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HomeMy WebLinkAbout229 Bristol CirclePERMIT # 03 / DATE COMMERCIAL----- RE;CrNTIAI. j I llq e C [' ADDRD:!J C' S OWNER . CRACT0 1 pERM1T VALUATION' ids FLORIDA ENERGY EFFICIENCY CODE i FOR BUILDING CONSTRUCTION SECTION 9 — RESIDENTIAL POINT, SYSTEM METHOD CLIMATE ZONESFORM `900-A-86 DEPARTMENT OF CdMMUMtY AFFAIRS CENTRAL 4 .5 6 This form maybe used to demonstrate compliance with the Energy Code for new single-family detached or multifamily attached dwellings under Section 9. An alternative to this method for single-family detached dwellings, and multifamily attached dwellings of thres$Voflgs ui';less, is provided in Section 10. Multifamily attached dwellings greaterThanthreestoriesmustcomplyunderSection9or5. Additions to existing residential buildings must comply under Section 9 or 10. Additional information may be obtained rom your local building department or the Department of Community Affairs, Energy Code Program, 2571 Executive Center Circle East, Tallahassee. Florida 32301.8244. '. PROJECT NAME AND ADDRESS: BUILDER: PERMITTING OFFICE: o•-F S d to CIRCLE CLIMATE ZONE: 4 6 PERMIT NO.: Qa 3 OWNER: JURISDICTION NO,: q Cp S a t DETACHED NEW ADD. ATTACHED NEW ADD. R CHECK IF WORST ULTIFAMILY, CASE CALCULATION: NUMBER OF UNITS: GLASS AREA AND TYPE CLEAR TINT,FILM,SOLAR SCREEN CONDITIONED FLOOR AREA CEILING INSULATION SG FFM SGLUNDERATTICSGL. ASSEMBLY R = 11, DBL DBL NET WALL AREA AND INSULATION I f CBS R= FRAME- R= STEEL STUD R= LOG E0`1 m 1 DUCTS COOLING SYSTEM HEATING SYSTEM HOT WATER SYSTEM IN UNCOND. SPACE ENTRAL . NONE ELECTRIC STRIP IVHEAT PUMP Ek LECTRIC SOLAR R=. f . ROOM NATURAL GAS ROOM/PTHP NATURAL GAS HEAT RECOVERY' IN COND.` PTAC OTHER FUELS NONE OTHER FUELS DED. HEAT PUMP SPACE . R SEER/EER = Ms, COP/AFUE _ EfS EF - . ® SF/EF = .-EE . NUMBER OF BEDROOMS INFILTRATIO i PRACTICE 51 D S `7 -1 I ` 1 - / s I Gi X -100 1 ` 2''. a' #3bbbJJJ TOTAL AS -BUILT POINTS TOTAL BASE POINTS CALCULATED E.P 1 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 specifications covered b this calculation are in compliance with the' compliance with the Florida Energy Code. Before construction is completed, this-'., Florida Energy Code.,, building will be inspected for compliance in accordance with Section 553.908 F.S.! OWNER/AGENT. BUILDING OFFICIAL: DATE: 3 DATE: 9 XP IA I PRESCRIPTIVE MEASURES Must be met or exceeded by all residences. COMPONENTS E TION REQUIREMENTS CHEC i VINDOWS 904.1 1 MAXIMUM OF 0.5 CFM PER LINEAR FOOT OF OPERABLE SASH CRACK. XTERIOR & . 