Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
ENERGY EFFICIENCY CODE
.� := ; .. FLORIDA ENERGY EFFICIENCY CODE SCANNED .: FOR BUILDING CONSTRUCTION BY ZONES FORM 900•A-89 SECTION 9 — RESIDENTIAL POINT SYSTEM METHO_ CddIQ MR DEPARTMENT OF COMMUNITY AFFAIRS ' t RAL 4 5 6 PRIOdECT NAME A ADDRESS. 115, tixf 4o4c- 7'4' BUILDER: FII&AIKI-eP000 PERMITTING CLIMATE OFFICE: I_ :.� ZONE: 4 5 6 C� . ❑ ✓ I OjNNERr �eopl�%/K.G �s �.. PERMIT NO.: JURISDICTION NO.: (/1 II NEW CONSTRUCTIO I}DDITION . ❑ IF MULTIFAMILY. NUMBER OF UNITS COVERED BY THIS SUBMITTAL: CONDITIONED % Q S0. FLOOR AREA FT GLASS ARE A_'ANID TYPE CLEAR TINT,FILM,SOLAR SCREEN PREDOMINANT EAVE OVERHANG f LENGTH FT SINGLE- PANE-'=-''— �SD. ._ , FT. SINGLE- PANE SO. FT. ' IIII ULTIFAMILY-ATTACHED ❑ I SINGLE-FAMILY DET,CHED CHECK IF THIS SUBMITTAL EPRESENTS A WORST CASE CONDITION: ❑ PORCH OVERHANG LENGTH EA FT DOUBLE- PANE [Z�J SO. FT DOUBLE- PANE � S0. FT. I LI I II NET WALL AREA AND INSULATION I EXTERIOR MASONRY 'R = EXTERIOR FRAME R = EXTERIOR STEEL R = EXTERIOR LOG R = 11 I II FT ❑ . D ©FT ® F0. ❑ _U FD ❑ ADJACENT MASONRY = ADD ACE/NT�FRAMMEE R = ADJACENT STEEL R = LOG R = I MT III I FT I mR I n I- I I 1 I I L ICI - I FOT � I � FT ❑ Ll�ID mADJACCEENT so FT ❑ � I CEILING AREA AND INSULATION FLOOR TYPE AND INSULATION UNDER ATTIC R = SINGLE ASSEMBLY R = SLAB PERIMETER R = RAISED: WD ❑ CON 0 R = V�MES.rFIT � so FT❑ � FT❑ � FO ❑ DUCTS 11 CODLING.SYSTEM HEATING SYSTEM HVAC CREDITS HOT WATER SYSTEM HOT WATER CREDITS UNCONDITION D CENTRAL LECTRIC STRIP ❑ HEAT �ILING FANS L!s tLtCTRIC SOLAR: ❑ m SPACE R = El ROOM ❑NATURAL GAS PUMP E �'HOSS VENTILATION ❑ NATURAL GAS S.F. _ .. HEAT RECOVERY (CNrCKI ❑ �• ❑ PACKAGE TERMINAL ❑ OTHER ❑ ROOM UNIT OR ❑ WHOLE HOUSE FAN ❑ OTHER FUELS IN CONDITIOD AIR CONDITIONER FUELS PACKAGE TERMINAL HEAT PUMP ❑ NONE ❑ ATTIC RADIANT ❑ NONE DEDICATED HEAT PUMP: ❑ m SPACE R '-' M. I❑I ❑ NONE L d SEERIEER = ,® AFOUEHSPF 1 ©. � _ BARRIER - ❑ MULTIZONE EF = . � E.F. _ • NUMBER BEDROOMSF = T� PRACTICE TION USED o --- T Z Z p �i X 1� _ , ❑ X12 ❑ #3 TOTAL AS -BUILT POINTS TOTAL BASE POINTS CALCULATED E.P.I. CALCULATED ENERGY PERFORMANCE INDEX MUST NOT EXCEED 100 POINTS. In accordance with Section 553.907 F.S., I hereby certify that the plans Review of the plans and specifications covered by this calculation Indicates and specif lions covered b is calulatio re in complian with the compliance with the Florida Energy Code. Before construction is completed, this Florida En Irgy Code. building will be inspected