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2100 HARBOUR COVE DRIVE
CHECK LIST, 88-2915 PRi v Project Name: • HARBOUR COVER- BLDG. D -'TOWNHOUSE (TRIPLEX 3/3). • Architect: I JACK BORGER 1, Ph: 283-3766 Contractor: HARBOUR COVEDEVELOPMENT INC. Ph: 461-4646 Owner: HARBOURCOVEDEVELOPMENT, INC. Ph: 461-3266 Address: ueui Occupancy Classification: Type of Construction: Height and Area: Occupancy'Requirements per Construction Requirements: A. Fire Protection: V u4s . all . V/y77 9 . ipter IV: o2.,4 �enhahtSPpara�`�oirs B. Egress -Requirements: �� �J/f1C/ [� ��7/77�(�J Li%j/� /AQ21;P_ Other Requirements: Elevators y Sprinklers b Standpipes Combustible !Materials - Interior Roof Coverings Light - Ventilation - Sanitation IY/4 Handicap Requirements l I Plans sent to';Fire Dept. - Date: Approved: Plot Plan Cheek a I ` Water Sever Energy Code Paving 6 Drainage approval by Engineering Dept. Special ConditiI ons prior to issuance Threshold Affidavit/Before Issuance Affidavit I FEOEi AL ELIERrENCY MANAGCM0r AGtNCY NATIIONAL FLOOD INSURANCE PROGRAM POST CONSTRUCTION ELEVATION CERTIFICATE/FLOODPROOFING CERTIFICATE �1i I C0IAMUNITY NUMA R St. Lucie Co., F1. (UNINCORPORATED AREAS) 120285 711`11e registered Professional enghwer. archltec ftdim 11 " be completed by any of the prof bee Masi anal. Pft or " them information and isr ft*011rlWl k4w0vernents to existing si buiinps b bo riled under POST -FIRM rules a IN,STRU_CTIONS surveyor or community permit official completes Section I .below. ssionals listed at the beginning of Section II. orb a similarly qualified �n this feral. This form Is to be used for new (POS, -FIRM) construction pictures In Zones Al-A30, AH and V1-V30 and existing (PRE -FIRM) rates. (TO BE COMPLETt D BY COMMUNITY PERMIT OFFICIAL) i iS (or tall an0 bled numbers I address Is Palvailatile) Harbour Cove Dev. Inc 2436 — 38 — 40 Harbour Cove Dr. I (NAME: Harbour Cove Dev. Inc.. . BP# 48074 99 MAIL pl rMf1IC11 MaJlERTY !S LOWED IA MAP ZONE IN WHI H ROPERTY IS LOCATED 0181-B . I' A=`10 MM UFECTrd OATi 1, BASE FLOOD ELEVATION AT THE PROPOSED SITE January 5. 1984 'j zi ART OF CGIIIST111111CION BAT[ Irene end TAfe j PHONE (wQGI area Code) 12/88 t" Terry L. Virta - Commtunity"'Devblo' iien:t, birth tor•1. (3051-;, "W-1553 2300 Virginia Ave., Ft. rice, F1.� 34982 SECTION U 12/14/88 'INSTRUCTIONS Carnplsla only the Elevation Certification unless the'- building has been floodproofed at least to the base flood elwa�OR !s floodprooting is used, complete only thIe Floodproofing Certification. The Elevation Certification may be cOr;Imind by a, registered professional eriginee�,=architect, or surveyor. The Floodproofing Certification may on r be ca ipleled by a registered professional engineer or arlchilecL -- ELEVATION CERTIFICATION cot* that the building at the property location desct'ibed above has the lowest floor at an elevation` of 7.50 (Mean Living) feet, NGVD (mean sea level). „ (7.27 Garage) Building D FLOODPROOFING CERTIFICATION I coMly to the best of my knowledge; information, sill belief, -that the'lstrUcture, is, designed so that the structure_ is watertight to an elevation of _ feet NGVD (mean sea level), with walls substaritially impermeable to the. passage df water and 411`rUiclural components having the capability of resisting hydrostatic and hydrodynamic loads and effeds of buoyancy that would, be caused by the -flood depths, pressures, velocities, impact and upwt tomes associated with° the'1i6 ' , flood; In the ova nt o! flooding, w81 this .degree of iioodproofingjbe achieved with human intervention?"' i ,r -, vela tt,e structure be occupied as a residence.? It the answer to both `gieahns is Yes,the .,iloodproofin.g cannot be credited for rating purposes a rid'the4lei�ation cenifrcation must be completed instead. i •Floodproofed with human intervention means, hat`'w�ater"'�ill' enler the structure when floods up to the base flood level occur, unless measures are taken. prior_ to the flood to prevent ontry of water (e.g'. bolting metal shields over doors and windows). - • I .iwrvrewarr= - r ...s Vice -President AOWtE Culpepper & Terpening, Inc. I P.O. Box 1449. Ft. �e, FL 3495"4' AFFIX SEAL OR WRITUFROFiSSIONAI LICENSE NO, BELOW. bl 1/13/89 (s' 1 (Date) ---- -- - - .....------ The ti• -" agent anaefvf the 6E.