904.1 MAXIMUM'OF. 0.5 CFM PER SO.1FT. OF DOOR AREA. INCLUDES SLIDING GLASS DOORS, SOLID CORE, iDJACENT DOORS WOOD PANEL INSULATED OR GLASS DOORS ONLY. XT. JOINTS & „ 904.1 TO BE CAULKED, GASKETED, WEATHERSTRIPPED OR OTHERWISE:SEALED. RACKS MUST BEAR LABEL INDICATING COMPLIANCE WITH ASHRAE STANDARD 90 OR COMPLY WITH EFFICIENCY AND VATER HEATERS 904.2 STANDBY LOSS REQUIREMENTS. SWITCH OR CLEARLY MARKED CIRCUIT. -.BREAKER (ELECTRIC), OR CUT-OFF GASI MUSTBE PROVIDEMIAN EXTERNAL OR BUILT-IN HEAT TRAP MUST BE PROVIDED. WIMMING POOLS ` 904.3 SPAS & HEATED:POOL$ MUST HAVE COVERS (EXCEPT SOLARHEATED)':' NON-COMMERCIAL POOLS MUST PAS HAVE A PU R AS: SPA & POOL HEATERS MU T HAVE MINIMUM THERMAL EFFICIENCY OF 75%. OT WATER 904.4 INSULATION IS REQUIRED ONLY FOR RECIRCULATING SYSTEMS: IN SUCH CASES, PIPING HEAT LOSS SHALT: PES BE LIMITED TO 1 BTU HFL NEAR FOOT OF PIPE. HOWER HEADSWATER FLOW M • :8E RESTRICTED TO NO MORE THAN 3 GALLONS PER MINUTE AT 20 TO 80 PSIG. bAC DUCT 903.2 CONSTRUCTED IN: ACCORDANCE WITH INDUSTRY STANDARDS &.LOCAL MECHANICAL CODES. DUCTS IN.„ S N NC NDITIONED SPACE -MUST BE INSULATED TO MINIMUM R- 4.2 &JOINT$"MUST BE SEALED. VAC CONTROLS 1 904.7 SEPARATE .READILY ACCESSIBLE MANUAL OR AUTOMATIC THERMOSTAT FOR EACH SYSTEM. tILING I ° L 904.9 ' MINIMUM R-19. 4s: v i CLIMATE ZONES 4 5 6UMMER: CALCULATIONS IG'Ik 'S BASE BASE AREA SPM =AREA ORx SUMMER SINGLE SPM DOUBLE • • CLEAR ® vj© rel M"49 MIA COND. TOTAL - BASE BASE ADJUSTED.,-. AS -BUILT` 15x FLOOR + GLASS ADJ. x GLASS = GLASS °',.GLASS x E R ' S B BASE SUBTOTAL, COMPONENT BASE SUM. BASE AREASUMMER DESCRIPTION x-' PT. MOLT. ` POINTS EXTERIOR 1. 0 a : ADJACENT n woe 1 UNDERATTIC' 6 v OR SINGLE 6 . I ASSEMBLY 6 I SLAB 31. 844- Do RAISED 3. 43 I FOR SLAB - ON -GRADE USE PERIMETER LENGTH ALONG CONDITIONED FLOOR IN PLACE OF AREA. f 1INFILTRATION 1 I 10 I USE FLOOR AREA OF CONDITIONED SPACE. TOTAL COMPONENT BASE SUMMER POINTS I 15e4 1 TOTAL COMPONENT AS -BUILT SUMMER POINTS I F TOTAL BASE TOTAL AS!BUILT . `. AS -BUILT ' AS -BUILT .