for compliance in accordance with Section 553.908 F.S. OWNER/ GENT: BUILDING OFFICIAL: DATE DATE: 9A I PRESCRIPTIVE MEASURES Must be met or exceeded by all feeldences. COMPONENTS SECTION. REQUIREMENTS CHECK WINDOWS 11 904.1 MAXIMUM OF 0.5 CFM PER LINEAR FOOT OF OPERABLE SASH CRACK. EXTERIOR 904.1 MAXIMUM OF 0.5 CFM PER SO. Fr. OF DOOR AREA. INCLUDES SLIDING GLASS DOORS, SOLID -CORE, ADJAC NTI DOORS WOOD PANEL INSULATED R GLASS DOORS ONLY. EXTERI%JOINTS 904.1 TO BE CAULKED, GASKETED, WEATHERSTRIPPED OR OTHERWISE SEALED. & CRACKSI �� MUST BEAR LABEL INDICATING COMPLIANCE WITH ASHRAE STANDARD 90 OR COMPLY WITH EFFICIENCY AND WATER HEATERS 904.2 STANDBY LOSS REQUIREMENTS. SWITCH OR CLEARLY MARKED CIRCUIT BREAKER (ELECTRIC), OR CUT-OFF !/ GAS MUST BE PROVIDED. AN EXTERNAL OR BUILT4N HEAT TRAP MUST BE PROVIDED. SWIMMIN POOLS 904.3 SPAS & HEATED POOLS MUST HAVE COVERS (EXCEPT SOLAR HEATED). NON-COMMERCIAL POOLS MUST & SPAS HAVE A PUMP TIMER. GAS SPA & POOL HEATERS MUST HAVE MINIMUM THERMAL EFFICIENCY OF 76%. HOT WAT�R 904.4 INSULATION IS REOUIRED ONLY FOR RECIRCULATING SYSTEMS INCLUDING HEAT RECOVERY UNITS. IN SUCH CASES, PIPING HEAT LOSS PIPES SHALL BE LIMITED TO 115BTUHUNEAR FOOT OF PIPE. SH WE 1HEADS 904.5 WATER FLOW MUST BE RESTRICTED TO NO MORE THAN 3 GALLONS PER MINUTE AT 80 PSIG. HVAC DUCT 903.2 CONSTRUCTED IN ACCORDANCE WITH INDUSTRY STANDARDS & LOCAL MECHANICAL CODES. DUCTS IN C N TRJCTI .6 NCONDITIONED SPACE MU T BE INSULATED TO MINIMUM R- 4.2 & JOINTS T BE HVAC 'NTROLS 904.7 SEPARATE READILY ACCESSIBLE MANUAL OR AUTOMATIC THERMOSTAT FOR EACH SYSTEM. INSULATION CEILINGS -MIN. R-19. COMMON WALLS -FRAME R-11 OR CBS R-3. • FRAME COMMON CEILINGS & FLOORS R-11. SUMMER CALCULATIONS z BASE BASE . u, GLASS x SUMMER = Cr AREA SUMMER O , PT. MULT. , Dnrure CLIMATE ZONSSri` 5 6• 0 WFE SINGLE -PANE DIJUBLE-PANE SUMMER AS•BUILiifr GLASS x SUMMER POINT MULT. OR SUMMER POINT MULT. x OVERHANG= GLASSo AREA CLEAR TINT' CLEAR TINT' FACTOR (0h SUM. PTS. N_ 51.0 51.5 47.8 43.5 NE 77.2 76.6 71.7 63.4 1 E 109.2 107.1 102.0 87.3 SE 112.9 110_3 104.1 89.4 S 100.2 98.3 90.9 78.8 SW 112.9 110.3 104A 89.4 I''I W 109.2 107.1 102.0 87.3 I iL7 O NW 77.2 76.6 71.7 63.4 H' . _.7 303.3 324.6 238.1 r � W 0 -4,04Z 2- J I ' I I' I'. I I li I I I COND. I TOTAL I BASE I BASE I ADJUSTED .15 x FLOOR j GLASS = ADJUST. x GLASS = GLASS COMPONENT AREA x BASE SUMMER = BASE DESCRIPTION POINT MOLT. SUMMER POINTS EXTERIOR 10 a ADJACENT 7 3 EXTERIOR 4.8 0 0 ADJACENT 1.6 0 0 I UNDER ATTI Z I OR SINGLE J ur ASSEMBLY U. 