1 APPLICATION INCL '•=_ USE WITH ...—.— 24 V, r.,_—. •. .T-_ ... for - 1 hent nc. (S!,, es 2i :,•: - -- —,. 2 -wire. iov, volta , ; G.1 tc• ' --- --- - -� AT75A Clock Transforme, n• A,7E.2A1G24 heminc onil v: i ami,;.. i:... - 1 _ -,r• tnr Po-tn ClockTransSormo..: W hectrnc-coohn; :. r., statv;allplateo•AT75A::•7C;4,10?4 4 i tysihmF (us. ;:: - for ana 0611 Subbase lnea;-cc•: to Plc- : 06t tA,S! n -i,;r, viae automatic contro: _ �d R7dQc or 6 Pot. c. c.... and only), to prr, arc• Power Supoly and 7E_r ?04o I. S;:c. f SubLese (heat -cool) to ekirnm : nee I to: 2 extra vases for clow: TSEL.- ',G10� 750 millivolt haat•: C.1 ami. S:" -s- 7,7^=':':T,e: i to, mgry•s+ems I i ,an:,d,. ; i pc•v.c• �• : .._ sscuGr: . al:,ih pos Live OF F. �Ranoe. 4;; t; 7G F 17 to 24 C`. C meiugec:.voh TRACE LINE models. pc - sw..�......,.......+..r.,w............... �-....a�w..osa-.-.o.aau • ..+...-..tea - s .v ..�wR,.:.,-..�.......... .....,�..,,.,,.,i..s.....�.��. �......_....:.-.cam.. f: • is i. s �• fj� --........v,...a,...w.w�..........,...o..o.. v . r -- � i:�i•#3s'd+r�- ht • . qw/,.4i �ry te..e+�t�wtl7't +mow M Y J N SYSTAirConditioningSM Lt. VsO.•r?DY`Gp� E� -�-;L • ' ;`HEA'T�PUMP UNITS�.;� �� �` ' `: " Sizes`01&thru060 Indianapolis. IN y�;•'• `r* ..L,,'rx� ,t r,49 i �,, ~''�'t�`' yat�, "-� r�`grf ..''r 1°.�.�i ..+4J� e+"v3.Ft�+r {s°�+yi f r 7,r�1[N c "eF" 'R^ i' a r-Jv.-�k,. .n.i •.�-1't« ,,��*F 1p City oflntluslry.CA .�es.�+�.. �'i� `Thi.::..�.��s�`".fv'YXh`'1�`�..- ''c.,��alr'���tiy ,r%�lF .. '•a' t'.r' . Model 541 CO24 with 301392-701 optional mounting base The 541 C Outdoor Sections of split -system heat pumps are designed for quiet, reliable heating during the winter and cooling during the summer. These heat pump systems provide economy of operation through energy conservation. They recover heat for indoor comfort from outdoor air during the heating season and, by automatically reversing the refrigerant system, remove indoor heat and excess humidity during the cooling season. All models are ARI certified. The cooling seasonal energy -efficiency ratio (SEER) and heating seasonal performance factor (HSPF) are sufficient to meet all known state requirements. FEATURES COMPRESSOR—Designed specifically for heat pump duty, with high energy efficiency during heating and cooling operation. Each compressor is hermetically sealed against contamination to assure long life and dependable performance. They are internally sprung and externally mounted on rubber isolators for quiet operation. Continuous compressor operation is approved down to —40° F in the heating mode, and down to 55°F in the cooling mode. (See heating and cooling performance tables.) All models include a discharge -tube muffler to prevent sound transmission of the com- pressor pulsations to the indoors or outdoors. BUILT-IN RELIABILITY COMPONENTS—Include a suction -tube accumulator that keeps liquid refrigerant from reaching the com- pressor; a low-pressure switch that stops the compressor if refrigerant charge is lost; a crankcase heater to keep the com- pressor oil warm and free of refrigerant for maximum lubricity; a compressor relief valve for high-pressure protection; and com- pressor quick -start components to assure reliable operation of the units during brownout conditions and low outdoor temperatures. WEATHER -PROTECTIVE CABINET—The low -profile design of the 541 C units, with the pleasing malibu beige and jade exterior, blends in well with plants and shrubbery. Galvanized steel, coated with a layer of zinc phosphate to which a coat of aklyd melamine enamel is applied and baked on, is used throughout. This provides a hard, smooth finish that lasts for many years. All screws in the cabinet exterior are stainless steel for a durable, rust -resistant, quality appearance. PDS