° AS -BUILT COOLING '` BASE CSM '' BASE _ ,_ C I x x '•< CSM ;: "x AS -BUILT `, DM `,: CCM COOLING ' SYSTEM SUM. PTS, I POINTS SUM, PTS. 9H 9K 90 POINTS 43 Indg21 3O I I I Z NUMBER BASE OF ` BASE HOT x HOT WATER I WATER HWM SYSTEM p 3527 AS -BUILT A40BER I AS -BUILT. I AS -BUILT AS -BUILT HOT WATER . Ott HWM .., x: .: HWCM . , HOT WATER SYSTEMDESC, BEDROOM` 9M 9N POINTS H -Horizontal Glass ( Skylights) . f " For; glass with knowe Shading Coefficient, see sec. 903.2(a). Tint Multipliers may be used for glass with solar screens, film, 'or tint. `-'' s SUMMER POINT MULTIPLIERS 9B SUMMER OVERHANG FACTORS (SOF) For single and double pane -glass. CLIMATE ZONES 4 5 6 OVERHANG RATIOORIEN- TATION 0.0 0.17 0.18- 0.26 0.27- 0.35 0.36- 0.46 0.47- 0.57 0.58- 0.70 0.71-. 0.83 0.84- 1.18 1.19- 1.72 1.73• 2.73 2.74. 5.66 5.67- U N 1 1 8 75 72 9 62 56 50 44 NEINW 1 9 79 2 6 63 58 50 40 36 30 E 2 4 8 2 42 33 2 2 2 2 19 S 1.0 87 77 67 57 50 45 39 32 28 25 22 i j OVERHANG RATIO = L/H L H L HI H 9C WALL SUMMER POINT MULTIPLIERS (SPM) FRAME ' CONCRETE BLOCK FACE BRICK LOG INTERIOR INSUL. EXT. I SUL. R•VALUE WOOD FR OOD NORM LT WT NORM LT WT 0- 6.9 2.9 6 INCH R-VALUE EXT ADJ R-VALUE EXT ADJ EXT EXT EXT. 7 - 10.9 .6 R-VALUE EXT 0. 6.9 64 2.2 0. 2.9 2.5 .9 1.8 2.5" 1.8 11.18.9 A. "0-2.9 1.7 i 7-10.9 2.3 .8 3- 4.9 1.4 .7 1.1 ' .7 8 19-25.9 2 3-6:9 1.1 11-12.9 1.9 7 5• 6.9 110 .8 .3 .3 26&U .1 7&Up 8 t 13 - 18.9 1.7 6 • 10.9 8 4 6 1 i R-VALUE BLOCK `8 INCH ` 19 - 25. 11 - 18. .4 .3 .0 .0 0. 2.9 1.0 R-VALUE` EXT 26 &U .6 .2 19-25.9 .2 .2 1 3-6.9' 6 0•'2:9 1.0 EEL 26 & Un A .1 0 7-9.9 4 3.6.9 8 . I R•VALUE EXT „ DJ 10 & U 2 7 & U 7 :. 0- 6.9 8.9 2.9 7 - 10.9 . 4.1 :.1.3 9E CEILING SUMMER POINT MULTIPLIERS (SPM) DOOR TYPE EXT ADJ UNDEF ATTIC SINGLE ASSEMBLY CON RETE DECK ROOF '" CEILIN TYPE _ R-VALUE SPM R-VALUE SPM 19 - 21.9 1.1 5 - 6.9 6.3 R•VALUE DROPPED EXPOSED 22 .25.9 9 7. 8.9 4.2 10 - 13.9 3.0 " 3.3 . 26-29.9 7 9.10.9 3.3 14-20.9 2.0 - 2.1 30 - 37.9 6 11 . 12.9 2.7 21 & U 1.4 1.3 38 & LID 4 13 -18.9 2.4 w z rs vWINim`.. 19.25.9 1 1.8 26 & U 1.1 s n, CREDIT MULTIPLIER FOR ATTIC RADIANT BARRIER = .53 9F FLOOR SUMMER POINT MULTIPLIERS (SPM) SLAB -ON -GRADE EDGE INSULATION RAISED CONCRETE RAISED WOOD: See 903.2(e)) R- ALUE 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 7 j9G" INFILTRATION SUMMER POINT MULTIPLIERS 9H DUCT MULTIPLIERS (DM) INFILTRATION PRACTICE See Table 9P) . SPM ' PRACTICE a 1 13.8 PRACTICE a 2 10.9 PRACTICE #. 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 & U 1.09 1.06 DUCTS IN CONDITIONED SPACE 1.00 1.00 - WINTER .CALCULATIONS BASE GLASS X BASE — OR AREA WPM WINTER CLIMATE ZONES 4 5 6 DOUBLE x WO . SINGLE 'I I IGLASSx0' AREA WP Rif COND. TOTAL BASE BASE ADJUSTED AS -BUILT 15 X- FLOOR + GLASS = ADJ., x GLASS GLASS GLASS. I ARM I AREA FACIRR I SUBT9TAL I BASE WP SUBTOTAL 