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002100 (SFD)4 ;� P.O. BOX 1504 No_ 'Building 78-105 CALLE ESTADO 002100 Address 7R-17 � f'tIrtnm- LA QUINTA, CALIFORNIA 92253 Owner ir. Mailing BUILDING: TYPE CONST. �`� OCC. GRP. Address 1482 EkVW V VW A.P. Number. CityZip Tel. 95401 (707 5?�,, ,�5 Legal Description Z: Contractor Project Description 44r ± family &W-ti.iliff . €�t�r'e ttas�rrsi �I Address 81-741 G&Uhad lam City Zip • Tel. - Teh+>,fGr_� State . City 1745 & Classif. '1 r' Lic. #� ry t Sq. Ft. No. No. Dw. Arch., Engr., f Sized Stories Units Designer New p Add ❑ Alter ❑ Repair ❑ Demolition ❑ Address Tel. Rl 1,1-ixi_ ff_at (6_ft iAn% City Zip State Lic. # 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 Estimated ValUatlOn I hereby affirm that I am exempt from the Contractor's License Law for the following reason: (Sec. 7031.5, Business 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 - AMOUNT requires the applicant for such permit to file a signed statement that he is licensed pursuant to PERMIT' ' +- the provisions of the Contractor's License Law, Chapter 9 (commencing with Section 7000) of c Division 3 of the Business and Professions Code, or that. he is exempt therefrom, and the basis e for the alleged exemption. Any violation of Section 7031.5 by 'any applicant for a permit Plan Chk. Dep. 2501.00 subjects the applicant to a civil 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 - Plan Chk. Bal.. "57 do the work, a,x and the structure not intended or offered for sale. (Sec. 7044, Buisness and- C011St.»'�.'x^ Professions Code: 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 O r improvement is sold within one year or completion, the owner -builder will. have the burden Electrical of proving that he did not build or improve for the purpose of sale.) ❑ I, as owner of the property, am exclusively contracting with licensed contractors to con Plumbing l struct the project. (Sec. 7044, Business and Professions Code: The Contractor's License'Law .�e, does not apply to an owner of property who builds or improves thereon, and who contracts for - S.M.I. '{t _27 Rf�an�aC i such projects with a contractor(s) licensed pursuant to the Contractor's License Law.) - Grading in_nn O. 1 am exempt under Sec. B. & P.C. for this reason 7 lei Driveway Enc. 20.00 Date _Z» f l'" Owner A fi+* +?t.�A IJ 1, Wk Infrastructure 1.501.29 WORKERS' COMPENSATION DECLARATION I hereby affirm that I have a certificate of consent to self -insure; or a certificate of Worker's Compensation Insurance, or a certified copy thereof. (Sec. 3800, Labor Code.) Policy No. Company 2.7i _01=2.460.01 � 46�w 01 ❑Copy is filed with the city. ❑Certified copy is hereby furnished. w TOTAL CERTIFICATE OF EXEMPTION FROM REMARKS ` 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 - employ any person in any manner so as to•become subject to the Workers' Compensation Laws of California. Date Owner NOTICE TO APPLICANT: If, after 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's 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 it work thereunder is suspended for 180 days. (y I certify that I have read this application and state that' the above information is correct. Issued by: -Date 3�--ft Permit 1 agree to comply with all city and county ordinances and state laws relating to building construction, and hereby authorize representatives sof this city to enter the above- mentioned property for inspection purposes. { Validated by: Signature of applicant 01r.R IA Date Mailing Address t .a^a **�t�"1£.z-1�7 cv+``� Validation: City, State, Zip �'. * r• ^ 4 A 4 7 0 5 3 11 `1460,01 Sl HARD COPY CONSTRUCTION ESTIMATE NO. ELECTRICAL FEES NO. PLUMBING FEES 1ST FL. SO. FT. ® $ UNITS SLAB GRADE OUGH PLUMB. 8 BONDING YARD SPKLR SYSTEM 2ND FL. SO. FT. FORMS 1049!5SEWER OR SEPTI ROUGH WIRING MOBILEHOME SVC. BAR SINK POR. SO. FT. ® GAS (ROUGH) METER LOOP GAR. SO. FT. ® POWER OUTLET ROOF DRAINS If&&AS (FINAL) / /� �' ( TEMP. POLE DRAINAGE PIPING CAR P. S0. FT. GROUT WATER HEATER WALL SO. FT. FINAL INSP. DRINKING FOUNTAIN SO. FT. ® WATER SYSTEM URINAL ESTIMATED CONSTRUCTION VALUATION $ _$ WATER PIPING NOTE: Not to be used as property tax valuation IU`FRAMING ll FLOOR DRAIN MECHANICAL FEES WATER SOFTENER VENT SYSTEM FAN EVAP.COOL HOOD SIGN WASHER(AUTO)(DISH) APPLIANCE DRYER GARBAGE DISPOSAL FURNACE UNIT WALL FLOOR SUSPENDED FIRE ZONE ROOFING LAUNDRY TRAY AIR HANDLING UNIT CFM FIREPLACE 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 M H (001L SO. FT. ® c WATER HEATER MAX. HEATER OUTPUT, B.T.U. SO. FT. RESID ® 11/4 c SEWAGE DISPOSAL SO.FT.GAR ® 3/ac 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 SETBACK Gj ROUND PLUMBING 4 -?a UNDERGROUND A.C. UNIT COLL. AREA SLAB GRADE OUGH PLUMB. 8 BONDING HEATING (ROUGH) STORAGE TANK FORMS 1049!5SEWER OR SEPTI ROUGH WIRING DUCT WORK ROCK STORAGE Dr �J FOUND. REINF. / GAS (ROUGH) METER LOOP HEATING (FINAL) OTHER APP./EQUIP. REINF. STEEL If&&AS (FINAL) / /� �' ( TEMP. POLE GROUT WATER HEATER SERVICE FINAL INSP. BOND BEAM WATER SYSTEM GRADING cu. yd. $ plus x$ _$ LUMBER GR.c FINAL INSP. 2 IU`FRAMING ll FINAL INSP. ROOFING 7 VENTILATION REMARKS: FIRE ZONE ROOFING FIREPLACE SPARK ARRESTOR GAR. FIREWALL LATHING M H (001L 01y®I SOLATION/SOUND a� FINISH GRADING FINAL INSPECTION CERT. OCC. FENCE FINAL INSPECTOR'S SIGNATURES/INITIALS. GARDEN WALL FINAL al Z 0 U W N U Z _O I— U W N -765-l0.--00� COUNTY OF RIVERSIDE, DEPARTMENT OF HEALTH PERMIT APPLICATION FOR A SUBSURFACE DISPOSAL SYSTEM Applicant: Submit this form with three copies of a scaled plot plan drawn to county specifications required on the attached check list. A non refundable filing fee of -$15 is required when the application is submitted. Check must be made payable to County of Riverside. Name GU�TtS w CFC(La LOSE?, Mailing Address 14$Z So owl U 1V) VA11 City SANTA- CzoSR State 6A LIF, Zip Code a 15,Z+ o I Phone 1-107-5-76- 1145 'Property Address < Ott � E �� ,� City.o.(Gommupitty, �-A Q V 1 NTA 'Legal Description of Property Lot, Parcel Map, Tract) LOT 3 � 8�.1� ., SI5 PT ,t4` E;, IZACT Uk) IT � l "Assessors Parcel No. Water Serving Property From Lot "size 160,-x (Sa 14 UV , l l` ! x :30 — g Signature of Applicant Date 'The above information must be verified from Building Application Staff Use — Do Not Write Below This Line Initial /� Date / WQCB Clearance required Yes .❑ No © A J ---3-0 0 4 Soils feasibility report required Yes ❑ No 1,rh_, F Detailed boring report required Yes ❑ No 1h Detailed contour plot required Yes ❑ No Comments: Soils or boring report by Date Approved by Date � �`r Soils Map Page ` ` Soil Type Tract File�Other Number of Bedrooms U 3 Septic Tank Size (gallons) hevf / Rate Required Type of System N© Addition ReplacOement � ��_/� Leach line sq. ft. of bottom area trench C% Leach bed (scKft. of boftom area bed) • ti Seepage Pit Diameter 5>`01 6 [] Number of Pits Seepage Pit Depth•B'P. d / Total Depth o� it 1 440 Location of System Additional Requirements �/ .r +Ci .i 4."TT.LiIL• �' Glf ?. fir% .' r.� . -r+"X %�'X�...�a+(_,-w A permitfis prod:enied for the design of a subsurface dis%sal system 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 demssiiighed system. � (/{/ Signature of Health Official - Date Receipt No. 4 7©,--2, ! yf/ Issued By kx '"'- '� � _ _ District: Riverside ED Indio � Hemet ❑ Date SIC DISTRIBUTION: WHITE - Office File YELLOW - Applicant PINK - Building Dept. GOLDENROD - Pending File DOH SAN 122 (Rev 10/84) °'e c xj'%FIED r0 H BERMUDA DUNES r RANCHO MIRAGE INDIAN WELLS H PALM DESERT -b 1p LA OUINTA ,p INDIO 1,0 Desert Sands Unified School District 82-879 HIGHWAY 111 • INDIO, CALIFORNIA 92201-5678 • 1619) 347.8631 March 10, 1986 City of La Quinta Department of Community Development 78-105 Calle Estado La Qui'nta, CA 92253 Re: 78175 Calle Fortuna 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, John D. Brooks Assistant Superintendent Business Services JDB/crm 11 78-105 CALLE ESTADO - LA QUINTA, CALIFORNIA 92253 - (619) 564-2246 September 22, 1988 Ms. Jan Marini State Farm Insurance 45-300 Club Drive Indian Wells, CA 92210 Subject; Finish Floor Elevation Dear Ms.