0 O J U. I. Z COMPONENT DESCRIPTION SUMMER AS -BUILT AREA x POINT MULT. = I, SUMMER (9C THRU 9G) POINTS Z I � Ii II AS -BUILT FLOOR. FOR RAISED FLOORS USE SPACE. TOTAL COMPONENT COOLING SYSTEM HOT WATER SYSTEM BASE SUMMER POINT (0 r TOTAL COMPONENT AS -BUILT SUMMER POINT f ���„y-L BASE COOLING I TOTAL BASE BASE SYSTEM x SUMMER = COOLING MULTIPLIER POINTS POINTS 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 .43 72,0721 (e ` !/L `rl Z NUMBER BASE BASE OF x HOT WATER = HOT WATER BEDRO MS MULTIPLIER POINTS AS -BUILT HOT WATER SYSTEM DESC. NUMBER AS -BUILT AS -BUILT' AS -BUILT OF x HWM x HWCM =. HOT WATER BEDROOMS I 19M)9N POINT CP-3527 7,0s - 5-2-7%D S� 'H = Horizontal Glass (Skylights) zFor glass with known Shading Coefficient, see section 903.2(a). Tint Multipliers may be used for glass with solar screens, film, or tint. I -2- SUMMER POINT MULTIPLIERS (SPM) 98 SUMMER OVE ANG FACTORS (SOF) For -single and double pane glass. CLIMATE ZONES 4 5 6 OH RATIO 1.0-.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+ �10,• N ' 1 1.0 .94 .91 .87 .83 .79 :75 .72 .69 62 .56 .50 NE/NW T 1.0 .94 .91 .85 .79 .72 .68 .63 .58 .50 .40 .36 �I ,' U o E/W I 1.0 .95 .92 .85 .78 .70. .64 .58 .52 .42 •33 .26 W; sE/sw I 1.0 .93 .90 .81 .72 �62 ' .55 ` .49 :42 .33 .27 .22 S I. ,1.0 .9. .87 .77 .67 .57 .50 .45 .39 .32 .28 25 OH LENGTH f 0 it. 1 ft. 11h ft. • 2 ft. 3 It. 31h It. 4'h It. • 5'h It. 614 ft. 91h ft. 1411. • ' To select by Overhang Length, no part of glass shall be more than 8 ft. below the overhang. OVERHANG T10 = OH LENGTH HHIH T_�L 9C WALL SUMMER POINT MULTIPLIERS (SPM) FRAME H L IT a� H - CONCRETE BLOCK' WOOD STEEL IMP. IIWW 6MI IVR R•VALUE I EXT ADJ EXT ADJ NORMAL WT. NOR. 0. 6.9 I 6.4 2.2 8.9 2.9 R•VALUE EXT ADJ EXl 7.10.9. 2.3 .8 4.1 1.3 0 2.9 2.5 .9 2.5 11 . 12.9 I 1.9 .7 3.0 1.0 3. 4.9 1.4 .7 .7 13.189 I 1.7 .6 2.8 0.9 5- 6.9 1.0 .6 3 19.25.9 I 1.0 .3 2.4 0.9 7.10.9 .8 .4 .1 26d'U I .6 .2 1.3 0.4 11.18.9 .4 1 .3 .0 I 19 25 9.,., 2 268U 1 1 to . . 90 DOOR SUMMER POINT MULTIPLIERS (SPM) DOOR T TPE EXTERIOR ADJACENT WOOD II 7.2 2.4 INSULATE 4.8 1.6 9F FLOOR JiMMER POINT MULTIPLIERS ISPMt FACE BRICK LOG R•VALUE WOOD FR 0- 6.9 2.9 6 INCH 7.10.9 .6 R-VALUE EXT 11-18.9 .4 0. 2.9 1.7 19 - 25.9 .2 3. 6.9 1.1 26&U .1 7&U .8 R-VALUE BLOCK 8INCH 0. 2.9 1.0 R-VALUE EXl 3. 