15 1 C '/I I '-f(s I COMPONENT DESCRIPTION BASE AREA xBASE WIN WINTER I PT. MULT. I POINTS EXTERIQFF 1.1 I j ADJACE 14 M 0 0 U. AIWN I TOTAL I L BASE HEATING BASE HS M x' BASE = HEATING SYSTEM WIN. PTS. POINTS I - BUIL WIN. PT AS COMPONENT AREA x MOLT. -WINTER, DESCRIPTION 9C THRU 9G) POINTS MIAM TOTAL TOTAL AS -BUILT AS -BUILT AS-BUILTAS-BUILT, AS - BUILT x DM HSM HCM 'HEATING WIN. PTS, 9H) 91) 1" (9j) POINTS 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 tlnt.!..'- 4- WINTER POINT MULTIPLIERS 9B WINTER OVERHANG FACTORS'(WOF) CLIMATE ZONES 4 5 6' OVERHANG RATIO ORIEN- TATION 0.0 - 0.17 0.18- 0.26 1 0.27• 0.35 0.36 0.46 0.47- 10.57 0.58- 10.70 0.71- 0.83 0.84. 1.18 1:19- 1.72 1.73- 2.73 2.74= 5.66 5.67- U SINGLE PANE GLASS N 1.0 1.05 1.08 1.10 1.13 1.15 1.18 1.20 1.24 1.29 1.34 1.38 NE/NW 10 1.10 1.15 1,20 1.25 1.30 1.35 1.39 1.50 1.59 1.67 1.74 EIW 1.0 57 19 20 65 1.05 1.48 2.03 3 01 4.06 5.04 5.71 SE/SW 1.0 9 80 68 54 9 22 05 33 71 1.01 1.20 92 83 70 4 36 1 13 70 98 1.09 DO UBLE PANE LASS 1 0 1,07 1.11 1.14 1,18 1.21 1.24 1.28 1.34 1.40 1.47 1.53 NE/NW 10 1.16 1.24 1.32 1.41 1.48 1.56 1.63 1.80 1.94 2.08 2.18 EM 1.0 8 3 0 26 66 1.10 1.50 SEI W 1.0 92 85 76 65 54 41 28 01 30 52 S 1.0 94 87 78 65 51 33 13 30 51 60 i OVERHANG RATIO = LIH 9C WALL WINTER POINT MULTIPLIERS (WPM) DOOR TYPE ' EXT , ` ADJ . WOOD 9.5 6.9 '. . INSULATED 10.5 ' . 7.6 ' 9G INFILTRATION WINTER POINT MULTIPLIERS INFILTRATION PRACTICE WPM See Table 9P) PRACTICE s 1 6.2 PRACTICE a 2 4.1 PRACTICE 3 2.2 26.29.9 7 9-10.9 2.0 14-20.9 J J 30. 7.9 6 11-12.9 1.6 21&U 4 3 38&U 4 13.18.9 1.5 yC F4, Y Ls'Mx ifs 9 a•' S " ERNE.19.25.9 CREDIT MULTIPLIER FOR ATTIC RADIANT BARRIER = `.63 9F FLOOR WINTER POINT MULTIPLIERS (WPM) SLAB -ON -GRADE EDGE INSULATION RAISED CONCRETE RAISED WOOD!,:-. ' - See 903.2 a 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 o 5.6.9 2.4 1 5.6.9 1.1 11.18.9 8 7&U 2.7 7&UP 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 DUCTS IN CONDITIONED SPACE 1.00 , - 1.00., r L. 91 HEATING SYSTEM MULTIPLIERS (HSM) CLIMATE ZONES 4 5 ` 6 SYSTEMTYPE- HEATING SYSTEM MULTIPLIERS Heat Pump COP 2.5 - 2.69 2.7 -2.89 2.9 • 3.09 3.1 -3.29 1 3.3 - 3.49 3.5 - 3,69 3.7 - U 47 44 .41 39 Electric ri HSM 1.0 Gas & Other Fuels HSM 1.0(See Table 9J for Credit Multipliers) PTHP & Room Units. M for COP 2. • 2.49 = See a ove for CO 2.49 Minimums: Central Units 2.5 COP. PTHP & Room Units 2.2 COP. COP means Coefficient of Performance. 