` Marini: Please be advised that the structure located at 78-175 Calle Fortuna in La Quinta, California, has been constructed in compliance with Federal Flood Regulations as outlined by the Flood Insurance Rate Map Panel #060709 0005 A dated 6/19/85. If you have any questions please feel free to contact the undersigned. Very truly yours, MURREL CRUMP PLANNING DIRECTOR -Tom Hartung Building Official TH:bja BJ/ MAILING ADDRESS - P.O. BOX 1504 - LA QUINTA, CALIFORNIA 92253 �� '" " I, Scy7 F�ti ♦ IE IIi�I ft �Quinta l' 7_13untn anb *afv 34illi.15ijan ! This Certificate issued pursuant to the requirements of Section 306 of the Uniform Building:. Code certifying that at the time of issuance this structure was in compliance with the various ordinances of the City regulating building construction or use. For the following: j BUILDING ADDRESS 78-175 Calle Fortuna ( , j iI i use Classification Single Family Dwelling Bldg. Permit No. ? I t Group R 3 Type Construction VN Fin Zone Use Zone I I T ! i Owner of Building Curtis Loser Address 1482 Sumv View Way I CitySanta Rosa CA November 26 1.986 j� e i Date; Building Official ;� 'POST IN A CONSPICUOUS PLACE r !, PROJECT DATA SUMMARY Form. 1 .`s owner I• protect• checked by system type date AO alz_ documentation author date SITE INFORMATION Ug1 •Z-3 o Heating Degree Day (from Appendix C) .......................................................... HDD 1 F. day Outside Design Temperature (from Appendix C or Appendix G) ................. ..... T ow 2 of fir_, • ., Uwl 10 Btu/ Ihr•ft2•oF) PROPOSED BUILDING ENVELOPE INFORMATION Uw2 11 Btu/ (hr .ft2 •OF) Gross Floor Area if Low -Rise (from Calculations) ............................................ Al 3 ft2 Gross Wall Area if High -Rise (from Calculations) ............................................ Aw 4 ft2 DesignedGlazing Area (from Calculations)....................................................... Ag 5 h2 ,,Basic Glazing Area (16%of Line 3 if low-rise or 4001 of Line 4 if high-rise)........ Abg 6 O ft2 Ut2 17 Btu/ (hr .ft2•oF) • .• Description of Assembly I N ,., Glazing -^ V&1Jf� Ug1 7 >� Btu/ (hr•ft2•°F) U92 8 - Btu/ (hr .ft2 •OF) U93 9 Btu/ (hr.ft2 •OF) Wall _S-n_)CC.. -L\ tj--- Uwl 10 Btu/ Ihr•ft2•oF) Uw2 11 Btu/ (hr .ft2 •OF) Uw3 12. Btu/ (hr •ft2 •oF): Ceiling/Roof Tli \ QLD 00 D \ Q. Uw4 3, O Ucl 13 _ 14 0 Btu/ (hr•0•oF) Btu/ (hr .ft2 •"FI Uc2 15 Btu/ (hr.ft2 •OF) Floor Ufl 16 Btu/ (hr .ft2 •OF) Ut2 17 Btu/ (hr .ft2•oF) PROPOSED SPACE HEATING SYSTEM (Chapter 7) Gas Furnace Building Design Hourly Heat Loss (from Form 2) ..................................... qn 18 j Btu/hr Maximum Allowed Bonnet Capacity, t -&-x Line 18 ............................................... 19 u?�`�0 Btu/hr Proposed Furnace Make Model Description ' Rated Bonnet Capacity Electric Resistance Alone Electric Resistance Life Cycle Cost (from Form 5) .................................... sLCCe 20 Lowest Life Cycle Cost of the Other Systems (from Form 5) ................... sLCClow,,21 Non-Depletable Energy w/Electric Resistance Back -Up Percentage of Annual Heat Loss Met by Non-Depletable Energy Source (from Calculations)............................................................................... 22 Heat Pump with Electric Resistance Supplementary Heat Percentage of Annual Heat Loss Met by Electric Resistance (from Calculations)............................................................................................ 23 PROPOSED WATER HEATING SYSTEM INFORMATION (Chapter 8) Electric Reslstance Alone Electric Resistance Life Cycle Cost (from Form 6) ............................... wLCCe 24 Lowest Life Cycle Cost of the Other Systems (from Form 6) ................... wLCC0,,.j 25 PROPOSED SWIMMING POOL HEATING SYSTEM INFORMATION (Chapter 9) Solar Life Cycle Cost (from Form.7) .... pLCCs 26 Natural Gas'Life Cycle Cost (from Form 7) ..................................................... pLCCng 27 �--HOURLY AND ANNUAL ' BUILDING HEAT LOSS RATE Check Ono: Proposed Design Standard Design Form 2R (8/81) Enforcement Agency use Only SI I•14•�. �1Lr�nt�•-`; �CS�� owner orolect buw oing permit number �C�ZGLb � 12 pro'e_ctt IOc1atlgn syi em fYpe gnat Keo by ocumentauon autnor Gate date SITE INFORMATION Heating Degree Day (from Appendix) . . . . . . . . . . . . . . . . . . . . . . HOD I Z 7� -F-day Outside Design Temperature (from Appendix) .. . . ..... . . . . . . . . . Tow- 3 �► F Outside January Mean Temperature (from Appendix) . . .. . . . . . . .. . TJan of PROPOSED BUILDING ENVELOPE INFORMATION Gross Floor Area (from plans) .... .. ........ .... .. .. .. .. . Al I ft2 Gross Wall Area (from plans) . . . .. . . . . . . . . . . . . . . . . . . . .. . Aw 1 Z ft2 Designed Glazing Area (from plans) . ... . .. . .... ... .. . . .. . Ag ZO h2 Basic Glazing Area (16% of Af if low-rise or 40% of A„r if high-rise) . . .. . . .Aba Z p ft2 HOURLY HEAT LOSS DESIGN TEMPERATURE DIFFERENCE For All Assemblies Other Than The Three Below. . .70PF — �1 of - ATh 1 3Q of To. from above For Insulated Floor Over Vented Unheated Space . . . . .. .. . . Line 1 =2 -QThi 2� aF For Uninsulated Floor Over Vented Unheated Space. .. .. . . . Line 2 — 5oF 'OThu 3 °F For Slab -on Ground Floors . . . . . . . . . . . 70DF — L34 of -OThs 4 ' 0 Tian from above CONDUCTIVE HEAT LOSS Average U Area, ft2 or of Assembly, or F2 from GT hourly heat Description of Assemoly rp A�-- ��:t�11;. Length, tt zcJS Graph 41 from a va •5g Ljlo$3. q Glazing X X _' 1Btu/hr Wall S�-ycCO` 2 D9`1WAc�. IZac> x.o5�� X 39 - Z -2- X_ x x = Ceiling/Roof 1 l_L. L'�{'W l 1 L x x x 03 L4 I x 3 = Q 7 Q�L I LL- -- X7�� x Floor Tim `7 I 5 x .Zl_ X t la i3r ", LG 1 Other ► �e M� X = 3•, zo I l'.o volume Subtotal 5to/hr u -T—mof the aoova q INFILTRATION ...... ��7L f72X SP ftXx 3 \ OF 6 �B�q Af from above weigntea from LITh from Average Table 3-7 Line 1 Calling Height �% Q Subtotal 7 `'� v to/hr line 5 • line b DUC' H EAT LOSS (Enter 0 if there are no ducts) ................. 0.15 x Line 7 - B �Q2 TOTAL HOURLY HEAT LOSS,qL 9 Z a 1 1 } to/hr line 7 • line ANNUAL HEAT LOSS, OL _ Q Z3 Z of day/yr x ZQ� I Btu/hr X.- I -`0 x 24 hr/day + 3 'F t 0 �-'I 3 4 \� Btu/vr HOD* Hourly Heat Loss C from Th from from above from Line 9 Table 3-8 Line 1 .. -.--....e--- .�,,.y:�.>+_ _.; ...,...- •.... ...x•�-nom:-..va...._.._ ..v... Y2.1��JS MASS 1q � 14 i- -A, C��►� I10�w N\--T2Ai X12- -��Zx��o,�k3`i s a33� S e L- cZ 1 vJ `T.o.y. 'E_ Q 3 L � k . 3:S: 5 3 0 3 1 HEAT TRANSFER COEFFICIENT PROPOSED CONSTRUCTION ASSEMBLY Form 3: C ist of Construction Components R $^t S: U cCCID .1 I VA S v� i k ,v t , 5 .. ,....•.4. .: �':G� ..may Y .. .{ � ... _.�: ... �� .- •. -l•• .. ... .i'� -.. s.. ,C.��:}k. '.f� "9'; .... �.�... . s. Inside Surface Air Film • Z cooling heating Sketch of Construction Assembly • �� Outside Surface Air Film WEIGHT: Ib/ft2 cooling heating Check one: Total Resistance Rt Z0' W 10 ,qb cooling heating Wall Roof . _ _ U=Value Wa ) C Z O Soo c) �Qj / cooling heating � Floor ..— .. ,....•.4. .: �':G� ..may Y .. .{ � ... _.�: ... �� .- •. -l•• .. ... .i'� -.. s.. ,C.��:}k. '.f� "9'; .... �.�... . HEAT TRANSFER COEFFICIENT PROPOSED CONSTRUCTION ASSEMBLY Form 3' List of Construction Components R 1. QLvwO140D ,(pZ s. Z 5. 3 s. 7. $• Inside Surface Air Film Sketch of Construction Assembly WEIGHT: Ib/ft2 7 Check one: Wall Roof Floor - — Outside Surface Air Film Total Resistance Rt U -Value Mta1 `Q cooling heating cooling heating cooling heating cooling heating .: +,•1 iii. .. �. ..-` .. ., w7'•.4 �..... �. •- �. ::r, r... _. ... S:v .... .. .. ti .. .. r:}?sy..'