(YrnA rn(1y �1 ,the r ryn'h1p1M1 Inirn In Ile+ II,.,wiviea ,nnr n Iw,l�r y npplit Alon u�� r ST. LUCIE COUNTY,FLOOD HAZARD NOTICE COMMUNITY DEVELOPMENT DIRECTOR ST. LUCIE COUNTY BUILDING & ZONING DIVISION 2300 VIRGINIA AVENUE FORT PIERCE, FLORIDA 33482-5652 .PHONE: 466-1100 ext.344 BUILDING PERMIT NUMBER BP48074 CONTRACTOR Harbour Cove Dev. Inc. OWNER Harbour Cove Dev. Inc. N 0 T I C E THIS NOTICE IS TO INFORM YOU THAT YOUR PROPERTY,IS IN A FLOOD HAZARD ZONE. er THIS MEANS THAT THE ELEVATION OF THE FLOOR MUST -BE SET AT-'.V FEET, NGVD (MEAN SEA LEVEL), OR 18" ABOVE THE CROWN OF THE ROAD, WHICHEVER IS GREATER., YOU MUST SUBMIT OUR AFFIDAVIT-COMPIMM BY A REGISTERED SURVEYOR, CERTIFYING THE ABOVE FLOOR ELEVATION, WITHIN TWE;N NE_(21)_,CALENDAR DAYS FROM THE TIME THE SLAB IS INSPECTED. ANY WORK DONE WITHIN THE ZWE =7,PNE (21) DAYS PRIOR TO SUBMISSION OF ;,THE CERTIFICATION SHALL BE AT THE PERMIT HOLDER -AS • M RISK.. THE DEVELOPMENT DIRECTOR' SHALLREVIEWTHE FLOOD ELEVATIONi SURVEY DATA SUBMITTED. DEFICIENCIES DETECIM Y THE REVIEW SHALL BE CORRECTED_BY THE PERMIT HOLDER PRIOR TO FURTHER PROGRESSIVE WORK BEING PERMITTED TO PROCE® FAILURE TO SUBMIT THE CERTIFICATION OR FAILURE TO MAKE REQUIRED CORRECTIONS SHALL BE CAUSE TO ISSUE A STOP -WORK ORDER FOR'THE'PRWECT.. ,` GNA • DATE 1:3 U L DINGI PLAN CHECK „SST. LUCIE (.]:0UN'TY- FORT PIERCE FIRE PREVE'ATI-OPI BUREAU FORT PIE13GE, FLORIDA TEL.EF'HCNE 465-6655. CONTRACTOR: __ Harbour Cove Development ARCHITECT: Jack Borcer PLAN, N.UMBEB, DATE: R,,E-CE-,Ik,'E-D- PROOF- N.U.M.,IBER; PH.,O,NE-. UUMBER.; OWNER:----Hjarli)i)ur Cove Development LOCATION:_-- 243(i__244('Harbou.- Cove Dr. TYPE OF 0(-,CUF)AN('ay:. Re -.ident-.--'.al TYPE OF COH$TRUCT1,0:A, V Lip-aprinkled SIZE OF BLIILDIN(.i: __�5077 sq.. ft. NUMBER Of FLOORS:—__. 2 REQUIREMENTS: 2- per ——f-irp- e-xJ:.- ah:!-e . m ou n tai]L-or-a N"- 8". -91 JS1V'L;TO NOTIFY BUREAU'ONALL �NSPECTIONS Cr-')N1'F'A(;T0RS IRESPO-� 'ITY 5!4 H:DUFI N;01'.],(.-E HEQJ1111:1) 10!,N1 ALL MSf'1-'.CTI4:1MS- REVIEWED B)':--- MGNXURE Uf MER CALCULATIONS CLIMATE ZONES 4 5 6 U) Cn a J C7 z GLASS ' BASE BASE o AREA x SUMMER = SUMMER PT. MULT. POINTS "L COND. I TOTAL I BASE I .15 x FLOOR _ GLASS = ADJUST. x 171 Y I AREA AREA FACTOR I 15 1 zc,- 7 1 251 1 //OZ w it O - SINGLE -PANE DOUBLE -PANE SUMMER AS -BUILT GLASS x SUMMER POINT MULT OR SUMMER POINT MULT. x OVERHANG = GLASS AREA CLEAR TINT" CLEAR TINT' FACTOR (9B) SUM.I PTS. N 51.0 51.5 47.8 43.5 77.2 76. 71.7 63.4 _NE E 109.2 107. 102.0 87.3 . g �- SE 112.9 110. 104.1 89.4 S 100.2 98.3 90.9 78.8 8 SW 112.9 0 104.1 89.4 W 109.2 107 102.0 87.3 / NW' 77.2 76.6 71.7 63.4 H • 367.7 303.3 324.6 238.1 o , S nl 3 Zco 3Z , , -a I y b 3 Z '3 r .39 BASE I ADJUSTED GLASS = GLASS BASE COMPONENT BASE SUMMER = DESCRIPTION AREA x POINT MULT. SUMMER POINTS EXTERIOR!7 1.0 rl a ADJACENT .7 3 BASE COOLING I TOTAL BASE BASE COOLING SYSTEM x SUMMER = COOLING SYSTEM MULTIPLIER POINTS I POINTS .43 yz sbo /f275 NUMBER BASE BASE HOT OF x HOT WATER = HOT WATER WATER BEDROOMS I MULTIPLIER POINTS SYSTEM 3 1 3527 /O S-6-1 v AS -BUILT GLASS SUBTOTAL S COMPONENT DESCRIPTION SUMMER AREA x POINT MULT. (9C THRU 9G) AS -BUILT = SUMMER POINTS 1 ff w0 9 2 27 VL / A19 I W TOTAL AS -BUILT I AS -BUILT I AS -BUILT AS -BUILT AS -BUILT x DM x CSM x CCM = COOLING - SUM.PTS. 9H 9K 9L POINTS 38 Z ///U , yo &e y( AS -BUILT NUMBER AS -BUILT I AS -BUILT AS -BUILT HOT WATER OF x HWM x HWCM = HOT WATER SYSTEM DESC. BEDROOMS I 9M 9N POINT k-/ 3 I 3s2-7 I ,GY G5&0 I ' H = Horizontal Glass (Skylights) •• For glass with known Shading Coefficient, see sec. 903.2(a). Tint Multipliers may be used for glass with solar screens, film, or tint. -2- SUMMER CALCULATIONS CLIMATF 7nNFS A A A M rn a J Z GLASSLu BASE I BASE cc: AREA x SUMMER = SUMMER o PT. MULT. aniNTs C�ir"LZ�i I '- LWUJ ,SINGLE -PANE DOUBLE -PANE SUMMER AS -BUILT AREAS x SUMMER POINT MULT OR SUMMER POINT MISa x OtiTRHANG= GLASS CLEAR TINT-- CLEAR TINT" FACTOR (98) SUM. PTS. N 51.0 51.5 47.8 43.5 NE 77.2 76.6 71.7 63.4 E'. 33 109.2 7075 102.0 87.3 SE 112.9 110.3 104.1 89.4 S i 1 100.2 K-9-8-3 90.9 78.8 SW 112.9 110.3 104.1 89.4 W� 3 109.2 ('167D 102.0 87.3 70 3 9? NW 77.2 76.6 71.7 63.4 H' 367.7 303.3 324.6 238.1 lo7, / S 3 358 07,/ . `/Z /077 / 2/ `-/Z- 3 /o , 3 y COND. TOTAL BASE BASE ADJUSTED .15x FLOOR _ GLASS = ADJUST. x GLASS = GLASS COMPONENT BASE BASE SUMMER DESCRIPTION AREA x POINT MULT. = SUMMER POINTS EXTERIOR /5 1.0 57 J a ADJACENT 707 -s 3 N EXTERIOR Zv 909 0o Dc ADJACENT 3.2 - v i AS -BUILT GLASS SUBTOTAL ZZ$Z • COMPONENT DESCRIPTION SUMMER AS -BUILT AREA x POINT MULT. = SUMMER (9C THRU 9G) POINTS Uin v UNDER ATTIC .6 0l 3p $ 3 0 J OR SINGLE .6 cW> ASSEMBLY ,6 I BASE CEILING AREA EQUALS FLOOR AREA UNDER CEILING. AS -BUILT CEILING AREA EQUALS ACTUAL CEILING SQUARE FOOTAGE. v e ¢ SLAB IV6 .3 -31.8 1 -/ 0 .33 -3 , -J 00 RAISED Z - 3.43 - $ 3 I 2/ / 3 r r J LL FOR SLAB -ON -GRADE USE PERIMETER LENGTH AROUND CONDITIONED FLOOR. FOR RAISED FLOORS USE AREA OVER UNCONDITIONED SPACE. TOTAL COMPONENT BASE SUMMER POINT TO AL COMPONENT AS -BUILT SUMMER POINTS 3 • � BASE COOLING I TOTAL BASE BASE TOTAL AS -BUILT I AS -BUILT I AS -BUILT AS -BUILT COOLING SYSTEM x SUMMER = COOLING AS -BUILT x DM x CSM x CCM = COOLING - SYSTEM MULTIPLIER POINTS POINTS SUM. PTS. 9H 9K 9L POINTS .43 ��73$ ?