6.9 .6 0.2.9 1.0 7- 9.9 1 3-6.9 .8 108LID I I&UD .7 9E CEILING SUMMER POINT MULTIPLIERS (SPM) UNDER ATTIC SINGLE ASSEMBLY CON RETE 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 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 1.8 213 UD 1.4 1.3 38 8 .4 i.1 S B-ON-GRADE EO E INSULATION RAISED CONCRETE RAISED POST OR PIER CONSTRUCTION W000 STEM WALL WI UNDER FLOOR INSULATION ADJACENT R-VA UE PM R•VALUE SPM R-VALUE Pill SPM SPM 0-i9 -31.9 0.2.9 -1.0 0- 6.9 5.3 - 4.9 -31.8 3-4.9 -1.7 7.10.9 -1.1 -2.8 2.1 5-6.9 -31.7 5-6.9 -1.7 11.18.9 -1.0 -.2 1.8 19 U = .9 -1.8 1.0 913 INFILTRATION SUMMER POINT MULTIPLIERS INF TRATION PRACTICE (See Table 9P) SPM PRACTICE a 1 13.8 PRACI ICE 0 2 10.9 PRACI ICE # 3 7.6 ;PM) 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 'For mull Qliers for other types of concrete block construction see section 903.2 (b). 'For mull Pllers for other types of raised wood assemblies see section 903.2 (e) 1. . I .3- N Can CJ7 w GLASS xIBASE WINTERI cc AREA POINT = O I MULTIPLIER I BASE WINTER Z GLASS x SINGLE -PANE OR I COND. I TOTAL I BASE I BASE I ADJUSTED .15 x FLOOR _ GLASS = ADJUST x GLASS = GLASS COMPONENT BASE AREA x BASE WINTER = WINTER DESCRIPTION POINT MULT. POINTS EXTERIOR 1.1 At a ADJACENT 1.8 3 Cn EXTERIOR 20 5.1 O ADJACENT 4.0 O o O UNDER ATTIC O G ;A OR SINGLE w ASSEMBLY 0. BASE CEILING AREA EQUALS BASE HEATING TOTAL BASE BASE HEATING SYSTEM x WINTER = HEATING SYSTEM • MULTIPLIER POINTS 1.14 L�PIINTS Z O 5 lij LT, v AS -BUILT GLASS SUBTOTAL I,I Y COMPONENT WINTER AS -BUILT DESCRIPTION AREA x POINT MULT. = WINTER 9C THRU 9G POINTS i I II AREA EQUALS ACTUAL CEILING SQUARE SPACE. TOTAL I AS -BUILT I AS -BUILT AS -BUILT AS -BUILT AS -BUILT x DM x HSM x HCM = HEATING WIN. PTS. 9H 91 9J POINTS �61_2z ///z I l•AO I q.7/3 BASE BASE BASE TOTAL AS -BUILT AS -BUILT I AS -BUILT TOTAL COOLING + HEATING + HOT WATER = BASE COOLING + HEATING + HOT WATER = AS -BUILT F POINTS POINTS POINTS POINTS POINTS POINTS POINTS POINTS O (From P.21 From P.2 Enter on P.1 From P.2 From P.2 Enter on P.1 off / &-0 5 70 s¢ 2z� Zv `9 s 7/3 70,5V- Z� Z 'H = Horizontal Glass (Skylights) 2For glass with known Shading Coefficient, see section 903.2(a). Tint Multipliers may be used for glass with solar screens, film, br tint. , I 5) .4- (J Cn EXTERIOR 20 5.1 O ADJACENT 4.0 O o O UNDER ATTIC O G ;A OR SINGLE w ASSEMBLY 0. BASE CEILING AREA EQUALS BASE HEATING TOTAL BASE BASE HEATING SYSTEM x WINTER = HEATING SYSTEM • MULTIPLIER POINTS 1.14 L�PIINTS Z O 5 lij LT, v AS -BUILT GLASS SUBTOTAL I,I Y COMPONENT WINTER AS -BUILT DESCRIPTION AREA x POINT MULT. = WINTER 9C THRU 9G POINTS i I II AREA EQUALS ACTUAL CEILING SQUARE SPACE. TOTAL I AS -BUILT I AS -BUILT AS -BUILT AS -BUILT AS -BUILT x