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0845 (SFD)r__54�_ f' PERMIT APPLICATION City of La Ouinta Department of Building and Safety This permit becomes void if work not'commenced within 180 days from date of issuance, OR, if work has been suspended or'abandoned for a period of 180 days. CERTIFICATE OF EXEMPTION FROM WORKERS' COMPENSATION'INSURANCE� This section need not be completed if LICENSED CONTRACTORS DECLARATION: I hereby affirm that I am licensed under provisions of Chapter 9 the permit is for one hundred ($100) o. less.) certify that.in the performance of the work for which this' permit is (commencing with Section 7000) of Division 3 of the Business and Professions Code, and my license is in full force issued, I shall not employ any person in any manner so as to become subject to the Workers' Compensation Laws of and effect. California zi ;•,�2 dQ,Clrr License Class. Lic. Number _ Date y -J-Y Applicanta, , Date' Contractor OWNER -BUILDER DECLARATION: 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 requires the applicant for such permit to file a signed statement that he is licensed pursuant to the provisions of the Contractor's License Law (Chapter.9 (commencing with section 7000) of Division 3 of the Business and ProfessiohsCode)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 subjects the applicant to a civil penalty of not more than five hundred dollars (5500.): 'let. as owner of the properly, or my employees with wages as their sole compensation, will do the work, and the structure is: not intended or offered for sale (Sec.'7044, Business and 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, provided that such improvements are not intended or offered for sale. If, however, the building or i mprovemnt is sold within one year of completion, the owner -builder will have the burden of proving that he did not build or•.improve for the purpose of sale.). 0 1, as owner of the properly: am exculsively contracting with licensed contractors to construct the project (Sec. 7044. Business and Professions Code: The Contractor's License'Law does not apply to an owner of property who •' builQs or improves thereon, and who contracts for such projects with a contractors) licensed pursuant to the Contractor's License Law.). •.0 1 am exempt under Sec. B. 8 P.C. (Attached. Certificate).' or WORKERS' COMPENSATION DECLARATION: I hereby affirm that I have a certificate of consent to sell -insure, or a certificate of Workers' Compensation Insurance . or a certified copy thereof (Sec. 3800.'Lab. C.). Policy No. Company ' O Certified copy is hereby furnished. -O Certified copy is filed with'the-City Building Inspection Department or City Department'. Date Applicant APPLICANT NAME (L. F. MI PFNDLE H. 4, ADDRESS 84--591---V44-4944405A AVE. CITY/COMMUNITY/STATE/ZIP CoAci4E41./i CA 92236 JOB SITE ADORESS/SPACE 77-,8;Io CALLE EnISENAbA CITY/COMMUNITY/STATE/ZIP I -A OWWrA , CA 92253 BOK 773 PAG 27! PRC W4- C TWN ' RNG SE S TRACTd4" k LOT1111 MEAN MOD SB •. 99 PROP 10EV. SOO.100 RECEI.V,E TRACT NAME ' S/4VTA CARMCIJfA AT'vALE LA 0(A v A M) - /f DSAM15 L.F. 14FP41CA^%7- CONTRACTOWFIRM NAME ' ow�rlER- ,(3u1t.D ER ADDRESS�. SAME AS A801i CITY/COMMUNITY/STATE/ZIP •. ' SAME AS ABOVE PH39852&7 9`% -06 Llc:WIA ARC/ENG FIRM NAME ADDRESS CITY/COMMUNITY/STATE/ZIP PHONE • LICNC F - USE OF PERMIT �� 5710/6/E FAMtt y Dt,JEt4114Cr W. A-MACF>�GAi2a D GE BLo", FSB • i�Ana /SSB SS% 5• 0o OFC ZONE ORD .: LOT S2 oD END . SIDE NOTICE TO APPLICANT: If.'after making this Certiticate of Exemption, you should become sub) ct to the Workers - Compensation provisions of the Labor Code, you must forthwith comply with such provisions or this permit shall be deemed revoked. /DIVISION OF INDUSTRIAL SAFETY PERMIT CERTIFICATION: 1Z I hereby certif y that no excavation five (5) or more feet in depth into which a person is required to descend, will be made in connection with work authorized by this permit, and that no building structure, scaffolding, falsework, or demolition or dismantling thereof. will be more than thirty-six (36) feet high. (Chap 3.2, Grp 2, Art 2, Sec 341, Title B, C'0A.C.) vO As owner -builder, I will not employ anyone tofdo work which would require a permit from the Division of - Industrial Safety, as�noted above, unless such person has a permit to do such work from that division. ❑ Division of Industrial Safety Permit No. C - `r Date � 4' - y � ' Applicant( ✓CONSTRUCTION LENDING AGENCY: I hereby affirm' hat there is a construction lending agencyfor the performance of the work -forwhich this•permit is issued (Sec. 3097, Civ. C.). % p Lender's Name I [f 1�� f%�� aa+ 7� r �J`7X k �'r• D�6 >` Lender's Address /�-1 r •-�' • ne �� I certify that I have read this application and state that the above information is correct. I agree to comply with all city and county ordinances and state laws relating to building construction, and hereby authorize representatives of this county to enter upon the above-mentioned property'for inspection purposes. Signature- f Applicant or Agent ' Date ✓CERTIFICATE OF COMPLIANCE AND AUTHORIZATION OF ENTRY: I certify I have read this application and state that " the information given is correct. I agree to comply with all state laws and county ordinances relating to bufdling . construction, and authorize a'representative of the City of La Ouinta Department of Building and Safety to enter upon the property for which I have applied for this permit for the purpose of making inspections. (r Signature of Applicant or Agent Date Print Applicant /Agent Name a APPLIPRMT}. l 8 4 S 1-11 1 E U 5—F-11) T F r. 1. Til CGWSTRrXCT A114E -SX)i THREE /BE4a1a0M, /30`7 SQ. Fr. S/NC:LE A,4A-114V D y44t_i U4- WI r>/ A rrA crl EJ *60-s' Fr. CAaAGC- -AS /Cep- A&I20VE0 114;4^1 .111v10 1114L AA041 r.4101 -r- Co45 A�••10 a/�-vi�vANc�'� ec�..»sre, 337, coo ELEc • Z9 7$ ar MEAN 23.50 x.73 PROP 10EV. SOO.100 RECEI.V,E 9 04 city Of La.0t lanta TOTAL FEE 9`% -06 VALUATL,ON 6 , 202 NO. OPERATION DATE INSPECTOR NO. OPERATION DATE INSPECTOR BUILDING APPROVALS MECHANICAL APPROVALS 1 Set Back •33 Ventilation System 2 Ftgs & Frms 34 Plenums & Ducts $ 2A Slab Grade i 35 Furnace Compact. 3 Steel 36 Inlets & Outlets 4 Grout Blocks 37 Combustion Air 5 Bond Beams 38 Compressor 6 Roof Deck 8 39, Appl. Clearance 7 Framing 40 Fire Damper 8 Vents 41 Smoke Detection Device 9 ' Garage Fire Wall 42 Commercial Hood 10 Fireplace P.L. ❑ 43 Final 10A fireplace T.O.❑ NON ADDITIONAL INFORMATION �i �•i� D j n SEWAGE SYSTEM SIZE &.LOCATION 11 Exterior Lath 12 .Internal Lath 12A Drywall 13 Finish Grade INSULATION Thick Value 7A Walls (Batts) 126 Ceiling (Batts) 12C Ceiling (Blown) 14 Final PLUMBING APPROVALS 15 Ground Plumb % 16 Water Piping 17 Rough Plumb jf 18 Vents 19 Sewage Disposal 20 Sewer 21 Water Heater 22 Water Softener 23 Water Service 24 Gas Test 25 Final Tank Pit L. Line ELECTRIC APPROVALS REAR OF PROPERTY LINE p/L P/I STREET NAME 26 Power Pole 27 Conduit 28 Service Entrance 29 Wiring _. 29A Grounding Wire 29B Bonding 30 Fixtures 31 Service 32 Final Q'.r 3 dL3�{ ') % Vv J , Q.9 RECEIVED JU.id 2 1 4 SOIL TESTING, INC. INSPECTION • TESTING Post Office Box 418 • Palm Desert, California 92260 *..Phone (619) 340-9492 ALL REPORTS AR[ SUBMITTED AR TH[ CONFIDENTIAL PROPERTY O/ CLIENTS. AUTHORIZATION FOR PUBLICATION Or OUR REPORTS. CONCLUSIONS. OR EXTRACTS FROM OR REGARDING THEM 19 RESERVED PENDING OUR WRITTEN APPROVAL AS A MUTUAL PROTECTION TO CLIENTS. -THE PUSLIC AND OURSELVES. June 27, 1984 CVST 84047 Mr. Pendley 84 591 Villa Hermosa Coachella, California 92236 SUBJECT: Report of -In -Place Density Tests- 77 800 Ensenada La Quinita, California Gentlemen: In accordance with your request, this report has been prepared to present the results of the in-place density tests performed on the fill material at the subject site by C. V. Soil Testing, Inco These tests were performed on June 22, 1984 and June 26, 1984. AVAILABLE PLANS To assist in determining the locations and elevations of our field density tests and to define the general extent of the site grading for this phase of work, we were provided with a sketch by owner. FIELD TESTING Field density tests were performed by a representative of C. V. Soil Testing, Inc. upon completion of site grading. The density tests were taken according to A.S.T.M. Test 1556-74 and the location and results of those tests are shown on the attached plates. The locations and elevations of the in-situ tests were determined in accordance with their importance and the accuracy and proximity of the survey control provided by other than C. V. Soil Testing, Inc. representatives. Unless.otherwise noted, their locations and RECEIVED JUN 2 8 1984 -2- elevations were determined by pacing and hand level methods and should be considered.accurate only to the degree implied by the method used. LABORATORY TESTS A maximum dry density determination was performed on a representative sample of the soils used in the compacted fills according to A.S.T.M. Test 1557-78, Method A. This method specifies that a four (.4) inch diameter cylindrical mold of 1/30 cubic foot volume be used and that --the soil tested by placed in five (5) equal layers with each layer compacted by twenty-five (25) blows of a 10 pound hammer with a 18 inch drop. The results of these tests,as pre- sented on Plate Number 2, were used in conjunction with the field density tests to determine the percent of relative compaction of the compacted fill. This report covers only the work performed on June 22, 1984 and June 26, 1984. Our opinions presented herein are based on our obsdervations and the relative compaction tests results. Due to possible variations in the uniformity of compacted fills, we only warrant that our work was performed in accordance with the currently accepted standards of practice and in such a manner as to have reasonable certainty that the mass grading complies with the job requirements. No other warranty, express or implied is given or intended. If you should have any questions after reviewing this report, please do not hesitate to contact this office. This opportunity to be of professional service is sincerely appreciated. Respectfully submitted, C. V. SOIL TESTING, INC. WM.. H. FITCH R.C.E. JOB NAME pEN m RESIDENCE JOB NO, 84047 77 800 Ensenada, La Quinta, Ca.. RECEIVED JUN 2 3 ;._�r.. _.. ELEVATION OR MOISTURE DRY DEN. SOIL REL. COMA TEST NO. DATE LOCATION DEPTH OF TEST 0/0 Ibs /cu .f t• TYPE 0/e 1 6/22/84 SEE SKETCH -1.0' 17.6 87.4 104..6 X83.5 2 " " -0.5' 14.9 97.3 104.6 93.0 3 " " F.G. 13.6 100.9 104.6 96.4 4 6/26/84 Retest of #1 -1.0' 12.4 94.3 104.6 90.2 Soil Tvpe.No. 1 104.6 lbs. cu. ft. @ 12.8% Moisture iii FIVS- I RECEIVED JUN 2.6 Gt/ SOIL TESTING, INC. PENDLEY RESIDENCE 77 800 ENSENADA LA QUINITAI CA. Post Office Box 418 9 Palm Desert, California 92260 By DATE Density test G.K 6/22/84 JOB NO. 84047 NTS � I } 160 s �OJ►aTs . /41�.��-�sts .- (2uuwa� 2r�E t5 SFD IN �4�j�tilT� CA . CASE NO PP �/-0�(�{r=�Kmty FACES SCx.)TH `SX) M VNO AR-' OF- �C�� d v o o o COA-� �*__A7TW,, GAS 0-, EOL , W tm,- Lo/H `MAkDAm,/ STA1,lYaARpS— � F�TACHEO A�baCt�Wl l �tJ►.1u � --- (Z o 3O t ��o�-.b o� :. C�i�.�z� � -�— St u�►. �t,.�7pomy.1.4ii OUR- U --PR, AR,-- 140 '7'r-Tr�4C,� '9.Qct R -En HaxsF lF,xposEr_> eco Sly Tt+rao� COT- * v�� s sv�n ----- ��. i�' . CD�osperm COA-� �*__A7TW,, GAS 0-, EOL , W tm,- Lo/H `MAkDAm,/ STA1,lYaARpS— � F�TACHEO A�baCt�Wl l COMPLIANCE CHECKLIST For Low -Rise Residential Buildings (except hotels and motels) FORM 2 Step 1: Enter on the form the values for each measure from your buildinS..plan and specifications sheet. Step 2: Enter points on this page while working through the point system in Part 3. Building Shell Measure Points *Total Floor Area . . . . . . . . . .t2 I. Slib-on-Ground Perimeter �_ft; Depth _�in . R- --� 2. Bailed Floor R -Value . . . . . . . . . . . . . . .. R � 3. Ceiling Insulation or Construction Assembly, R -Value . . . . . . . . . . . . 4. Wall Insulation or Construction Assembly, R -Value Glazing Total Z Floor, Area Single Double Triple S. North -Facing . . . ft2 ft2 ft2 6. East -Facing . . . ft2 ft2 --ft2 7. South -Facing . . . ft2 ftZ ftZ -- 8. West -Facing . . . �ftZ ft2 ft2 9. Skylight ft2 ftZ . . . . . . 10. Shading Coefficient (exclude overhang) d a. East . . . . . . . . . . . . . . . N A SC . . b. South . . . . . . . . . . . . . SC . . . . . . .� c. West SC d. Skylight . . . . . . SC . . . . . . 11. Horizontal South Overhang Length.. ft . . 12. Movable Insulation, Z Floor Area . 13. Infiltration (indicate Standard or Tight) SrA�.lI�A.Rf� 14. Thermal `lass Exterior Wall Thermal :sass Area, Heat Capacity, R -Value . . ft2, HC, R - Interior Thermal :sass 2 Area, Heat Capacity, R -Value . . (300 f t, g �9 HC, R- • HVAC System** 13. Gas Furnace Without Refrigeration Cooling (Seasonal Efficiency) . . . . . . . . SE 16. Heat Pump (Energy Efficiency Ratio) . . . . . . . . EER 17. Gas Furnace with Refrigeration Cooling (Seasonal Efficiency (SE), Seasonalrc [o „ SEE O Energy Efficiency Ratio (SEER)) . SE �.� io. Active Solar (Set Solar :ractlan, Z) ZvSF 19. Zonally Controlled Electric Resistance Space Heating . . . . . . . . (Yes/No) Domestic Water Heating** A 20. Solar With Gas Backup (Net Solar Fraction, %).,.4 � . . ZNS 21. Other Water Heating (Describe type)Cr }� Point System Compliance Total (must be greater than or equal to < o a *Checklist icems; not a point system measure. **Attach documentation for efficiencies and YSF. C-49 EC1 13 75 phi cow��S A"Lom St'ANaaRp = — l ATnc. 7AAM of:r = t I. 