-t� S /f3G�o /�/b yo NUMBER BASE BASE AS -BUILT NUMBER AS -BUILT AS -BUILT AS -BUILT HOT OF x HOT WATER = _ HOT WATER HOT WATER OF x HWM x HWCM_ = HOT WATER WATER BEDRQQMa MULTIPLIER POINT I SYSTEM DESC. BEDROOM 9M 9N POINT SYSTEM 3 35273 _ 3 S2 % "(0 ), la Z, O H = Horizontal Glass (Skylights) For glass with known Shading Coefficient, see sec. 903.2(a). Tint Multipliers may he used for glass with solar screens, film, or tint. -2- SUMMER POINT MULTIPLIERS (SPM) 9B SUMMER OVERHANG FACTORS (SOF) For single and double pane glass. CLIMATE ZONES 4 5 6 OH RATIO .0-.11 .12-.17 .18-.26 .27-.35 .36-.46 .47-.57 .58-.70 .71-.83 .84-1.18 1.19-1.72 1.73-2.73 2.74+ qI N 1.0 .94 .91 .87 .83 .79 .75 .72 .69 .62 .56 .50 }9 NE/NW 1.0 .94 .91 .85 .79 .72 .68 .63 .58 .50 .40 .36 o E/W 1.0 .95 .92 .85 .78 .70 .64 .58 .52 .42 .33 .26 N` SE/SW 1.0 .93 .90 .81 .72 .62 .55 .49 .42 .33 .27 .22 9 S 1.0 .91 .87 .77 .67 .57 .50 .45 .39 .32 .28 .25 ©'OH LENGTH " 0 ft. 1 ft. 11h ft. 2 ft. 3 ft. 31h ft. 41h ft. 51h ft. 61h ft. 9% ft. 14 ft. 20 ft.+ To select by Overhang Length. no part of glass shall be more than 8 ft. below the overhang. OVERHANG RATIO = OH LENGTH OH HEIGHT T L H 9C WALL SUMMER POINT MULTIPLIERS (SPM) 9D DOOR SUMMER POINT MULTIPLIERS (SPM) DOOR TYPE EXTERIOR ADJACENT WOOD 9.1 �GJ INSULATED (4�) 3.2 of L1T 1... 22-25.9 1. 1. 1 1 .9 1 IV - 1U.0 11-12.9 I o.0 2.7 n-VAL.ut 10-13.9 wmurrtu 3.0 txrustu 3.3 26=29.9 .7 13-18.9 2.4 14-20.9 2.0 2.1 30-37.9 .6 19-25.9 1.8 21 & Up 1.4 1.3 38&U .4 26 & Up 1.1 9F FLOOR SUMMER POINT MULTIPLIERS (SPM) SLAB -ON -GRADE EDGE INSULATION RAISED CONCRETE RAISED WOOD (See 903.2(e)) R-VALUE SPM R-VALUE SPM R-VALUE SPM 0-2.9 -31.9 0-2.9 -1.0 0- 6.9 - .7 3-4.9 -31.8 3-4.9 -1.7 7-10.9 - .8 5-6.9 -31.7 5-6.9 -1.7 11-18.9 - .8 7&U -31.6F 7 & Up 19&U6 - .7 9G INFILTRATION SUMMER POINT MULTIPLIERS (SPM) 9H DUCT MULTIPLIERS (DMI INFILTRATION PRACTICE (See Table 9P) SPM PRACTICE # 1 13.8 PRACTICE # 2 p,g PRACTICE # 3 6 R-VALUE With Return Air Duct W/O.Retum Air Duct 4.2 - 4.9 1.14 1.10 I 5.0 - 6.6 1.12 1.08 6.7 & Up 1.09 1.06 DUCTS IN CONDITIONED SPACE 1.00 1.00 -3- WINTER POINT MULTIPLIERS (WPM) 9B WINTER OVERHANG FACTORS (WOF) CLIMATE ZONES 4 5 6 OH RATIO 0-.11 .12-.17 .18-.26 .27-.35 1 .36-.46 47-.57 .58-.70 1 .71-.83 1 .84-1.18 1.19-1.72 1.73-2.73 2.74+ SINGLE PANE GLASS N 1.0 1.03 1.05 1.08 1.10 1.13 1.15 1.18 1.20 1.24 1.29 1.34 NE/NW 1.0 1.07- 1.10 1.15 1.20 1.25 1.30 1.35 1.39 1.50 1.59 1.67 I E/W 1.0 .71 .57 .19 -.20 -.65 -1.05 -1.48 -2.03 -3.01 -4.06 -5.04 m SE/SW 1.0 .93 .90 .80 .68 .54 .39 .22 .05 -.33 -.71 -1.01 S 1.0 .95 92 .83 .70 .54 .36 .13 -.13 -.70 -.98 w DOUBLE PANE GLASS "' i N 1.0 1.05 1.07 1.11 1.14 1.18 1.21 1:24 1.28 1.34 1.40 1.47 NE/NW 1.0 1.11 1.16 1.24 1.32 1.41 1.48 1.56 1.63 1.80 1.94 2.08 I E/W 1.0 .88 .82 .66 .50 .31 .15 -.03 -.26 -.66 -1.10 -1.50 SE/SW 1.0 .95 .92 .85 .76 .65 .54 .41 .28 -.01 -.30 -.52 S 1.0 .96 .94 .87 .78 .65 .51 .33 .13 -.30 -.51 -.60 OH LENGTH ` 0 ft.7 1 ft. 1'h ft. 2 ft. 3 ft. 31h ft. 41h ft I 51h ft. 1 61h ft. 91h ft. 14 ft. 20 ft.+ • To select by Overhang Length, no part of glass shall be more than 8 ft. below the overhang. OVERHANG RATIO = OH LENGTH OH HEIGHT 'F i L H 9C WALL WINTFR PAINT UI111 TIDI ICRQ /WDf,111 9D DOOR WINTER POINT MULTIPLIERS (WPM, DOOR TYPE EXTERIOR ADJACENT WOOD 9.5 (6.9 INSULATED 0.5 7.6 sonM- �EMS M. 9F FLOOR WINTEWPOINT MULTIPLIERS (WPM1 SLAB -ON -GRADE EDGE INSULATION RAISED CONCRETE RAISED WOOD See 903.2 e R-VALUE WPM R-VALUE WPM R-VALUE WPM 0-2.9 � 0 2.9 4.0 0- 6.9 3.5 3-4.9 - 1.7 3-4.9 1.8. 7-10.9 1. 5 - 6.9 - 2.4 5 - 6.9 1.1 11 - 18.9 .8 7&Ll - 2.7 7&U 8 19&U 4 9113 INFILTRATION WINTER POINT MULTIPLIERS'(WPM) 9H DUCT MULTIPLIERS (DM) INFILTRATION PRACTICE (See Table 9P) WPM PRACTICE a 1 6. PRACTICE a 2 4.1 PRACTICE a 3 2.2 R-VALUE With Retum Air Duct W/O Retum Air Duct 4.2 - 4.9 1.14 1.10 5.0 - 6.6 1.12 1.08 6.7 $ UD 1.09 1.06 DUCTS IN CONDITIONED SPACE 1 1.00 1.00 -5- SYSTEM TYPE HLAFING SYS I LM MUL I li'LItHS ^r COP 2.5-2.69 2.7-2.89 2.9-3.09 3.1-3.29 3.3-3.49 3.5-3.69 3.7-U Heat Pump HSM .54 .50 .47 .44 .41 .39 .37 Electric Strip HSM 1.0 Gas & Other Fuels HSM 1.0 See Table 9J for Credit Multipliers) PTHP & Room Units HSM HSM for COP 2.2 - 2.49 = .63. See above for COP 2.49. Minimums: Central Units 2.7 COP. PTHP & Room Units 2.2 COP. COP means Coefficient of Performance. 