-. I BUILDING DESIGN AND EQUIPMENT SUMMARYF®p 2 page 1 of 2 Project title climate zone project address project�owner � • Documentation autnor date Comollance method (presCrlCtive or Performance, describe) Enforcement Agency Use Only BUILDING ENYELDf=_ DESIGN Description of Item Dimension 'Points __R _i 2- s Total Floor Area fts N O 1 F2 1, Floor.• Slab Perimeter, Type 1 ft Type 2 Fz ft --�.�T' 1 Q, :mod, Type 1 P L'�c>s iJ 1' O X Tr IG 0 V M 1 D O/ Type 2 cDMT,> IT) OjJ`S\?ACL Ii t�`i f+: 30 1 N S v1"A�1 `J )J 17� 2 Ceiling: Type 1 ft: Type 2 ft` _ � S0 �--� 1 1 O Z �0 3.. Wall:TYpe 1 ft= Type 2 ft= 4. Glazing: West, Type 1 I" Z • % y ft= Type 2 North, Type t 7 v 'PD (J Is % ft= ft° Type 2 East, Type 1 DU A L_ 1>-4 Lam- % ��'/o � fts ft. Type 2 South, Type 1 1� %--T,� % Lv fts ft= Type 2 90 ft= Skylight, Type 1 t� -SC ftz Type 2 _SC ft` 5. Shading Coefficient: West w��' Pte" 1 C,�1..D SS Z 1P % SC, North �� / SC East South '_'`' % �-�- SC SC 6. Horizontal South Overhang 4 ft 7. Movable Insulation % ft= 8. Infiltration Control 9. Thermal Mass:. Type 1 1 1 �5 - - ;2rZ g }IGZ� ft= Type 2 NL 4G ft= i1 (` `OC)Ct Type 3 I.1C1,V, ft= Type 4 __KHL eC ft= 1JT2� Type 5 _,� PC MG ft, Point Total This Page z � 1/83 — 420 — CEC 284-66 (2/83) `4 Sl MARY. Form 2 • page 2 of 2 project title climate zone project address HEr.'•i ING, VENTILATING, AIR CONDITIONING SYSTEM Points 10. :.rating (fill in information on proposed system) Central Gas Furnace "� i C�D' L4 k —t L1 % brand and model number SE Qq 1 O O Btu/hr Mating capacity Heat Pump brand and model number ACOP Btu/hr nesting capacity at 47. F Active Solar type (liquid or airy collector brand and model number solar fraction fta d collector area collector orientation collector tilt rated' rated $lope V - Intercept Other describe 11. C.. ling (fill in information on proposed system) Electric Air Conditioner ' brand and model number seasonal EER Btu/hr , • cooling capacity at 95 F _• Electric Heat Pump • sect Btu/hr cooling Capacity at 950 F Other describe 12. I&-chanical Ventilation AC -4 describe DOMESTIC WATER SYSTEM 13. Hv—.-zing (fill in information on proposed system) Gas Only O SM t i �-A FCAC —`5—c)� Gallons • brand and model number tank size Heat Pump w/Electric Backup Gallons brand and model number tank size Active Solar collector brand and model numberfated rated slope solar traction y -Intercept fta backup neater type, brand and model number Collector area collector orientation Other _ describe Point Total from Page 1 Total Point Score 1/83 - 420 • CEC • ... , . . , _ -^. ,.._ .,, .???!!r!/!¢+ce ..�, ...�..,, .. •. ,-�'F9r'!'n q •'urs,. -.n. <r .... . vr•.i.w�+.a�s^w•...;r.+�.+w••.."W.i+„�..,.,^. -... 19 ..................... ... A �T. ter; Typical Applications ClosetInstallation with cooling coil and electronic air cleaner. Basement Installation with cooling coil, return air cabinet and power humidifier ENGINEERING DATA G16W SERIES - CONSERVATOR@ M HEATING UNITS UP-FLO GAS FURNACES GAS? 9 50,000 to 100,000 Btuh Input Page May a9a. 'Add -On Cooling — 1 thru 5 Nominal Tons Supersedes October 1983 )IATIO.y r cqi p � crni%nn Cl- rrRrlf% Aluminized Steel Burners Lennox OURACURVEO Aluminized Steel Heat Exchanger Lennox G16 Series Up -Flo Gas Furnaces Feature High Efficiency Operation and Installation Versatility The G16 series line of gas fired furnaces include six models (natural gas or LPG) with Btuh input capacities of 50,000, 75,000, 100,000 and energy efficiencies (AFUE) of 80% or above. Compact, stand- ard size cabinet size, with side or bottom return air entry, will allow installation in a basement, closet, recreation or utility room. Op- tional return air cabinets are available to simplify return air duct connection to the furnace. The matching return air cabinet may be installed on either side of the furnace. Lennox add-on evaporator coils, electronic air cleaners and power humidifiers can easily be added to the furnace for a cgmplete all season installation. Units are equipped with the gas saving automatic POWERLITET•""• pilot ignition system. Pilot flame is on only dur- ing main burners operating cycles. No need to shut off pilot dur- ing air conditioning season. Flue draft will be created by a induced NOTE — Specifications, Ratings and Dimensions subject to change without notice. draft blower mounted on the flue collector box on the outlet of the heat exchanger. The furnaces can be vented vertically as a common vent with another appliance. G16 series furnaces are design certified by A.G.A. Laboratories and ratings are certified by GAMA. Units have been rated and tested according to Department of Energy (DOE) test procedures and Federal Trade Commission (FTC) labeling regulations in the Lennox Research Laboratory. G16X (natural gas) models meet the California Nitrogen Oxides (NOx) Standards and California Seasonal Efficiency requirements. Blower data is from unit tests conducted in the Lennox Laboratory air test chamber. Units are shipped factory assembled with all controls installed. Each unit is factory test operated insuring proper operation. Installet h only to make flue vent, gas supply and electrical connc-L •. ' 0 Model No. ttG16Q2X-50 G16Q2-50 ttG16Q3X-50 G1603-60 ttG16Q3X-75 G16Q3-75 ttG16Q4X-75 G16Q4.75 ttG16Q4X-100 G16Q4-100 ttG16Q5X-100 G1605-100 Irrput Btuh 50,000 50,000 75,000 75,000 100,000 100,000 Output Stuh 41,000 41,000 61,000 61,000 81,000 81,000 tA.F.U.E. 81.0% 81.0% 80.0% 80.0% W.1% 80.1% California Seasonal Efficiency 76.0% 78.3% 77.0% 78.4% 76.4% 77.5% Temperature rise range (OF) 35 - 65 20 - 50 35-65 25 - 55 35-65 25 - 55 High static certified by AGA (in. w) .50 .75 .50 .75 .50 .75 Flue size connection (in. diameter) 3 3 3 3 3 3 Gas.piping size I.P.S. (in.) natural or LPG 1/2 1/2 1/2 1/2 1/2 1/2 Blower motor horsepower 1/4 1/3 1/3 1/2 1/2 3/4 Blower wheel nominal dia. x width (in.) 9 x 7 10 x7 10 x 7 10 x 8 1 10 x 8 12 x 12 Net filter area is , ft.) & cut size (in.) (5.8) 36 x 28 x 1 (5.8) 36 x 28 x 1 (5.8) 36 x 28 x 11(6.6) 40 x 28 x 11(8.9) 52 x 28 x 11(8.9) 52 x 28 x 1 Tons of ooling that can be added 1, 1-1/2 or 2 2-1/2 or 3 1 2-1/2 or 3 3-1/2 or 4 2-1/2,3,3-1/2or4 1 4 or 5 Shippin weight (lbs.) - 1 Package 160 165 1 170 195 1 240 1 260 Electrical characteristics 120 volts - 60 hertz - 1 phase (less than 12 am s) - All Models Return Air Cabinet (0 tional) IShipping I Model No. RA10-16-49 RA10-16-49 RA10-16-49 RA10-16-49 RA10-16-53 RA10-16-53 Wt. (lbs.) 54 54 54 54 56 56 'LPG Kit - Optional 11 LB-33151CAD (All Models) tAnnual Fuel Utilization Efficiency based on DOE test procedures and according to FTC labeling regulations. *LPG Kit must be ordered extra for field changeover. I ttNot available with LPG. HIGH ALTITUDE DEBATE A.G.A. INSTALLATION CLEARANCES Sides 1 inch Rear 1 inch Top 1 inch Front 6 inches Floor Combustible *Flue '4 inches 'This is clearance to all flue pipes except type "B". Type "B" vent clearance is as listed by U•L. NOTE - Flue sizing and air for combustion and ventilation must conform to the methods outlined in American National Standard (ANSI -2223.1) National Fuel Gas Code. If the heating value of the gas does not exceed vilues listed in the table, derating of the unit is not required. Should the heating value of the gas exceed the table values, or if the elevation is greater than 6,000 feet above sea level it will be necessary to derate the unit. Lennox requireg that derate conditions be 4% per thousand feet above sea level. Thus at an altitude of 4000 feet, if the heating value of the gas exceeds 1000 Btu/ft3, unit will require a 16% derate. Elevation Above Sea Level (feet) Maximum Heating Value (Btu/ft2) 5001 - 6000 900 4001 - 5000 950 3001 - 4000 1000 2001 - 3000 1050 Sea Level - 2000 1100 DIMENSIONS (inches) ,.1/16 G16 SERIES FURNACES RETURN AIR CABINET -174/4 IIII�Iillllllllll 1 IIIIIIIiIlllllll1 174k NOTE - Return Air Cabinet SUPPLY FLUE OUTLET Shipped knocked AIR 14 RETURN AIR down and must be OPENING + OPENING field assembled. 