DM x HSM x HCM = HEATING WIN. PTS. 9H 91 9J POINTS �61_2z ///z I l•AO I q.7/3 BASE BASE BASE TOTAL AS -BUILT AS -BUILT I AS -BUILT TOTAL COOLING + HEATING + HOT WATER = BASE COOLING + HEATING + HOT WATER = AS -BUILT F POINTS POINTS POINTS POINTS POINTS POINTS POINTS POINTS O (From P.21 From P.2 Enter on P.1 From P.2 From P.2 Enter on P.1 off / &-0 5 70 s¢ 2z� Zv `9 s 7/3 70,5V- Z� Z 'H = Horizontal Glass (Skylights) 2For glass with known Shading Coefficient, see section 903.2(a). Tint Multipliers may be used for glass with solar screens, film, br tint. , I 5) .4- (J O UNDER ATTIC O G ;A OR SINGLE w ASSEMBLY 0. BASE CEILING AREA EQUALS BASE HEATING TOTAL BASE BASE HEATING SYSTEM x WINTER = HEATING SYSTEM • MULTIPLIER POINTS 1.14 L�PIINTS Z O 5 lij LT, v AS -BUILT GLASS SUBTOTAL I,I Y COMPONENT WINTER AS -BUILT DESCRIPTION AREA x POINT MULT. = WINTER 9C THRU 9G POINTS i I II AREA EQUALS ACTUAL CEILING SQUARE SPACE. TOTAL I AS -BUILT I AS -BUILT AS -BUILT AS -BUILT AS -BUILT x DM x HSM x HCM = HEATING WIN. PTS. 9H 91 9J POINTS �61_2z ///z I l•AO I q.7/3 BASE BASE BASE TOTAL AS -BUILT AS -BUILT I AS -BUILT TOTAL COOLING + HEATING + HOT WATER = BASE COOLING + HEATING + HOT WATER = AS -BUILT F POINTS POINTS POINTS POINTS POINTS POINTS POINTS POINTS O (From P.21 From P.2 Enter on P.1 From P.2 From P.2 Enter on P.1 off / &-0 5 70 s¢ 2z� Zv `9 s 7/3 70,5V- Z� Z 'H = Horizontal Glass (Skylights) 2For glass with known Shading Coefficient, see section 903.2(a). Tint Multipliers may be used for glass with solar screens, film, br tint. , I 5) .4- (J lij LT, v AS -BUILT GLASS SUBTOTAL I,I Y COMPONENT WINTER AS -BUILT DESCRIPTION AREA x POINT MULT. = WINTER 9C THRU 9G POINTS i I II AREA EQUALS ACTUAL CEILING SQUARE SPACE. TOTAL I AS -BUILT I AS -BUILT AS -BUILT AS -BUILT AS -BUILT x DM x HSM x HCM = HEATING WIN. PTS. 9H 91 9J POINTS �61_2z ///z I l•AO I q.7/3 BASE BASE BASE TOTAL AS -BUILT AS -BUILT I AS -BUILT TOTAL COOLING + HEATING + HOT WATER = BASE COOLING + HEATING + HOT WATER = AS -BUILT F POINTS POINTS POINTS POINTS POINTS POINTS POINTS POINTS O (From P.21 From P.2 Enter on P.1 From P.2 From P.2 Enter on P.1 off / &-0 5 70 s¢ 2z� Zv `9 s 7/3 70,5V- Z� Z 'H = Horizontal Glass (Skylights) 2For glass with known Shading Coefficient, see section 903.2(a). Tint Multipliers may be used for glass with solar screens, film, br tint. , I 5) .4- (J AREA EQUALS ACTUAL CEILING SQUARE SPACE. TOTAL I AS -BUILT I AS -BUILT AS -BUILT AS -BUILT AS -BUILT x DM x HSM x HCM = HEATING WIN. PTS. 9H 91 9J