No. 541 C.18.4D SPECIFICATIONS MODEL 541CB042 & 541CK042 SERIES PERFORMANCEDATA A ARI Noise Rating Number* 8.2 5068 042 048 060 - - - - - - - - - - - - - - 5070 or 518A - - - 042 048 060 - - - - - - - - - - - 517E - - - - - - 042 048 060 - - - - - - - - 518A04215208042 - - - - - - - - - 042 - - - - - - - 518AO4815208042 - - - - - - - - - - 048 - - - - - - 518AO60/5208042 - - - - - - - - - - - 060 - - - - - 519B, 519C, or 5108 - - - - - - - - - - - - 042 - - - - 5198042/5208042 - - - - - - - - - - - - - 042 - - - 519C042/52OB042 - - - - - - - - - - - - - - 042 - - 519806015208042 - - - - - - - - - - - - - - - 060 - 519CO60/52OB042 - - - - - - - - - - - - - - - - 060 Rated Heating Capacity-47°Ft 42,000 42,500 42,500 42,500 43,000 43,500 44,000 44,500 45,000 42,500 43,500 44,000 42,000 42,500 42,500 44,000 44,000 HSPF 6.00 6.15 6.20 6.10 6.30 6.35 6.15 6.25 6.35 6.00 6.20 6.25 6.15 6.05 6.05 6.20 6.20 Rat -ed Cooling Capacity Btuht 40,000 40,500 41,000 39,500 41,000 42,000 40,000 41,000 42,000 39,000 40,000 41,000 40,000 40,000 40,000 41,500 41,500 SEER 7.85 7.90 ELECTRICAL 7.95 7.80 7.95 B.DS 7.75 7.80 7.80 7.55 7.75 7.85 7.90 7.70 7.70 7.80 7.80 Model 541C8042 541CK042 Unit -Hertz -Phase 230-60-1 208.230-60-3 Operating Voltage Range 207-253 197-253 Unit Ampacity for Wire Sizing 28.5 20.5 Min Wire Size (60° Copper) (AWG)# 10 10 Max Branch Circuit Fuse Size (Amps)tt 45 30 Total Unit Amps 23.2 16.8 Compressor Rated Load Amps 21.2 14.8 Locked Rotor Amps 94.0 80.0 Fan Motor 113 HP, PSC Full Load Amps COMPRESSOR 2.0 Compressor Hermetic Refrigerant Charge -Type & Amount** OUTDOOR COIL R•22 & 9 lbs -4 oz Coil Face Area (Sq Ft) 11.4 Rows & Fins Per Inch 2 & 20 Fan Diameter & No. of Blades 22 & 4 Rated Airflow, (Ft /Min)t OPTIONAL EQUIPMENT 2700 Unit Mounting Base 301392.702 Room Thermostat w/Auto. Changeover, Emergency Heat Switch, and Indicator Light P271.3453 Room Thermostat w/Manual Changeover Switch, Emergency Heat Switch, and Indicator Light P271-3454 Room Thermostat w/Manual Changeover Switch (No Emergency Switch) P271.3773 ENERGY MINDER° 941A High -Pressure Switch 301619.701 Outdoor Temperature Compensation Kit 306342.701 Efficiency Alarm 304964.702 2 -Way Flow Filter -Drier -Liquid Tube 301399.701 Filter -Drier -Vapor Tube 54871 D14 Outdoor Thermostat and Mtg Bracket 301380.703 COMPROTEC° 301600.701 1. Swivel Ells-Liquid/Vapor Tubes IBN1616R/IBN2424R. *Rated in accordance with ARI Standard 370-82. TRated in accordance with ARI Standard 240-81. Some combinations require a CHECK-FLO-RATER piston change to obtain rated capacities. See CHECK-FLO-RATER piston chart for requirements. $If other than 60°C copper wire is used, size can be determined from unit ampacity given in above table and applicable table of National Electric Code. Wire size selected must have current capacity not less than that of copper wire specified and must not create a voltage drop between serv- ice panel and unit in excess of 2% of unit rated voltage. **The factory refrigerant charge is sufficient for systems requiring up to 30 ft of interconnecting tubing. For tubing lengths other than 30 It, see Installation Instructions for additional refrigerant requirements. t tSingle-phase units may use fuses or HACR-type circuit breakers of same size as noted. 1) r.�,..:r-, i:::ec:-: :..,...-.�.: ;v >••...ti-:•:��: :r r, r'a.-r�zr.:rov'•et:.,�y.,r.::a.•.:re:�tt':n�c:�ry�°n's:,.: •.,: ..�„v••+n'. �'<�,, C zi:. � �"i.` 'a, .��'. •s -.p,• i•r{:%•y't S 1d.+r���. �"i�.� i-'v�;�`"r. � 5� t..• ;?an":� .•x..:11=:.r. _. ,+�y,":.1�..1''F .: l7.r,�;` '97tu' ^•�. �....„j .c�7 �t' . w1'1(• r:, rl.. # n• l •:+ Y-�.•c.. .r,'if, �: 1 k. �•;aQ ti`, r JJ :l' +' V.: •rt..,r:�,\lN:�c r r.,.c,•. �.}�`J yi �.'•,J'.S.'Y ��a'.�' �;�a\:. 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