7 III G • �tan6 61/6 27.13/16111/16 26.1/8a{ A- I • 0 6-9`/16 1 17-1/2 L.10 21-1/2 21.1/2 GAS PIPING INLETS IRI hU (both aide.) U2.3,6 A ELECTRICAL INLETS (both Nide.) O r4__--- - ---- i 1 2.1/16 1 -► 1 I D RETURN AIR 1 OPENING I MO., Ida La, bonoml - J I 1.1/2 - - - - i'(I 22 1.11/16 Hal Ab AIR FLOW F Model No. AB G51 G16Q2(X)-50, G16Q3(X)-50 G16Q3(X)-75 49 16-1/4 14-1/8 14 1E1 23--55F //88 G16Q4X-75 49 21-1/4 19-1/8 14 14 7 /2 G16Q5(X)-100 1/4 4/G16Q4X-100, 53 26 18 21 2 5/8 10 - 10a - I�-26-118-0{ It ---16- O A I'� .-1 . 2 IrM1 •r-.. 1 B RETURN AIR I I KNOCKOUT 1 -" (both sides) 1 ` L - - - - - - J .. 1.112 Model No. RA10-16-49 RA10-16-53 A 49 53 B 14 18 HS16 SERIES CONDENSING UNITS EXPANSION VALVE SYSTEMS (1-1/2 Thru 5 Nominal Tons) *18,400 to 61,000 Btuh Cooling Capacity 'DOE and ARI Standard 210 Ratinga dawo, w, ,gyp UL �. •�•Jr.rwn0 oto ',��Oq vUO�(•�` . 4111VKIrtlM unni OMS G.*tIK.MM YIN!{ OMl• w,un used wm nroru s� us�o wm nio.r• sprp,,,,,s., ,n,w co..ow�wrs u snno wm, w Typical Applications Unit on slab at ground level. c Mutiple units on rooftop. ENGINEERING DATA COOLING UNITS CONDENSING UNITS Page 19 February 1984 Supersedes 12-15-82 Model Dependable HS16 Condensing Unit Line Offers High SEER And EER Ratings With Low Operating Costs HS16 Series condensing unit design features high efficiency, quality construction, sound engineering and dependable operation. The combination of coil circuiting, wrap-around "U" shaped coil and uniform condenser air distribution result in high seasonal energy efficiency ratios. Units are applicable to expansion valve systems and may be installed in multiples or singly in residential or com- mercial applications, Upward discharge of condenser air and low silhouette makes it easy to conceal the unit on a slab at grade level or behind a parapet on a roof. A large selection of matching blower powered and furnace add-on evaporator units are available to pro- vide a variety of cooling capacities for selective sizing and installa- tion versatility. See Selector. The rugged galvanized steel cabinet has a durable baked -on out- door enamel finish for long lasting protection from varying climatic conditions. "U" configuration designed condenser coil provides extra large surface area and low air resistance fe)r maximum cool- ing capacity. Dependable long life seamless copper tubing is used in coil construction. Powerful direct drive fan draws air through the condenser coil and discharges it vertically protecting lawn and shrubs from hot air. Rugged non -corrosive steel wire fan guard and coil guard are furnished. Additionally, a deluxe wall- mounted heating -cooling thermostat is furnished with the unit. Condensing units are shipped completely factory assembled, piped and wired. In addition, each unit is test operated at the factory insuring proper start-up and operation. The installer has only to set the condensing unit in desired location, connect refrig- erant lines, make electrical connections and charge the system. NOTE — Specifications, Ratings and Dimensions subject to change without notice. -• r1c SELECTOR Condensing Unit Model No. ,t ARI Standard 270 SRN (bets) *ARI Standard 210 Ratings Lennox Evaporator Unit Expansion Valve Kit SEER '(Btuh/ Watts) Cooling Capacity (Btuhl Total Unit Watts Dehumid- ifying -Flo Capacity Up Down -Flo Horizontal 8.90 38,500 4560 33% ---- ---- CH3-51-2FF C16-41 FF 8.65 40,500 4933 21% ---- ---- C16-41WFF LB-25778CF 8.55 41,000 4457 22% CB18-41 CBS1B-41 C16-46FF 8.85 41,500. 5001 20% --- ---- C 16-46W FF 9.00 42,000 4962 26% "CP12-46V '"CPR12-46V •'CPS12-41/46V ,Factory /E12Q4 /E12Q4 /ES12Q4 Installed H S 16-461 V 9.00 42,000 4947 24% C16-51FF ---- 18.01 CR4-51 FF LB-25778CF 8.80 43,000 5136 23% CR4-65FF "CP12-51V ••CPR12-51V ,<Factory 9.10 43,500 5037 26% ---- /E12Q4 /E1204 Installed 8.80 43,500 5120 25% •'CB10-51 •`CB10-51 "CB10-51 ' 9.25 44,000 5001 25% C14-41FF ---- LB-25778CF 9.50 44,000 4975 25% ---- ---- CH16.51FF 9.70 44,500 4878 25% ---- ---- ••CB15-900/46 9.15 43,000 4955 35% ---- ---- CH3-51-2FF C16-46FF 9.30 46,500 5376 25°!0 ---- ---- C16-46WFF 8.35 47,500 5934 25% '•CB10-65 •'CB10-65 "CB10-65 9.60 47,500 5333 29% ---- CH16-51FF CR4-51 FF LB-25778CC 9.35 48,000 5486 25% ---- CR4-65FF HS16-511V 9.10 48,500 5634 24% ••CB10-51 '•CB10-51 ••CB10-51 (7.6) 9.50 48,500 5502 24% C16-51 FF ---- 9.55. 1 49,500 5556 24% 1 C16-65FF ---- ---- "CP12-51V ••CPR12-51V Factory 9.50 50,000 5601 26% ---- /E12Q4 /E1204 Installed 9.50 51,000 5679 26% "CP12-65V •'CPR12-65V ---- Factory /E12Q5 /E12Q5 Installed 10.0 51,500 5590 25% C14-65 --- LB-25778CC 10.55 52,000 5376 24% ••CB15-1200/65 ---- "CB15-1200/65 8.80 53,000 6316 35% ---- ---- CH 16-51 FF 8.60 54,000 6659 29% ---- CR4-65FF 7.85 54,500 7313 1 27% "'CB10-65 ••CB10-65 "CB10-65 LB-25778CD 8.70 54,500 6572 30% C16-51FF-- 9.05 56,500 6805 28% C16-65FF ---- H S 16-651 V • u Factory (8.0) 9.05 59,000 6857 29% ---- ---- CH16-65V Installed "CP12-65V "CPR12-65V Factory 8.65 59,000 7204 24% ---- /E12Q5 /E1205 Installed 9.20 59,500 6857 29% 1 C14-65 LB-25778CD 9.95 61,000 6675 24% ••CB15-1200/65 •'CB151200/65 '�;.• *Sound Rating Number in accordance with ARI Standard 270. 'Rated in accordance with ARI Standard 210 and DOE; 450 cfm (maximum) evaporator air volume per ton of cooling, 95°F outdoor air temperature, 80OF db/67°F wb entering evaporator air with 25 tt. of connecting refrigerant lines. "Denotes blower powered evaporator. - �Fp., . 91(it is optional and must be ordered extra for field Installation. :IM 3t *Furnished as standard with coil. •CL -_ 7_7:'_'_ lu SPEGIFiCATIONS - Model No. HS16-211V HS16-261V HS16-311V. HS16-411V HS16-461V HS16-511V HS16-651V T Condenser Coil Net face area (sq. ft.) 10. ter coil 11.8 11.8 11.8 15.66 15.66 15.66 18.51 Inner coil ---- 2.23 7.80 4.07 8.14 14.94 17.65 Tube diameter (in.) & No. of rows 3/8 = 1 3/8 =1,19 3/8 - 1.66 3/8 - 1.26 3/8 - 1.52 3/8 - 2 3/8 - Fins per inch 120 1 20 20 20 20 1 20 20' Condenser Fan Diameter (in.) & No. of blades 20-4 20-4 20-4 24-3 24-3 24-3• 24--4 Motor hp 1/4 1/4 1/4 1/6 1/6. 1/6 1/4 Cfm (factory setting) 3100 3000 3000 3400 3200 2940 4300 Rpm (factory setting) 1060 1060 1060 820 820 820 820 Watts (factory setting) 260 270 290 215 200 205 440 "Refrigerant - 22 charge furnished 4 lbs. -B oz. 6 lbs. -3 oz. 7 lbs. -0 oz. 6 lbs. -9 oz. 7 lbs. -0 oz. 9 lbs. -10 oz. 10 lbs. -O oz. Liquid line (o.d. in.) connection (compression) 3/8 3/8 3/8 3/8 3/8 3/8 3/8 v Suction line (o.d. in.) connection (compression) 5/8 5/8 3/4 3/4 7/8 a 7/8 -1 /8 (swoat) Shipping weight (lbs.) - 1 Package 190 198 214 250 265 275 330 "Refrigerant charge is sufficient for 25 ft. length line set. ELECTRICAL DATA Model No. HS16-211V HS16-261V HS16-311V HS16-411V HS16-461V HS16-511V HS16-651V Line voltage data - 60 hz/1 phase 208/230v 208/230v 208/230v 208/230v 208/230v 208/230v 208/230v Compressor Rated load amps 9.6 11.5 15.3 17.6 20.0 23.7 28.8 Power factor .98 .98 .98 .98 .97 .98 .98 Locked rotor amps 48.0 54.0 81.0 88.0 110.0 116.01 42.6 Condenser Coil. Fan Motor Full load amps 1.4 1.4 1.4 1.2 1.2 1.2 2.2 I Locked rotor amps 3.25 3.25 3.25 2.24 2.24 2.24 4.5 tMaximum fuse or circuit breaker size (amps) 20 25 35 40 45 50 60 .Minimum circuit ampacity 13.7 16.0 20.8 23.6 26.3 30.9 38.3 'Refer to National Electrical Code manual to determine wire, fuse and disconnect size requirements. [Recommended NOTE - Extremes of operating range are plus ano minus 10% of line voltage. FIELD WIRING r CT LENNOX DI SWITCH CT I THERMOSTAT not furnished by Lennox) r ------ I DISCONNECT I I SWITCH I Ines furnished I I by Lennox) I L ---_J LENNOX 'CONDENSING LENNOX UNIT HEATING UNIT OR •CBEVAPORATOR 'CB blower -coil evaporator unit applications require a separate 20 VA (minimum rating) transformer. A - Two wire power (not furnished) B - Two wire power (not furnished) - See electrical data C - Two wire low voltage (not furnished) - 18 ga. minimum D - Four wire low voltage (not furnished) - 18 ga. minimum All wiring must conform to NEC and local electrical codes. - 19d - 1 � siir�: i I iV Ci 5 frt, y NOTE - T-) determine Sensible Capacity, Leaving Wet Bulb and Dry Bulb temperatures 417 not shown in the tables see Miscellaneous Engineering Data section, Page 9. :1 HS16-511V WITH C810-51 EVAPORATOR UNIT ® NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction. HS16-511V WITH C16-51FF .EVAPORATOR UNIT Outdoor Air Temperature Entering Outdoor Air Temperature Entering Condenser Coil (OF)r_ 1 85 85 85 1 95 95 95x 105 105 105 105 115 Enter. Total Air 115 Total Sensible Enter. Total Sensible Total Sensible Sensible Total Comp. Sensible `. Sensible Sensible Vol. Cool Sensible Sensible Total Wet Sensibl.