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 iu ,the "Points" column of the. checklist. Note: If the proposed building has both a. slab and a raised floor, multiply the value on line 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-4 9 SCM 15 Table 3-1. Slab Floor Points 76 Insulated Slab: z — �a points length ! total, insulated length. Uninsulated Slab: b points length total uainsulated length. a + b c� I Insula- I R-Valua,'of,Insulation Depth,. , I inches I 0-2 13.4 "f`:'5-6 ' ( 71- 0 - 0- 11 14 I -4 I; -4 I -4 I I 12 - 15 I 16 - 19 I -r+ ', I -1 I -1 I .0 I 20 +- ( -4 ( I I -1 I . Q . I 0 I i I 76 Insulated Slab: z — �a points length ! total, insulated length. Uninsulated Slab: b points length total uainsulated length. a + b c� 3. CEILING Using the R -value of the ceiling.; insulation from line 3 of the Compliance Checklist, find the corresponding point value fr om 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. 78 C-4 9 EM 15 Table 3-3a. , Ceilinsr.Insulation Pts. I R --Value of Insulation I- -Points I I 19 I- -10 I I 22 I I 38 Ceiliu .Assembl Points I 49. I. o I I R Value of 'Assembly I E Table 3-3b. Ceiliu .Assembl Points I R Value of 'Assembly I I i (excluding air films). I Points I 19 - 20 I -12 I I 21 - 22 i -10 I 23 - 27 ( -8 I I 28 - 31 ( -6 I I 32 - 36 I -4 i I 37 - 38 I -2 I I 39 - 51 I 0 I I 52 - 75 (. 1-2 I I 76 I up i i K4 I I E 4. WALL Using the R -value of the insula- tion from line 4 of the Compliance Chacklist, find the corresponding point value from Table 3-4a and enter it in the "Points" column on line 4 of the checklist. or Using the R -value of the- wall construction assembly from line 4 Of the Compliance Checklist, find the corresponding point value from Table 3-4b and enter it in the "Points" column on line 4 of the checklist. if you have different levels of insulation, follow the third para- graph of the ceiling instructions, except that the average R value must be equivalent to having a minimum of 1-11 insulation uni- formly distributed over the wall if the wall has wood framing. 79 Table 3-4a. Wall Insulation Points I R -Value of. Insulation:., 1'. Points I 1 11 _ , . i46 Points I ,�... 19.i *10 24 i F2 I 37.0 - '69.0 I ►'6 I I 26.7-'- 36.9 I �4 I 20.2 - 26.6 I 1-2 I Table 3-4b. Wall Assembly Points I R Value of .-Assembly I I I (excluding air films) I Points I { 499 up i *10 70.0 -498'.O I #_8 I I 37.0 - '69.0 I ►'6 I I 26.7-'- 36.9 I �4 I 20.2 - 26.6 I 1-2 I I 15.7 - 20.1 ( 0 I I 13.4 - 15.6 I -2 I I 11.3 - 13.3 I -4 I I 9.8•- 11.2 I -6 I I 8.8 - 9.7 I -8 I i 7.7 - 8.7 { -10 I 7.0 - 7.6 I -12 I I 6.4 - 6.9 I -14 I I 5•.8 - 6.3-L6 - I I 5.3 - 5.7 I -18 I 1 4.9•- 5.2 I -20 1 4.5 - 4.8 I -22 { 4.2 - 4.4 { -24 { I 3.9 - 4.1 I -26 I I 3.6 - 3.8 I -28 I 3.4 - 3.5 I -30 I I 3.2 - 3.3 I -32 I 3.0 - 3.1 I -34 I I 2.8 - 2.9 { -36 I 2.7 { -38 I { 2.5 - 2.•6 I -40 I 2.4 I -42 I { 2.3 I -44 I 2.2 I -46 { I 2.1 ( -48 I I 2.0 I -50 1.9 I I I -52 I S. GLAZING, NORTH -FACING Using the total aorth-facing; glazing percentage from line S of the Compliance Checklist, find the. corresponding point values for each glazing t7Pe 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. :text, 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 S of the Checklist. Be sure to use the total north- facing orth-facing percentage instead 'of the individual percentages for each. type of glazing in a given orientation. 80 C-4 9 EC.4 13 Table 3-5. North-Facinst Glazing Pts I Total I Glazing Type I I 2 of I i Floor Sagl,; Dbl, Trpl, I' Area I U- :I U- I U- I I 10.66 :1 0.42— 10.41 I 11.10 10.65 I down I up to 1.1 I K+ I 04 I 1-4 I I 1.2- 2.2 I 1'2 I 1-2 I 1-3 I I 2.3— 3:4 1 0 i 4• I +-1 I 1 3.5- 4.8 I -3 I -2 1 -1 1 4.9- 6.0 I I -4 I -3 I 6.1- 7.4 I -8 I -6 I -S I I 7.5- 8.7 I- I -8 I -7 I 1 8.8- 9.9 { -12 { -10 I -8 I 110.0-11.3 I -15 .I 712 I -LO I 111.4-12.5 I -17 :-I -14 I -12 I 112.6-13.4 I -20 I -16 I -14 { I 13.5-15.0 i -22 :' I.-18 . I -11 I First Type (indicate Sngl, Dbl, or TrpJ) z a a points area total first area Second. Type (indicate Sagl, Dbl, or Trpl) z ='b points area total second area a +- b - c r--- g If there is no aorch-faciag glaziag, enter 11 on line c and line S. 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 - t7" indicated on the checklist. Sett, eater 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. C-49 EC.% 15 Table 3-6. East -Facia "Glazin .Pts. 1. Total I Glazing 'Type I % of I Floor I Sagl, I Dbl, I Trp -17, I Area I U- .'I.U- III - I 1 0.66- 1.0.42- 1 0.41 1 I 1 1.10 1.0.65 1 down I 1 -up to 1.5 1 t-3 '{ w 1 w 1 1 1.6- 2.3 1 'K I 1-2 1 1-3 1 1 2.4- 3.4 1 -1 1 0 I *1 1 3.5- 4.3 1 -3 i -2 I 0 1 1 4.4- 5'.4 I -6 I -4' I -2 I 1 5.5- 6.3 I -8 I -6 I.-4 I 1 6.4- 7.3 I -11 - .I -8 I -6 I 1 7.4- 8.4 i -12 ;I -10 I -8 I I 8.5 9.4 :I -lb i -12, I -10 I i 9.5-10.4- ( -18`'; I'..-14 I -12 I I 10.5-11.8 I. '22 },.I ,: -17 i -15 1 11.9-13.5I -25 ;' I -20' I 18 0 .. I 13.6-15. I. -2 9 I ` -23 I -20 1 First Type (indicate Sngl, Dbl, or,Trpl) s a points area total f it s t ar ea Second Type (indica.te Sagl, Dbl, or Trpl) x - b s� points. area total second area % a f- b - c +7_ If there is no east -facing glazing, enter )-7 on line.c and line 6. 4 7. GLAZING, SOUTH -FACING Using the total south -facing:, glazing percentage from line 7 of'' the Compliance Checklist, find the corresponding point values for eachglazing type to be used (single, double, and/or trample) in Table 3-7. Enter these values on the appropriate lines below. On the adjacent lines, enter the square footage of each glazing,. t7Pe indicated on the checklist. Next, enter the total squire 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 t7pe of glazing in a given orientation. < C-49 ECJ 15 Table 1-7.. South -Facia .:~.Glizin . Pts Total' { Glazing T7Pe { i Z of I j Floor Sngl,.I Dbl, I Trp -17, I Area Io- IQ - IU - I I 10.66- 1 0:42- 1 0.42 I I 11.10 1-0-65 .1 down I I I 1.3 down 1 1-2 {' I . 1-2 I 1-2. i I 1.4- 3.4 I -1. I 0 1 _0 I I 3.5- 5.4 I _ I -2 I -2 5.5- 7.3 ( -6 I -4' l -3 I I 7.4- 9.1. I - I -6 i -5 i 9.2-10.8 1 -12 ( -8 1 -7 I 110.9-13.3 I -16 I -11 I -10 I 113.4-15.7 { -20 i -14 .) -12 1 I I I I i First Type (indicate Sngl, Dbl, or Trpl)!: x a points area total. first area Second Type (indicate Sagl, Dbl, or Trpl)_-: x — b i points area total second area a Fb - c —& If there is no south -facing glazing, enter +-3 on line c and line 7. 82 S. GLAZING, WEST -FACING Using . the total vest -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 arch glazing type indicated on the checklist. Neat, enter the total squara,foot- age of all vest -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 "FOints" 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. 13 Table 3-8. West-FacinaL Glazinst Pts. First Type (indicate Sagl, Dbl, or Trpl) z - a points ar as to cal first area Second Type (indicate Sngl, Dbl, or Trpl) a - ••b. points area total second area a 1•b•c If there is no vest -facing glazing, enter +-10 on line c and line 8. 83 I ( Total ( Glaziag,,Type z. of . I { Floor Sagl,.. I Dbl, I Trpl, I Ar as I U. "I U- I U- 1 10.66- 1 0,.42- 1,0.41 1 ( I 1'.10 I ' 0.65 I down ( up to 1.0 (. 1.8 ( 1-8 ( :.8 ( 1.1- 1.6 .I f6 I 1.6 I , W ( ' I 1.7- 2.3 I 1.3 :i,,�l +4 { 1.5 1 I 2.4- 2.9 I 1.1 I 1.2 I 1.3 . I 1 3.0- 3.4 I. , i a 1 1.1 I I 3.5- 4.2 -2 I -1 I I 4.3- 4.8 I '. { ; -4 I -3 I f 4.9- 5.4 ( -9 ( -6 I -5 I 5.5- 6.1 I -12 I' -8 ( -7 I I 6.2- 6.7 { -14 { -10 I -9 { I 6.8- 7.3 I -16 I -12 I -10 I 7.4- 7.9 I -19 I -14 { -12 { 8.0- 8.5 I -21 I -16 I -14 I 8.6- 9.1 I .-24 •I -18 I -16 I I 9.2- 9.7 ( -26 ( -20 l -18 I 9.8-10.3 I -29 I -22 I -20 110.4-11.3 ( -32 { -25 I -22 { 111.4-12.0 {, -35 ':I -28 I -25 I First Type (indicate Sagl, Dbl, or Trpl) z - a points ar as to cal first area Second Type (indicate Sngl, Dbl, or Trpl) a - ••b. points area total second area a 1•b•c If there is no vest -facing glazing, enter +-10 on line c and line 8. 83 I 9. SKYLIGHTS Using the total skylight glazing. Table 3-9. Skylight Points percentage from line 9 of the __ N Compliance Checklist, find the • I Total I Glazing Type I corresponding point value for each ' I Z of I I glazing type to be used. ( single, I Floor Db , I Trp , double, and/or triple)in 'Table I Area 1-U ' - '+;I,:II:= I U - 1 3-9. Enter these values on the. I 10:66=;' I' 0;42= 10.41 I , appropriate lines below. ,On the,•..: I = I'!1a0 �` (' 0.:65 I down I adjacent lines, enter ths-squaraAI. I footage of each glazing t7Pe iudi- _1 I up to. 1.0 I .::-2 I, -2 I sated on the checklist. Neat, 1.611"_ -4 ;1 -4 I -4 I enter the square footage of i 1.7- 2.3 I -7 total all skylight glazing. Perform the' I 2.4- 2.9 I -9 ..I '-8'"I -7 I required calculation and enter the I 3.0- 3.4 •I -10 I -10 I. -9 results on their respective lines I 3.3- 4.2 1 -14 i -12 I -11 I a and b. Total lines a and b, and 1 4.3- 4.8.1 -17 r ..-14 I -13 enter the sum on line c below and I 4.9- 5.4 I -19 1 1-16 I -13 in the "Points" column on line 9 I 5.5- 6.1 I -22.1 -18 I -17 of the checklist. I 6.2- 6.7 I -24 I -20 I -19:1 I 6.8- 7.3 I -26 I -22 I -20 I 7.4- 7.9 I -29 I -24 I -22 i I 8.0- 8.5 I -31 I -26 ( -24 I 8.6- 9.1 I -34 ( -28 I -26 I I 9.2- 9.7 I -36 :I -30 I -28 I 9.8-10.3 I I -39 I I -32 I I I -30 I I • First T7Pe (indicate Sngl, Dbl, or Trpl) x "- a points area total first area Second Type (indicate Sagl, Dbl, or Trpl) x - -b points area total second as a I- b- c 0 If there isno skylight glazing, eater 0 on line a and line 9. 84 C-49 ECH 13 10., SEARING COEFFICIENT Locate the percent of total glazing to floor areas on lines 5, 6, 7, and -8 .of the Compliance Checklist and the Shading Coeffi- cient (SC) for the shading device, for each orientation shown below. Select Shading Coefficients that are for devices used with single glass.only from Table 1 in Part 2; ASEMAE EANDB00K OF FMAMENTALS; or manufacturers' data. Find*the corresponding point values from Table 3-10 and enter it in. the "Points" column on the corres- ponding lines 104, 10b, 10c, and 10d of the checklist. Please note this applies to all glazing orientations except north. If there is no glazing in 'an orientation, enter zero (0) in the "Points" column on the corres- ponding lines of the checklist. Table 3-10. Sbadina Coefficient Points East: S SC oi� Sc oI Net Sc glazing device 1 device•2 South: x x. '�_ SC of SC of SC of Net SC glazing device 1 device 2 Nest: z x .. SC of SC of Mic Net glazing device 1 device 2 Skylight: a x, . SC of SC of SC of Net SC glazing device 1 device,2 ,I 1 SC by j I SC by I ) J i orien- I Z Floor Area I Oriew- i Z Floor Area I 1 talion I 1 talion 1 I East10- 10.8-11.6-13.2-14.8-16.4-18.0-1 West 1 0- 10.8-11.6-13.2-14.8-16.4-18.0=1 10.7 11.5 13.1 14..7 16.3 17.9 19.6 1 10.7 11.513.1 14.7 16.3 17.9 19.6 1 07I i I I I I I t.I q.07 I i I I I I I. I. 1 0 - .15 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 - .15 1 0 1 0 1 0.1 0 1 0 1 0 1 0J. 1.16 - .32 I 0 1 -1 1 -1 1 -2 1 -3. 1,-4 I -5 1.16 - .30 1 0 1 0 1 -1 1 -2 ' 1,-3 1 -4 I -5 (, 1.33 - .49 1' 0 1 -1 1 -2 1 -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 1.50 - .68 1 0 1 -1 1 -3 1 -6 1 -9 1-12 1-15 1.47 - .62 •1 0 1 -1 1 4-3 I. -6 1 -9 1-12 1-15' 1 1.69 - .86 1 0 1 -2 1 -4 1 -8 1-12 1-16 I-20'1.63 - .79 1 0 1 -2 1 -4 .1 1-12 1-16 1-20 1 I .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 -10' -17 1-22 1-27 1 I I II I i I I I I I I I I I I South 10.1-1 1.6-1 3.2-1 4.8-1 6.4-1 8.0-1 Skylight 1 0- 10.4-10.8-11.6-12.4-13.2-14.0-1 I 11.5 1 3.1 1 4.7 1 6.3 1 7.9 19.6 1 10.3 10.7, 1.1.5 12.3 13 1 13.9 14.8 1' 10 -.151 01 01 01 01 01 010 -.151 01 •01 01 01;01 01 01 1.16 - .30 1 0 1 0 1 -1 1 -1 1 -2 1 -3'1.16 - .30 1 0 1 .0 ' I -1 1,-2 1 -3 1 -4 1 -5 1 1.31 - .46 1 0 1 -1 1 -2 1 -3 1 -4 1 -5 1.31 - .46 1 0 1 -1 1. -2 1-4 1 -6 1 -8 1-10 1 1.47 - .62 1 0 1 -1 1 -3 1 -4 1 -6 1 -7 1.47 - .62 1 0 1 -1 ['-3 1 -6 1 -9 1-12 1-15 1 1.63 - .79 1 0 1 -2 1 -4 I-8 1 -10 1,.63 - .79 1 0 1 -2 I: -4 1 -8 1-12 1-16 1-20 1 .80 up 1 0 1 -3 I -5 1(-8 -11 1 -14 1 .80 up 1 0 1 -2 1r-5 1-10 1-17 1-22 I-27 I l l I ( I I I I I F 'I I I I I 85 C-49 ZC:i 15 11. HORIZONTAL SOUTH OVERHANG . i Using the percent of south glazing Table 3-11. •Horizontals,'.South area to floor arca from line 7.overhan .Points of the Compliance Checklist, find I South',G azing the corresponding point value in I Length . Out • I ar`ei, . x•' of Floor I Table 3-11. Enter it in the ( from -Wall.. I I "Points" column on line 11 of the I ft checklist. ( ( 0-6;3' I. 6.4 up ( ,• _ . ( 2.0 - 3.9 _ I eo I 0 I ( 4.0. up ( 1-1 1-2 12. MOVABLE INSULATION Using the percent of floor area Table 3-12. -Movable'Zasulation from line 12 of the Compliance, Points Checklist, find the corres- ponding point value from Table ( Moveable Insulation 3-12. Eater this value:in the I area, Z of _Floor (. Points I. "Points" column on line 12 of the I I I checklist. .'All :I 0 A 86 C-49 ZCM 15 13. WMTRATION CONTROL 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 mesas caulking weather stripping, sealing, etc. as, described in Part 1, Mandatory Features and Devices. Tight means all the features in the standard control plus gaskets on electric outlet and switch bones in all exterior walls, 5pol y- ethelene sheets 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. 