POINTS �61_2z ///z I l•AO I q.7/3 BASE BASE BASE TOTAL AS -BUILT AS -BUILT I AS -BUILT TOTAL COOLING + HEATING + HOT WATER = BASE COOLING + HEATING + HOT WATER = AS -BUILT F POINTS POINTS POINTS POINTS POINTS POINTS POINTS POINTS O (From P.21 From P.2 Enter on P.1 From P.2 From P.2 Enter on P.1 off / &-0 5 70 s¢ 2z� Zv `9 s 7/3 70,5V- Z� Z 'H = Horizontal Glass (Skylights) 2For glass with known Shading Coefficient, see section 903.2(a). Tint Multipliers may be used for glass with solar screens, film, br tint. , I 5) .4- (J BASE BASE BASE TOTAL AS -BUILT AS -BUILT I AS -BUILT TOTAL COOLING + HEATING + HOT WATER = BASE COOLING + HEATING + HOT WATER = AS -BUILT F POINTS POINTS POINTS POINTS POINTS POINTS POINTS POINTS O (From P.21 From P.2 Enter on P.1 From P.2 From P.2 Enter on P.1 off / &-0 5 70 s¢ 2z� Zv `9 s 7/3 70,5V- Z� Z 'H = Horizontal Glass (Skylights) 2For glass with known Shading Coefficient, see section 903.2(a). Tint Multipliers may be used for glass with solar screens, film, br tint. , I 5) .4- (J I 5) .4- (J WINTER POINT MULTIPLIERS (WPM) .9B w INTER OVERHAN FACTORS (WOF) CLIMATE ZONES 4 5 6 ® 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+ 1 SINGLE PANE GLASS 0 1.03 1.05 1.08 1.10 1.13 1.15 1.18 1.20 1.24 1.29 1.34 PH �.0 1.07 1,10 1.15 1.20 1.25 1.30 1.35 1.39. 1.50 1.59 1.67 ".0' .71 .57 .19 -.20 -.65 -1.05 -1.48 -2.03 -3.01 -4.06 -5.04 r I 0 .93 .90 .80 .68 .54 .39 .22' .05 -.33 -.71 -1.01 S 0 .95 .92 .83 .70 .54 .36 .13 -.13 -.70 -.98 - Uj j DOUBLE PANE GLASS LU N .0 1.05 1.07 1.11 1.14 1.18 1.21 1.24 1.28 1.34 1.40 1.47 If NE/NW 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 E/W I1.0 .88 .82 .66 .50 .31 .15 -.03 -.26 -.66 -1.10 -1.50 1 1 SE/SW 1.0 .95 .92 .65 .76 .65 .54 .41 .28 -.01 -.30 -.52 1 S 1.0 .96• .94 .87 .78 .65 .51 1 .33 .13 -.30 -.51 -.60 OH LENGTH lb It. 1 It. 1'h It. 2It. 3 ft. I 31h It. 02 It 1 51/2 It. 6'h IL 91/s f1. 14 ft. 2011.+ 1 • To select by Overhang Length, no part ol. lass shall be more than 8 It. below the overhang. HANG RATIO = �H LENGTH G H HEIGHT �. L H WALL WINTE POINT MULTIPLIERS (WPM) FRAME WDOD STEEL R•VALUE EXT ADJ EXT AM 0. 6.9 010 5.3 .9.4 6.7 7.10.9 25 2.1 4.4 3.3 11 - 12.9 0 1.8 3.3 2.6 13. 18.9 8 .1.6 3.0 2.4 19.25.9 ;.1 1.0 2.6 2.2 26 & U .7 7 1.4 1 1.2 JDOOR WINT POINT MULTIPLIERS (WPM) DOOR TYPE EXTERIOR ADJACENT WOOD11 7.6 5.9 INSULATED I 5.1 4.0 I ' . F FLOR WINTgR POINT MULTIPLIERS (WPM) H L IT F1 0. 2.9 6.0 3.1 3. 4.9 3.8 2.3 5- 6.9 2.9 1.9 7 -10.9 2.3 1.5 11 - 18.9 1.5 1.1 19 - 25.9 1 .8 ,7 26 & Up 1 .5 1 .5 BLOCK' FACE BRICK LOG EXT. INSUL. R•VALUE WOOD FR NOR. WT. 0. 