9J HEATING CREDIT MULTIPLIERS (HCM) SYSTEM TYPE HEATING SYSTEM MULTIPLIERS Attic Radiant Barrier HCM .98 Multizone HCM .90 AFUE .60 - .64 .65 - .69 1 .70 - .74 1 .75 - .79 .80 - .84 .85 - .89 .90 - U Natural Gas HCM .44 .41 .38 .35 .33 .31 .30 Other Fuels HCM .69 .63 .59 .55 .51 .48 .46 Where more than one credit is claimed, multiply HCM's together. Enter product on page 4. AFUE means Annual Fuel Utilization Efficiency. 9K COOLING SYSTEM MULTIPLIERS (CSM) SYSTEM TYPE COOLING SYSTEM MULTIPLIERS Central Units SEER 7.8- 7.9 8.0- 8.4 8.5- 8.9 -9.0- 9.4 9.5- 9.9 10.0- 10.4 10.5- 10.9 11.0- 11.4 11.5- 11.9 22.0- & U CSM .44 1 43 .40 .38 .36 .34 .32 .31 .30 .28 PTAC & Room Unit CSM CSM for EER 7.5 - 7.7 = .46. For EER's>7.7 use multipliers above. Minimums: Central Units 7.8 SEER. Room Units 7.5 EER. PTAC under 13,000 BTU/H 7.5 EER, and over 13,000 BTU/H 7.0 EER. SEER means Seasonal Energy Efficiency Ratio. EER means Energy Efficiency Ratio. 9L COOLING CREDIT MULTIPLIERS (CCM) SYSTEM TYPE MOLING CREDIT MULTIPLIER CCM Ceiling Fans .86 Multizone .90 Cross Ventilation or WhoI H for only one) .9 Attic Radiant Barrier .95 Where more than one credit is claimed, multiply CCM's together. Enter product on page 2. 9M HOT WATER MULTIPLIERS (HWM) SYSTEM TYPE HOT WATER MULTIPLIERS Electric EF .80 - .81 .82 - .83 .84 - .85 .86 - .87 .88 - .90 .91 - .93 .94 - .96 .97 & UP Resistance HWM 3879 3785 3695 3609 3527 3411 3302 3200 EF .48 - .49 .50 - .51 .52 - .53 .54 - .55 .56 - .57 .58 - .59 .60 - .61 .62 & U Natural Gas HWM 1722 1653 1589 1530 1476 1425 1377 1333 Other Fuels HWM 2662 2556 2458 2367 2282 2203 2130 2061 Water heaters must comply with prescriptive means of Table 9A. EF means Energy Factor. 9N HOT WATER CREDIT MULTIPLIERS (HWCM) SYSTEM TYPE HOT WATER CREDIT MULTIPLIERS SF .1 .2 .3 .4 .5 .6 .7 .8 .9 1.0 Solar Water Heater HWCM .9 .8 .7 .6 .5 .4 .3 .2 .1 .0 With Air -conditioner Heat Pump Heat Recovery Unit HWCM .62 .58 EF 2.0-2.49 2.5-2.99 3.0-3.49 3.5 & U Dedicated Heat Pump HWCM .44 1 .35 .29 .25 A HWM must be used in conjunction with all HWCM. SeelTable 9M. SF means Solar Fraction. EF means Energy Factor. *Form 90OD-86 must be submitted to obtain credit for Heat Recovery Unit. 9P INFILTRATION REDUCTION PRACTICE COMPLIANCE CHECKLIST (See Section 903.2(Q) COMPONENTS REQUIREMENTS FOR EACH PRACTICE CHECK PRACTICE #1 COMPLY WITH ALL INFILTRATION PRESCRIPTIVES ON TABLE 9A. PRACTICE #2 COMPLY WITH PRACTICE 01 AND THE FOLLOWING: Exterior Walls and Floors Top plate penetrations sealed. Infiltration barrier installed. Sole late/floor 'oint caulked or sealed. Exterior Walls & Ceilings Penetrations 'oints and cracks on interior surface caulked sealed or gasketed. Ductwork Ductwork in unconditioned space must be sealed. Fireplaces EauiDped with outside combustion air, doors and flue dampers. Exhaust Fans Equipped with dampers. Combustion devices see 903.2(fi. PRACTICE #3 COMPLY WITH PRACTICES #1 AND a2 AND THE FOLLOWING: Ceilings Infiltration barrier installed. Interior Walls Too plate Penetrations sealed or 'oints & cracks on interior walls caulked sealed or gasketed. Recessed Lights Sealed from conditioned space & insulated from ventilated attics aces. Ductwork All ductwork located in conditioned space. Combustion Appliances Be in unconditioned space (except direct vent). Draw air from unconditioned space. Exhaust by-products outdoors. Stoves see 903.2(f). -6- Cn (n J L7, z GLASS, xBASE,WINTER V BASE w AREA POINT - WINTER oI MULTIPLIER I POINTS E SE O v - 5.6 -13.4 - S 3 3 I -14.0 - '-1Z SW 1 -13.4 W 12-(0 1 - 5.6 0 NW 3.5 H' - id n EE x SINGLE -PANE OR DOUBLE -PANE WINTER AS -BUILT WINTER POINT MULT. WINTER POINT MULT. xOVERHANG = GLASS CLEAR TINTCLEAR TINT"FACTOR (9B) WIN. PTS. &U-IGLASS 9.6 9.6 5.6 6.1 - 5 4.2 -2.2 -2.0 -5.6 -3.6 -ZCo -10.3 - 9.7 -13.4 -10.4 -10.9 -10.2 -14.0 -11.0 -33 SW -10.3 - 9.7 -13.4 -10.4 W S3 - 2.2 - 2.0 - 5.6 - 3.6 -- NW 7.4 7.3 3.5 4.2 H' -32.1 -28.0 -27.0 -21.5 - Z ,S ry - �-I I COND. TOTAL BASE BASE ADJUSTED .15x FLOOR + GLASS = ADJUST x GLASS = GLASS AREA AREA FACTOR I SUBTOTAL BASE WP .15 ,/O -/ 3 -/ /3 COMPONENT BASE AREA x BASE WINTER = WINTER DESCRIPTION POINT MULT. POINTS EXTERIOR / 1.1 a ADJACENT 8 1.8 0 3 EXTERIOR 10.5 Z/D O O 1ADJACENT 7.6 o � Lu UNDER ATTIC OR SINGLE ASSEMBLY 00 J U. SLAB RAISED FOR .6 .6 .6 IUALS FLOOR AREA UNDE - 1.9 - S' 2 1 - LJ v AS -BUILT GLASS SUBTOTAL e COMPONENT DESCRIPTION I WINTER AS -BUILT AREA x POINT MULT. = WINTER 9C THRU 9G POINTS 8 CEILING SQUARE SPACE. BASE HEATING ' TOTAL BASE BASE TOTAL I AS -BUILT I AS -BUILT I AS -BUILT I AS -BUILT HEATING SYSTEM x WINTER = HEATING AS -BUILT x DM x HSM x HCM = HEATING SYSTEM MULTIPLIER I POINTS POINTS WAIN. PTS. i (9H) 1 1191 9J