4ther� measures may be used for the 0.6• infiltration rate if ,justified with documentation and attached to" the checklist. However;the mechanical ventilation.vith.a heat exchanger must still be used. C-4 9 EC 4 15 Table 3-130'Infiltration ,Control Features 'Points I Control 14atures I Points I • l l I Standard 0.9 air changes per hr I i Tight I W I 10.6 air changes per hr. i I I 87 14. THERMAL MASS This section of the point systam applies to both exterior and interior thermal mass building elements because equivalent ther- mal mass factors have been deter- mined which are relative to their performance. Lines a, b, c, and d at theend of this section are used to calculate the thermal mass capacity, of different mass types. Determine the heat capacity (HC) and R -value of the mass element from Table 3-14a or 3-14b, or if the tables do not apply to the proposed mass type, calculate HC. and R using the equatiou.below.. Enter the two values in the appro- priate place on line 14 of the Compliance.Checklist. Table 3-14a. Masonry. or, Concrete ' Wall'>HC Btu/'F*-ft2• I Wall Weight, lb/ft2 1 HC I 1 10 - 13 I 2 I I 14 - 18 I 3 I 1 19-23 { 4 I I 24-28 I S I 29 - 32 I 6 I I 33 - 37 I 7 I I 38 - 47 I 8 I i 48-66• { 10 { 67 - 94 I 14 I . I 95 up I 20 I I I I Table 3-14b: Solid,., Wood Wall HC and R -Value I I. Wood Density, lb/ft3 I Average i I l Thick- 1 21 - '261'-17 = 31 2 - I nes$, I'Cedar I ' Dg. Fir I inches I Hem-Fir',I Hemlk.. ) So,.Pine �HC R I HCR HC/R 3 I 2/4.3 .I 3%3.6 1 3/3.1 I I 4 1 315.7 1 4/4.8 I 4/4.2 I I 5 1 3/7.1 I 4/6.0 I 5/5.2 I I 6 1 4/8.6 :I 5/7.2 I 6/6.3 I I 7 1 5/10.0 1 6/8.4 { 7/7.3 18- 9 1 6/11.4' I 7/9.6 I 8/8.3 I I 10 - 1117/14.3. I 9/11.9 I 11/10.4 I 12 up 18/17.1' 111/14.3 i 13/12.5 I 1 1 { 1 I HC and R Total Calculation: C D t HC .v r t R total Where: C - Specific heat in Btu/lb-'F D - density in lb/ft3 t - thickness in ft r - resistance per foot in hour-ft2-'F/Btu-ft C-4 9 ECS 15 88 Using the HC and S tactors deter- mined in the first step, determine the equivalent mass capacity fac- tor from .the appropriate Table 3- 14c or 3-14d, and enter it on line a, following, and line 14 of checklist. t � Table 3-14c. Mass Capacity Factors for Interior;Mass I I B -value of Interior Mass Element Eacludin Air Films I I Heat Caacity, 10.3 10.4- 1 0:8- 11.3- 1 1.8- A. 2.67 I. 4.1-,1 7.6 1 Btu/ ftr-'B 1 Down 10.7 1 1.2 1 1.7 1 2:5 4 : 4.0 1 •7.5 1 Up I 1.5 - 1.7 12.8 I 2.8 I 2.8 1 2.7 12.6 ..I 2.4:�s 1;2.3 : 1 1.9 1 . I 1.8 - 2.2 13.2 13.2 13.2 13.1 13.0 .1 2.9 1.2.6 12.1 I I 2.3 - 2.7 13.7 13.7 13.6 13.5 13.3 1 3.0 'I'2:8 1 2.2 1 I 2.8 - 3.2 14.3 14.3 14.1 1 3.8 13.6 1 3.3:,'.I 3.0 12.3 1 I 3.3 - 3.7 i 4.8 ) 4.7 1 4.4 1 4.1 1,3.8 1 3.4 1 3.1 .1 2.4 1 I 3.8 - 4.2 ( 5.2 15.0 14.7 1 4.3 1 4.1 1 3.6 1'3.2 1 2.5 1 4.3 - 4.7 15.6 15.3 15.0 14.6 1 4.3, 1 3.7, 1 3.3 1 2.6 1 I 4.8 - 5.5 15.9 1 5.6 1 5.2 1 4.8 1 4.4 1 3.8 13.5 1 2.6 1 5.6 - 7.016.1 15.5 15.0 1 4.7 1 4.1 13.6 1 2.8 1 I 7.1 - 9.0 7.3 1 6.4 1.5.9 1 5.3 1 5.0 1 4.4 1 4.0 1 3.1 1 9.1 - 12.0 16.8 16.1 ( 5.6 15:2 14.7 14.3 13.4 I 1 12.1 - 17.0 1 8.2 ) 7.1 1 6.4 1 5.8 1 5.5 15.1 14.7 ) 4.0 i I 17.1 - 22.5 18.5 1 7.6 16.9 16.4 1 6.1 15.7 ) 5.3 14.7 I 22.6 - 27.5 18.7 1 7.9 SI 7.2. ( 6.8 16.4 16.0 15.8 15.2 I I 27.6 - 35.0 ( 8.9 18.1 17.4 1 7.1 16.8 ( 6.4- 1 6.1 ) 5.7 I I 35.1 I up 19.2 18.3 I I 17.8 I 17.4 I 1 7.2 I 1 7.0 I 1 6.8 i 16.4 1 I I C-49 EC.I 13 I 89 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-= and R values. Multiply the factor 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 :Sass 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 in conjunction with ester' -.;r mass walls. There is no minimum R- value requirement for mass:walls. Table 3-14e. Thermal :lass Points I Total :lass Capacity I I I in Btu/'F per sq ft I Points I I of floor area 1 I I I I I 0- 0.1 i 0 I I 0.2 - 0.4 ( f2 I 0.5 - 0.7 I K4 I 0.8 - 1.1 I 1.6 I { 1.2 - 1.4 I 1.8 { 1.5 - 1.7 I 1-10 I 1.8 - 2.1 I 1-12 I I 2.2 - 2.5 i 1-14 I l I 2.6 - 2.8 I 1-16 I 2.9 - 3.1 I 1-18 I 1 3.2 - 3.5 I 1.20 I 3.6 - 4.0 ( 1-22 I 4.1 - I 4.4 I i 1-24 I I C-4 9 EC:S 15 x +a Exposed Mass Factor 1 Area . of Type 1 b Exposed Mass Fa -Mor 2 Area of Type:2 X. . • c Exposed Mass;'.Factor 33 Area of Type 3 z •d Exposed Mass Fact or 4�- Area of Type4 • e afbfcfd Floor Total Area Mass Capacity Table 3-14e. (Continued) I Total Nhas3 'Capacity I I I in. Btu/'F,.per sq It .I Points I of floor `area I I I 4.5 4.8 I 1.26 I I 4.9 '5.2. I 1-2$ I I 5.3 - 5.7 I 1.30 I 5.8 - 6.2 I 1.32 I 6.3 - •6.7 I 1.34 I 6.8 - 7.2 I I 7.3 - 7.8 - f38 7.9 - 8.4 I I 8.5 - 9.2 I f42 I 9.3 - 9.9 I K44 10.0 - 10.8 I f46 10.9 - 11.8 I K48 I . I 11.9 - 12.8 I 1-50 I 12.9 14.0 I 1.52 I I 14.1 -.15.2 I 1-54 I 15.3 - 16.6 1 1-56 16.7 - 18.1 I 1-58 I 18.2 - 19.7 i f60 i9.8 - 21.2 I 1.62 I 1 21.3 - 22.7 I 1.64 I 22.8 up' I' f66 I I I I 91 J ' � t 17. GAS FURNACE WITH REFRIGERATION COOLING Using the gas furnace SE and the. refrigeration cooling SEEK shown on line 17 of the Compliance Checklist, find the corresponding total point value from Table 3-17:' Enter this value in the 'point3" 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 -.4A" in the 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 S'772 and SEs. C-49 ECM 15 93 t. Table 3-17. ':Gas' Fouad with �Re'frigeratioa:Cooliag poiutsh I Refrigeration.{ Gas.Furnace SE % I I Cooling { (SEER) I All, { i f I I 8.0 - 8.2 0 I 8.3 - 8.6 i I 8.7 - 9.0 I }6 I 1 9.1 - 9.4' ! 1.9 I I 9.5 - 9.8 I +.12 I I 9.9 - 10.3 I 1-15 i I 10.4 - 10.9 I 1-18 I 11.0 - 11.5 I 1-21 I I 11.6 - 12.2 I 1-24 I i 12.3 - 12.9 1 f-27 I I 13.0 - 13.8 I 1-30 I 13.9 up I H3 { I I Z1. OTHER WATER HEATING SYSTEMS Using the water heating . system shown on line 21 of the Compliance Checklist; find the corresponding point value in Table 3-21. Enter this value in the "Points" column of the checklist on line 21. POINT SYSTEM COMPLIANCE TOTAL Table 3-21. Other Water-Heatinst Pts. I System Type- I' Points I 1 Gas only: I I I Heat Pump I' 0 I I Solar with Electric I I I Rasistaace-Backup � ; I I , I Meeting the Require= I I I ments in„Part .2 I' 0 I I Electric Resistance I I I only I -40 I 0 Sum the "Points" column of the Compliance Checklist and enter results. If the total is zero (0) or greater, the proposed building complies. kf the total is less than zero, levels of measures with more positive points or less.nega- tive points must be used. Be certain to meet the requirements. of Part 1, Mandatory Features and Devices. A building permit cannot be issued until the Part 1 requirements are also met. APPROXIMATE TOTAL. CONSU`4PTION (Space Conditioning and Water Heating) x - (a) kBtu/yr total per ft4 space total floor area conditioning budget Water Heating Bidget (b) kBtu/yr Total Budget (at -b) _ (c) kBtu/ yr x 0.5 x - (d) kB tui/ yr points total floor area approximate Total Consumption (c -d) - (e) kBtu/yr C-49 EC2% 15 W gera ld b. steel, SSEE. MSME. Pts. P.O. BOX 2369, RANCHO SANTA FE. CA 92067.1969. USA (619) 789-0014, SPECIALTY -POINT SYSTEM COST ANALYSIS'w ESFi I i I. E AS REE VISED 9-14-83 energy consultant and registered civil engineer STANDARD DESIGN POINT SCORES PER AB 163 ZONE 1 2 3 4 5 6 7 7 8 9 10 11 12 13 14 15 16 il 4 5 6 7 7 8 9 10 11 12 13 14 15 16 3 5 16 B U I L D I N 8 T Y P E RAISED FLOOR BUILDINGS SLAB-OH-SRIIDE BUILDINGS 1 STORY 2 STORIES 3 STORIES 1 S70RY 2 STORIES " 3 STORIES FOR MATED -OILY BUILDINGS _5A,B -5A,8 5A'B -3A'B -20,8 -22jA,8 -_jA, B, -15A . D _jA,B -15A.0 -13A -I3A -13A -10A -11A -11A -11A -3A -16A -16A -18A -10A -13A(VENTED) -13A(�YiENTED) -15A(ooVENTED BELOW) -8A -8A -12A_19At") BELOW) BELOW) _IjA-12A(�PEN) -17A,C -19A,C -21A(CPEN -21A•C _IOA.0 -IOA.0 -21A.0 -21A,C -23A.0 -14A,C -20A,C -209A -26A.0 -17A -11A ,C _3A,C -15A.0 OA.0 -13A'C -15A,C -13A'C -27A.0 -31A'C -31A'C -31A,C -28A.B.0 _27A,8,C _2o.B.0 _29A,B,C _25A,B.0 -3A -3A -3A 0 FOR AIR CONDITIONED BUILDINGS 5A,B 5A'8 -5A,B -3A.8 B, D jA, B, -_jA, B, _ SA . D D -15A.0 A ZONE A3 SEER ■ 9.5_IIA _ A -11A'0 -i'A•D -iIA,D �3A -16A ZONE 3 SEER - -16A 9.0 -18A -10A -13A(VENTEO) -13A(VENTED) -15A(VENTED BELOW) -8A -15A.CPEN) BELOW) -13A,C _15A.BPEN) _15A,C _17A.EPEN _17A,C _10A,C _6A,C -10'C -19A'C -21A.0 -12A.0 -16A -16A -16A -11A -3A .0 -13A'C _3A,C -15A.0 -5A,C -13A'C 0 -7A.0 -27A'C -27A'C -27A.0 -20A.8.0 -15A.8.0 -17A SIC -17A.B.0 -13A.8,C -3A.D -3A.D _3A.0 ' 0 7ONE 16 SEER ■ 8.5 -7A.B -194A -14A -14A -14A -16A, C _18A,C -20A.0 A 28A,C -13A.0 -32A.8,C _29A,8,C 0 -7A.8 -10 jAA -10 -14A -14A _jA,B _23A -11A -16A -13A -16A -14A -18A.0 _20A.0 _22A,C A -OA, C _15A.0 _3211 -BIC _Z, B, C -IA _jA,B _23A -IIA -16A -13A -16A -14A -16A.0 -18A.0 -14A•C -16A,C _18A,C _20A,C , -15A -17A 4A.0 -6A,C -13A.0 -15A.0 -24A.8,C _24A,B,C -17A,B,C _17A.8,C 0 _IA.O II ALTERNATE FOR BUILDINGS W I TH HEAT PUMPS ZONE 16 SEER ■ 8.3 -IIA.B.E-1IA.B.E-11A.8.E -13A'E -t3 E 3 NIN;.rEACOP - 2.8. MINIMUM EER ■ 9.5 _7A,E _7JOgE 5 MININNEACOP - 2.8. M-INJIM EER -_3�OE ZONE 16 MINIMUM ACOP - 2.8. MINIMUM' EER ■ 8.5 -5A.E A - TO USE THIS AB 163 POINT SCORE. AN ATTIC MUST BE INSTALLED OVER 70 OF THE EXT. OILING. -8 - TO USE THIS AB 163 POINT SCORE, ELEC. OUTLET GASKETS NUST BE INSTALLED�ON EXT. WALLS. C - TO USE THIS AB 163 POINT SCORE. TOTAL SHADING COEFFICIENT ON THE NORTH MUST BE 0.36. 0 - TO USE THIS AB 163 POINT SCORE WITH COOLING. MINIMUM COOLING EFFICIENCY IS SHOWN. E - TO USE THIS AS 163 POINT SCORE. A HEAT PUMP MUST BE INSTALLED WITH EFFICIENCY SHOWN. EXHIBIT PROCEDURE FOR ,MIXED RESIDENTII FOR BU 1 L01 NGS .WITH. MORE THAN ONE :BUILDING TYPE; AB A MU: PROCEDURE 1S TO INTERPOLATE.THE ABOVE P01NTS.�ACCOROING:16 WITH MORE THAN. ONE. BUILDING , TYPE. •;. MI;; EXAMPLE ° OF, .THIS ' I NTI PAGE 2 '-'. AS REV ISED. 9-14 A,y4..� ! SK`s eZ 1 V` Nk J ATIYE:` 0 tTt „AREA5 FdR ILATIONry PROCEDURE IS .GiVEN':'8E1:OK:�, , ..•.,�;-PO.,; _. , . m ': t -., . CONSIDER THE FOLLOWING HEATED—ONLY�BUILOING IN ZONE 9: r ,., 1, 't i;, t .. i� �+' ATTIC y r.t ." •' "Ira. 600 SQ FT LIVING i 400 SQ FT:LIVING' s '500 SQFTIIVING RA 1 SED FLOOR , RAI SED F100R'., 600 'SQ FT GARAGE 400 WTT LIVING ,:: ; SLAB—ON—GRADE .SLAB -ON -GRADE: THIS BUILDING HAS 800 SQ FT THAT IS CONSIOERED TWO STORY SLAB -ON -GRADE (-.18;,* AND. 1100 SQ FT (UPSTAIRS) THAT IS CONSIDERED ONE STORY RAISED FLOOR. (-1.7r's •,) ' ,; EK"ISIT E: PAGE 3 - AS REVISED 8-20-83 GBS E%NIBIT E: PAGE d - AS REVISED 6-20-83 G85 TABLE 1: GILCLATIPI OF AB 163 MINIMUM POINT SCORES IN ZONES 1. 2. 3 AND d TIDE 2t CALCULATION OF AB 163 MINIMUM POINT SCORES IN ZONES S. 6. 7 AMD 8 ZONE I ZONE 2 ZONE 3 ZONE t ZONE S ZONE 6 ZONE 7 ZONE 6 ITEM VALUE/POINTS VALUE/POINTS VALUE/POINTS VALUE/POINTS ITEM VALUE/POINTS VALUE/POINTS VALUE/POI VALUE/POINTS INSULATION RREO/ - RREO/ 30/ R-SOIREO/ A RREO/ INSULATION RpEO/ •� RREO/ A 3Of4NTS RREO/ a R0.E0/ i 211 ) CEILING "' 2) ATTIC • NORTH C•LAZING AREA Std/ -6 31 GLAZING AREA dfd/ 0 dfd/ -2 Sid/ -2 Sid/ -2 7) MORIN GLAZING AREA did/ -2 510/'-2 Sid/ -2 31101 -2 d) EAST GGL ZEIN AREA dtd/ 0 dfd/ -2 CAST Sid/ -2 Std/ -2 d) EAST GLAZING AREA did/ -2 SSD/ -2 Sid/ -2 Sid/ -1 3) GLAZING AREA dfd/ 0 dfd/ -2 Sid/ -2 Std/ -2 3) SOUTH GLAZING AREA lid/ -2 Sid/ -2 Sid/ -Z Sid/ -2 WESSOUT 6) NEST GLAZING AREA dfd/ 0 did/ -2 Std/ -2 Sid/ -2 61 WEST GLAZING AREA did/ -2 Sid/ -1 Sid/ -1 Std/ -6 71 EAST SHADING o.ee/ 0 0.86/ -1 0.86/ -1 0.66/ 0 ) EAST S-1 0. -2 7NARING O.BN 66/ OAS/ -2 0.36/ -1 B) SOUTH SHADING 0.66/ 0 0.66/ 0 0.66/ -1 0.66/ 0 61 SOUTH SNARING 0.88/ 0 0.66/ -1 0.66/ -1 0.36/ 9) NORTH SHADING - - - 9) NORTH SNARING - - - .0.36/ IO) SOUTH OVERHANG NONE/ 0 NONE/ -/ NDE/ -I NONE/ -I 10) SOUTH OVERNNIG HOME/ -1 NOME/ -2 NONE/ -2 NONE/ -1 III STNOMO INFILTRATION VES°/ -1 TES / 0 TES / 0 IES / 0 111 STANDARD IWILIGATION VES / 0 TES / 0 VES / 0 VES / 0 PER SLAB O GRADE OPTIOS IN AB 1631 PER SLAC O GRADE OPTIONS IN AB 1671 VES / 0 12) WALL INSULATION R-19/ 0 R -II/ -6 R -II/ -1 R-11/ -1 12) WALL INSULATION R-1 t/ -1 R -II/ -3 R -II/ 0 R -II/ -1 0) PERIMETER INSULATION R-0 / -0 R-0 / -S R-0 / -1 R-0 / -3 I3) PERIMETER INSULATION R-0 / -1 R-0 / -2 R-0 / -1 R-0 / -1 Id) WEST SHADING MIS/ 0 0.66/ -2 0.66/ 0 0.66/ 0 11) WEST SHADING 0.66/ -1 0.6/ 0 0.66/ -2 0.36/ 0 13) THERMAL MASS - 1 STORY UMC -1.5/ -6 UMCWI.6/-14 INC -1.6/-10 UMCW 1.3/ M 13) THEIMAL KISS - 1 S70RY UC -1.3/-1/ INC -1.6/-10 UC -1.6/-10 UMC -I.5/•12 THERMAL MASS - 2 STORY UNC -0.7/ •1 UC -0.8/ b UMR(>-0.8/ -6 UMC -0.8/ -1 THERMAL MASS - 2 STOGY UIG0.6/ b UC -0.S/ -6 UMC -0.0/ -/ UMC -0.8/ -6 THERMAL MASS - 3 S7OV UNC -0.3/ .2 UC -0.5/ -1 U>0.5/ H UC -O.5/ -2 IMER1Ml MASS - S -STORY URIC -0.3/ N UC -0.3/ -1 UC -0.3/ -d UC -0.3/ -1 16) GAS FURNACE EFFICIENCY 721 / 0 711 / 0 71% / 0- 711 / 0 16) GAS FURNACE EFFICIENCY 711 / 0 71% / 0 711 / 0 711 / 0 , 171 IF COOLING INSTALLED - 6.0 / 0 - 9.0 / 0 17) IF COOL INS. INSTALLED - 4.0 / 0 - 6.0 ! 0 OPTIONAL AS 163 POINT SCORE FOR BYI INS - MEATIPF HEATING COALING 1 OPTIONAL N tU POUR Smi[ FOR GUILpIIGf - IEATIP1 / IEATIIY IVIG FOR ONE STORY STRICTURES -3 / -3^•" -13 /-13� -S / -S^ -10 /-10^ FOR ONE STOUT Si1BIC7UFE -3 / -SA -10 /-10^ -6 / -4 -10 /-10^• 7 FOR TWO SNORT STRUCRRES -T / -7A•B -19 /-194 -9 / -9A -i1 /•IIA FOI Tb S7OIT f11111CRRES -9 / -9A -11 /•IIA -I1 /-IIA -16 /-16A•c FOR THREE STORY STRUCTURES -9 / -0A•6 -23 /-254 -11 /-If -li /-164 FO TWEE STONY STRICTURES -13 /-13A -16 /-164 -1/ /-IIA -10 /-Iv PER RAISED FLOOR OPTIONS IN N 1631 PS RAISED FLOOR O n*o IM N 1651 12) -ALL INSULATION R-19/ 0 R-11/ -0 R -II/ -d R -1t/ -1 12) WALL INSULATION R-11/ -1 R-11/ -3 R -II/ 0 R -II/ -1 13) RAISED FLOOR INSULATION A-19/ 0 R-19/ 0 R-19/ 0 R-19/ 0 13) RAISED FLOOR INSULATION A-19/ 0 R-19/ 0 R-19/ 0 9-19/ 0 14) WEST SHADING 0.86/ 0 0.66/ -2 0.66/ 0 0.66/ 0 111 WEST SHADING. 