^ Total Wet Air Total Comp. To Total Total Comp. To Total Total Comp. To Total Total Comp. To Totes Bulb Vol. Cool Motor Ratio ISM Cool Motor .(' Ratio S/T Cool Motor. Ratio S/T Cool Motor Ratio S/T (°F) (cfm) Cap. Watts Dr Bulb F Cap. °F Cap. Watts Cap. Cap. Watts Bulb F Cap. Watts (Btuh) Input 76 (Btuh) Input Dry Bulb 80 (Btuh) Input Dry Bulb °F lB.- Input---T---F-84 Dry Bulb °F (Stuh) Input Dr Bulb, aF - .87 .98 146.200 4490 .78 76 1.00 43,500 4780 .80 76 140.800 5020 .83 .96 1.00 . 63 1700 50,400 76 80 84 .93 1.00 1400 49 300 4200 .76 .87 .97 46,700 4510 .77 .89 1.00 43,900 4800 .80 .92 1.00 41 100 5040 .82 .95 1.00 EU 107 151.100 4260 .80 .93 1.00 48.300 4590 .82 .96 1.00 1145,500 5200 4880 .85 .99 1.00 42.600 5140 .88 1.00 1.00 .70 .81 2000 52 600 4310 .85 .99 '..W 49,600 4650 .87 1.00 1.00 47,000 4960 .90 1.00 1.00 44,400 5240 .94 1.00 1.00 .75 .87 1400 152,900 4690 4330 .59 .70 .80 50,100 4660 .60 .72 .83 47,000 4960 .62 .74 .85 43.900 5210 .63 .76 ..89 67 1700 54.500 4390 .62 .74 .86 51,400 4720 .64 .77 .89 48.200 5020 .65 .79 .92 45 000 5270 .67 .82 .96 .55 .65 2000 55,600 4430 .65 .79 .92 52,400 4770 .67 .81 .95 49.200 5070 .69 .84 .99 45.900 5320 4500 1.00 .58 .69 1400 56 700 4470 .45 .55 .65 53 600 4820 .46 .56 .66 50 400 5130 .46 .57 .68 47 000 5390 4540 .59Q.7171 .61 .73 1700 58 300 4530 .46 .58 .69 54 900 4870 .47 .59 .71 51600 5190 .48 .61 .73 48 100 5450 g.71.88 .622000 59 300 4570 .48 .60 73 55 900 4910 .48 .62 .76 52 400 5230 .49 .64 .78 48 800 5490 .66 ® NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction. HS16-511V WITH C16-51FF .EVAPORATOR UNIT NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction. HS16-511V WITH C16-65FF EVAPORATOR UNIT Outdoor Air Temperature Entering Condenser Coil °F 85 85 1 95 95 1 105 105 105 1 115 Enter. Total Air Enter. Total Sensible Total Sensible Sensible Total Comp. Sensible Total Comp. Sensible Wet Sensible Vol. Cool Motor Sensible Total Wet Air Total Comp. To Total Total Comp. To Total Total Comp. To Total Total Comp. To Total Bulb Vol. Cool Motor RatioS/ Ratio S/T° Cool Motor Ratio (S/ T) Cool Motor Ratio (S/T) Cool Motor Ratio MIT) (°F) (cfm) Cap. Watts Dr T Bulb F Cap. Watts Dr Bulb F Cap. Watts Dr Bulb Cap. Watts Dr Bulb F (Btuh) Input 76 '80 84 (Btuh) Input 76 80 84 (BtuhI Input 76 80 84 (Btuh) Input 76 80 84 .87 .98 1147,100 1400 48,8W 4180 .76 .87 .98 146.200 4490 .78 .90 1.00 43,500 4780 .80 .93 1.00 140.800 5020 .83 .96 1.00 . 63 1700 50,400 4240 .81 .93 1.00 147,700 4560 .83 .96 1.00 45 200 4850 .86 .99 1.00 42,200 5110 .89 1.00 1.00 4660 2000 51.800 4280 .85 .99 1.00 148,900 4610. .88 1.00 1.00 46 400 4930 .91 1.00 1.00 43,800 5200 .94 1.00 1.00 .61 1400 52,400 4310 .60 .70 .81 149.600 4640 .61 .72 .83 46,600 4940 .62 .74 .86 43.500 5190 .64 .77 .8.9 67 1700 53 800 4360 .63 .75 .87 50.800 4690 .64 .77 .89 47,700 5000 .66 .79 .93 44,500 5250 .68 .82 .97 49,400 2000 54 800 4400 .65 .79 .92 51.700 4730 .67 .81 .95 48,500 5040 .69 .84 .99 45,300 5290 .71 .88 1.00 5150 1400 56 200 4450 .45 .55 .65 53,200 4800 .46 .56 .67 50,000 5110 .46 .58 .69 46,700 5370 .4r 59 .71 71 1700 57 600 4500 .46 .58 .69 154,400 4850 .47 .59 .71 51,000 5160 .48 .61 .74 47 600 5430 .49 es i.77 1 .64 .79 2000 58 600 4540 .48 .61 .73 55 200 4890 .48 .62 .76 51 800 5200 .49 .64 .78 48 300 5460 .50 .66 .82 NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction. HS16-511V WITH C16-65FF EVAPORATOR UNIT NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction. ;'. HS16-511V WITH CP12-51V/E12Q4 OR CPR12-51V/E12Q4 EVAPORATOR UNIT Outdoor Air Tem erature Entering Condenser Coil °F 85 85 95 95 105 105 115 Enter. Total Air Total Comp. Sensible Total Comp. Sensible Total Comp. Sensible Total Comp. Sensible Wet Bulb Vol. Cool Motor To Total Cool Motor To Total Cool Motor To Total Cool Motor To Total (°F) (cfm) Cap. Watts Ratio Ca Cap. Cap. Watts Ratio S/T° Cap. Watts Ratio 1S/T) Cap. Watts Ratio S/T° Ca p' (Btuh) Input Dr b (O Bulb F (Btuh) Input D Bulb F (Btuh) Input Dr Bulb F (Btuh) Input Dr Bulb FI b (O Dr Bulb °F (Btuh) Input Dr Bulb °F b 76 80 84 76 84 76 80 84 76 80 1 84 80 84 1400 49,800 4210 .76 .87 .98 1147,100 1400 4530 .78 .90 1.00 44,300 4820 .80 .93 1.00 141.500 5070 .83 .96 1 1.00 63 1700 1151,400 42,400 4270 1 .81 .94 1.00 1148,700 63. 4600 .83 .96 1.00 45,500 4890 .86 1.00 1.00 143,000 5160 .89 1,00 1.00 4960 2000 1152.800 1.00 1.00 5320 .85 .99 49,900 4660 .88 1.00 1.00 47 300 4980 .91 1.00 1.00 44,600 5250 .95 1.00 1.00 1148,900 1400 53,400 4350 .60 .70 50,500 4680 .61 .72 .83 47.400 4980 .62 .74 .86 44,300 5230 .64 .7i .90 67 1700 54,800 4400 .63 .75 51,700 4740 .64 .77 .90 48 500 5040 .66 .80 .93 45,300 5290 .68 .83 ,.97 2000 1155.900 49 800 4440 .65 .79 P.65 52,700 4780 .67 .82 .96 49,400 5080 .69 .85 .99 46,100 5330 .72 .88 1.00 .68 1400 1157,300 .97 4490 .45 .55 54 100 4840 .46 .56 .67 50 800 5150 .46 .58 .69 47 400 -5420 .45 .47 .59 .71 4890 1700 58 700 4540 .46 .58 55300 4890 .47 .59 .72 51 900 5210 .48 .61 .74 48 400 5470 .49 .63 .77 56,700 2000 59700 4580 .48 .61 56 200 4930 1 .49 1 .62 .76 52 7no 1 5240 .49 1 .64 .79 .49,1001 5510 1 .51 1 .66 .32 NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction. ;'. HS16-511V WITH CP12-51V/E12Q4 OR CPR12-51V/E12Q4 EVAPORATOR UNIT NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction. -19v- Outdoor Air Temperature Entering Condenser Coil °F 85 95 105 115 Enter. Wet Total Air Total Comp. Sensible Total Comp. Sensible Total Comp. Sensible Total Comp. Sensible Bulb Vol. Cool Motor To Total Cool Motor To Total Cool Motor To Total Cool Motor 7o Total , (°F) (cfm) Ca Cap. Watts Ratio Ca p' Watts Ratio Ca p' Watts Ratio Ca p' Watts Ratio (I IBtuh) Input Dr b (I Bulb °F (B.tuh) Input Dr Bulb b °F (O (Btuh) Input b (O Dr Bulb °F (Btuh) Input Dr Bulb °F b 76 80 84 76 80 84 76 80 84 76 80 84 1400 51,100 4260 .76 .87 .98 148.300 4580 .78L.778 1.00 45.400 4870 .80 .93 1.00 42,400 5120 .83 .95 '..GCi� 63. 1700 53.000 4330 .81 .94 1.00 50 100 4660 .831.00 46 900 4960 .86 1.00 1.00 44 200 5230 .90 1 OU 1.00 2000 54,300 4380 .86 1.00 1.00 51.700 4730 .89 1.00 1148,900 5060 .92 1.00 1.00 46.000 5330 .96 1.172 1.00 1400 54,700 4400 .60 .70 .81 151,700 4730 .61 .83 1148,400 5030 .62 .74 .86 45,200 5290 .64 67 1700 56,300 4460 .63 .75 .87 53,100 4790 .64 .90 49 800 5100 .66 .80 .94 46 400 5350 .682000 57 500 4500 .66 .80 .94 54 200 4840 .68 .97 50,700 5150 .70 .86 1.00 47,200 5410 .73 1400 58..600 4540 .45 .55 .65 55.300 4890 .46 .56 .67 51.900 5200 .46 .58 .69 48 400 5470 .4'?_:. . 