POINTS 1.14 ?Z$$ // BASE BASE BASE TOTAL AS -BUILT AS -BUILT AS -BUILT TOTAL COOLING + HEATING + HOT WATER = BASE COOLING + HEATING + HOT WATER = AS -BUILT a POINTS POINTS POINTS POINTS POINTS I POINTS POINTS POINTS 0 F From P.21 From P.2 Enter on P.1 From P.2 From P.2 Enter on P.1 �o9s 8308 os� 6An �1izr /c� 7�� �sZoo 3(o�7�S ' H = Horizontal Glass (Skylights) " For glass with known Shading Coefficient, see sec. 903.2(a). Tint Multipliers may be used for glass with solar screens, film, or tint. -4- WINTER POINT MULTIPLIERS (WPM) 913 WINTER OVERHANG FACTORS (WOO CLIMATE ZONES 4 5 6 OH RATIO 0-.11 .12-.17 .18-.26 .27-.35 .36-.46 1 .47-.57 .58-.70 1 .71-.83 1 .84-1.18 1.19-1.72 1.73-2.73 2.74+ 1 SINGLE PANE GLASS j N 1.0 1.03 1.05 1.08 1.10 1.13 1.15 1.18 1.20 1.24 1.29 1.34 1 1 NE/NW 1.0 1.07- 1.10 1.15 1.20 1.25 1.30 1.35 1.39 1.50 1.59 1.67 1 ENV 1.0 .71 .57 .19 -.20 -.65 -1.05 -1.48 -2.03 -3.01 -4.06 -5.04 1 > I SE/SW 1.0 .93 .90 .80 .68 .54 .39 .22 .05 -.33 -.71 -1.01 co I S 1.0 .95 .92 1 .83 .70 .54 1 .36 .13 -.13 -.70 -.98 1.09 -Cr CD DOUBLE PANE GLASS "' 1 N 1.0 1.05 1.07 1.11 1.14 1.18 1.21 1:24 1.28 1.34 1.40 1.47 i NE/NW 1.0 1.11 1.16 1.24 1.32 1.41 1.48 1.56 1.63 1.80 1.94 2.08 1 1 ENV 1.0 .88 .82 .66 .50 .31 .15 -.03 -.26 -.66 -1.10 -1.50 1 SE/SW 1.0 .95 .92 .85 .76 .65 .54 .41 .28 -.01 -.30 -.52 1 1 S 1.0 .96 .94 .87 .78 .65 .51 .33 .13 -.30 -.51 -.60 �► OH LENGTH' 0 ft. 1 ft. 11k ft. 2 ft. 3 ft. 31/2 ft. 4% ft I 51h ft. 61h ft. 9% ft. 14 ft. 20 ft + • To select by Overhang Length, no part of glass shall be more than 8 ft. below the overhang. OVERHANG RATIO = OH LENGTH OH HEIGHT 7 I L H 9C WALL WINTER POINT MULTIPLIERS (WPM) H L T FRAME CONCRETE BLOCK INTERIOR INSULATION EXT. INSULATION NORMAL WT. LT. WT. INOR. WT. I LT. WT. FACE BRICK LOG R-VALUE WOOD FR WOOD 0- 6.9 7.0 6 INCH R-VALUE EXT ADJ R-VALUE EXT ADJ EXT EXT EXT 7 - 10.9 2.1 R-VALUE EXT 0- 6.9 6.8 5.3 0- 2.9 6.0 3.1 I 4.7 6.0 4.7 11-18.9 1.7 0-2.9 2.2 7-10.9 2.5 2.1 3- 4.9 3.8 2.3 t 3.1 2.8 2.3 19-25.9 1.0 3-6.9 1.2 11-12.9 '20 5- 6.9 2.9 1.9 12.4 2.0 1.7 26&U .6 7&U .9 13 - 18.9 1.8 1.6 7 - 10.9 2.3 1.5 11.9 1.5 1.2 R-VALUE BLOCK 8 INCH 19 - 25.9 1.1 1.0 11 - 18.9 1.5 1.1 11.3 .8 .8 0-2.9 3.7 R-VALUE EXT 26&U .7 .7 19-25.9 .8 .7 I .8 :. eea 3-6.9 2.6 0-2.9 1.2 STEEL 26 & U 5 5 5 fi xe1�_ 7- 9.9 1.8 3-6.9 9 R-VALUE EXT _.. ADJ t."? 4.:, : MR 10 & Uo 1.3-11 7 & U .7 0- 6.9 1 9.4 6.7 7 - 10.9 4.4 3.3 11 - 12.9 3.3 2.6 13 - 18.9 3.0 2.4 19 - 25.9 2.6 2.2 26&UP 1.4 1.2 9D DOOR WINTER POINT MULTIPLIERS (WPM) DOOR TYPE EXTERIOR ADJACENT WOOD 9.5 6 99 INSULATED 10.5 7.6 I 9E CEILING WINTER POINT MULTIPLIERS (WPM) UNDER ATTIC SINGLE ASSEMBLY CONCRETE DECK ROOF • CEILING TYPE R-VALUE I IWPM R-VALUE WPM 19 - 21.9 ' 1.0,; 10 -10.9 1.8 R-VALUE DROPPED EXPOSED 22-25.9 .9 11-12.9 1.6 10-13.9 1.2 1.3 26 - 29.9 .7 13 - 18.9 1.5 14 - 20.9 .7 .7 30-37.9 19-25.9 1.1 21 &U .4 .3- 38&U .4 26&U 6 9F FLOOR WINTER POINT MULTIPLIERS (WPM) SLAB -ON -GRADE EDGE INSULATION RAISED CONCRETE RAISED WOOD See 903.2 e R-VALUE WPM- R-VALUE WPM R-VALUE WPM 0-2.9 2.5 0-2.9 4.0 0- 6.9 3.5 3-4.9 - 1.7 3-4.9 1.8 7-10.9 1.1- 5-6.9 - 2.4 5-6.9 1.1 11-18.9 .8 7&U I - 2.7 7&U .8 19&U .4 I 9G INFILTRATION WINTER POINT MULTIPLIERS (WPM) 9H DUCT MULTIPLIERS (DM) INFILTRATION PRACTICE (See Table 9P) WPM PRACTICE s 1 6.2 PRACTICE a 2 4. PRACTICE s 3 2.2 I R-VALUE With Retum Air Duct W/O Retum Air Duct 4.2 - 4.9 1.14 1.10 5.0 - 6.6 1.12 1.08 6.7 & Up 1.09 1.06 DUCTS IN CONDITIONED SPACE 1.00 1.00 -5- SUMMER POINT MULTIPLIERS (SPM) 9B SUMMER OVERHANG FACTORS (SOF) For single and double,pane glass. CLIMATE ZONES 4 5 6 110- OH RATIO .0-.11 .12-.17 .18-.26 .27-.35 .36-.46 .47-.57 .58-.70 .71-.83 .84-1.18 1.19-1.72 1.73-2.73 2.74+ N 1.0 .94 .91 .87 .83 .79 .75 .72 .69 .62 .56 .50 CalMI NE/NW 1.0 .94 .91 .85 .79 .72 .68 .63 .58 .50 .40 .36 J o E/W 1.0 .95 .92 .85 .78 .70 .64 .58 .52 .42 .33 .26 N� SE/SW 1.0 .93 .90 .81 .72 .62 .55 .49 .42 .33 .27 .22 S 1.0 .91 .87 .77 .67 1 .57 .50 .45 .39 .32 plill'OH LENGTH " 0 ft. 1 ft. 13�i ft. 2 ft. 3 ft. 31�z ft. 4�h f1. 5Y2 ft. 6Yz ft. 9Yz ft. .28 14 ft. .25 20 ft.+ To select by Overhang Length, no part of glass shall be more man 8 ft. below the overhang. OVERHANG RATIO = OH LENGTH OH HEIGHT T-� H 9C WALL SUMMER POINT MULTIPLIERS (SPM) 9D DOOR SUMMER POINT MULTIPLIERS (SPM► DOOR TYPE _ EXTERIOR ADJACENT WOOD 9.1 .2.9 INSULATED 3.2 •� 22 - 25.9 �. .9 u - w.z) 11 - 12.9 I o.0 2.7 H-VAWt 10 - 13.9 UHUPPEO EXPOSED 3.0 3.3 26=29.9 .7 13-18. 