0. -1 0.361 0 0.6/ •O 0.361 0 16) THERMAL MASS - I STORY UC- 0 / 0 UC- 0 / 0 UMC- 0 / 0 UMC- 0 / 0 13) THERMAL MASS - i STORY UC- 0 / 0 UMC -0.3/ -Z UMC -Q.31 -2 UMC -0.3/ •2 THERMAL MASS - 2 STORY UMC- 0 / 0 UMC- 0 / 0 UNC- 0 / 0 UNC- 0 / 0 THERMAL MASS - 2 57CRY UMC- 0 / 0 UOO.L •2 UC -0.3/ .2 UC -0.2/ .2 THERMAL MASS - 3 STORY UC- 0 / 0 UC- 0 / 0 UMC- 0 / 0 UCW 0 / 0 THERMAL KISS - 3 STORY UM;- 0 / 0 UMC -O.1/ 0 UMC -0.I/ 0 UNC -0.1/ 0 MAC OPTIM MAC OPTIONS 16) GAS FURNACE EFFICIENCY 711 / 0 711 / 0 7" / -2 711 / 0 16) GAS FURNACE EFFICIENCY 791 / -i 711 / 0 '9.0 711 / 0 711 / 0 171 1F COOLING INSTALLED - 8.5 / 0 9.3 / 99.3 ! -2 171 IF GAOL1101ANSTALLED / 6.0 / 0 - 9.3 / -/ OPTIMALISCORE COMING FOR 57ORT7 POINTFd/LUIS^ ° FLOOR BUIL NIBS AIEAT110. `.0 t .POSFLOW @OIL 1G5 -IIEAT11q / IIEA191G INS RRES -13 /-It --99^C-0A. B.D -1FO1/RA' M66AA FOR 1110 I ' FOR TWO STORE STRUCTURES -S / -SA.B _a /_nA FOR THREE STORY S7RUCTIMS -5 / -SA-0 -21 /-Z2A -0 /_17 /-IIA -9 / -94.8.0 -13 /-11A STORY f7R!)CiIAES -It /-ItA•D -16 /-116 FOR THREE SIM SVA=UiS -11 /-IlA•O -16 /-16A -17 /-133^4 -13 /-49A -19 /-ISS^A•C -21 /-17A•C IEA NEAT PUMP EER 9.3 / E 767 NEAT PUMP EER 9.0 / E OPTIONALPOINT SCIORIEFOR RAISED il0a BUILDINGS - HEAT(I.�. 1.1EATING AID COOLING 163 WI' GLOW BUILDINGS -HEATING POSIWR'fIRESS IO A /HEATING AND COOLING FOR STORY Ss .FO FOG 1Y FOR TWO STORY STRIUCTURES -IIA.S.E FOR TWO STIW STRUCTURES-' -ISA-E FOR THREE S70RV STRUMURIES -IIA.B.E FOR I"=.STORY. STRUCTURES -13A•E - - TO USE THIS AB 163 POINT SCORE. N ATTIC MUST BE INSTALLED OVER 771 OF THE BIT. CEILING. A - TO USE THIS AB 163 POINT SCORE. N ATTIC MST BE INSTALLED OVER 751 OF THE DT. CEILING. 3 - TO USE THIS AB 163 POINT SCORE. ELEC. OUTLET GASKETS MUST BE INSTALLED ON EXT. WALLS. B - TO USE THIS AB 163 POINT SCORE. ELEC. OUTLET GASKETS ROT BE INSTALLED OR EXT. WALLS. C - TO USE THIS AS 163 POINT SCORE. TOTAL 94ADING COEFFICIENT ON THE MO D4 MUST BE 0.36. C - TO USE THIS AB 163 POINT SCORE. TOTAL SHADING COEFFICIENT ON 'THE NORTH MUST BE 0.36. 3 - TO USE THIS AS 163 POINT SCORE WITH COOLING. MINIMUM COOLING EFFICIENCY IS SHOWN. 0 - TO USE THIS AS 163 POINT SCORE WITH COXING. MINIMUM COMING EFFICIENCY 1$ 900. . - TO USE THIS AS 163 POINT SCORE. A HEAT PUMP MUST BE INSTALLED (ACOP - 2.8. EER SHOW). E - TO USE THIS 18 163 POINT SCORE. A MEAT PUMP MUST BE INSTALLED (ACOP - 2.8. EER SHOWN). EKMIBIT E: PAGE S - AS REVISED 8-20.03 ®S TABLE 3, CALCULATION OF AS 163 MINIMA POINT SONES IN ZONES 9. 10. 11 IIID 12 EXHIBIT IS: PAGE 6 - AS REVISED 8-20.83 7235 TAME I1 CALOLATI01 OF AB 163 MINIMA POINT Rrfl El IN ZONES 13. 14. 19 NO 16 PER SLAB O GRAM OPTIONS IN AB 1631 ZONE 9 ZONE 10 ZONE 11 ZONE 12 I)) QEQI ETER INSULATION R-0 / -3 I TEN VALUE/POINTS VALUE/POINTSVALUE/POIONTS 0.36/ 0 0.6/ 0 VALUE/POINTS ITEM INSULATION R A -3 1 A RRA RR CEILING INSULATION :) nI�NG RED/ 0 EO/ EO/ "' 1) ATTIC • NORTH C•LAZING AREA Std/ -6 Sid/ -2 dfd/ -2 did/ 0 3) NORM GLAZING AREA 11 EAS' ;LAZING AREA Sid/ -d Sid/ -d dfd/ -2 dfd/ -2 d) EAST GLAZING AREA -1 SOUTH GLAZING AREA Sid/ -d Sid/ -d dtd/ -249d/ -2 11 SOUTH GLAZING AREA 51 -EST GLAZING AREA Sid/ -5 Sid/ -6 did/ -2 dfd/ -2 6) WEST GLAZING AREA " EAST ;RACING 0.36/ •30 0.36/ 00 0.86/ -1 0.6/ •a2 7) EAST SHADING 9.7 / -6 E P 0.66/ -2 P -21M 11 "OPTH SHACING 0.361 0.36/ -9 / -SA-C 0.36/ 9) NORTH SHADING 10) SOUTH OVERNUG NONE/ -1 NOME/ -3 HONE/ -2 NOME/ -1 10) SOUTH OVERHAND ,1) STANDMC INFILTRATION YES / 0 VES / 0 VES / 0 YES / 0 . 11) STANDARD INFILTRATION PER SLAB O GRAM OPTIONS IN AB 1631 ZONE Id 12) WALL INSULATION R-11/ -3 R -I1/ -d R-11/ -7 R -I1/ -0 I)) QEQI ETER INSULATION R-0 / -3 R-0 / -3 R-0 / -5 R-0 / -5 141 •EST SHACING 0.6/ 0 0.36/ 0 0.6/ 0 0.36/ 0 ;31 IME7RMAL MASS - I STORY UAC -1.5/06 UC -1.7/-12 UMC -1.4/ •8 UWL-1.9/+1/ T.ERFMAL MASS - 2 STORY LAIC -0.8! •8 UMC -0.8! -6 UIC-0.7/ •d UMC -0.9! -6 THERMAL MASS - 3 STORY UC -0.7/ -6 UMC -0.3/ -d IAC -0.5/ •2 UC-0.6/ •1 :6l GAS FURNACE EFFICIEIC/ 711 / 0 711 / 0 711 / 0 791 / -2 17) IF COOLING INSTALLED 9.3 / 8.5 / •2 9.5 / M 9.5 / •1 -4 T SCORE FOR FOR OPTIONAL ONE STORY AS 153 POIM7RUCTRE3 10 / -6A-C SII`O�t4t:1 /-111 -14 /MEA OIFB Np�IINS FOR TWO STORY STRUCRAES -16 /-l1A•c -20 /-18A.0 -21 /-13A -0 / --4 FOR THREE STORY STRUCTURES -20 /-16A-C -22 /-20i1-C -23 /-17A -10 / -0-C PER RAISED FLOOR OTIOSE IN N 1631 0.36/ -d22 12) WALL INSULATION R -II/ -5 R -II/ -1 R-11/ -7 %-It/ -6 c 131 QAISEO FLOOR INSULATION R-19/ 0 R-19/ 0 R-19/ 0 R-19/ 0 141 WEST SHADING 0.36/ 0 0.6/ 0 0.36/ 0 0.36/ 0 '3) THERMAL MASS - I STORY UC -0.6/ 16 UFC -0.3/ -2 UMC- 0 / 0 (A".3/ -2 NERRMAL MASS - 2 STORY UFC -0.3/ •d IAC -0.2/ .2 IAC- 0 / 0 UMC -0. 1/ 0 3HEPIMAL MASS - S ST01T UMC -0,2/ •1 UMC -OLIN 0 UC- 0 / 0 UC -0.1/ 0 '61 GAS FURNACE EFFICIENCY 74S./ 0 711 / 0 711 l 0 791 / -2 171 IF COOLING INSTALLED 9.5 / -1 8.5 / •2 9.0 / N 9.7 / -6 ONAL Ad 163 IIAf 11RNT SCORE PL OBUt lD1tG3 AIEAT1 M� / 1EAT�IG-.T?MtG FORCIPTSID STOUT 17CilRES _NFO/M3 -21M FOR TWO S70RT STRUCTURES -19 /-13A•c -21 /-111A•c -A /-INiA -9 / -SA-C FOR THEE STOUT STIMICTIRES -21 /-17A-C -D /-21A•C -20 /-16A _9 / _SA.0 M USE THIS AB 161 POINT SCORE. N ATTIC MIST BE INSTALLED OVER 731 Of RHE EAT. CEILING. - 70 USE THIS Ae 163 POINT SCORE. CLEC. OUTLET GASKETS NIST BE INSTALLED ON EAT. WALLS. TO USE THIS AS 163 POINT SCOPE. 10Tµ SMAOINO COEFFICIENT ON THE NORTH MUST BE 0.35. TO USE 1-41S A6 163 POINT SCORE WITH COMING. NINHMm COOLING EFFICIENCY IS SHONN. • '0 USE THIS AS 163 POINT SLCAC, A "CAT PUMP SUIT BE INSTALL EO IACOP - 2.8. EER SHOWN). ZONE IS ZONE Id ZONE 13 ZONE 16 VALUE/POINTS VALUE/POINTS VALUE/POINTS VALUE/POINTS BRIO/ GRED/ SS/t BRED/ R RR36/ A EO/ dfd/ -2 1f4/ 0 did/ -2 dfd/ 0 • dfd/ -2 dfd/ 0 did/ -2 dfd/ -2 dfd/ -2 dfd/ 0 dfd/ -2 did/ 0 did/ -2 dfd/ 0 dfd/ -2 dfd/ 0 0.6/ -p3 0.36/ -d22 0.36/ -4 0.86/0.86/ -9 0 36f0.36/ -z 0.66/ 0 C G:36/ C 0.36/ MOVE/ -1 NONE/ -1 MOI -I NONE/ 0 YES / 0 VES /-1) YES, -1 YES / -7 PER SIC ON QUOS OPTIONS IN AB 1631 12) WALL INSULATION R-11/ -6 R -I I/ -1 R-1 1/ -0 R -II/ -8 13) PERIMETER INSULATION R-0 / -1 R-0 / -5 R-0 / -1 R-7 / 0 ldl WEST SHAD IND 0.36/ 0 0.6/ -d 0.36/ -1 0.68/ -f 15) THERMAL MASS - I STORY IM?1.6/02 UPC -1.4/ •8 UC -I.1/ 16. IMC -1.3/ •6 THERMAL MASS - 2 STONY UC -0.9/ -6 UNC -0.7/ -d UC -0.7/ -1 UNC -0.6/ -1 THERKAL MASS - 3 SNORT U160.6/ N UL5-0.5/ -1 UC -0.5/ -1 UC -0.7/ •2 MAC amOS 16) GAS FURNACE EFFICIENCY 719 / 0 711 / 0 711 / 0 791 / -a 17) IF COMING INSTALLED 6.0 / 0 9.3 / .0 9.5 /•121p / S�8..5 / OPTIONAL N 163 POINT SIDE FOR 51.1;T-QUO1E 6Ullp i- HE�113F. ina WNp�11G Tot ONE STORY S11NICtUEf -7 / - 26 /- S^ FOR TWO 37M STRUCTURES -13 /-13A•C -32 /-2IA•6•c -29 /-17A•B•C W1 / .IA.D FOR THESE STMT S7ACRRES -IS /-1-3A-c -32 /-2414-8-C-29 M7A.B.0 -1 / •IA.O 16) MEAT PUMP EER 3.5 / E OPTIMAL N 165 POUR S®t[ FOR YAB-OF•AtAM BUILDINGS - HEATING / HEATING-�7041NB FOR OIE S UMV STRWTUREi FOR TWO STONY STRU;IUM_3A.E FOR TIM STORY SIRUCRRES _SA.E PER RAISED ROOM OPTIONS IN N 1631 I1) WALL INSULATION R -II/ -6 R-19/ -7 R-11/ -0 R-19/ -6 13) RAISED FLOOR INSULATION R-19/ 0 A-19/ 0 R-19/ 0 R-19/ 0 Id) WEST SHADING 0.36/' 0 0.36/ -1 0.36/ -d 0.66/ -3 15) THERMAL MASS - I STOUT UMC -0.3/ •2 UNC' 0 / 0 IMC -0.3/ -2 UC- 0 / 0 THERMAL MASS - 2 STORY UMC -0.1/ 0 UTC- 0 / 0 UMC -0.1! 0 UMC. 0 / 0 THERMAL KLiS - 3 STORY UMC -O.1/ 0 UC- 0 / 0 UC -O- I / 0 UC- 0 / 0 MAC OPTIONS 16) GAS FUIUACE EFFICIENCY 713 / 0 711 / 0 Alt / 0 791 17) IF COOLING INSTALLED 0.0 / 0 8.8 / -1 9.5 /N2 6.5 / OPTIONIK AMP POLIIJIG FOR ONE 37M S7RUIC•11RES-NOR1-13" � COQ /)ICR-31 C �S :LECTINS). j•�ATiW _r. - FOR TWO STORY STRUCTURES -19 /-ISA•c -31 /-Z7A-C -29 /-17A.B.0 -7 / _33^A.0 FOR THREE 31011 STRUCTURES -U /-12A.0 -3E /-274-C -29 /-ITA•S•C -1 / 174.0 161 MEAT PUP EER 6.3 / E - OPTIONAL 16 IU POINT SM FOR RAISED FL0M BUILDINGS - HEATING / HATING NQ. foQMN0 FOR ALL-STRU:TNES 7^ he opaque portions of ceilings separating conditioned and unconditioned ~ pace muet either (1) be insulated between framing members: with R-19 r greater insulation, or (2) have a weighted average U -value of.0,067 r less. 4 o meet the intent of. the ceiling "insulation requirements,, ` ceiling-, nsulation should extend far enough to the outside walls" to cover the op plate. DOSE FILL INSULATION hen loose fill insulat' ion' is installed, the minimum installed weighted er square foot must conform with the insulation '. manufacturer's nstalled design density per, square foot at ,the manufacturer's labeled -value. ALL INSULATION '�2-5352(c) he opaque portions of metal or wood frame walls. separating conditioned nd unconditioned spaces must either {1) be irtstf'lated._between framing embers with R-11 or greater insulation, or (2) have a 'weighted average- -value of 0.100 or less. Masonry or concrete exterior walls do not ave to be insulated with a minimcim of R-11 insulation. oundation walls of heated basements- or heated crawl spates must be, nsulated above the adjacent outside ground line, with at.,. least R-7 nsulation. (FILTRATION CONTROL 2-5352(d), ie standards contain the following requirements to.. control. filtration. 1. Doors and windows (including skylights) between. conditioned and unconditioned spaces must be fully weatherstripped. 2. The following openings in the building envelope' must be caulked, sealed, or weatherstripped: a. Exterior joints around window and door frames, between, wall soleplates and floors, and between exterior -wall, siding panels; b. Openings for plumbing, electricity and gas-, lines in walls, ceilings and floars; C. Openings in the attic floor (such as where ceiling panels meet interior and exterior walls and masonry fireplaces); and d. All other such openings in the building envelope. 3. Builders may install manufactured doors and windows only when they are certified and labeled indicating that they meet the standards listed in Section 2-5352(d), Table 2-53V. ..Site - built windows and doors are exempt from this requirement. 4. Exhaust fans and other exhaust systems must be equipped with backdraft or automatic dampers. .sonny and factory -built fireplaces must have the following:. a. 'Tight -fitting, closeable metal or glass. doors covering the entire opening of the firebox. 'This' requirement:: -may- be .,• omitted if such doors would interfere with' devic:es`' such as:, heat tubes permanently installed in *the•fireplace;,.-..which: are. designed to increase the circulation of' -heat.. The;,fireplace;,' must be designed so that the doors can be closed: {when: ..the . fire is burning; b. A combustion air intake to draw air from,•.the,i outs de�f•;of the' building directly into the firebox, ,which.'.is ai,.least", 6 ,.square• inches in area and is equipped with. readily accessible,'oper able and tight -fitting damper; and C. Tight fitting flue damper with a readily.'accessible.control. tese requirements do not apply to fireplace inserts or free-standing. >ntinuous burning pilot lights and the- use of indoor - air. for cooling.a .rebox jacket, when that indoor air is.. vented to'' the:., outside -of the iilding, are prohibited.. However, gas logs without pilot. -lights and is log lighters are allowed. ,. ,POR BARRIERS 2-5352(e) Climate Zones 1, 14 and 16, a continuous vapor.bairier,'lipped 'or )int -sealed, must be installed on, the conditioned-space„side of.•aall isulation in all exterior walls, on the floor of'. unvented :attics, and.. 1 floors over unvented crawl spaces to protect insulation...from )ndensation. to standards define a vapor barrier as a material:with,oermeance.of.'one !rm or less. Products such as a continuous polyethylene, sheet, wall. )ard with foil backing, or paint or surface sealant: designed to act.. s a vapor barrier may meet this requirement. Check '•the product, for )mpliance. ITER HEATING SYSTEMS INSULATION 2-5352 (i) :orage-type water, heaters and storage ' and backup, tanks for, solaic ..water sating systems must be wrapped with -an insulation bianket.having an -value of at least 12. This R-12 blanket must be'installed in addition any insulation inside the outer tank jacket of manufactured water !aters. iis•.blanket requirement applies to storage tanks used primarily for mestic water heating systems. -It does not apply to storag'e•tanks used -imarily for space heating systems or to solar storage, tanks mounted itcoors and directly exposed to weather. .pin.3 in unconditioned space leading to and from water. heaters must be isulated with at least R-3 insulation for the first 5 feet..:of pipe .osest to the water heater, or whatever shorter length is in. .•uncondi .or:ec space. ;s not necessary to penetrate a fire wall with the pipe insslatior. ie Insulation may end at the fire wall and be continued on the* other ^a nrn—itiec9 the f i ret 5 feet of nininc aro ; ncil ataA SPACE CONDITIONING EQUIPMENT SIZING 2 -5352(g) - To ensure that properly -sized systems are installed in new.- residential' buildings, the standards set the following sizing_ requirements, and' specify acceptable load calculation procedures and indoor.:aad outdoor design temperatures. 