71 1700 160,100 4600 .47 .58 .70 56,700 4950 .47 .60 .72 53_1 00 5260 .48 .61 .75 49,400 5530 , 2000 61 300 4640 .48 .61 .75 57 600 4990 .49 ,63 - .77 54,000 -5300 _.50 .65 _.80_ 50,200 _5570_ 1-,51 1 3 1 ,::` i .!3:i I NOTE - All values are gross capacities and do not include evaporator coil blower motor heat deduction. -19v- 05B:10 R2 3/28/84 VH/dr Attachment D Form 2 (Revised 3/84) Climate Zones 2, 4, 6, and 8-15 COMPLIANCE CHECKLIST For Low-Rise Residential Buildings (except hotels and motels) 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 (��Zft2 1•�: 1. Slab-on-Ground; Perimeter(��S ft., Depth in. R- Q ^� 2. Raised Floor R-Value. . . ._ R- 3. Ceiling Insulation or Construction'AssemblyR-=E: Attic, Percent of Roof Over Conditioned Spacel��% •°l. ft2 .4. Wall Insulation or Construction Assembly. . . . . . . .. . R- Glazing; Total % Floor Area Single Double Tri le 5. North-Facing. % ft2 ft2 ft2 J Z 6. East-facing .,% ft2 To —ft2 ft2 7. South -Facing. ft2ft2 ft 2 — 2. 8. West-Facing . . ,Lp ft ft ft S 9. Skylight. . . . . % ft2 ft2 ft2 10. Shading Coefficient (excluding overhang) r a. East . . . . . . . . . . . . . . •�•� Sc . . . . . . . . . . . . . b. South . . . . . . . . . . . . . . SC . . . . . . . . . . . . .—� c. West . . . . . . . . . . . . Sc . . . . . . . . . . . . . d. North. SC . . . . . . . . . . e. Skylight :•. SC . 11. Horizontal South Overhang Length./W: �ft . . . . . . . . . . . . 12. Movable Insulation, % Floor Area. . . . % . . . . . . . 13. Infiltration (indicate Standard, Medium 0F7Tg7t) 14. Thermal Mass i Exterior Wall Thermal Mass Area, Heat Capacity, R-Value . . . . . . ft2, HC, R- ' `*1 Interior ThealMas ZArea, Heat Capacity,R-Value. • • ,�ft2 „ n HC, R- Z . HVAC System** 1 15. Gas Furnace without Refrigeration, Cooling N� (Seasonal Efficiency) . .. . . . . . . . . . . . SE 16. Heat Pump (Energy Efficiency Ratio) . . . . . . . . . . . . . EER \T g 11. Gas Furnace with Refrigeration Cooling �`- Seasonal Efficiency and Seasonal e Energy Efficiency Ratio . . . .. . . . . . . . SE ID,t>SEER t �� 18. Active Solar (Net Solar Fraction, %). . . . . . . . . . . . %NSF 19. Zonally Controlled Electric Resistance Space Heating . . . . . . . . . . . . . (Yes/No) NO I Domestic Water Heating** 20. Solar With Gas Backup (Net Solar Fraction, %) %NSF 21. Other Water Heating (Describe type) C�� i n Point System Compliance Total. . . . . . . . . . . . . . . A-(0, *Checkl,ist items; not a point system measure. "Attach documentation for efficiencies and NSF, 0 21 - 1. SLAB -ON -GROUND FLOOR Locate the R -value of the proposed slab -edge insulation and planned depth of insulation from line 1 of the Compliance Checklist, find the corresponding point value in Table 3-1 and enter it on the appro- priate line below. Enter the length of insulated slab and total length of slab perimeter from line 1 on the appropriate lines below. Subtract the insulated length from the total length and enter 'the difference on the line below marked "length. of uninsu- lated." Perform the required calculations for lines a and b below and add the' results together. Enter this sum on line c below and also on line 1 in the "Points" column of the checklist. Note: If the proposed building has both a slab and a raised floor, multiply the value online c by the square footage area of the slab floor and divide this by the total floor -area. Enter the result of this calculation in the "Points" column on line 1. C-49 ECM 15 76 Table -3-1. Slab Floor`Points I Insula- I R -Value of Insulation I i tion I I Depth, - inches I I O-2 13-4 15-6 I 71- 11 I .-4 I '=4 -4 I -4 I -4 12 - 15 I I -2 I -1 I -1 16 - .19 ( -4 I -1 I -1 I 0 20 1- I I -4 I I I -1 I I 0 I 0 Insulated Slab: x = a points length total insulated length Uninsulated Slab: x -- = b points length total uninsulatbd length a �- b - c ••,•,. - ,�w.Tr[«s�;7•.xr-^sm•w•.aer: A••>R�iw>v�.: .• r 3. CEILING Using the R -value of 'the ceiling insulation from line 3 of the Compliance Checklist, find the corresponding point value from Table 3-3a and enter it in the "Points"' column on line 3 of the checklist. or Using the R -value of the ceiling construction assembly from line 3 of the Compliance Checklist, find the corresponding point value.from Table 3-3b and.enter it in the "Points" column on line 3 of the checklist. If you have. different levels of R -values, you may calculate the average of the R -values weighted by their respective areas or use the the lowest of the R -values to determine the points: If the calculation is done, attach the documentation to the checklist and indicate the level of insulation and location of each on the building plans. Be sure that.this average R -value equates to having a minimum of R-19 insulation uniformly distributed over the ceiling. C-4 9 ECM 15 Table 3-3a. Ceiling Insulation Pts. R -Value of Insulation I I I Points I I I 19 21 . I -10 I 22-�i I I I 19 - _-8 I 38- 0 I I 49 - I 0 Table 3-3b. Ceiling Assembly Points R -Value of Assembly I I I (excluding I air films) . I Points I I 19 - 20 I -12 I i 21 - 22 I -10 I I 23 - 27 I -8 I 28 - .31 I -6 I I 32 - 36 I -4 I 37 - 38 I -2 I I 39- 51 I 0 I. 52 - 75 I 1-2 I I 76 I up I I +-4 I 4. WALL Using the R -value of the insula- Table 3-4a. Wall Insulation Points tion from line 4 of the Compliance Checklist, find the corresponding ( R -Value of Insulation ( Points point value from Table .3-4a and I I I enter it in the "Points" column on .line 4 of the checklist. I 11 (_ _•,-6 i.9.__.,_._,,._:v.._.�,. ..... w� A... 24� I2 I. 30 I 1.3 or Using the R -value of the wall Table 3-4b. "Wall Assembly Points construction assembly from line 4 of the Compliance Checklist, find I R -Value of Assembly the corresponding point value from I (excluding air films) I Points Table 3=4b and enter it in the "Points" column on line 4 of the checklist. ( 499 up I +•10 I 70.0 -498.0 ( �8 If you have different levels of ( 37.0 - 69.0. ( 1-6 I insulation, follow the third para- I 26.7 - 36.9 I +•4 graph of the ceiling instructions, I 20.2 - 26.6 I f-2 except that the average R -value I 15.7 - 20.1 ( 0 I must be equivalent to having a I 13.4 - 15.6 ( .-2 I • minimum of R-11 insulation. uni- I 11.3 - 13.3 ( -4 formly distributed over the wall I' 9.8 - 11.2 I -6 i if the wall has wood framing. I 8.8 - 9.7 I -8 I I 7.7 - 8.7 I -10 I 7.0 - 7.6 I -12 ( 6.4 - .6.9 -14 I 5.8 - 6.3 ( -16 5.3 - 5.7 I -18 I 4.9 - 5.2 I -20 I i 4.5 - 4.8 ( -22 i 4.2 - 4.4 ( -24 I 3.9 - 4.1 I -26 I ( 3.6 - 3.8 ( -28 I I 3.4 - 3.5 I -30 I 3.2 - 3.3 ( -32 I 3.0 - 3.1 I -34 2.8 - 2.9 ( -36 I 2.7 ( -38 I I 2.5 - 2.6 - ( -40 2.4 ( -42 I 2.3 ( -44 2.2 ( -46 I 2.1 ( -48 I I 2.0 I -50 I 1.9 I -52 I 79 GLAZING, NORTH -FACING Using the total north -facing glazing percentage from line 5 of the Compliance Checklist, find the corresponding point values for each glazing type to be used .(single, double, and/or triple) in -Table 3-5. Enter these values on the appropriate lines below.. On the adjacent lines, enter the square footage of each glazing type indicated on the checklist. Next, enter the total square foot- age of all north -facing glazing. Perform the required calculation and enter the results on their respective lines a and b. Total lines a and b,.and enter the sum on line c. below and in the Points". column on line 5 of the checklist. Be sure to use the total north - facing percentage instead of the individual percentages for each type of glazing in a given orientation. �vA` 1 S t�+cyLL Zz�x 50 -1 3� !Sb c-49 ECM 15 Table 3-5. North -Facing Glazing Pts .I Total I I % of I Floor I Area I 10.66 11.10 Glazing Type Sngl, Dbl, U= I U= I 10.42- 10..41 1 0.65 I i Trpl,� U= I 1 down 1 I up to 1.1 1 1-4 i 1.4 1 1-4 1 I 1..2- 2.2 1 t2 1 1-2I 1.3 1 2.3- 3.4 I 9 1 0 1 +l i I C3 5N= 4._•sb 1 -3 1 4.9- 6.0 i -6. 1 -4 i -3 1 6.1- 7.4 1 -8 ( 76 I -5 I 1 7.5- 8.7 1 -10 1 -8-1 1 -7 1 8.8- 9.9 I -12 1 -10 I -8 1 10.0-11.3 1 -15 I -12 I -10 1 1 11.4-12.5 1 -17 1 -14 1 -12 1 1.12.6-13.4 1 -20 1 .-16 1 -14 1 1 13.5-15.0 1 I I -22 1. -18 I I I -11 I First Type (indicate Sngl, Dbl, or Trpl) x -. = a points area total first area Second Type (indicate Sngl, Dbl, or Trpl) x -- b points area total second area a 1•b=c . If there is no north -facing glazing, enter 1.2 on line c and line 5. 