22.4 14-20.9 •2.0 2.1 30-37.9 �.6 19-25.9 1.8 21 &U ' 1.4 1.3 .4 26&U 1. : `�'�� 9F FLOOR. SUMMER POINT MULTIPLIERS (SPM) SLAB -ON -GRADE EDGE INSULATION RAISED CONCRETE RAISED WOOD (See 903.2(e)) R-VALUE SPM- R-VALUE SPM R-VALUE SPM 0-2.9 -31.9 0.2.9 -1.0 0- 6.9 - .7 3-4.9 -31.8 3-4.9 -1.7 7-10.9 - .8 5-6.9 -31.7 5-6.9 -1.7 11-18.9 �8 7&U -31.6 7&U -1.7 19&U 9G INFILTRATION SUMMER POINT MULTIPLIERS (SPM) 9H DUCT MULTIPLIERS (DM) INFILTRATION PRACTICE SPM (See Table 9P) PRACTICE s 1 13.8 PRACTICE a 2 PRACTICE a 3 7.6 R-VALUE With Return Air Duct W/O Return Air Duct 4.2 - 4.9 1.14 1.10 5.0 - 6.6 1.12 1.08 6.7 & Up 1.09 1.06 DUCTS IN CONDITIONED SPACE 1.00 1.00 .3. SUMMER CALCULATIONS CLIMATE ZONES 4 5 6 Z GLASSLU I BASE I BASE s AREA' x SUMMER = SUMMER 0 , PT. MULT. anINTC wl o' GLASS I SINGLE -PANE ' OR DOUBLE -PANE SUMMER AS -BUILT AREA SUMMER POINT MULT. SUMMER POINT MULT x OVERHANG = GLASS CLEAR TINT" CLEAR TINT" FACTOR (9B) SUM. PTS. N 51.0 51.5 47.8 43.5 NE . 77.2 76.6 71.7 63.4 E Co 109.2 102.0 87.3 i L 3 SE 112.9 11 104.1 89.4 S 100.2 (-98.j 90.9 78.8 13 $ S SW 112.9 11 Q,% 104.1 89.4 W 30 109.2 07.1 102.0 87.3 70 NW 77.2 76.6 71.7 63.4 H' 367.7 303.3 324.6 238.1 q - 3 let �- GU �v ) 7, / CON TOTAL BASE BASE ADJUSTED .15 x FLOOR _ GLASS = ADJUST. x GLASS = GLASS SFS AREA AREA FACTOR I SUBTOTAL I BASE SP .15 1 7-3 33y 1 1 37--/%0 1 a-3378 T COMPONENT BASE ' BASE SUMMER DESCRIPTION AREA x POINT MULT. = SUMMER POINTS EXTERIOR 1.0 a ADJACENT 7 3 ' EXTERIOR 9.9 0 ADJACENT 3.2 5g I o I AS -BUILT GLASS SUBTOTAL COMPONENT DESCRIPTION SUMMER AREA x POINT MULT. (9C THRU 9G) AS -BUILT = SUMMER POINTS V,r 'ell W O q , y I 040j I w 0 3 v ¢ SLAB -31.8 -30Z1 I O lc C� 3 00 - RAISED / - 3.43 - & I 7 U. BASE COOLING I TOTAL BASE I BASE COOLING SYSTEM x SUMMER = COOLING SYSTEM MULTIPLIER I POINTS I POINTS .IQ 3?01V C 77G NUMBER I BASE BASE HOT OF x HOT WATER = HOT WATER WATER BEDROOMS I MULTIPLIER PINTS SYSTEM -3527 12L OF TOTAL I AS -BUILT I AS -BUILT I AS -BUILT I AS -BUILT AS -BUILT x DM x CSM x CCM = COOLING - SUM. PTS. 9H 91K 9L POINTS 'L/777 ///0 -7�Z,71 I AS -BUILT NUMBER AS -BUILT AS -BUILT AS -BUILT HOT WATER OF x HWM x HWCM = HOT WATER YYTEM DESC. BEDROOMS 9M ' 9N POINTS ,0- *&f 3 1 35-2_j 1 , CoL & s-oo H Horizontal Glass (Skylights) For glass with known Shading Coefficient, see sec. 9032(a). Tint Multipliers may be used for glass with solar screens, film, or tint. -2- SUMMER POINT MULTIPLIERS (SPM) 9B SUMMER OVERHANG FACTORS (SOF) For single and double pane glass. CLIMATE ZONES 4 5 6 ® OH RATIO .0-.11 .12-.17 .18-.26 .27-.35 .36-.46 .47-.57 .58-.70 .71-.83 .84-1.18 1.19-1.72 1.73-2.73 2.74+ N 1.0 .94 .91 .87 .83 .79 .75 .72 .69 .62 .56 .50 c1 NE/NW 1.0 .94 .91 .85 .79 .72 .68 .63 .58 .50 .40 .36 Cr o ENV 1.0 .95 .92 .85 .78 .70 .64 .58 .52 .42 .33 .26 J �I SE/SW 1.0 .93 .90 .81 .72 .62 .55 .49 .42 .33 .27 .22 S 1.0 .91 .87 .77 .67 1 .57 1 .50 .45 1 .39 1 .32 1 10. DH LENGTH ' 0 ft. 1 ft. 11f2 ft. 1 2 ft. 3 ft. 31f2 ft. 1 4112 ft. 51/z ft. I 61k ft. 91'z ft. .28 14 ft. .25 20 ft.+ • To select by Overhang Length, no part of glass small be more [man 8 ft. below the overhang. OVERHANG RATIO -- OH LENGTH OH HEIGHT T- i L H 9C WALL SUMMER POINT MULTIPLIERS (SPM) FRAME COI INTERIOR WOOD I I NORMAL' 9D DOOR SUMMER POINT MULTIPLIERS (SPMI DOOR TYPE EXTERIOR ADJACENT WOOD 9.1 /2.9 INSULATED. 9 3.2 T 0 i i 9E CEILING SUMMER POINT MULTIPLIERS (SPMI L H 4- LOG UNDER ATTIC 1 SINGLE ASSEMBLY CONCRETE DECK ROOF CEILING TYPE R-VALUE SPM R-VALUE SPM 19 - 21.9 1.1� 10 -10.9 3.0 R-VALUE DROPPED EXPOSED 22 - 25.9 .9`, 11 - 12.9 2.7 10 - 13.9 3.0 3326=29.9 .7 13-18.9 2.4 14-20.9 2.0 2.1 30-37.9 .6 19-25.9 1.8 21.&U 1.4 1.3 38&U .4 26&U 1. 9F FLOOR SUMMER POINT MULTIPLIERS (SPM) SLAB -ON -GRADE EDGE INSULATION RAISED CONCRETE RAISED WOOD (See 903.2(e)) R-VALUE SPM R-VALUE SPM R-VALUE SPM 0-2.9 -31. 0-2.9 -1.0 0- 6.9 - .7 8 3-4.9 -1.7 7-10.9 - .8 7 5-6.9 -1.7 11-18.9 - 8; 7&U1 7&U -1.7 19&U' - .7 3-4.9 -31. 5-6.9 -31. 9G INFILTRATION SUMMER POINT MULTIPLIERS (SPM) 9H D ( DUCT MULTIPLIERS ) INFILTRATION PRACTICE (See Table 9P) SPM PRACTICE a 1 13.8 PRACTICE a 2 Kfb.9 PRACTICE n 3 -7.6 R-VALUE With Retum Air Duct W/O Retum Air Duct 4.2 - 4.9 1.14 1.10 5.0 - 6.6 1.12 1.08 6.7 & Up 1.09 1.06 DUCTS IN CONDITIONED SPACE 1.00 1.00 WINTER POINT MULTIPLIERS (WPM) 9B WINTER OVERHANG FACTORS (WOF) CLIMATE ZONES 4 5 6 ® OH RATIO 1 0-.11 1 12-.17 1 .18-.26 1 .27-.35 .36-.46 1 .47-.57 .58-.70 1 .71-.83 1.8471.18 1 1.19-1.72 1 1.73-2.73 2.74+ SINGLE PANE GLASS i N 1.0 1.03 1.05 1.08 1.10 1.13 1.15 1.18 1.20 1.24 1.29 1.34 NE/NW 1.0 1.07 1.10 1.15 1.20 1.25 1.30 1.35 1.39 1.50 1.59 1.67 tr E/W 1.0 .71 .57 .19 -.20 -.65 -1.05 -1.48 -2.03 -3.01 -4.06 -5.04 m I SE/SW 1.0 .93 .90 .80 .68 .54 .39 .22 .05 -.33 -.71 -1.01 S 1 1.0 .95 .92 .83 .70 .54 .36 .13 -.13 -.70 -.98 w DOUBLE PANE GLASS "' I N 1.0 1.05 