1. Natural gas and liquefied petroleum gas central furnaces in. the building must be sized'to meet at least one of'the follow-' ing requirements: a. The total output heating capacity of furnaces in the building must be less than 45,000 btuh/hr, or. b. The furnace's output heating capacity must -be less than 1.3 times- the sum of the design heat loss for the heating: zone being serviced by the furnace and 10--btuh/hr.per square foot for conditioned floor area in the zone, or C. Seasonal efficiency must be greater than lt.point 'above 67% for every 7,000 btuh/hr that the output heating capa city exceeds either the building design, heat loss or 45,000 btuh/hr, whichever is greater. (Effective Decem- ber 22, 1982 the seasonal efficiency requir:ements.were to. increase to 71%. Lawsuits currently pending.) 2. Heating equipment and cooling equipment must be sized accord- ing to the building heating and cooling loads, using a method set forth by the Commission's Executive Director.:. 3. Indoor design dry bulb air temperatures must. ),.be 700 for, heating and 78o F for cooling. Outdoor, design `:.'temperatures, must be those listed in the 1% or 0.2% Winter.Dtr.Bulb column for heating and the 2.�% or 0.5% Summer Dry Bulb -and Wet Bulb columns for cooling, based on whether, the percentages are percent -of -season or percent -of -year respectively, of the following ASHRAE publications: Recommended Outdoor Design Temperatures, Northern California, 1977 Recommended Outdoor Design Temperatures, Southern California, 1972 GAS COOKING APPLIANCES 2-5352(1) Gas stoves installed in new residential buildings must be equipped with intermittent ignition devices and must not have standing pilot lights unless: ; 1. The stove is designed to burn only liquefied petroleum gas, or 2. The stove does not have an electrical line voltage supply connection and has only one continuous burning pilot light consuming less than 150 btu/hr. LIGHTING 2-5352(m) The standards require that general purpose lighting fixtures in kitchens and bathrooms have an efficiency of at least 25 lumens per watt. (These fixtures will usually be fluorescent.) If there is only one fixture in a kitchen or bathroom, it is considered general lighting. ,Stas., and steam -condensate return piping i .pipi.» in attics, garages, crawl spaces, or betwr!c� floors or in interior walls must be loss of not more than 50 btu/hr per linear inel t,iing 2 inch nominal diameter and 100 lame: - sizes. SETBACK THERMOSTATS Ind recirculating- hot- water unheated spaces other than insulated to provide maximum foot for piping up to and btu/hr per linear foot for' 2-5352 (h).. Thermostatically controlled heating or cooling systems, except electric heat pumps, gravity furnaces in additions or room air conditioners, must have an automatic setback thermostat which can be programmed by the building occupant to set back at least twice in one day. DUCTS 2-5352(f) The standards require that ducts be constructed, installed and insulated according to Chapter 10. of. the State Mechanical Code. This chapter is the same as Chapter 10 of the 1976 Uniform Mechanical Code. Insulation of Ducts Sec. 1005. Every supply and return air duct and plenum of a hating or cooling system shall be insulated with not less than the amount of insula- tion set forth in Table No. 10-D except for ducts and plenums used ex. clusively for evaporative cooling systems. Only approved materials shall be installed within ducts and plenums for insulating. sound deadening.or other purposes. All such materials shall have a mold. humidity and erosion resistant face that has met the re. quirements of U.M.C. Standard No. 10.1. Such materials shall have a flame -spread rating of not grater than 23 and a smoke developed rating of not greater than 30. Duct systems operating at velocities in excess of 2000 feet per minute shall be fastened with both adhesive and mechanical fasteners, and all exposed edges shall have adequate treatment to with. stand the operating velocity. Insulations applied to the exterior 'surface of metal ducts located in buildings shall have a (lame spread of not more than 25 and a smoke development rating of not more than SO when tested as a composite It installation. including insulation. facing materials. tapes and adhesives as normally applied. EXCEMON: Insulation having a flame -spread rating of not over 50 and a smoke development rating of not over 100 may be applied to the etttertor surface of metal ducts installed only In dwellings or apartment houses where the duct system serves not more than one dwelling unit. TABLE NO. 10.0—INSULATION OF DUCTS MITC: where JwI., are uta! Ism Wits IKaNrub ilial ..aitutn. Ilk* tanuraruttr in- aulanrtu alirll Ise a. tagiuieJ Itri the tnti.i re�ri.tnc:iiiuJitwn 'In.ula itm mal he aniutcal am that purunn u1 a Jw'1 .shah I. knitctl raiihut a wall tar a I1raat .eilinM %(We .herr hotwh .tele. LAI that, qw a ase c.pnaa) w %wrathnwted au and where thu spwe a nix vernil4ted w wherwlae c%puaed to utwouilur.triN au. 'Vadat harmer. %tall be ondulk-1 un :.wwlnMuk%l ate wgslt, Jwt% tat ttr,htrapltN, area..heir• nK alatalte ail law JuN. Ausu.I anal 1ayNvustia-i uwair J.•wp..iut ternparature cluxeda 60' h '14eatrna besser Days: zone I below .Stn U. D. Zone 11 4401 ►u wuu D. D. Zone III u.er 0001 D. D. INSULATION TYP": A. 1-4w•h wird lh. - ;u. 1t. aliiteral film Manley and tell. neck..L p %w Iola.. •tab 1.� to 31h..1v. 11. blas►a Jwt lint. 1OWL..lyt LAI Ilia.. •titch 3 las Id III.. va. 11. bard. mnncral fiber. rrta, slag tat on equivalent to pruvuk as ulutai esJ C'trridrr►tawc s U.4It R . 2 S. 2 -inch 0.60lh.rcu.It. mineral fiber blanket 1 -inch IJ to 3lb..cu. ft. mineral blanket hlwl lincri I •ityh 3 to 10lb. Iw. ft. mineral fiber btaard tar equivalent to pruvWe as in.talled C'ueidtrrtanec a u._4 R_ . 4 C'. )-inch 0.6010.�iv. tt. mineral liber blanlel 1 7i.trwh 1.3 to I lb./%:u. h. mineral blanket ldua linen I :•r•In.h I to 101b./,u. ft. mineral fiber hoard tat equivalent to pruvide an installed C ondwtame ar 0. to R V Vapur barner. with perm rating nut grcaier than 0.0A perm.. 411 lotm% %v.0. w Apnru.ed .c3therprutil battler INSULATION TYPIS MECHANICALLY HEATING INSULATION ryftS DUCT LOCATION COOLED ZONE HEATING ONLY I A and w 11 It and %k (In i sal or un ectcnut C. V • and w rat hudJul¢ • III ( 4uJ Vi 1 •\ II A Al Ilya, li:rrattC% and :I as, I A JIt.J V adores 111 It I A 11 A In walls', within 11trur• A and v• calol0 sJsa:ca• I III B Within thc:undimuncJ Num: I(ruutrcu Nunc i(cuuucd 1pa:e or In bawnwiii, l einem1140 tar _11n"' Nonc kvLjulrt•td rva,rrr 1(.gttnctl rruunal MITC: where JwI., are uta! Ism Wits IKaNrub ilial ..aitutn. Ilk* tanuraruttr in- aulanrtu alirll Ise a. tagiuieJ Itri the tnti.i re�ri.tnc:iiiuJitwn 'In.ula itm mal he aniutcal am that purunn u1 a Jw'1 .shah I. knitctl raiihut a wall tar a I1raat .eilinM %(We .herr hotwh .tele. LAI that, qw a ase c.pnaa) w %wrathnwted au and where thu spwe a nix vernil4ted w wherwlae c%puaed to utwouilur.triN au. 'Vadat harmer. %tall be ondulk-1 un :.wwlnMuk%l ate wgslt, Jwt% tat ttr,htrapltN, area..heir• nK alatalte ail law JuN. Ausu.I anal 1ayNvustia-i uwair J.•wp..iut ternparature cluxeda 60' h '14eatrna besser Days: zone I below .Stn U. D. Zone 11 4401 ►u wuu D. D. Zone III u.er 0001 D. D. INSULATION TYP": A. 1-4w•h wird lh. - ;u. 1t. aliiteral film Manley and tell. neck..L p %w Iola.. •tab 1.� to 31h..1v. 11. blas►a Jwt lint. 1OWL..lyt LAI Ilia.. •titch 3 las Id III.. va. 11. bard. mnncral fiber. rrta, slag tat on equivalent to pruvuk as ulutai esJ C'trridrr►tawc s U.4It R . 2 S. 2 -inch 0.60lh.rcu.It. mineral fiber blanket 1 -inch IJ to 3lb..cu. ft. mineral blanket hlwl lincri I •ityh 3 to 10lb. Iw. ft. mineral fiber btaard tar equivalent to pruvWe as in.talled C'ueidtrrtanec a u._4 R_ . 4 C'. )-inch 0.6010.�iv. tt. mineral liber blanlel 1 7i.trwh 1.3 to I lb./%:u. h. mineral blanket ldua linen I :•r•In.h I to 101b./,u. ft. mineral fiber hoard tat equivalent to pruvide an installed C ondwtame ar 0. to R V Vapur barner. with perm rating nut grcaier than 0.0A perm.. 411 lotm% %v.0. w Apnru.ed .c3therprutil battler The temperature setting levers ma,_. -.e locked in place by inserting two 4-40 x 1/4 inch (6.4 millimetres] self -tapping screws (not included, see Accessories section) in the holes shown in Fig. 10. The levers are locked in place when the screw' heads are against the plastic base of the thermostat. LOW TEMP. )BLUE) /HIGH TEMP. IREO) SET LEVER SET LEVER SCREW HOLES FOR ...... LOCKING LEVER SCREWS a5 55 65 7S 0 FIG. 12—TEMPERATURE SETTING. CLOCK SETTING Use the external clock set wheel on the bottom of the thermostat to set the clock and program dial to the cor- rect time. Turn the clock set wheel clockwise U to set. Do NOT set counterclockwise ,,� more than one hour. Restart clock if it stops. See page 8. Honeywell LO. TEM ERATVPE LEVE.I.LUE) u^NVTt P.OG qnM NO INDIC Atom N•ND LCOND ~ I µOVA 4 �KD a5 55 851 �5 B5 Honeywell PCO �� I '\TwERUOMETER Sl1 ,I I. I wJ TO OPC N COVE. LENS i WANVAL PPOGPAKI +cV NCE BVI ION FIG. 9—T8082A THERMOSTAT CONTROLS. The 12 -hour program dial reads 6 -NOON -6 on a light background for daytime hours, and 6-12.6 on a dark background for nighttime hours. When the clock is set to the correct time, the time indicator (Fig. 11) must point to the corresponding day (light) or night (dark) portion of the program dial. PROGRAM SETTING The program dial is a clock with 12 hour day -night scales for adjustable. program pins. The -program pins change thermostat control from one temperature lever to the other temperature lever at set times. The pins may be used in sets; such as, a blue low temperature or set- back pin followed by a red high temperature pin. The blue pin puts the blue temperature lever in control, the red pin puts the red temperature lever ip control. The pins can be located at half-hour intervals on the program dial, but there must be at least one hour between any 2 pins. The minimum setback or setup period is one hour. The programmer has been set at the factory to lower the. temperature at 10 P.M (blue pin), and to raise the temperature at 6 AM (red pin). The pins can be changed and additional setback periods added with the 2 extra sets of pins in the clock cover. To remove a pin, press against program dial and pull the pin straight out. To replace, push the pin into the selected notch until fully seated. Do not attempt to change a pin if it is engaged with the program index. When inserting the pins, use the 12 -hour clock scales around the program dial. Times for pin placement are the same as for clock setting, above. I FOR EXAMPLE A second setback period is desired starting at 8 AM and ending at 4:30 PM. To start the setback, a blue pin is inserted at the 8 on the light (day) part of the scale. To end the setback, a red pin is inserted in a notch between the 4 and 5 on the daytime scale. A window on the front of the thermostat tells which temperature lever is controlling the temperature. A blue circle indicates a blue pin has put the blue lever in con- trol. A red circle indicates the red pin has returned tem. perature control to the red lever. MANUAL PROGRAM ADVANCE BUTTON This button allows manually starting a program, or bypassing the next programmed temperature change by pressing the button in completely. If the button is fully depressed during temperature control by the blue lever, temperature control will change to the red temperature lever. Control -will remain with the red lever until the next blue program pin changes the temperature control, or the advance button is pressed again. I" DUOPAC °GAS/ELECTRIC UNIT Model 585B/YACI? Sizes 018050 THRU 060150 Sizes 024075, 030075, & 036075 with Optional Condenser. Coil Grille Guard Installed Model 585B/YACR Gas/Electric Units are compact, low - silhouette, fully self-contained, single -packaged combina- tion heating/cooling units designed to provide the per- formance and features for today's needs and for years to come. All units are engineered to meet or exceed all cur- rently known heating and cooling energy -efficiency stand- ards. All units are equipped with the energy-saving RE - LITE -type pilot that saves gas by operating only when the room thermostat "calls for heating." These units are furnished with natural gas controls. A field -installed low-cost, propane conversion kit is availa- ble for all units. Model 5856/YACR units have two A.G.A.