6. GLAZING, EAST -FACING. Using the total east -facing glazing percentage from line 6 of the Compliance Checklist, find the, corresponding point values for each glazing type to be used. (single, double, and/or triple) in Table 3-6. Enter these values on the appropriate lines below. On the adjacent lines, enter the square footage of each glazing type indicated on the checklist. Next, enter the total square foot- age of all east -facing glazing. Perform the required calculation and enter the results on their respective lines a and b. Total lines a and b, and enter the sum on line c below and in the "Points" column on line 6 of the checklist. Be sure to use the total east - facing percentage .instead of the individual percentages for each type of glazing in a given orientation. - Table 3-6. East -Facing .Glazing Pts. I Total ,.I Glazing Type I I % of I I I Floor Sngl, Dbl, !Tp -l-7, Area I U= I U= I U= 0.66- .I 0:42- 10.41 I 11.10 10.65 I down I C to-1�. SDl . +-3 I I f-4 I { 1.6- 2.3 I +-1 ( 1-2 I f-3 I 2.4- 3.4 I -1 I •0 I 1-1 I 3.5- 4.3 I -3 I =.2 I 0 4.4- 5..4 I. -6 I 5.5- 6.3 j -8 1 -6 I -4 I I 6.4- 7.3 I -11 I -8 I -6 '7.4- 8.4 I -12 I -10 I -8 I 8.5- 9.4 I -16 I -12 I -10 I 9.5-10.4 I -18 I -14 I -12 110.5-11.8 I '-22 I. -17 I -15 11.9-13.5 I -25 I -20 I -18 13.6-15.0 I I I . -29 I I -23 I I -20 I First Type (indicate Sngl, Dbl, or Trpl) x - a points area total first area a f- b c If there is no east -facing glazing, .,•.,�h. g g g, enter F7 on line c and line 6. kR 5'rbx •C-49 ECM 15 81 r).;6.%-1(33Rn7: t. w{ - :A iJ+TkaK?tr,raw• + :;at.w�uI .... .CAMi�F59Y/Wihi.. a`F:V..}:e : a a. a.�� x+�«a•.•aaa:ax..rxm�iaf�il� Second Type (indicate. Sngl, Dbl, or Trpl) s hj: x - - = b points area total second area a f- b c If there is no east -facing glazing, .,•.,�h. g g g, enter F7 on line c and line 6. kR 5'rbx •C-49 ECM 15 81 r).;6.%-1(33Rn7: t. w{ - :A iJ+TkaK?tr,raw• + :;at.w�uI .... .CAMi�F59Y/Wihi.. a`F:V..}:e : a a. a.�� x+�«a•.•aaa:ax..rxm�iaf�il� 7. GLAZING, SOUTH -FACING Using the total south -facing glazing percentage from line 7 of the Compliance Checklist, find the corresponding point values for each glazing type to be used (single, double, and/or triple),in Table 3-7. Enter these values on the appropriate lines below. On the adjacent lines, enter the square footage of each glazing type indicated on the checklist. Next,'enter the total square foot- age of. all south -facing glazing. Perform the required calculation and enter the results on their respective lines a and b. Total lines a and b, and enter the sum on line c below. and in the "Points" column on line 7 of the checklist. Be sure to use the total south - facing percentage instead of the individual percentages for each type of glazing in a given orientation. Table 3=7. South -Facing Glazing Pts I Total I Glazing Type I of I Floor Sngl, I Dbl, I Trpl, Area I U= I U= I U= I I 10.66- 0.42- 10.42 1.10 10.65 down I 1.3 down I 1-2 ( 1-2 I 1-2 I I 1.4=-3.4 I -1 I 0 I 0, I -4 I �:2 I -2 7.3 I -6. I 74 I -3 I 7.4- 9.1 I -9 I -6 I -5 i I 9.2-10.8 I -12 I -8 I -7 110.9-13.3 I -16 I -11 I -10 13.4-15.7 I I I -20- I -14 I I I =12 First Type (indicate Sngl, Dbl, or Trpl) x a points area total first area Second Type (indicate Sngl, Dbl, or Trpl) x = b points area total second area a 1-b=c If there is no south -facing glazing, enter 1-3 on line c and line 7. ` 82 8. GLAZING, WEST -FACING Using the total west -facing glazing percentage from line 8 of the Compliance Checklist, find the corresponding point values for each glazing type to be used (single, double, and/or triple) in Table 3-8. Enter .these values on the appropriate lines below. On the adjacent lines, enter the square footage of each glazing type indicated on the checklist. Next, enter the total square foot- age of all west -facing glazing. Perform the required calculation and .enter the results on their respective lines a and b. Total lines a and b, and enter 'the sum on line c below and in the "Points" column on line 8 of the checklist. Be sure to use the total west - facing percentage instead of the individual percentages for each type of glazing in a given orientation. C-49 ECM 15 \ Table 3-8. West -Facing Glazing Pts. I Total I Glazing Type I I %of I I Floor Sngl, Dbl, Trp1, I Area IU= IU= IU= I 1 ( 0.66- 1 0.42- 10.41 i 11.10 1 0.65 1 down 1 I up to 1.0 I f•8 I f-8 I 1-8 I I 1.1- 1.6 I 1•6 1 f•6 I' f•6 1 1 1.7- 2.3 I f-3 I 1-4 I f-5 1 I 2.4'.,2 •~ 9� I f•1 If 2 I f-3 3.4 I -1 I o f 1•1 1 I 3.5- 4.2 I -4 I -r 1 -1 1 I 4.3- 4.8 1 ,-7 I -4 1• -3 1 1 4.9- 5.4 1 -9 1 -6 1 -5 1 1' 5.5- 6.1.1 -12 L -8 1 -7 1 1 6.2- 6.7 I -14 I -10 1 -9 I .6.8- 7.3 1 -16 1 712 1 -10 1 1. 7.4- 7.9 1 -19 1 =14 1 -12 1 I 8.0- 8.5 1 -21 I '-16 I -14 1 8.6- 9.1 I -24 1 -18 I -16 I I 9.2- 9.7 I -26 I -20 i -18 I 1 9.8-10.3 1 -29 I -22 i -20 I 1 10.4-1i.3 1 -32 I.-25 1 -22 I 111.4-12.0 I I I -35 I -28 1 I I -25 I I First Type (indicate Sngl, Dbl, or Trpl)' x - = a points area total first area Second Type (indicate Sngl, Dbl, or Trpl) X - = b points area total second area a f• b = c If there is no west -facing glazing, enter 1-10 on line c and line 8. �,;1+sltL7eyK tYn;:`J:'; i...YH��,i7r � � �.' r:'R�+�;:ii ''ylS".. c :S'h'ii'f .-i .•", y:a`;c ,: r�: !/J�:1� :r`l.nS%. r' 10. SHADING COEFFICIENT ' Locate the percent of total East: glazing to floor areas on lines 5, 6, 7, and 8 of the Compliance x x Checklist and the Shading Coeffi- SC of SC of SC of Net SC cient (SC) for the shading device, glazing device 1 device 2 for each orientation shown below. Select Shading Coefficients that South: are for devices used with single glass only from Table 1 in Part 2; x x ASHRAE HANDBOOK OF FUNDAMENTALS; SC of SC of SC of Net SC or manufacturers' data. Find the glazing device 1 device 2 corresponding point values from Table 3-10 and enter it in the West: "Points" column on the corres- ponding lines 10a, 10b, 10c, and x x = 10d of the checklist. SC of SC of SC of Net SC glazing device 1 device 2 Please note this applies to all glazing orientations except north. Skylight: If there is no glazing in an x x = orientation, enter zero (0) in the SC of --Sc of. SC of Net SC "Points" column on the corres- glazing device 1 device 2 ponding lines of the checklist. Table 3-10. Shading Coefficient Points is j. SC by I I SC by 1 I f Orien- 1 % Floor Area 1 Orien- 1 % Floor'Area 1 i tation 1 1 tation ! 1' I EastQO. 0.8-11.6-13•.2-14.8-16.4-18.0-1 West 1 0- 10.8- 1.6-,3.2-14."8-16.4-18.0-1 I d1.5 13.1 14.7 16.3 17.'9'19.6 1 10.7 11.5 3.14.7 .16.3 17.9.19.6 1 I i 7-�i I0 -.15I Q I 01 01 0I 01 01 010 -.15'I 01 01 101 01 01 0I 01 1:16 -..32 1 1 -1, 1 -1 1.-2 1 -31•-4 1 -5 1.16 - .30 1 0 1 0 1 -1 1 -2 1 -3 1 -4 1 -5 I I .'33 .4 91 Q• I -1 1 -2 I -4 1 -6 1 -8 1-10 1.31 - .46 1 0 1 -1 1 �2 1 -4 1 -6 1 -8 1-10 1 .50 --.68>4D 1 -1 1 -3 1.-6 1 -9 1-12 1-15 1.47 .62 1 0 1 -1 1 3 1 -6 1 -9 1-12 1-15 1 1.69 - .86 1 0 1 -2 1 -4 1 -8 1-12 1-16 1-20 j(. :79 0�1--2--1 "�„4 I -8 1-12 1-16 1-20 1 .87 up 1 0 1 -2'1 -5 1 -9 1-13 1-18 1-23 1 .80 up 1 0 1 -2 1 -5 1-10 1717 1-22 1-27 1 1. South 10.1-1 1.6-1 3.2-1 4.8-,I 6:4-1 I•;:: 10.3 I 11.5 1 3.1 1 4.7 1 6.3 .i 7.9 1 14.8 1 I 1 0 1 0 - .15 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 -3 1 0- .15 1 0 1 0 1 0 0 I 0 1 sI.16 - .30 1 0 1 0 1 -1 I- I -2 i ^`1.31'- .46 1 0 1 -1 1 -2 1 -3 I -4 I .62 .62 1 0 1 -1 1 -3 I -4 1 -6 I 1-15 1 -10 1.63 - -4... I I -8 l .80 'up,. 