1.07 1.11 11.14 1.18 1.21 1:24 1.28 1.34 1.40 1.47 i NE/NW 1.0 1.11 1.16 1.24 1 1.32 1.41 1.48 1.56 1.63 1.80 1.94 2.08 to E/W 1.0 .88 .82 .66 .50 .31 .15 -.03 -.26 -.66 -1.10 -1.50 SE/SW 1.0 .95 .92 .85 .76 .65 .54 .41 .28 -.01 -.30 -.52 1 S 1.0 .96 .94 .87 I .78 .65 .51 .33 .13 -.30 -.51 -.60 101, OH LENGTH 0 ft. 1 ft. 11h ft. 2 ft. 1 3 ft. 31/z it. 41h ft 51h ft. 1 61h ft. 91h ft. 14 ft. 1 20 ft + * To select by Overhang Length, no part of glass shall be more than 8 ft. below the overhang. OVERHANG RATIO = OH LENGTH OH HEIGHT T-�i-L H 9C WALL WINTER POINT MULTIPLIERS (WPM) H L T FRAME CONCRETE BLOCK INTERIOR INSULATION NORMAL WT. I LT. WE IEXT.INSULATION INOR. WT. I LT. WT. FACE BRICK LOG R-VALUE WOOD FR WOOD 0- 6.9 7.0 6 INCH R-VA UE EXT ADJ R-VALUE EXT ADJ I EXT EXT EXT 7 - 10.9 2.1 R-VALUE EXT 0- 6.9 6.8 ' 5.3 0- 2.9 6.0 3.1 I 4.7 6.0 4.7 11 -18.9 1.7 0-2.9 2.2 7-10.9 2.5 2.1 3- 4.9 3.8 2.3 1 3.1 2.8 2.3 19-259 1.0 3-6.9 1.2 11-12.9 !2.0 1.8.•�1 5- 6.9 2.9 1.9 I 2.4 2.0 1.7 26&U .6 7&U .9 13 - 18.9 f8- -1.6 1 7 - 10.9 2.3 1.5 1.9 1.5 1.2 R-VALUE BLOCK 8 INCH 19 - 25.9 1.1 1.0 11 - 18.9 1.5 1.1 1.3 .8 .8 0-2.9 3.7 R-VALUE EXT 26 & U .7 .7 19 - 25.9 .8 .7 .8 rb. 3-6.9 2.6 0-2.9 1.2 STEEL 26 & U 5 .5 ji -.5 i c� 7 - 9.9 1.8 3-6.9 .9 R-VALUE EXT ADJs 4am*1 10 & Up 1.3 7 & U 7 -0- 6.9 7 - 10.9 11 - 12.9 13 - 18.9 19 - 25.9 26 & Up 9.4 4.4 3.3 3.0 2.6 1.4 6.7 3.3 2.6 2.4 2.2 1.2 9E CEILING WINTER POINT UNDER ATTIC R-VALUE WPM 19 - 21.9 I 1.0 22-25.9 .9 26-29.9 I .7 30-37.9 I 38&U .4 MULTIPLIERS (WPM) SINGLE ASSEMBLY CONCRETE DECK ROOF CEILING TYPE R-VALUE WPM 10 -10.9 1.8 R-VALUE DROPPED EXPOSED 11-12.9 1.6 10-13.9 1.2 1.3 13. 18.9 1.5 14-20.9 .7 .7 19-25.9 1.1 21&U .4 .3 26&U 6 JY uvvn-IINIGn rwill I III YLI Iri-limo JTV rd11 DOOR TYPE EXTERIOR ADJACENT WOOD 9.5 6.9 INSULATED 10.5 7.6 9G INFILTRATION WINTER POINT MULTIPLIERS:(WPM) INFILTRATION PRACTICE (See Table 9P) WPM PRACTICE a 1 6.2 PRACTICE a 2 4.1 PRACTICE a 3 2.2 9F FLOOR WINTER POINT MULTIPLIERS (WPM) SLAB -ON -GRADE EDGE INSULATION RAISED CONCRETE RAISED WOOD See 903.2 e R-VALUE I WPM R-VALUE WPM R-VALUE WPM 0-2.9 I 2.5 0-2.9 4.0 0- 6.9 3.5 3-4.9 I - 1.7 3-4.9 1.8 7-10.9 1.1 5-6.9 I - 2.4 5-6.9 1.1 11-18.9 .8 7&U I - 2.7 7&U 8 19&U 4 9H DUCT MULTIPLIERS (DM) R-VALUE With Return Air Duct W/O Return Air Duct 4.2 - 4.9 1.14 1.10 5.0 - 6.6 1.12 1.08 6.7 & Up 1.09 1.06 DUCTS IN CONDITIONED SPACE 1.00 1.00 -5- r`I uAATC 'MMCO A G isill�N I Lwirti C MVI�Ya� • BASE,WINTER BASE w GLASS x POINT = WINTER o AREA L MULTIPLIER I PAINTS U) y a J 0 C - - - 0.0 1 w Lo SE -13.4 _ S /Z -14.0 SW -13.4 W O - 5.6 NW 3.5 H. _IA n W ' F o' GLASS x -SINGLE-PANE OR DOUBLE -PANE WINTER AS -BUILT AREA WINTER POINT MULT. WINTER POINT MULT. x OVERHANG = GLASS CLEAR TINT" CLEAR TINT" FACTOR (98) 1 WIN. PTS. N 9.6 9.6 5.6 6:1 NE 7.4 7. 3.5 4.2 E (o - 2.2 2.0 - 5.6 - 3.6 -tq -10.3 - 9.7 -13.4 -10.4 S '-, -10.9 -10.2 -14.0 -11.0 - 25 7 O SW -10.3 - 9.7 -13.4 -10.4 W i - 2.2 - 2.0 - 5.6 - 3.6 - NW 7.4 7.3 3.5 4.2 H' -32.1 -28.0 -27.0 -21.5 II COND. TOTAL BASE BASE ADJUSTED 1 5 x FLOOR _ GLASS = ADJUST x GLASS = GLASS AREA AREA FACTOR I SUBTOTAL I BASE WP 15 � 7 Y - 2_1? - Z COMPONENT BASE AREA x BASE WINTER = WINTER DESCRIPTION POINT MULT. POINTS EXTERIOR 1.1 U 0 a ADJACENT / y 1.8 v 3 EXTERIOR Zo 10.5 O o ADJACENT 7.6 c UNDER ATTIC 0 OR SINGLE v ASSEMBLY cc 0 0 J U. v .6 .6 .6 --- )UALS FLOOR AREA UNDE - 1.9 -/ AS -BUILT GLASS SUBTOTAL -/ y6 v COMPONENT DESCRIPTION WINTER AS -BUILT AREA x POINT MULT. = WINTER 9C THRU 9G POINTS 91 v AREA EQUALS FOOTAGE. BASE HEATING 1 TOTAL BASE BASE TOTAL AS -BUILT I AS -BUILT I AS -BUILT AS -BUILT HEATING SYSTEM x WINTER = HEATING AS -BUILT x DM x HSM x HCM = HEATING SYSTEM MULTIPLIER I POINTS POINTS WIN. PTS. 9H 91 9J P0INTS 1.14 6W-7 73 S F.-73 �//U G3 /y3.3 BASE BASE BASE TOTAL AS -BUILT AS -BUILT AS -BUILT TOTAL J COOLING + HEATING + HOT WATER = BASE COOLING + HEATING + HOT WATER c AS -BUILT F POINTS POINTS POINTS POINTS POINTS POINTS I POINTS POINTS 0 From P.2 From P.2 Enter on P.1 From P.2 Fr am P.2 Enter P.1 on 16776 1 73 S' LL0 51- 3y Sz k&7 33 �-&o ' H = Horizontal Glass (Skylights) " For glass with known Shading Coefficient, see sec. 9O3.2(a). Tint Multipliers may be used for glass with solar screens, film, or tint. '-4- (:1 IM ATF %P1NF14 A r•. A blWbA+a u �d 6 oor'�xN��0i14am'Y tl aV'D'tivil BASE,WINTER BASE u, CLASS x POINT = WINTER o AREA I MULTIPLIER I POINTS W N a J C - 0.0 1 �Y (G SE -13.4 S Z 3 -14.0 SW -13.4 W - 5.6 NW 3.5 M. -ien �~, Fr GLASS x . SINGLE -PANE OR DOUBLE -PANE WINTER AS -BUILT AREA WINTER POINT MULT. WINTER POINT MULT. x OVERHANG = GLASS CLEAR TINT" CLEAR TINT" FACTOR (9B) WIN. PTS. N 9.6 9.6 5.6 6'1 NE 7.4 7. 