-certified heating input ratings and are equipped with burner orifices that maintain unit heating operation at the lower rating. Field - installed burner orifices are available to provide a 20% higher optional heating input rating. These year-round air conditioners install easily on a rooftop or at ground level on a slab. Designed in four basic cabinets with side-by-side duct connections, the 585B/ YACR is available in ten nominal heating/cooling size combinations as shipped, and several voltage options. Ten additional nominal heating/cooling size combinations are obtainable with the field -installed burner orifices. FEATURES FACTORY -ASSEMBLED PACKAGE is prewired, pre - piped, and precharged for minimum field labor time and expense—simply connect power, gas, and ductwork. HIGH -STATIC, DIRECT -DRIVE BLOWER AND BALL- BEARING, MULTISPEED, PSC BLOWER MOTOR on sizes 036075 thru 060150 three-phase units, and high -cut - put, direct -drive blower and multispeed motor on all single-phase units, deliver heating and cooling airflows to meet most light commercial or residential requirements. TWO -SPEED, PSC CONDENSER FAN MOTOR on sizes 036075 thru 060150 three-phase units permits optional cooling operation down to 40OF outdoor temperature W� :n optional fan thermostat and compressor crankcase heatar are field -installed. RUGGED, EFFICIENT, HERMETIC COMPRESSORS are sealed against contamination to help promote longer life and dependable operation. All compressors have interr.;,l high-pressure and overcurrent protection. QUICK -START COMPONENTS on sizes 042100 thru 060150 single-phase units to provide quick -start of the compressor during low -voltage conditions. COMPUTER -DESIGNED EVAPORATOR AND CON- DENSER COILS to provide maximum heat transfer and cooling efficiency. TOP- DISCHARGE. CONDENSER FANS provide efficient operation—send both sound and hot condenser air up end away. WEATHERIZED CABINETS are constructed of heavy- duty, phosphated, zinc -coated steel finished with corro- sion -resistant, modified alkyd, fade -resistant, baked Malibu Beige enamel. Interior surfaces of the evaporator/ blower section Are insulated. ACCESSORIES EASILY INSTALLED OPTIONS are available to meet the particular requirements of a wide variety of applications. See the "Optional Equipment" section of the Specifica- tions Tables. A FULL LINE OF ROOFTOP SYSTEM ACCESSORIEN is available for field installation, including: plenums, curbs, plenum economizers, horizontal -type economizers, con- centric ducts, and diffuser boxes. See the "System Ac- cessories" Product Data Sheet (latest edition of FDS 900.10) for details. Day&Night Air Conditioning Indianapolis. Indiana City of Industry. Cafilomre POS 5938/YACR. 1 a 10 DIMENSIONAL DRAWING . DIMENSIONS (inches), , (� fj ELECTNCAL OiSCONAECT .. ',•r't=�" t hw BE MOUNTED ON c o is— a. a TOP rAGE NLLT � lO W I AN13 1 Ate.^•.. ,..:. O 0001E• I i . t'1.. `i, , rry. ,,1v «.ttr ��. _ .1 3 t wON-v0.TAOC CM SS i E F REAR VIEW Z t' LEFT -SIDE VIEW yGA T WLET FRONT E REOUIRED CLEARANCES (Inches) ., Top of unit .......................... 38 Blower access panel side ........... 30 Duct and of unit ..................... 6 Side opposite blower access panel .. 24 End opposite ducts .................. 30 Bottom of unit....................... 0 SHIPPING WEIGHTS, OPERATING WEIGHTS, & WEIGHT DISTRIBUTION s' Size Shipping 0— n9 comer Wt tib:) ' . Wt(lbs) A a t s OISM& OZ4050 44-17F =373 is 1 1-1 1 —r--irr 75 a 036075 44-5/8 40-3/8 19 10 1-3/8 13-1-4 8.7/8 86 jr 038125 21 CQ 8 048125 58.5/8 44-5/8 24 14 1-3/8 13-1/4 8-7/8 395 06012 X 050150 68-7/8 4475/8 2 10 1 4 1- 8 1 1/4 8- / 430 (� fj ELECTNCAL OiSCONAECT .. ',•r't=�" t hw BE MOUNTED ON c o is— a. a TOP rAGE NLLT � lO W I AN13 1 Ate.^•.. ,..:. O 0001E• I i . t'1.. `i, , rry. ,,1v «.ttr ��. _ .1 3 t wON-v0.TAOC CM SS i E F REAR VIEW Z t' LEFT -SIDE VIEW yGA T WLET FRONT E REOUIRED CLEARANCES (Inches) ., Top of unit .......................... 38 Blower access panel side ........... 30 Duct and of unit ..................... 6 Side opposite blower access panel .. 24 End opposite ducts .................. 30 Bottom of unit....................... 0 SHIPPING WEIGHTS, OPERATING WEIGHTS, & WEIGHT DISTRIBUTION s' Size Shipping 0— n9 comer EM . •��OR , •fit.•.:=•�• •` �' C TYPICAL INSTALLATIONS NOTES: insulated (and proper 1. Wiring and ductwork shown flashed at opening in wall are general guides only; they roof). are not intended for a specific 4. Electric power disconnect installation. field supplied. 2 All wiring must comply with 5. Base rails may be remov, local and national codee. when unit is installed on ca„ - 3. All outdoor ductwork must be trete pad. A 1 . m A7e21e A770a3 ATU+3.7 A?sW ' Wt tib:) ' . Wt(lbs) A a t s 18050 25 300 77 75 3 75 024050 330 305 86 83 66 70 024075 425 395 115 110 83 87 030075 430 400 116 111 84 89 036075 440 405 117 112 85 91 036125 510 465 132 126 101 1 042100 520 475 136 129 1 107 048125 535 490 150 143 101 060125 600 550 7_42--13-6 132 140 060150 615 565 144 138 1 7 146 EM . •��OR , •fit.•.:=•�• •` �' C TYPICAL INSTALLATIONS NOTES: insulated (and proper 1. Wiring and ductwork shown flashed at opening in wall are general guides only; they roof). are not intended for a specific 4. Electric power disconnect installation. field supplied. 2 All wiring must comply with 5. Base rails may be remov, local and national codee. when unit is installed on ca„ - 3. All outdoor ductwork must be trete pad. A 1 . m A7e21e A770a3 ATU+3.7 A?sW ' SPECIFICATIONS -MODEL 5858NACR-SIZES 018050 THRU 036125 MODEL 5838/ A R SIZE 018030 1 024050 1 024075 030073 1 038075 1 038125 SERIES A A A A A I A Unit Volts- Phase (60 Hertzi208-230-1 -230-1 208-230-1. 208-230-t 230-1 208-230-3 460-3 230-t 208230-3 OperatingVoltage Range 197-2537-253 197-253 197-253 207-253 197-253 414-506 207-253 197-253 Unit Ampacity or Wire izing 16.7 20.0 21.0 27.0 30.6 24.3 12.2 28 22.2 Minimum Wire Size (AWG)' 12 12 FI/5& 10 10 8 10 14 10 10 Total Unit Amps 14.2 17.2 17.6 22.6 25.6 21.6 10.4 23.8 19.2: Compr Rated Load Amps & LRA 10& 653 3 68 13 & 68 18 & 85 20& 102 12& 77 7 & 38.5 17 & 88 11.-8&-1'5 Fan Motor. DD. PSC HP&Speeds) ' 1/5311 1/431 1/481 1/481 1/3&2 1/382 1/381 1/3&2 Volts -Phase 60 Hertz 208/230-1 208/230-1 208/230-1 208/230-1 230-1 208/230-1 460-1 230-1 208/230-1 Full Load Amps 1.5 1.5 2.1 2.1 2.1 2.2 1 0.9 38 3.96 Blower Motor. 00.PSC. 1075 RPM HP 1/4 1/4 1/3 1/3 1/3 3/4 1/2 1/3 1 Volts -Phase 60 Hertz 208/230-1 208/230-1 208/230-1 208/230-1 230-1 208/230-1 460-1 230-1 1 208/230- t Full Load Amps 2.7 27 2.5 2.5 35 7.4 1 2.5 32 135 Max Branch Circuit Fuse Size (Amos) PERFORMANCE DATA 25 i 30 30 40 50 30 1 20 45 1 30 Rated Conlin apacity (Btuh)r 18.500 23,000 1 29.000 37,000 35,500 Total Power Consumption Watts); 2600 3200 4150 5300 4750 Heating Input as hipped Btuh 40.000 40.000 60,000 60,000 100,000 Htg Bonnet Cap. as Shipped Btuh 30.000 30.000 H45.000 45.000 45.000 75.000 Optional Heating Input tuh " 50,000 50,000 75400 75.000 125.000 Optional Bonnet Capacity tuh - 37,500 37,500 56.250 56.250 93.750 ARI Sound Rating Number' r COMPRESSOR. 19 19 19 19 1 20 f Compressor Type I Hermetic Hermetic Hermetic Hermetic Hermetic Hermetic Compr Temp & Overcurrent Protection Standard Standard Standard Standard Standard Compr Internal Press. Relief Valve Standard tandard Standard Standard tandard Compr Quick -Start omponents Optional Optional phonalOptional jStaEndard Not Applicable phonal Not Appl COMPROTEC" Optional phonal phonal phonal Optional R-22Refrigerant Amount INDOOREVAPORATOR & BLOWER 3lbs-4 oz 31b3-3 oz 31bs-4 oz 31bs-2 oz 3lbs-12o7 5lbs-0 oz Coil Face Area (Sq Ft 1.77 2.44 2.50 3.16 4.00 Height& Width In. 16x16 22x16 19x19 24x19 24x24 Rows 3Fins Per In. 3&14 3&14 3&13 3&14 3&14 Blower Wheel Dia x Width 10-5/8x6 10-5/8x6 10-5/8x6 110-5/8x8 d14 12x8 10-5/8x8 12x11 Bore In. 1/2 1/2 1/2 t/2 1/2 1/2 5/8 Nom Cooling Airflow Ft /Min /ESPt: 640/0.4 775/0.4 820/0.4 1 1280/0.4 1265/0.7 1275/0.4 t300/0.7 Htg Airflow Ft /Min) o, 60' T. R.•'• 465/580 465/580 695/870 6 695/870 1155/1445 Recommended Filter Size o In. - 225/280 225/280 335/420 335/420 335/420 555/695 Condensate Orain Connection CONDENSER & OUTDOOR FAN GROUP 3/aFP 3/4 FP 3/aFP 3/a FPT 3/4 FPT 3/4 FPT Coil Face Area Sa Ft 3.78 378 a.27 a.27 4.81 5.77 Height x Width In. 22x24.8 22x24.8 22x28 22x28 22x31.5. 26x32 Rows& Fins Per In. 2&20 2&20 2320 2320 3&20 3&20 Fan Diameter& Bore In. 17& 1/2 17& 1/2 20& 1/2 20& 1/2 20& 1/2 20& 1/2 STANDARD EGUIPMENT High -Static. Direct -Drive Blower Not Avail. Not Avail. Not Avail. Not Avail. I Optional Standard Optional I Standard Two -Speed, PSC Fan Motor' Optional Optional Optional Optional Optional Standard Optional I Standard Atmospheric Vent & Sirdscreen Standard Standard Standard Standard Standard Standard RELITE Gas -Saving Spark -I n Pilot Standard Standard Standard Standard Standard Standard High -Temperature Limit Switch Standard Standard Standard Standard Standard tandard Compressor Vibration Isolators Standard tandard 71andard Standard Standard Standard Refrigerant Gauge Ports Standard Standard tandard Standard Standard Standard Burner Observation Sight Window Standardtandard Standard Standard Standard Standard Removable Base Rails CONTROLS Standard tandard tandartl Standard I Standard I Standard GAS & GENERAL DATA Gas Controls Available Natural (Stannard) - Propane (Field -Installed Option)' " Gas Connection 1/2 FPT Gas Valve with Electronic Control SOP 646A -X Gas Shutoff OPTIONAL EOUIPMENT 4P/N'S) Combination Regulator/Shut-off Gas Valve Optional Heating Input Burner Orifices (Natural Gas) 2)55365-42 2)55365 42 (3)5 365-42 13)55365-42 13)55365-42 5)55365-41 y 40•F Low-AmbientKitr 301632-701 301632-701 301632-702 301632-702 301632-702 301632-708 301632-7-0-313-0-1632-708 0•F Low -Ambient Kit* 301667-704 301667-704 301667-704 301667-704 301667-704 t 301667-705 301677-704 Thermostatically Controlled Crankcase Htr 301715-703 301715=703 301715-703 301715-703 301715-703 301715-702 301715-703 Compr Quick -Start Kit -Cap. Relay 301598-702 301598-702 301593-701 301593-701 301593-701 Not Applicable 301593-7011 Not Appl -P Therm P421-4006 P421-4006 2421-4006 P421-4006 P42t-4006 Not Applicable P421-4006 Not Appl High -Static Blower Kit Not Avail. Not Avail. Not Avail. Not Avail. 301626-701 Standard 301626 703 tandard Filter -Drier 738420P 1 738420P1 7384201 1 738420P I73842DP 1 738410 1 Condenser Coil Grille Guard 301595-701 301595-7011301595-707 301595-707 301595-707 301595-704 COMPROTEC' 301598-701 301598 701 301600 707 301600 701 301600-701 301600-701 High -Capacity Filter Rack 301591-301 Low -Pressure Switch Kit - 301619-702 High -Pressure Switch Kit _ 301 61 9-701 Propane Conversion Kit' " 301625-703 _ Room Thermostat & Subbase Manual Changeover 344270030 (Subbase Included) or PS2758 with Subbase PS2759-34 Autochan eover 34427052 or PS3108A with Subbase P 3109E (See page following Specifications Tables for applicable notes.) RTU -33 SPECIFICATIONS -MODEL 58581YACR-SIZES 042100 8 048125 t, Total Unit Amps 27.92 24.8 21.7 31.8 26.56 23,7 124 mor Rated Load d Locked Rotor Amps 21.0 d 94 1-5.0&79 —13.0&67 25.0 & 106 17.0 & 87 15.0 & 70 &0& 35 --i and FanMotor.D57MC (HP 17 Speeds)' 1/3&1 1/2&2 1!282 1/331 1/ 82 --17F& 2 7Y=& Volts—Phase r6O —Hertz) 230-1208-1 230-1 230-1 Full Load Amps 3 4.0 3.6 3.6 3.96 161. Slower Motor, 00. PSC. 107 1/3 1 1 1/3 1 1 1 Volts— ase 60Hertz -2-36--1 —1 230-1 230-1 208-1 —t —1 Full Load Amps 3,32 5.6 3,2 1 5.6 5.1 1 ze rcuit fuse ae mps Max ranch A PERFORMANCE 50 40 35 50 440 RatedDoling opacity BtunA 42000 47,000 Total Power Con3uption alts 5800 6700 Heating Input as Shipped tuh 1 OOLOOO Heating Sonnet Capacity as Shipped uh 60.000 75.000 Optional Heating Input tuh •• 100.000125.000 Optional Bonnet Capacity tuh ••7&000 93,750 ARI Sound Rating Number? t COMPRESSOR. REFRIGERANT. & CONTROLS 20 20 ompressor ,type Hermetic Hermetic ompr Temp & Overcurrent Protection Standard Standard ompr Internal Press. Relief Valve Standard Standard mpr Quick- tart omponents Standard I Not Applicable Standard Not Applicable MPOptional Optional 22 RefrigerantAmount EVAPORATOR.••SLOWER lb3-9oz Ibs•13oz oi Face Area F0 4.0 4.0 Height x Width In. /Rows & Fins Per In. 24x24/3& 12 24x24/3& 14 lower Wheel Dia x Width x Bore In. 10-5/8x 1/2 I 12x11x5/8 10-5/6x10-5/8x1/2 12x11x 8 Nom ooling Ai low Ft /Min / t; 1455/Q4 1500/0.7 1575/0.4 1650/0.7 HtgAirflow (FO/Min) WF TempRise— 925/1155 1155/1445 Recommended Filter ize In. ••• 445/555 555/695 Condensate Orain Connection CONDENSER & OUTDOOR 4 FP 3/4 FPT Coil Face Area q tj 5.33 5.77 Height x Width In. / ows & Fins Per In. 24x32/3 & 19' 26X32/3 & 20 FanDiameter & gore In. 206 1/2 1 20& 1/2 STANDARD EQUIPMENT H;gn-Stats c. Oirect- rive Blower Ootsonal tandard ptsona tandard Two-Speed. ondenser Fan Motors Optional Standard Optional Standard Atmospheric Vent & Sird3creen Standard tandard LITE Ga3-Saving park-Ignition Pilot Standard Standard Hign• emperature Limit Switch Standard Standard Compressor Vibration Isolators Standard Standard e rigerant Gauge Ports Standard Standard urner bservation Sight Window Standard Standard Removable Base Pails GAS CONTROLS & GENERAL DATA tandard Standard as ontrols Available Natural (Standard)—Propane Field-Installed Option)r 1 r Gas Connection 1/2 Gas Valve with Electronic Control BOP 646A- as Shutoff OPTIONAL EQUIPMENT (P/N'S) Combination Regulator/Shut-off as Valve ptiona( Heating Input Burner Orifices (Natural Gas) 4)55365-41 15)55365-41 40' ow-Ambient Kitt Wil 025- RZ I i5l632- 708 301632-7 301632-7 0'F Low-Ambient Kitt 301667-7 1667-704 301667-705 ermostatically Controlled Crankcase Htr 301715-703 301715-765-301715.702 Compressor Quick-Start Kit—Cap. Relay Standard I Not ApplicableStandard-'---r_Not Applicable harm Not Applicable Not Applicable High-Static Blower Kit 301626-703 Standard 301626-703 Siandard ilter- ner 738410P1 Condenseroil rile Guard 301595-704 M 301600-701 High-Capacity Filter Rack 1591- 1 Low-Pressure Switch Kit 01819-702 High-Pressure Switch it 301619-701 Propane Conversion Kitt It W1625-703 Room Thermostat & Subbase Manual Changeover 34427DO30 (Subbase included) or PS2758 with Subbase PS2759-34 Autochan eover 34427052 or P 3108A with Subbase P 2109 (NOTE: See page following Specifications Tables for applicable notes.) SPECIFICATIONS -MODEL 585B/YACR-SIZES 060125 & 060150 MODEL W58/YACR SIZE 050123 080130 SERIES A A ELECTRICAL -unfit Volts— ase 60 Hertz) 230-1 208-3 1 230-3 1 460-3 230-1 208-3 230-3� Operating oltage Range 207-253 187-229 207-253 414-508 207-253 187-229 207-253 Unit Ampacity for wire Sizing 50 35 32 17 50 35 32 Minimum Wire Size (AWG)' 8 8 8 12 6 8 8 Total Unit Amps 41.5 29.8 27.0 14.2 41.5 29.8 27.0 Compr Rated Lead & s=ocked RotncAmps .32.0 & 135 21.0& 113 19.6 398 -Tao —&49. 