6.9 7.0 6 INCH EXT 7. 10.9 2.1 R•VALUE EXT 6.0 11 -18.9 1.7 0.2.9 2.2 2.8 19-25.9 1.0 3-6.9 1.2 2.0 26&Up .6 7&Up .9 1.5 R-VALUE BLOCK 81NCH .8 R-VALUE EXT 7 0.2.9 1.2 00-2.903.7 3-6.9 .9 n< !r 7&Uo 7 9E CEILING WINTER POINT MULTIPLIERS (WPM) UNDER ATTIC SINGLE ASSEMBLY CONCRETE DECK ROOF CEILING TYPE R-VALUE WPM 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. 10- 13.9 1.2 1.3 26 - 29.9 .7 13 - 18.9 1.5 1.1 .6 14 - 20.9 .7 .7 30.37.9 .6 19-25.9 21 &U .4 .3 �< 38&U .4 SLAB- ' -GRADE EDGE INSULATION RAISED CONCRETE RAISED POST OR CONSTRUCTION WOOD2 R FRINSLAION ADJACENT R-VALUE I WPM R•VALUE WPM 2.9 2.5 0-2.9• 4.0 0. 6.9 7.9 '. 3.4.9 I - 1.7 3.4.9 1.8 0. 2.1 1.5 z' .7 5.3. 2.1 1.8 5.6.9 I - 2.4 5-6.9 1.1 11-18.9 7 - 2.7 7&Up 1 .8 19 .9 .5 .3 1.0 I9G INFILTRATIQ,N WINTER POINT MULTIPLIERS (WPM) 9H DUCT MULTIPLIERS (DM) INFILTR ION PRACTICE (Sq Table 9P) WPM R•VALUE With Return Air Duct W/O Return 'Air Duct 1.10 1.08 1.06 1.00 4.2 - 4.9 1.14 PRACTICE 411 6.2 5.0.6.6 1.12 PRACTICE 2 4.1 6.7 & Up 1.09 PRACTICE fi 3 2.2 j DUCTS IN CONDITIONED SPACE 1.00 'For multipliers �r other types of concrete block construction see section 903.2 (b). 2For multipliers or other types of raised wood assemblies see section 903.2 (e) 1. I � SYSTEM TYPE HEATING SYSTEM MULTIPLIERS Central Heat HSPF 6.4 .6.89 6.9.7.39 . 1 7.4.7.89 7.9 - 8.39 8.4.8.88 1 18.9 - U R Pump Units 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 8.7 - Up HSM .50 .41 .44 41 .39 III.37 PTHP HSM .52 .50 .47 .44 .41 .39 1'1.37 Electric Strip 1.0 I I Gas & Other Fuels -1.0 (See Table 9J for Credit Multiplier) I l Minimums: Central Units-Air.Source 2.7 COP (6.4 HSPF), Water Source 3.4 COP, Ground Water Source 3.2 COP. PTHP 2.6. COP means�Coefficient o1 Performance. %I 9J HEATING CREDIT MULTIPLIERS (HCMI III �•�•-a••w SYSTEM TYPE !{I HEATING CREDIT MULTIPLIERS I it Attic Radiant Barrier HCM .98 I Multizone HCM _ .90 Natural Gas AFUE .67 - .69 .70 - .74 .75 - .79 1 .60 - .84 1 .85 - .89 .90. - Ur HCM 37 .35 .33 1 .31 1 .29 1,.27 Other Fuels HCM ' .60 .58 .54 1 .50 .47 1'.45 Where more than one credit is claimed, multiply HCM's together. Enter product on page 4. AFUE means Annual Fuel Utilization Efficiency, 91K COOLING SYSTEM MULTIPLIERS (CSM)- III SYSTEM TYPE COOLING SYSTEM MULTIPLIERS III I I RATING 7.5- 8.0- 8.5- 9.0- 9.5- 10.0- 10.5- 11.0- 11.5 112.0 CENTRAL UNITS 7.9 8.4 .8.9 9.4 9.9 10.4 10.9 11.4 11,9 8 Up (SEERIEER) CSM .40 .38 .36 .34 .32 .31 .30 11128. PTAC & ROOM UNITS (EER) CSM .45 .43 .40 .38 .36 .34 .32 .31 .30 II1,28 Minimums: Central Units -Air Cooled 7.8 EER (8.5 SEER). Ground Water Cooled 10.0 EER. I EER means Energy Efficiency Ratio. SEER means Seasonal Enerov Efficiency Ratio. i II 9L COOLING CREDIT MULTIPLIERS ICCM1 I II SYSTEM TYPE COOLING CREDIT MULT LIE CCM I III Ceilin ' Fans Mullizone 86 I .90 -CrossVentilation Attic Radiant Barrier.95 .95 I 1 Where more than one credit is claimed, multiply CCM's together. Enter product on page 2. I 1 TYPE HOT WATER MULTIPLIERS HI III Electric Resistance EF .80 - .81 .82 - .83 .84 - .85 .86 .87 .88 • .90 .91 • .93 .94 - .96 .97 & 1Up HWM 3879 3785 3695 3609 3527 3411 3302 1 3200A Natural Gas EF 54 - .55 .56 - .57 .58 • .591 .60 ..61 .62 - .63 .64 - .65 .66 & U 1I HWM 1415 1364 1317 1273 1232 1194 1158 III Other Fuels HWM 2317 2234 1 2157 2085 2018 1955 1895 I'I Water heaters must comply with prescriptive measures of Table 9A. EF means Energy Factor. _ SYSTEM TYP HOT WATER CREDIT MULTIPLIERS III II Solar Water Heater SF .1 2 3 4 5 .6 .7 .8 .9 110 CM 9 8' 7 .6 .5 .4 .3 .2 .1 .01 Heat Recovery Unit With Air -conditioner Heat Pum I HWCM .62 . .58 I11 Dedicated Heat Pump EF 2.0-2.49 2.5.2.99 3.0.3.49 1 3.5 & U II HWCM .44 .35 29 .25 III A HWM must be used in conjunction with all HWCM. See Table 9M. SF means Solar Fraction. EF means Energy Factor. IiI ar INI-ILIHATION REDUCTION PRACTICE COMPLIANCE C14ECKI ICT Man 4nr rnr. on12 wa% III COMPONENTS PRACTICE 11 REQUIREMENTS FOR EACH PRACTICE COMPLY WITH ALL INFILTRATION PRESCRIPTIVES ON TABLE 9A. - HI CHECKiI A/- I') PRACTICE a2 COMPLY WITH PRACTICE 01 AND THE FOLLOWING: I,I Exterior Walls and Floors Top plate Penetrations sealed. Infiltration barrier installed. Sole Platelfloor 'pint caulked or sealed. Exterior Walls & Ceilings Penetrations 'oints and cracks on interior surface caulked sealed or gasketed. I Ductwork Ductwork in unconditioned space must be sealed. 6/ ' Fireplaces Eguipped with outside combustion air, doors and flue dampers. Exhaust Fans Equipped with dampers. Combustion devices see 903.211E PRACTICE M OMPLY WITH PRACTICES a1 AND #2 AND THE FOLLOWING: Ceilings Infiltration barrier installed. I Interior Wells TOD plate penetrations sealed or joints & cracks on interior walls caulkedsealed or asketed. Recessed Lights Sealed from conditioned space & insulated from ventilated attics aces. I 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). rut mumpuers ror omer types or systems see section 9U4.9. c