3.5 4.2 E -2.2 2.0 -5.6 -3.6 SE - 0.3 - 9.7 -13.4 -10.4 S -10.9 -10.2 -14.0 -11.0 - 2 D SW -10.3 - 9.7 -13.4 -10.4 W - 2.2 - 2.0 - 5.6 - 3.6 /04 NW 1 7.4 7.3 3.5 4.2 H. -32.1 -28.0 -27.0 -21.5 -ro.y v - 2 -/ COND. I TOTAL BASE BASE ADJUSTED .15 x FLOOR + GLASS = ADJUST x GLASS = GLASS AREA I AREA FACTOR I SUBTOTAL BASE WP .15 r % L -- 2c1 _ 5� - 7i/� COMPONENT BASE WINTER = BASE, AREA x WINTER DESCRIPTION N) POINT MULT. pO1NTS EXTERIOR 6 1.1 1030 a ADJACENT Y 1.g v 3 EXTERIOR Zv 10.5 00 ADJACENT 7.6 c UNDER ATTIC J OR SINGLE ASSEMBLY FOR - )UALS FLOOR AREA UNDER CEII 1.9 1 -/ .2 'RIMETER LENGTH AROUND C01 BASE BASE HEATING I TOTAL BASE HEATING SYSTEM x WINTER = HEATING SYSTEM MULTIPLIER POINTS POINTS 1.14 IF AS -BUILT GLASS SUBTOTAL COMPONENT DESCRIPTION I WINTER AS -BUILT AREA x POINT MULT. = WINTER 9C THRU 9G POINTS -J- y 7-v AREA EQUALS TOTAL COMPONENT AS -BUILT WINTER POINTS `S TOTAL AS -BUILT I AS -BUILT AS -BUILT AS -BUILT AS -BUILT x DM x HSM x HCM = HEATING WIN. PTS. t9H 91 9J ///v _L�POINTS �y33 BASE BASE BASE TOTAL AS -BUILT AS -BUILT I AS -BUILT TOTAL J COOLING + HEATING + HOT WATER = BASE COOLING + HEATING + HOT WATER = AS -BUILT POINTS POINTS - POINTS POINTS POINTS POINTS POINTS POINTS Fo From P.2 From P.2 Enter on P.1 From P.2 From P-2 Enter P.1 on /G7 Z 6 1 7 3 5'LLO 7 9-Ca 7 2'13 3 3 3 �-&0 H = Horizontal Glass (Skylights) •• For glass with known Shading Coefficient, see sec. 903.2(a). Tint MuRipliers may be used for glass with solar screens film or tint. / . 7 -4- ' Iw GLASS xyI Vp01NT = WINTER o I I AREA 1 MULTIPLIER POINTS E SE - b.ti -13.4 - g - 8 -14.0 - /`! SW -13.4 in o " WINTER POINT MULT. AREA CLEAR TINT" WIN Ith rUiivi MULL UVthhNNU - ULNSb CLEAR TINT" FACTOR (913) WIN. PTS. N 9.6 9.6 5.6 6.1 NE E 7.4 7 2.Oi 3.5 -5.6 4.2 -3.6 � �9 SE S 3 -10.3 -10.9 - 7 -10' -13.4 -14.0 -10.4 -11.0 SW W / -10.3 -2.2 - 9. f-2. -13.4 -5.6 -10.4 -3.6 NW 7.4 7.3 3.5 4.2 H• -32.1 -28.0 -27.0 -21.5 - 33 z- w c - Z 07 '- COND. TOTAL BASE BASE ADJUSTED 1 5 x FLOOR _ GLASS = ADJUST x GLASS = GLASS AREA AREA FACTOR I SUBTOTAL I ASE WP .15 1 O Z1 --zo9d I - Z/ 32- BASE COMPONENT AREA x BASE WINTER = WINTER DESCRIPTION POINT MULT. POINTS EXTERIOR //17 1.1 1 1 a ADJACENT 1.8 )75 EXTERIOR ZG 10.5 12 D O 1ADJACENT 7.6 O 0 r BASE HEATING TOTAL BASE BASE HEATING SYSTEM x WINTER = HEATING SYSTEM MULTIPLIER POINTS POINTS' 1.14 -7lgO $i o BASE BASE BASE TOTAL COOLING + HEATING + HOT WATER = BASE J a POINTS POINTS POINTS POINTS oFrom P.21 From P.2 Enter on P.1' z s� ' H = Horizontal Glass (Skylights) •• For glass with known Shading Coefficient, see aec. 903.2(a AS -BUILT GLASS SUBTOTAL - O v COMPONENT DESCRIPTION WINTER AS -BUILT AREA x POINT MULT. = WINTER 9C THRU 9G POINTS 11-17 Z z 3,7 / S TOTAL I AS -BUILT I AS -BUILT I AS -BUILT I AS -BUILT AS -BUILT x DM x HSM x HCM = HEATING J I /) ss 1 4 /o I I //6' 3 9- 1 AS -BUILT AS -BUILT AS -BUILT TOTAL COOLING + HEATING + HOT WATER = AS -BUILT POINTS POINTS POINTS POINTS From P.2 From P.2 Enter on P.1 l ao6 /l639 s7o0 3Soys Tint Multipliers may be used for glass with solar screens, film, or tint. , % 7 7 -4- TFR CAAfLC UL A 11UNb W o SINGLE -PANE DOUBLE -PANE WINTER AS BUILT GLASS x WINTER POINT MULT. OR WINTER POINT MULT. x OVERHANG = GLASS AREA CLEAR TINT" CLEAR TINT" FACTOR (9B) WIN. PTS. N NE 9.6 7.4 9.6 7 3.5 4.2 E SE $ SW W NW H• r� $ / - 2.2 -10.3 -10.9 -10.3 - 2.2 7.4 -32.1 2.0 - -10. -�. - 2. 7.3 _- 28.0 /O - 5.6 -13.4 -14.0 -13.4 - 5.6 3.5 -27.0 - 3.6 -10.4 -11.0 -10.4 - 3.6 4.2 -21.5 y / - 35•( _ BASE COMPONENT = WIN AREA x BASE WINTER TER DESCRIPTION POINT MULT. POINTS EXTERIOR // 9 1.1 ! / ADJACENT 1.8 a 3, EXTERIOR ZOCr 10.5 2 D 00 di ADJACENT 7.6 o _ UNDER ATTIC OR SIIJGLE L) ASSEMBLY o RAISED _:�4 J FOR ]UALS FLOOR AREA UNDER CEILING. - 1.9 -/ r - BASE HEATING 1 TOTAL BASE BASE HEATING SYSTEM x WINTER = HEATING SYSTEM MULTIPLIERI POINTS POINTS 1.14 7lgO f/40 BASE BASE BASE TOTAL COOLING + HEATING + HOT WATER = BASE a POINTS POINTS POINTS POINTS oFrom P.2 From P.2 Entee on P.1 JR7_74- �� yv to AS -BUILT GLASS SUBTOTAL O F COMPONENT DESCRIPTION, WINTER AS -BUILT AREA x POINT MULT. = WINTER 9C THRU 9G POINTS Z z 39 ! S AREA z[o � IZ 1 2 va co TOTAL I AS -BUILT I AS -BUILT I AS -BUILT I AS -BUILT AS -BUILT x DM x HSM x HCM = HEATING f0 5-9 j /. /v I /�� 3 " I . AS -BUILT COOLING POINTS From P.2 AS -BUILT AS -BUILT + HEATING + HOT WATER POINTS POINTS From P.2 TOTAL = AS -BUILT POINTS Enter on P.1 '16 ay6 //6 3 9 & s-&o 3 5-D y.S • H = Horizontal Glass (Skvlights) •• For glass with known Shading Coefficient, see sec. 9M.2(a). Tint Multipliers may be used for glass with solar screens, film, or tint. %