32.0 d 135 21-0& 113 19.0 & 98 Cond Fan Motor. DO. iCSpeeds 1/2&1 1/282 1/2&2 1/21!2 1/2&1 1/2&2 1/232 Volts—Phase 60 Hertz 230-1 208-1 230-1 460-1 230-1 208-1 __2_36— t Full Load Amps 3.4 3.2 29 1.6 3.4 3.2 29 Slower Motor. 0 , 1075 PM HP 3/4 1 1 1 3/4 1 1 Volts—Phase 60 He 230-1 208-1 230-1 460-1 230-1 —1 230-1 Full Load Amps 81 5.6 5.1 26 6.1 5.6 5.1 Max Branch Circuit use Size Amps PERFORMANCE DATA 80 50 25 80 5 50 Rated oolin apacity Btuh s 59.000 59.000 Total Power Consumption Watts 2100 8100 Heating Input as Shipped 8tuh 100,000 120.000 Heating Bonnet Capacity as gRipped uh) 75.000 90,000 ptional Heatin Input Btuh • 125,000 1.50,000 ptional nnet apacity 8tu'h " 936750 112,500 ARI und Rating Numbertt COMPRESSOR,rCONTROLS Compressor iyoe 21 Hermetic 21 "1 Hermetic mor Temp & Overcurrent Protection Standard Standard Comer Intemal Press. Relief Valve Standard Standard Comer Quick -Start Components Standard Not Applicable Standard I Not Applicable COMPROOptional Optional R-22 efri erentAmount EVAPORATOR & INDOOR 61bs-4 oz 6lb3-4 oz Coil Face Ares Ft 5.33 �_' 5.33 Hei ht x Width In. /Rows IF Per In. 24x32/3 & 14 _ 24x32/3 & 14 Blower Wheel Dia x Width x Bore In. 10 -5/8x10 -5/8x1/2 12x11 x5/8 16-5/8x1a5/8x1/2 12x11x5/8 I Nom Cooling Ai low Ft /Min E Plt 1950/0.4 1995/(17 1950/(14 1 1995/Q7 Htg Airflow Ft (Min) (w- 60'F Tamp Rise— 1155/1445 1390/1730 Recommended Filter Size In.)— 555/695 665/830 Condensate rainonnection CONDENSER & OUTDOOR 3/4 FP 3/4 FPT it ece Area t 6.86 6.86 MWidth In. /Rows & Fins er In. 26x38/3 & 20 26x38/3& 20 Fter & Bore In. STANDARD EGUIPMENT 22& 1/2 22 & 1/2 .g - t_aTiZ rrect- rive Blower Optional Standard Optional Stantlartl Two—Speed, PSC Condenser Fan Motorr Optional Standard Optional Standard Atmospheric Vent a Birdscreen Standard Standard RELITE Gaili-SavingSpark-Ignition Pilot Standard Standard High -Temperature Limit Switch Standard Standard Compressor Vibration Isolators Standard Standard Refrigerant Gauge Paris Standard Standard Burner Observation Sight Window Standard Standard Removable Base Rails GAS CONTROLS & GENERAL Standard Standard as Controls Available Natural Standard —Propane (Field -Installed Option Gas Connection 1/2 P Gas Valve with Electronic Control 130P 646A - Gas Shutoff �'OPTIONAL EQUIPMENT (P/N'S) Combination Regulator/Shut-off Gas Valve Optional Heating Input Burner Urifices (Natural Gas) 5)55365-41 6 55365-41 40'F Low -Ambient Kitt 301832-704 11 301632-708 301632-704 1 301632-708 0'F Low -Ambient Kitt 301 7-704 1301667-705 301667-704 Thermostatically Controlled Crankcase Htr 301715.703 301715-702 301715-703 Compressor Quick -Start it—Cap. Relay Standard I Not Appllca le Standard I Not Applicable =—PTZ Therm Not Applicable Not Applicable -rd High -Static Blower Kit 301626-703 Standard 301626-703 Filter -Drier 735410P1 Condenser Coil Grille Guard 301595-705 COMPROTECI 301600.701 High -Capacity Filter Rack 301591-302 Low -Pressure Switch Kit 301619-702 High -Pressure Switch Kit 301619-701 Propane Conversion Kitt? 301626-703 _ Room Thermostat a Subbase Manual Changeover 344270030 (Subbase Included) or PS2758 with Subbase PS2759-34 Autochan eover 34427052 or PS3108A with Subbase PS3109 (NOTE: See page following Specifications Tables for applicable notes.) RTU -35 NOTES FOR SPECIFICATIONS TABLES based on 60'C copper conductor at 85'F Mated in accordance with ARI Standard 210-75. ant temperature and ampacity shown in "Optional ka.A.-certitied rating using field -installed r than 60'C copper conductor is used, if burner orifices listed in the "Optional Equipment' sec- )erature is above 86'F, or if voltage drop of tion of this table. 1 2% of unit rated voltage, determine wire ttRated in accordance with ARI Standard 270-75. pacity shown and the National Electrical t#External static pressure and cooling airflow shown in the table are with wet coil and without filter at the facto - ;hipped are approved for air conditioning ry motor speed setting. ,vn to 55'F. For operation down to 40'F, the ***Lower value shown (first number) is for units as crankcase heater kit and the 40'F low- shipped, operating at the lower heating capacity. The must be field -installed. The 40'F low- higher value is for units operating at the optional higher x single-phase units contains both a fan heating capacity. Field -supplied air filter area shown is Titch and a two -speed fan motor-, however, for standard -type filter, for high-capacity filters, area -ee-phase units, which have a factory -in- may be reduced to 65% of applicable value shown. )eed fan motor, contains only the fan ther- t t t Optional propane converstion kit contains required n. For operation down to 0'F, the cam- orifices for both A.G.A.-certified low and high heating :ccase heater kit and the 0'F low -ambient capacity ratings. Unneeded orifices are discarded. eid-installed. (W/Min) AT INDICATED EXTERNAL STATIC PRESSURE & VOLTAGE WITHOUT FILTER" ppilcetlos Motor Speed Sottlr 0.1 23011 or 20811 48011 0.2 20811 1 23011 or 480' 0.3 20811 23011 or 480' Estorosl Shtle Pressoro—laches we 1 0.4 0.5 23011 230' a or 20811 46011 .20811 46011 0.6 23011 or 20811 46011 0.7 1 230' or 20811 45011 0.8 23011 or 20811 45011 Heatin -L — 725 765 705 1 730 685 6951 650 645 620 — — — — — — Coolin -L 715 745 695 715 670 670 1 640 615 590 — — — Heatin -L — 1 725 765 705 730 685 695 650 645 620 580 — — — — — Coolin -H 900 930 865 885 825 840 775 1 780 720 710 — — Heatin -M 955 1 1030 925 1000 890 960 855 810 875 — 820 — — — — Coolin -L 8301 910 805 885 775 855 '920 740 820 700 780 — 730 — — — Heatin -M — I — 925 1000 890 960 855 920 810 875 765 820 — — — — Coolin -H — I — 11651 12001 1100 11401 1045 1080 9751 1010 9051 930 — — Heatin -L — 1 1185 — 1150 — 1125 — 1085 — 1035 — 975 — — — — Coolin -H — 1495 — 1430 — 1360 — 1280 — 1205 — 1125 — — — — Heatin -L — — 1370 1410 1350 1390 1320 1360 1260 1300 1195 1230 11101 1145 1020 1050 Cooling -0 — — 1360 1400 1335 1375 1285 1325 1220 1260 1145 1180 — 1080 — — Coolin -H — — — — — 1465 1510 1355 1395 1230 1265 1085 1120 Heatin -H — 1640 — 1605 — 1545 — 148 — 1425 — 1345 — — — — Coolin -L I — 1395 — 1355 — 1320 — 1275 — 1215 — 1125 — — — Heating -0 I — — 1580 1630 1545 1595 •1505 1550 1460 1505 1405 1450 1320 1360 1195 1230 Heatin -M — — 1930 1990 1860 1920 1795 1850 1715 1770 1620 1670 1515 1560 1375 1420 Coolin -L — 1435 1480 1370 1410 1260 1300 1115 1150 Heatin -L — 1415 — 137 — 1340 — 1295 — 1245 — 1175 — — — — Coolin -H — 1620 — 1575 — 1515 — 1455 — 1385 — 1300 — — — — Heatin -L — — 1600 1630 1565 1595 1520 1550 1475 1505 1420 1450 1335 1360 1205 1230 Cooling -Lt — — 1580 1610 1540 1570 1500 15301 1450 1480 1380 1410 1275 1300 — — Coolin -M — — — — — — — 1685 1720 1590 1620 1470 1500 1315 1340 Heatin -L — 1460 — 1425 — 1390 — 1350 — 1305 — — — — — — Coolin -H — 1760 =71-70-0 — 1640 — 1575 — 1490 — — — — — — Heating -Lt — — 1600 1630 1565 1595 1520 1550 1475 1505 1420 1450 1335 1360 1205 1230 Heatin -M — — 1950 1990 1880 1920 1815 1850 17351 1770 1635 1670 1530 1560 1390 1420 Cooling -Mt — — 1920 1960 1850 1885 1775 1810 1685 j 1720 1590 1620 1470 1500 — — Cootin -H — — — — — 1940 1835 1 1870 1725 1760 1 1615 16501 1490 1520 Heatin -L — 1750 — 1715 — 1675 — 1630 — 1590 — 1520 — — — — Coolin -H — 2175 — 2110 — 2035 — 1950 — 1850 — 1735 — — — — Heatin -L — — 1665 1700 1610 1645 1560 1590 1490 1520 1400 1430 1315 1340 1215 1240 Cooling -Mt — — 2100 2145 2025 2065 1930 1970 1835 1870 1725 1760 — — — — I Conlin •H — — 2425 2475 2330 2380 2225 2270 2090 —2135 1955 1995 1820 1855 Heatin -M — 2050 — 1995 — -1940 — 1870 — 1795 — 1690 — — — — Coolin -H — 2175 — 2110 — 2035 — 1950 — 1850 — 1735 — — — Heating -0 — — 1665 1700 1610 1645 1560 1590 1490 1520 1400 1430 1315 1340 1215 1240 i Heatin -M — — 2155 2200 2075 2115 1990 2030 1895 1935 1795 1830 1680 1715 1570 1600 Cooling -Mt — — 2100 2145 2025 12065 1 1930 1970 1835 1870 1725 1760 — — I — I11 — Coolin -H — — — — 1 2425 1 2475 1 2330 2380 2225 2270 2090 I 2135 1995 1995 1820 1855 a applicable to size 036075 thru 060150 single-phase units with a field -installed, high -static blower, refer to the air delivery data for the 7nase unit. filter pressure drop to obtain available static pressure for ducting. are with dry coil. Cooling airflow values are with wet coil. tings require a field wiring change. All other speed settings indicated are the factory setting. ie table that are beyond the recommended operating range or that are not applicable. RTU -36 5856/YACR DETAILED COOLING CAPACITIES Evaporator CONDENSER ENTERING AI Air 85 95 105 115 Not Capacityl Totalapaeity ota apacity TotalCapacity --Total J •F MBtuh System MBtuh System MBtuh System IaBtuh Syste t ;500 EWB Total Sena LOS LWB KW Total Sans LOS LWB KW Total Sens LDB LWB KW otal Sans LOB LWB KW 71 20.5 t 0.5 60.6 59.1 2.5 19.0 9.9 61.6 60.1 2.7 175 9.4 62.5 6. t 2.8 15.9 8.9 63.6 62. t 2.9 67 18.8 12.3 57.2 55.1 2.4 17.4 11.8 58.2 8.t 2.5 16.0 11.2 59.2 s;.1 2.6 14.4 10.6 60.3 58.2 2.7 63 t 7. t 14.0 54.0 51.2 2.2 15.8 13.5 55.0 52.3 2.3 t 4.4 12.9 56.1 53.3 2.4 •12.8 12.3 57.3 54.5 2.5 59 15.2 15.2 51.8 41.7 2.0 13.9 13.9 54.3 08.8 2.1 12.5 12.5 5F.8 49.9 2.2 10.9 10.9 59.8 51.2 2.3 t 21.2 11.J 1. t 1 .a t. 18.2 t t . .1 .4 .0 600 67 19.6 13.5 59.2 56.9 2.4 18.0 12.9 60.1 57.8 2.5 16.6 t 2.4 60.9 58.6 2.7 14.9 11.8 61.9 59.5 2.8 63 17.8 15.5 56.1 53.0 2.2 16.3 14.9 57.0 53.9 2.3 1 a9 14.3 57.9 54.8 2.5 13.3 13.3 59.5 55.8 2.6 59 15.8 15.8 55.6 49.4 2.0 14.4 14.4 57.8 50.4 2.1 12.9 12.9 60.0 51.3 1 2.2 11.3 f 11.3 62.6 52.4 2.4 1 21. t . 64.1 2.3 11. t ti. .5 t 1 .4 A3.0 700 67 20.1 t4.5 60.8 58.2 2.5 18.5 13.9 61.6 59.0 2.6 17.1 13.4 62:3 59.7 2.7 15.3 12.8 63.1 60.5 2.8 63 18.3 16.8 57.7 54.3 2.3 16.8 16.2 58.5 $5.1 2.4 15.3 15.3 59.8 55.9 2.5 13.6 13.6 62.0 56.7 2.6 59 16.2. 16.2 8.6 50.7 2.1 1 14.7 1 60.5 51.5 1 2.2 13.3 13.3 62.5 52.3 2.3 11.5 11.5 64.7 53.3 2.4 71 26.0 13.7 61.9 60.4 3.1 24.0 13.0 62.8 61.3 3.3 22.4 12.5 63.5 62.0 3.5 20.1 11.9 64.2 62.8 3.6 700 67 24.a 16.5 8.2 56.1 2.8 22.2 15.6 59.3 57.2 3.1 20.7 15.1 60.1 57.9 3.2 19.1 14.5 60.9 58.7 3.a 63 22.7 19.1 54.7 52.0 2.6 20.3 18.1 1 56.0 53.3 2.8 18.9 17.5 56.8 5a.0 3.0 17.2 16.9 57.6 54.9 3.1 59 20.8 20.8 52.5 48.0 2.3 18.1 18.1 56.0 49.6 2.6 16.7 16.7 57.9 50.4 2.7 15.1 15.1 60.0 51.3 2.8 t .5 14. 63.3 t. 24. t 2.0 .a t .t 21. 1 3. 800 67 24.9 t 7.5 59.7 57.4 2.9 22.8' 16.7 60.6 8.3 3.2 21.2 16.2 61.3 59.0 3.3 19.5 15.6 62.0 59.7 3.4 63 23.1 20.5 56.3 53.3 2.6 20.8 19.5 57.4 54.4 2.9 19.3 18.9 58.1 55.1 3.0 17.6 17.6 59.6 55.8 3.2 59 21.2 21.2 55.5 49.3 2.3 18.5 18.5 1 58.6 50.7 2.6 17.1 17.1 1 60.2 51.4 2.7 15.4 15.4 62.2 52.2 2.8 t 2 1. 4 1 14. .0 4 14. 3. t. 1=4 900 67 25.3 18.5 60.9 8.4 3.0 23.2 17.8 61.7 59.2 3.2 21.6 t 7.2 62.3 59.8 3.3 19.8 16.6 62.9 60.4 3.5 63 23.5 21.8 57.6 54.3 2.7 I 21.2 20.9 8.5 55.3 3.0 19.6 19.6 59.8 55.9 3.1 17.9 17.9 61.5 8.6 3.2 59 1 21.5 1 21.5 57.8 50.4 2.4 18.8 18.8 60.6 51.6 2.7 17.4 17.4 62.1 52.2 2.8 15.7 15.7 63.9 52.9 2.9 71 26.0 13.7 61.8 60.2 3.2 24.8 t 3.2 62.6 60.9 3.3 23.3 12.6 63.3 51.7 3.4 21.5 12.0 64.1 62.4 3.6 700 67 24.4 16.3 8.4 56.1 2.9 22.9 15.7 59.2 8.9 3.1 21.4 15.1 60.0 57.6 3.2 19.7 14.5 60.8 8.4 3.3 63 22.3 18.7 55.2 52.1 2.7 20.8 18. t 8.0 53.0 2.8 19.4 17.5 56.8 53.7 2.9 17.7 16.9 57.7 54.6 3.1 59 20.0 20.0 53.5 48.5 2.4 18.5 18.5 55.5 49.4 2.5 17.1 17.1 57.4 50.2 2.7 15.5 15.5 59.5 51.1 2.8 t 27.1 14.5 6 2 61.5 3.2 25.5 t .1 .4 2 . 1 .4 .7 t .2 .6 800 67 25.1 17.4 59.9 57.3 3.0 23.5 16.8 60.6 8.0 3.1 21.9 16.2 61.3 8.7 3.3 20.2 15.6 62.0 9.d 3.4 63 22.9 20.1 56.8 53.4 2.8 21.4 1 19.5 57.5 54.1 2.9 19.9 18.9 8.2 54.8 3.0 18.2 16.2 59.0 55.6 3.1 59 20.5 20.5 56.2 49.7 2.5 19.0 19.0 8.0 50.5 2.6 17.5 17.5 59.8 51.2 2.7 15.8 15.8 61.7 52.0 1 2.8 1 2 . t . a 62.4 1a. 3.4 24. 14.1 3. 2.4 1 13.7 900 67 256 61 1 5. 63 23.4 19.8 0.8 19.4 17.8 52.7 • 59 .- 21.0 28.0 8.a 50.6 2.5 60.16 55.3 2.6 7.8 69.7 52.0 2.8 '6.5 16.5 63.9 2.9 71 32.3 17 .2 62.3 60.8 4.3 30.7 16.7 62.8 61.4 4.a 29. t 16.1 63.4 61.9 4.5 27.4 15.6 64.0 62.5 4.7 900 67 30.0 4 58.8 56.6 3.9 28.5 20.1 59.3 57.2 a. t 27.0 19.5 59.9 57.8 4.2 25.3 18.9 60.6 8.4 4.3 63 27.6 120.7 23.9 155.4 52.6 3.6 26.1 23.3 56.0 53.3 3.7 24.6 22.7 56.6 53.9 3.8 23.0 22.1 57.3 54.5 4.0 59 24.8 2a.8 54.4 48.9 3.2 23.3 23.3 56.0 49.6 3.3 21.9 21.9 57.5 50.2 3.4 20.4 20.4 59.0 50.9 3.6 1 32.8 18.0 63.3 61.8 a. t. 17.5 63.8 62.34.5 29.6 16. 2. 4. t 4. 1000 67 30.5 21.8 59.9 57.6 4.0 29.0 21.2 60.4 8.1 4.1 27.4 20.6 60.9 8.7 4.3 25.7 20.0 61.5 59.2 a.a 63 28.1 25.3 56.5 53.6 3.7 26.5 24.7 57.1 54.2 3.8 25.0 24.1 57.7 54.7 3.9 23.4 23.4 58.3 55.3 4.0 59 25.3 125.3 56.6 49.9 3.3 23.7 23.7 58.1 50.5 3.4 22.3 22.3 59.4 51.0 3.5 20.7 20.T 60.6 51.7 3.6 1100 I 158.4 163 28.5 26.7 0.6 I 22.6 I 162.3 9 25.6 125.6 3.3 24.0 24.0 59.8 51.2 3.a 22.6 68.0 55.7 3.5 21.0 23.0 52.3 3.6 71 40.6 20.7 ; 60.8 59.3 5.4 38.6 20.0 61.5 59.9 5.5 36.7 19.3 62.1 60.5 5.7 34.6 18.6 62.8 61.2 5.9 1000 67 37.7 24.5 157.3 55.1 5.0 35.9 123.8 58.0 55.7 5.1 34.0 23.1 58.6 56.4 5.3 32.0 22.3 59.3 57.1 5.5 63 34.6 28.0 54.0 5t.1 4.5 ( 32.9 27.3 54.7 51.8 4.7 31.2 26.6 55.4 52.4 4.8 29.2 25.8 56.1 53.2 5.0 1 59 31.3 31.3 151.0 47.4 4.1 29.6 29.6 52.6 48.1 4.2 1 27,9 27.9 54.1 48.8 4.3 26.0 26.0 55.9 49.6 4.5 1200 I 67 5.6 63 35.8 30.8 l 56.3 53.0 4.7 33.9 30.0 56.8 53.5 4.8 32.1 29.3 57.4 54.8 5.0 30.11 28.5 8.0 54.7 5.2 59 32.3 132.3 155.1 49.2 1 4.2 30.5 30.5 56.4 49.8 4.3 28.8 28.8 57.8 50.4 4.5 26.7 26.7 59.4 51.0 4.6 1 42.9 23.6 }.64.0 2. 5. 40. 2. 4. 2. 2.2 65.3 63A 6.0 36.4. 1. 