1 -8 10 1 -3 I 75 I =$ I -11 I 8.0-1 Skylight 1 0- 10.4-10.8-11.6-12.4-13.2-14.0-1 9.6 1 I 10.3 I 10.7 I 11..5 I 12.3 I 13.1 I 13.9 I 14.8 1 I 1 0 1 0 - .15 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 -3 1.16 - .30 1 0 1 0 1 -1 1 -2 1 -3 1 -4 1 -5 1 -5 1.31 - .46 1 0 1 -1 1 -2 1 -4 ! -6 1 -8 1-10 1 -7 1.47 - .62 1 0 i -1 1 -3 1 -6 1-9.1-12 1-15 1 -10 1.63 - ..79 1 0 1 -2 1 -4 1 -8 1-12 1-16 0 1-2 ?: -14 1 .80 up 1 0 1 -2 1 -5 1-10 1-17 1-22 1-27"1_•`., 85 -C-49 ECM 15 05B.04 R3 3/13/84, VH/dr CLIMATE ZONE 15 Attic When using Table 3-3a to rate ce fling insulation, add points from this tabl'e to the ceiling insulation points. This table is not to be used in conjunction with Table 3-3b. An attic is defined as the space between.the roof and ceiling with no common framing members (truss chords excluded) having an average ventilation height of at least 6 inches and meeting the ventilation requirements of the 1982 Uniform Building Code, Section 3205(c). North Shadino Coefficient Determine the percent of north facing glazing to the total floor area as shown on line 5.of the Compliance Checklist. Determine the Shading Coefficient (SC) for the shading device for the north facing glazing as done for the other orientations and proceed as before. If there.is no north glazing, enter zero (0) in "Points” column of the checklist. 35. Table 3-3c. Attic Points Attic Equal to Following Percentage of Roof Over Points Conditioned Space 0% to 12% 0 13% to 37% +1 38% to -62% +2 63% to„87% +3 "88% to 100 y'+4y Table 3-10b. North Shading Coefficient Points SC oy�___.—�� -- Orientation % Floor Area North 0 to 3.1 3.0 up______ 0.40 down 0 +3 0.41 up 0 0 A. 05b:05 R3 3/13/84 VH/dr (Cl..imate Zone 15 continued) Infiltration Control Features Identify the proposed. infiltration control features and find the corresponding point value in Table 3-13. Enter the point value. in the "Points" column on line 13 of the checklist. ;.Standard means caulking, weather- stripping, sealing, etc. as described in the Mandatory Features and Devices of the regulations and the Energy Conservation Manual. Medium equals standard plus electric outlet gaskets installed on all exterior.walls. Tight equals medium plus polyethel*ene .sheets installed over the inside face of all exterior walls, and a mechanical ventilation system capable of ventilating at the rate of 0.7 air changes per hour for the whole building with an'air-to-air heat exchanger. Gas Furnace W/0 Refrigeration Cooling Gas Furnace with Refrigeration Cooling 36. Table 3-13. Infiltration Control. Features Points Control Features_ Points Standard 1(0.9 air changes per hour) -4. 0.6 air changes per hour). -1 Tight . (0.6 air changes per hour 0 with air-to-air heat exchanger)!; No change in Table 3-15. No. change in Table 3-17. 1 ,0-4 -� 11. .HORIZONTAL SOUTH OVERHANG Using the percent of south glazing area to floor area from line 7 of the Compliance Checklist,' find the corresponding point value in Table 3-11. Enter 'it in the "Points" column on line 11 of the checklist. 12. MOVABLE INSULATION Using the percent of floor area from line 12 'of the Compliance Checklist, find the corres- ponding point value from Table 3-12. Enter this value in the "Points" column on line 12. of the checklist. , C-49 ECM 15 Table 3-11. Horizontal South Overhang Points South Glazing Length Out Area, % of Floor from Wall ft 0-6.3 6.4 =up I 0 - 1.9 -1 -2 i 2.0 4 - 3.9 0 0 0 up C�HJ..�...�r...+1 I... }2 '. Table 3-12. Movable Insulation Points Moveable Insulation Area, % of Floor Points All 0 -4fi, w 5SWR4h'A ilua {.h b ! d ' c: : R .y- 0. .�.._ I;l: y'«=i'✓ Using the HC and R -factors deter- mined in the first step, determine the equivalent mass capacity fac- tor from the appropriate Table-3- able 3- 14c 14c or 3-14d, and. enter it on. line a, following, and line 14 of checklist. Table 3-14c. Mass 7- Capacity Factors for Interior Mass 1 1 R -Value of Interior Mass Element Excluding Air Films 1 { Heat.Ca2acity, 10.3 1 0.4- { 0.8- { 1.3- 1 1.8- 12.6- { 4.1- 1 7.6 1 1 Btu/ft °F Down 0.7. 1 1.2 1 1.7 { 2.5 1 4.0 { 7.5 1 Up 1 { 1.5 - 1.7-' 1 2.8 .1 2.8 12.8 1 2.7 { 2.6 1 2.4 ( 2.3 1 1.9 { 1 1.8 - 2.2 13.2 1 3.2. 13.2 1 3.1 1 3.0 1 2.9 1 2.6 1 2.3, 1 i 2.3 - 2.7 1 1 3.7 1.3.6 1 3.5. 1 3.3 1 3.0 1 2.8 1 2.2 1 i 2.8 - 3.2. 14.3 1, 4.3 1 4%,1 1 3.8 1 3.6 1 3.3 1 3.0 1 2.3 i 1 3.3' - 3.7 1 4.8 14.7 14.4 1 4.1 1 3.8 ( 3.4 1 3.1 1 2.4 1 1 3.8 - 4.2 1 5.2 1 5.0 :1 4.7 1 4.3 1 4.1 1 3.6 1 3.2 1 2.5 1 1 4.3 - 4.7 1 5.6. 1.5.3 •1 5.0 1.4.6 1 4.3 1 3.7 1 3.3 1 2.6 1 1 4.8 - ..5.5 1.5.9 1 5.6 15.2 1 4.8 1 4.4 1 3.8 1 3.5 1 2.6 1 7.• Ov 1 19.Q,;i! 1 6 1.6.1 1 7.3 1 I 6.4 1 5.5 5.9 1 5.0 1 5.3 .1 ' 4.7 I 5.0 1 4.1 1 1 4.4 1 3.6 4.0 1 2.8 1 1 3.1 1 1 9.1 - 12.0 .1 1 6.8 1 6.1 1 5.6 I. 5.2 1 4.7 1 4.3 1 3.4 1 1 12.1 - 17.0 1 8.2. 1 7.1 1 6.4 1 5.8 '1 3.5 1 5:1 1 4.7 1 4.0 1 1 17.1-- 22.5 .1 8.5 1 7.6 1 6.9 1 6.4' 1 6.1 1 5.7 `1 5.3 1 4.7 1 1 22.6 - 27.5 18.7 1 7.9 1 7.2 1 6.8 .1 6.4 1 6.0 'i 5.8 1 5.2 1 27.6 - 35.0 1 8.9 1 8.1 1 7.4 1 7.1 1 6.8 16.4 1 6.1 1 5.7 i I 35.1 up 1 19.2 1 I I 8.3 17.8 I 17.4 i 1 7.2 I 1 7.0 16•.8 i i 1 6.4 1 I 1 C-49 ECM 15 89 :t. Determine the exposed surface area of the mass and enter it on line a and on line 14 of the checklist adjacent to its corresponding HC and R values. Mlultiply the factoc times the area and enter the result. on line a. Do the same for other mass types on lines b through d. Add lines a through d together and enter the sum in the appropriate place on line e. Enter the floor area from "total floor area 1 of the Compliance Checklist in the appropriate place on line e. Perform the required calculation and enter the result as "Total Thermal Mass Capacity." Using this total, find the corres- ponding point value in Table 3-14e and enter it in the "Points" column on line 14 of the checklist. Section 4 WALL must also be used J n conjunction with exterior mass walls. There is no minimum R - value requirement for mass walls. Table 3-14e. Thermal Mass Points Total Mass Capacity I' I in Btu/°F per sq ft I Points of floor I area I I ' 0 - 0.1 I 0 0:2 - 0.4. I F2 0.5 - 0.7. I 1-4 _'5.8 - 6.2 I �'_ _•.1.4 .1-$' i.2 I I 1..5 - 1.7 I 1-10 1.8 - 2.1 I 1-12 I' 2.2 - 2.5 I 1-14 i� 2.6 - 2.8 I F16 2.9 - 3.1 I X18 3.2 - 3.5 I 1-20 I 3.6 - 4.0 I 1-22 I 4.1 - I 4.4 I I 1-24 I I • 'i " C-4 9 ECM 15 x ` = a Exposed Mass Factor 1 Area of Type 1 x b Exposed Mass Factor 2 Area -of Type 2 x • = c Exposed Mass Factor 3 Area of . Type 3: x d Exposed Mass. Factor 4 Area of Type 4 =e (a}btct-d) Floor Total Area Mass Capacity Table 3-14e. (Continued) I Total Mass Capacity I in Btu/°F per sq.ft I Points of floor I area, I I 4.5 - 4.8 I 1-26 I 4.9 - 5.2 I 1-28 i 5.3 - 5.7 I F30' _'5.8 - 6.2 I F32 6.3 - 6.7 I 1-34 6.8 - 7.2 I 1-36 7.3 - 7.8 I 1-38 7.9 - 8.4 I 1-40 8.5 - 9.2 I F42 9.3 - 9.9 I N+4 10.0 - 10.8 I F46 I 10.9 - 11.8 I F48 I 11.9 - 12.8 I 1-50 I 12.9 - 14.0 I 1-52 14.1 - 15.2 ( 1-5+ I 15.3 - 16.6 I 1-56 I I' 16.7 - 18.1 I 1-58 I 18.2 - 19.7 I 1-60 I 19.8 - 21.2 I F62 21.3 - 22.7 I 1-64 I 22.8 up I F66 91 .. .......1r .•.•._. .... v.•�.. a.a..t.....r.. r. ......:.• ' ..�.•;H ..�5 , 17. GAS FURNACE WITH REFRIGERATION COOLING Using the gas furnace SE and the refrigeration .cooling SEER shown on line 17 of. the Compliance Checklist, find the corresponding total point value from Table 3-17. Enter 'this value in the "Points" column on line 17 of the check— list. If no gas• furnace with refrigeration cooling is proposed, enter. zero (0) in the "Points" column and write "NA" in the'- places he'places on line 17.marked "SE" and "SEER". The points in this table represent a total of both cooling and heating benefits associated with improved SEERs and SEs.. . Table 3-17. Gas Furnace with Refrigeration Cooling r 1 Refrigeration -I Gas Table 3-17. Gas Furnace with Refrigeration Cooling Points 1 Refrigeration -I Gas Furnace SE•% I I Cooling isor (SEER) 1 I I All 1 i 1 8.0 — 8.2 1 0 1 1 8.3 — 8.6 1 f-3 1 1 8.7 — 9.0 1 4.6 1 1 9.1 — 9.4 1 _9 1 I� — 9.8 1 4-12 1 ,9,.5 91-111-10- 4 n 1 10.4 4.18 1 1 11.0 — 11.5 I 4-21 1 1 11.6 — 12.2 1 f-24 1 1 12.3 — 12.9 1 F27 1 1 13.0=13.8 i 4.30, 1 13..9 up I I I 133 i I isor I �S 93 . rht a ..,.'a„•• C-49 ECM 15