9J HEATING CREDIT MULTIPLIERS (HCMI SYSTEM TYPE HEATING SYSTEM MULTIPLIERS Multizone HCM 90 Natural Gas AFUE 60 - . 5 • .69 70 • .74 75 • .79 1 .80 - .84 85 • .89 90 • U H M 44 41 35 33 31 0 Other Fuels C 6 3 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• T. 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 12.0- U SM 44 1 .4 4 8 1 .36 1 .34 32 31 30 28 AC & Room Unit CSIVI CSIVI 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 PE COOLING CREDIT MULTIPLIERS Ceiling n C 86 M I iz C 0 Cross Ventilation r Whole House F (Credit for only onel• 95 Where more than one credit is claimed, multiply CCM's together. Enter product on page 2. r' 9M HOT WATER MULTIPLIERS (HWM) t * 4 SYSTEM TYPE HOT WATER MULTIPLIERS Electric Resistance EF 80 - .81 82 • .83 84 - .85 86 - .87 88 • .90 91 • .93 94 - .96 97 & UP HWM 3879 3785 3695 3609 3527 3411 3302 3200 Natural Gas _ EF 48 - . 5 • 52 • .53 5 57 58 - .59 60 • . 1 62 & U 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) - r SYSTEMTYPE HOT WATER CRE IT MULTIPLIERS Solar Water Heater .r SF 1 2 4 5 6 7 8 9 H 7 3 2 1 Heat Recovery Unit . With Air -conditioner Heat Pump' HWCM 5 Dedicated Heat Pump EF 2.0-2. 9 2 5.2.9 3.0.3 49 3.5 M 44 5 29 A HWM must be used in conjunction with all HWCM. See Table 9M.': SF means Solar Fraction. EF means Energy Factor. 9P 'INFILTRATION REDUCTION PRACTICE COMPLIANCE CHECKLIST (See Section 903 2(f)) . h. i4 COMPONENTS REQUIREMENTS PRACTICE #1 " COMPLY WITH ALL INFILTRATION PRESCRIPTIVES ON TABLE 9A. PRACTICE #2 COMPLY -WITH PRACTICECOMPLY-WIT #1 AND THE FOLLOWING: Exterior Wails and Floors Too Plate penetrations sealed. Infiltration barrier installed. l la /fl r 'oint caulked or sealed.' Exterior Walls & Ceilincis Penetrations,in and cracks on interior surface uI ed sealed r gasketed.' Ductwork Ductwork In unconditioned space must be sealed. it la s side mbustion air, doorsand flue dampers, ExhaustFans EQV:1PpQd..Vithgut Equipped with damoers. Combustion devices see 903.2(0. PRACTICE #3 COMPLYIT A TI #1 AND #2 AND THE FOLLOWING: Ceilings Infiltration barrier Installed. InteriorIls To2 plate penetrationssealed or ioints & cracks on interior walls caulked sealed or Recessedhts gasketed. Sealed from conditionedace & insulated from ventilated attic ce . Ductwork... AgAuctworklocated in conditionede. Combustion Appliances Be in unconditioned space (except direct vent), draw air from unconditioned, space, exhaust by-products to outside. Stoves see 903.2 . 1 r Z3°I U.'