6.2 1400 ' 67 39.9 128.5 1 61.1 8.3 5.3 37.9 27.8 61.6 8.8 5.4 35.9 27.1 62.1 59.3 5.6 33.7 26.3 62.6 59.8 5.7 63 36.61 33.31 58.0 54.3 4.8 34.7 32.5 58.5 54.8 5.0 32.9 31.8 59.0 55.3 5.1 30.8 30.8 59.7 55.8 5.3 59 33.0 33.0 58.2 50.5 4.3 1 31.2 1 31.2 59.4 151.0 4.4 1 29.4 29.4 60.6 51.5 1 4.6 27.3 27.3 61.9 52.1 4.7 NOTES: 1. Total and sensible capacities are net capacities. Blower motor heat has been subtracted. 2. Sensible heat capacities are based on 80'F entering air at the evaporator. (a) below 807 OB subtract: 850 Stuh per 1000 ft3/min per *F (b) above 80'F OB add: 850 Btuh per 1000 ft3/min per 'F 3. Total system KW includes compressor KW. condenser tan mo- tor KW, and evaporator blower motor KW. FTU -37 5658/YACR DETAILED COOLING CAPACITIES Evaporator CONDENSER ENTER TEMPERATURE Air 85 1 95 1 105 1 113 Netcapacityl i Total apse of apac ty of apse tpTotir ft3/ °F MStuh System MBtuA System MStun System MBtuh Syatstn min EWB Total Sons LD LLWB KW otal Sons LOB LWB KW LDS LWB KW LOB LWB KW Tota, Sons Total Sons 71 38.9 20.3 61.2 59.8 4.8 36.7 19.5 6t. 60.5 4.9 34.5 18.8 62.6 61.3 5.1 32.2 18.0 63.4 62,0 5.2 1000 67 6.0 2a.t 57.7 55.7 a.a 34.0 23.3 58.4 56.4 a.6 31.9 22.5 59.2 5T.2 4.7 29.6 21.7 59.9 57.9 4.9 63 33.0 27.7 54.4 S t .7 a.0 1 31.0 26.9 55.1 52.5 4.2 29.0 26.1 55.9 53.3 4.3 26.8 25.2 56.7 54.1 4.5 59 29.5 29.5 52.7 48.1 3.6 27.6 27.8 54.4 48.9 3.7 25.6 25.6 56.3 49.7 3.9 23.4 23.4 58.3 50.6 4.0 1 40.1 21. .1 61.6 4.9 37.8 211 1 1 4 1200 67 37.2 26.4 59.6 57.4 4.6 35.0 25.6 60.2 58.1 4.7 32.8 24.8;62.2 58.7 4.8 30.5 24.0 61.5 59.3 5.0 63 34.0 30.7 56.3 53.5 4.2 32.0 29.8 57.0 54.1 4.3 29.9 29.0 54.8 4.4 27.6 27.6 58.7 55.5 4,8 59 30.5 30.5 56.5 49.8 3.7 28.5 28.5 56.0 50.5 3.9 26.4 26.4 51.1 4.0 24.1 24.1 61.4 51.9 4, t 1 41.1 .o .4 A 1. 7.1 .1 .4 515 1400 67 38.2 28.5 61.1 58.7 4.7 35.9 27.7 61.7 59.3 4.8 33.6 26.9 59.8 4.9 31.2 26.1 82.8 60.4 5.1 63 34.9 33.4 57.9 54.8 4.3 32.6 32.6 SB.S 55.3 4.4 30.6 30.6 55.9 4.5 28.2 28.2 61.3 56.5 4.7 59 31.2 31.2 59.4 51.0 3.8 29.1 1 29.1 60.7 St.6 3.9 27.0 27.0 62.2 52.2 4.1 24.6 24.6 63.7 52.8 4.2 71 46.1 i 23.4 61.9 60.0 5.8 43.3 22.5 52.7 60.7 6.0 40.6 21.5 163.4 65,5 6.2 37.8 20.6 64.1 62.2 6.4 1200 I 67 42.8 27.7 58.6 55.8 5.3 40.2 26.7 59.4 56.6 5.5 37.6 25.8 60.1 57.3 5.8 34.9 24.6 60,9 58.1 6.0 63 39.3 31.8 SS.a 51.8 4.9 36.8 30.8 56.3 52,6 5.1 34.3 29.8 57.0 53.4 5.3 31.7 28.7 57.8 54.2 5.5 1 59 35.5 35.5 52.6 48.1 4.4 33.0 33.0 54.5 48,9 4.6 30.6 30.6 56.4 49.8 4.7 28.1 26.1 56.3 50.6 4.9 t a .4 4.8 .6 61.5.9 44. 1400 67 44.0 29.7 60.4 57.3 5.5 41.3 28.7 61.0 56.0 5.7 38.6 27.7 81.7 58.6 5.9 35.8 26.7 62.3 59.3 6.1 63 40.5 34.3 57.3 53.3 5,0 37.8 33.3 58.0 54.0 5.2 35.2 32.2 58.7 54.7 5.4 32.5 31.2 59.4 55.4 5,6 59 1 36.5 36.5 55.8 49.5 4.5 33.9 33.9 57.6 50.3 4.7 1 31.4 31.4 59.2 51.0 4.9 28.8 28.8 61.0 51.7 5.0 1 48.4 .1 4 .4 63.1 6.3 4 4. , 1600 67 45.0 31.6 61.7 58.4 5.6 42.2 30.5 62.3 59.0 5.8 39,4 29.5 62.9 59.6 6.0 36.5 28.5 63.5 60.2 6.2 63 41.4 36.7 58.8 54.4 5.1 38.6 35.6 59.4 55.0 5.3 36.0 34.6 60.0 55.7 5.5 33.2 33.2 60.8 56.3 5.7 59 • 37.3 37.3 58.4 50.6 4.6 34.6 34.6 60.0 51.3 4.8 32.0 32.0 61,5 51.9 4.9 29.3 29.3 63.0 52.6 5.1 71 52.6 27.3 61.9 60.3 6.8 49.5 26.3 62.6 61.0 7.1 46.6 25.3 63,3 61.6 7.3 43.5 24.2 64.0 62.3 7.6 1400 I 67 48.8 32.5 58.5 56.1 6,3 46,0 31.4 59.2 56.8 6.5 43.2 30.4 59.9 57.5 6,8 40.2 29.3 60.8 58.2 7.1 jI 63 44.9 37.5 55.2 52.1 5.7 42.2 6.3 56.0 52.8 6.0 39.5 35.2 1 56.7 53.6 6.2 36.6 34.1 57.4 54.3 6.5 59 40.6 40.6 53.1 48.3 5.2 38.0 6.0 54.9 49.1 5.4 35.3 6.3 56.6 49.9 5.6 32.5 32.5 58.5 50.7 5.8 1 53.8 25.8 63.3 61.5.172 a 44. 1600 I 67 50.0 34.6 60.0 57.4 6.4 47.0 33.5 60.6 58.0 6.7 44.1 32,4 61.3 58.6 7.0 41.1 31.3 61.9 59.3 7.2 63 45.9 40.1 56.8 53.4 5.9 43.1 39.0 57.5 54.0 6.1 40.3 37.8 58.1 54.7 6.4 37.4 6.7 58.8 55.3 6.6 59 41.5 41.5 56.0 49.6 5.3 38.8 6.8 57.5 50.3 5.5 6.0 6.0 59.1 50.9 5.7 33.2 33.2 60.8 51.6 5.9 7.9 1800 .67 50.9 6.5 61.2 58.4 6.6 47.9 35.4 61.8 59.0 6.8 44.9 34,3 62,3 59.5 7.1 41.8 33.2 62.9 60.1 7.3 633 I 6.0 62.7 9 42.J 42.3 58.3 50.6 5.0 39.5 39.5 9.7 55.2 5.6 36.6 6.6 69.2 55.8 5.8 33,0 562.4 6.0 71 66.5 34.8 62.1 160.5 8.1 61.9 33.2 62.9, 61.3 8.a 56,8 31.5 63.8 62.2 8.8 51.6 29,8 64.7 63.19.2 1800 I 67 61.5 4t.a 58.7 56.4 7.5 57.0 39.7 59.6 57.2 7.9 52.1 37.9 60.5 58.2 8.2 46.9 6.0 61.5 59.1 8.7 63 56.1 a7.i 55.51 52.4 6.9 51.8 45.9 56.4 53.3 7.2 46.9 43.9 57.4 54.4 7.6 41.6 41.6 58.6 55.4 8.0 59 50.2 50.2 54.2 48.8 6.2 45.9 45.9 56.4 49.8 6.5 40.9 40.9 59.0 50.9 6.9 35.4 35.4 61.8 52.1 7.3 t 6 1.4 .0 1. . 2000 67 62.6 43.5 59.9 57.3 7.7 58.1 41.8 60.6 58.1 8.0 53.0 40.0 61.5 59.0 8.4 47.7 6.1 62.4 59.9 8.8 63 57.2 50.3 56.7 53.4 7.0 52.7 48:6 57.5 54.2 7.3 47.7 46.6 58.4 55.2 7.7 42.4 42.4 60.4 56.1 8.1 59 51.1 51.1 56.3 49.7 6.3 46.7 46.7 58.4 50.6 6.6 41.6 41.6 60.8 51.6 7.0 6.0 6.0 63.3 52.7 7.3 1 1 .4 36.1 a65.5 6 . t.a a 2200 67 63.7 45.5 60.8 58.2 7.8 59.0 43.8 61.6 58.9 8.1 53.9 42.0 62.3 59.7 8.5 48.5 40.1 63,1 60.5 8.8 63' 58:1 52.9 57.7 54.2 Ti 53.6 51.1 58.5 55.0 7.4 48.5 48.5 59.6 55.8 7.8 43.0 43.0 61,9 56.7 8.2 9 51.9 51.9 58.2 50.5 6.4 47.4 47.4 60.1 51.3 6.7 42.2 42.2 62.2 52.2 7.0 16.5 6.5 64.6 53.2 7.4 NOTES: (a) below SOT DO subtract: 900 Btuh Der 1000 ft3lmin Der T. 1. Total and sensible capacities are net capacities. Blower motor (b) above SOT add: 900 Btuh per 1000 ft3lmin per T. heat has been subtracted. 3 Total system KW includes compressor KW, condenser tan mo- t Sensible heat capacities shown are based on 80'F entering air for KW, and evaporator blower motor KW. at the evaporator. Day&Night SPECIFICATIONS SUBJECT TO CHANGE WITHOUT NOTICE Air Conditioning UNIT MUST BE INSTALLED IN ACCORDANCE WITH INSTALLATION INSTRUCTIONS SOP Como" Indian80dis. IN City of Irbus-ry. CA RTU -38 FORM NO. POS SB58lYACR.18.10 PRINTED IN U.S.A. 11-78 5858/YACR DETAILED COOLING CAPACITIES Evaporator p ENTERING AM TEMPEPATUAR 'F Air BS 1 95 1 105 '115 apse 61 ota apao ata apsety ota apse h otel K3/ System MStuh System M81uh SWern Metuh System min ewe Total San• LDS LWS KW Total Sans LDB LW8 KW Total Sans LOB LW8 KW LDB LW8 KW Total Sans 71 20.5 t 0.5 60.6 59. t 2.5 19.0 9.9 61.6 60.1 2.7 t 7.5 9.4 62.5 61.1 2.8 15.9 8.9 63.6 62.1 2.9 500 67 18.8 12.3 57.2 55.1 2.4 17.4 t 1.8 58.2 56.1 2.5 16.0 11.2 59.2 57.1 2.6 14,4 10.6 60.3 58.2 2.7 63 17.1 ta.0 54.0 51.2 2.2 15.8 13.5 55.0 52.3 2.3 14.4 12.9 56.1 53.3 2.4 .12.8 12.3 57.3 54.5 2.5 59 15.2 15.2 51.8 47.7 2.0 13.9 13.9 54.3 48.8 2.1 12.5 12.5 5R.8 49.9 2.2 10.9 10.9 59.8 '51.2 2.3 1 21.2 11.3 62.6 1,0 2,6 t .6 t0.7 63,4 1, t .2 1 . .2 2. 1 . .1 .4 • .0 600 67 19.6 13.5 59.2 56.9 2.42 1 8.0 12.9 60.1 57.8 2.5 16.6 12.4 60.9 58.6 2.7 14.9 11.8 61.9 59.5 2.8 63 17.8 15.5 56.1 53.0 2.2 16.3 14.9 57.0 1 53.9 2.3 1419 14.3 57.9 54.8 2.5 13.3 13.3 59.5 55.8 2.6 59 1 15.8 15.8 55.6 49.4 2.0 1 14.4 14.4 57.8 50.4 2.1 12.9 12.9 60.0 51.3 2.2 11.3 11.3 62.6 52.4 2.4 1 21. 1 64.1 62.3 it. t . 11. t6.9t .4 4 3.0 700 67 20.1 14.5 60.8 58.2 2.5 18.5 13.9 61.B 59.0 2.6 17.1 13.4 62:3 59.7 2.7 15.3 12.8 83.1 60.5 2.8 63 18.3 16.8 57.7 54.3 2.3 16.8 16.2 58.5 55.1 2.4 15.3 15.3 59.8 55.9 2.5 13.6 13.6 62.0 56.7 2.6 59 t 6.2 . 16.2 58.6 50.7 2.1 14.7 14.7 60.5 51.5 2.2 t 3.3 13.3 62.5 52.3 2.3 11.5 11.5 64.7 53.3 2.4 71 26.0 13.7 61.9 60.4 3.1 24.0 13.0 62.8 6 t .3 3.3 22. a 12.5 63.5 62.0 3.5 20.7 11.9 64.2 62.8 3.6 700 67 24.4 16.5 56. t 2.8 22.2 t 5.6 59.3 57.2 3.1 20.7 15.1 60.1 57.9 3.2 19.1 14.5 60.9 58.7 3.4 63 158.2 22.7 19.1 54.7 52.0 2.6 20.3 18.1 56.0 53.3 2.8 18.9 17.5 56.8 54.0 3.0 17.2 16.9 57.6 54.9 3.1 59 20.8 20.8 52.5 48.0 2.3 1 18.1 18.1 56.0 49.6 2.6 16.7 16.7 57.9 50.4 2.7 1 15.1 15.1 60.0 51.3 2.8 1 2 .5 ta. 6 .3 61.7 3.2 24. 1 2.4 .4 2. 13.3 .7 63.1 21.2 1 3.7 800 67 242.9 17.5 59.7 57.4 2.9 22.8 16.7 60.6 58.3 3.2 21.2 16.2 61.3 59.0 3.3 19.5 15.6 62.0 59.7 3.4 63 23.1 1 20.5 56.3 53.3 2.6 20.8 19.5 57.4 54.4 2.9 19.3 18.9 58.1 55.1 3.0 17.6 17.6 59.6 55.8 3.2 59 21.2 21.2 55.5 49.3 2.3 18.5 18.5 58.6 50.7 2.6 17.1 1 17.1 60.2 51,4 2.7 15.4 1 15.4 62.2 52.2 2.8 1 2 t.2 1a 7 .2 t 14. 0 65. 3. 1. t.4 900 67 717.417.42 62.9 63 I 23.5 21.8 57.6 57.8 54.3 2.7 21.2 38.8 20.9 58.5 55.3 3.0 59.8 55.9 3. t 17.9 17.9 61.5 56.6 52.9 3.2 59 25.5 28.5 50.4 2.4 18.8 60.6 591.6 2.7 62.3 52.2 2.B 15.7 15.7 63.9 2.9 71 26.4 13.7 61.8 60.2 3.2 24.8 13.2 62.6 60.9 3.3 23.3 12.6 63.3 61.7 3.4 21.5 12.0 64.1 62.4 3.6 700 67 24.4 156.1 2.9 22.9 15.7 59.2 56.9 3.1 21.4 15.1 60.0 57.6 3.2 19.7 14.5 60.8 58.4 3.3 63 22.3 116.3 18.7 18.4 55.2 1 52.1 2.7 20.8 18.1 56.0 53.0 2.8 19.4 17.5 56.8 53.7 2.9 17.7 16.9 57.7 54.6 3.1 59 20.0 20.0 53.5 48.5 2.4 18.5 18.5 55.5 49.4 2.5 17.1 17.1 57.4 50.2 2.7 15.5 15.5 59.5 51.1 2.8 t 27.1 14, 6 . 61. 3. 1 .t .a 3. t .a 2.7 2. t .2 .6 800 67 25.1 11.4 59.9 57.3 3.0 23.5 16.8 60.6 8.0 3.1 21.9 16.2 61.3 8.7 3.3 20.2 15.6 62.0 59.4 3.4 63 22.9 20.1 8.8 53.4 2.8 21.4 19.5 57.5 54.1 2.9 19.9 18.9 8.2 54.8 3.0 18.2 18.2 59.0 55.6 3.1 59 20.5 20.5 56.2 49.7 2.5 1 19.0 19.0 8.0 50.5 2.6 17.5 17.5 59.8 51.2 2.7 15.8 15.8 61.7 52.0 2.8 t 2 t .2 A 6 .a ta. .a 4. 14.1 3. 2=4 t .1 642 3.7 900 67 25.6 63 1.8 29.4 58.3 0.3 27.8 59 213.0 28.0 8.4 50.6 2.5 129.4 60.6 2.6 27.8 69.7 52.0 2.8 16.5 16.5 63.4 52.7 2.9 32.3 17.2 62.3 60.8 4.3 30.7 16.1 16,1 62.8 61.4 4,4 29.1 16.1 63.4 61.9 4 27.4 15.6 64.0 62.5 4.7 900 (71 67 30.0 20.7 58.8 56.6 3.9 28.5 59.3 57.2 4.1 27.0 19.5 59.9 57.8 4,2 25.3 18.9 60.6 8.4 4.3 63 27.6 23.9 55.4 52.6 3.6 26.1 23.3 56.0 53.3 3.7 24.6 22.7 8.6 53.9 3.8 23.0 22.1 57.3 54.5 4.0 I 59 24.8 24.11 14,4 48.9 3.2 23.3 23.3 56.0 49.6 3.3 21.9 21.9 57.5 50.2 3.42 20.4 20.4 59.0 50.9 3.6 71 32. 118.0 .3 61.8 4. 1. 17.5 63.8 62.34.5 29.6 16.9 64.3 62.8 4.6 27.8 16.3 64.63. d. 1000 ` 67 30.5 59.9 57.6 4.0 29.0 21.2 60.4 8.1 4.1 27.4 20.6 60.9 58.7 4.3 25.7 20.0 61.5 59:2 4.4 63 28.1 121.8 25.3 56.5 53.6 3.7 26.5 24.7 57.1 54.2 3.8 25.0 24.1 57.7 54.7 3.9 23.4 23.4 56.3 55.3 4.0 I 59 1 25.3 125.3 56.6 49.9 1 3.3 23.7 23.7 58.1 50.5 3.42 1 22.3 22.3 59.4 51.0 3.5 20.7 20.7 60.8 51.7 3.6 t 33.3 18.8 64.2 62. 4.4 3t. t .2 64. 6 .0 a. 17. 65.1 6 .5 I 42.7 28.2 17.1 .6 a. 1100 16 63 28.5 26.7 5B 50.6 155.7 I 59 • .. 25.6 25.6 a 1 3.3 24.0 24.0 59.8 51.2 I 3.4 22.6 22.6 681.0 3.5 213.0 23.0 162.3 52.3 3.6 71 40.6 20.7 i 60.8 59.3 5.4 38.6 20.0 61.5 59.9 5.5 36.7 19.3 62.1 60.5 5.7 34.6 18.6 62.8 61,2 5,9 1000 67 37.7 24.5 157.3 155. t 5.0 35.9 123.8 8.0 55.7 5.1 34.0 23.1 58.6 56.4 5.3 32.0 22.3 59.3 57.1 5.5 63 34.6 28.0 51.1 4.5 32.9 27.3 54.7 51.8 4.7 31.2 55.4 52.4 4.8 29.2 25.8 56.1 53.2 5.0 S9 31.3 154.01 31,3 St.O 47.4 4.1 29.6 29.6 52.6 48.1 4.2 1I26.6 27.9 127.9 54.1 48.8 4.3 26.0 26.0 55.9 49.6 4.5 67 1200 I 153.0 24.4 61.2 5.6 63 35.8 130.8 156.3 42.7 33.9 30.0 56.8 53.5 42.8 32.1 29.3 57,4 54.1 5.0 30.0 28.5 8.0 54.7 5.2 59 32.3 { 32.3 ! 55.1 49.2 4.2 30.5 30.5 56.4 49.8 42,3 28.8 128.8 57.8 50.4 4.5 26.7 26.7 59.4 51.0 4.6 t 42.9 23.6 64.4 2. 5. 420. 2. d. 38. 2.2 5. .4 6. 36.4 t. 658 6.2 1400 67 39.9 128.5 i 6t.t 58.3 5.3 37.9 27.8 61.6 8.8 5.42 35.9 27.1 62.1 59.3 5.6 33.7 26.3 62.6 59.8 5.7 63 36.6 33.3 58.0 54.3 4.8 34.7 32.5 58.5 Sa,g 5.0 32.9 31.8 59.0 55.3 5.1 30.8 30.8 59.7 55.8 5.3 59 33.0 33.01 58.2 50.5 42.3 31.2 31.2 59.4 St.O 4.4 29.4 29.4 60.6 1 51.5 4.6 27.3 27.3 61.9 52.1 4.7 NOTES: 1. Total and sensible capacities are net capacities. Blower motor (a) below 80'F OB subtract: 850 Btuh per 1000 ft3/min per 'F heat has been subtracted. (b) above 807 DB add: 850 Btuh per 1000 ft3/min per *F 2. Sensible heat capacities are based on 80'F entering air at the 3. Total system KW includes compressor KW, condenser fan mo - evaporator. for KW, and evaporator blower motor KW. RTU -37 DEPARTMENT OF BUILDING & SAFETY COUNTY OF RIVERSIDE CONSTRUCTION ESTIMATE Dbl $ NO. ELECTRICAL FEES NO. PLUMBING FEES O SO. FT. ® • $ $ $ UNITS $ USE OF PERMIT 1ST FL. F.C.C. GR UP TYPE YARD SPKLR SYSTEM 3 2ND FL. SO. FT. ® w�rvyh}� POR. SO. FT. ® •Iic/ PLAN CHE ER DATE SUPP. TO/P'ER IT MOBILEHOME SVC. BAR SINK GAR. SO. FT. ® NOT APPROVED APPROVED POWER OUTLET t� ROOF DRAINS PLAN CHEgC CAR P. SO. FT. ® G B K6 PLUMBING DRAINAGE PIPING ROAD DEPT WALL SO. FT. ® �IEALTH DEPT DRINKING FOUNTAIN SO. FT, ® ELECTRICAL DEPT URINAL STRUCTURAL ESTIMATED CONSTRUCTION VALUATION $ 6 IRE MARSHAL AUDIT WATER PIPING NOTE: Not to be used as property tax valuation REMARKS: FLOOR DRAIN MECHANICAL FEES WATER SOFTENER VENTSYSTEM FAN EVAP.COOL HOOD en SIGN WASHER(AUTO)(DISH) APPLIANCE DRYER GARBAGE DISPOSAL frU UAAC.E UK1T WALL FLOOR SUSPENDED LAUNDRY TRAY WUWLFNG UNIT CFM MCHEN SER F6B5 OWTTGNSYSTEM B.T.U. TEMPUSEPERMPFSVC WATER CLOSET S COMPRESSOR HP D POLE,TEMIPERM �. LAVATORY HEATING SYSTEM FORCED GRAVITY AMPERES SERV ENT SHOWER BOILER B.T.U. SO. FT ® a. BATH TUB SO. FT. ® a WATER HEATER MAX. HEATER O PUT, B.T.U.SO.FT.RESID®1Vi6 6 SEWAGE DISPOSAL Z11_66 0.FT. GAR ® -Y.e. HOUSE SEWER GAS PIPING PERMIT FEE PERMIT FEE / PERMIT FEE DBL TOTAL FEES MICRO FEE MECH. FEE PL. CK. FEE CONST. FEE ELECT. FEE 1 SMI FEE PLUMB. FEE �� / 6 1/-Z-3!<3-Qe MICRO FILM FEE 1COPI $ MECH. FEE PL. CK. FEE I CQNS' UCTtON FEE _ ELECTRICAL FEE SMI FEE PLUMBING FEE Dbl $ JOBADDRESS $ Dbl S Dbl $ $ Dbl $ TOTAL FEES IS M.0.[] N.C.[] CASH[:] CHECK RECEIVED BY TREES REQUIRED :} SEWAGE SYSTEM T LL P SYEWESEWE ISTRI � • ,p FORM •58 (REV.B/79) I C% i JOBADDRESS COMMUNITY OWNER _ 1a J USE OF PERMIT VALUATION F.C.C. GR UP TYPE PLA NO. PLAN CHE ER DATE SUPP. TO/P'ER IT ATE NOT APPROVED APPROVED t� CLEARANCEREO'D PLAN CHEgC G B K6 PLUMBING / v ROAD DEPT �IEALTH DEPT 'P-LANNING ELECTRICAL DEPT b-IL—AND USE STRUCTURAL IRE MARSHAL AUDIT C.R.T. REMARKS: