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PROJECT ADDRESS: SITE PLAN/PROJECT NAME-- REQURI ED PROJECT INFORMATION y S NO Harbour Harbour Ridge RECIVEUCfE COU init. t7!'+��� ST.L Blvd., Palm City; -FL 3 aM II. 27 GUU;'♦CO U 6'ELQPHEP4 SUBDIVISION: Harbour Ridge oilPLAT: LOT: G-5 BLK 16 .......... _ m o ff la [3 ' PROPERTY TAX ID #. PARCEL SIZE (ACRES OR SQ. FT.) 9,220 S.F. LEGAL DESCRIPTION: Harbour Ridge, Figtree Village, Area G=5, Lot 15, Plat 16 13001 Harbour Ridge Blvd., Palm City, FL 34990 OWNER NAME:. Harbour Ridge, Ltd. ADDRESS: 13500 N.W. Gilson Road CITY palm r;tv STATE FL ZIP: 34990 PHONE IF THE FEE SIMPLE TITLEHOLDER (PROPERTY OWNER) IS DIFFERENT FROM THE OWNER LISTED ABOVE, PLEASE FILL IN NAME AND ADDRESS BELOW. SCANNED BY FEE SIMPLE TITLEHOLDER: N/A St. Lucie County ADDRESS: CITY- STATE: . ZIP: Cr� ..a«1.''2zr G Pod D MEMO EtsQI}:Zt)1�iE 0 PR #:� tD PERMIT INFORMATION LOCATION ADDRESS: 13001 Harbour Ridge Blvd. Palm City FL 34990' LOT SIZE DIMENSIONS: 56.67' x•1-47.91' x[22.17'+48.84`]x[42.81'+5 00r+12217'] BUILDING SETBACKS (ACTUAL): FRONT 31.85' REAR 30.27' R.SIDE 10.0o' LSIDE 27.29' i SQUARE FOOTAGE OF CONSTRUCTION: 1.748 S_.F. Living, 572 S.F. Accessories DESCRIPTION OF WORK Construction of Singel Family Residence PROPOSED USE: Single Family Home TYPE OF CONSTRUCTION/DEVELOPMENT ORDER: (CHECK ALL APPROPRIATE AREAS) RESIDENTIAL: x COMMERCIAL- INDUSTRIAL- OTHER: NEW CONSTRUCTION: x EXPANSION OF EXISTING BLDG: INTERIOR REMODELING: OTHER (SPECIFY): EST. COST: $68,660.00 EST. COMPLETION DATE: October 1993 - BPYkLI , _ STATE OF FLREG./CERT#: CGC A08454 COUNTYCERT#: 8796 BUSINESS NAME. J & N Construction, Inc. QUALIFIERS NAME: John E. Moore ADDRESS: 13500 N.W. Gilson Road CITY: Palm City STATE:, FL Zp: 34990 PHONE #: 407 336-1160 ARCHIT/ENGINEER: Stene, Runik Associates ADDRESS: 185 N.W. Spanish' River Blvd CITY. Boca Raton STATE: FL ZIP: 33431 PHONE #: 305 395-6667 BONDING COMPANY: N/A ADDRESS: CITY: MORTGAGE LENDER: ADDRESS: CITY. N/A , STATE: STATE:.. ZIP: ZIP: I FOR OFFICE USE ONLY ,. REQUIRED( VEGETATION ] ENVIRONMENTAL ( ] PLANNING/SITE PLAN ( ] CODE ENFORCEMENT (] USA ( ] TAZ ( ] WATER SUPPLIER ( ] SEWER SUPPLIER ( ] DER CERTIFICATION ( ] FL DNR (CCCL) ( ] FL DOT SLC STORMWATER PER ( ] MANGROVE ALT ( ] SEA TURTLE PROT ( ] BP VALUE PLANS REVIEW FEE 12 OAF C FEE, a IMPACT FEER/f ROAD IMPACT DISTRICj ROAD -IMPACT CREDIT - ALTERNATE DEV FEE - PR #__o_oza3aI DATE RECEIVED REQUIRED FEES $R $ b RADON FEE $ Z 3, Z o $ RCPT # j! �_JS � �� ROAD IMPACT ZONE YES[ ] NO[ ] $ ALT.. DEV. FEE.ZONE NOT REQUIRED [7 [v7� [l SCHOOL IMPACT FEE $ 4,5,Q • tV SCHOOL BOARD APPROVED E)CEMPTION POLICE IMPACT FEE $ SUB PERMITS REQUIRED GAS [ ] AIR CONDITIONING ELECTRIC [� PLUMBING [� SCREEN ENCL/FENCE ( ] ROOF (� DRIVEWAY [� -SCHOOL IMPACT CREDIT YES (] NO [ ] FIRE IMPACTNFEE NOT REQUIRED ZONING CHECKS �BBL ZfLOT COVERAGE EASEMENT LOT SPLITS Tue Mar 30 1A:0E:11 1993 6531TEPL SITE PLAN FOR HARBOUR RIDGE, LTD. LEGAL DESCRIPTION UNIT 15. FIGTREE VILLAGE (AREA G-5) HARBOUR RIDGE PLAT NO 16, ACCORDING TO THE PLAT THEREOF RECORDED IN PLAT BOOK 29, PAGES 2 - 2A, ST. LUCIE COUNTY, FLORIDA. / �' `°�S5 05 `'�• 9 9� O N yef \ s Ga W zt5.2 \ o 0 Z a 5?Y \ 1 G 15. Ox arc r 2° o a 6.(0 \ am I MODEL ABACO II ' ADDRESS: REV: FIELD: N/A DRAWN: G. SCHI UNIT fl 4, , 16 0 sT y UNIT \ i* 15 LAKE TRACT ELEVATIONS SHOWN THUSLY +�2 FINISHED FLOOR i 5. 70 REFER TO N. G. V. D. 1929. i3ODi HARBOUR RIDGE BOULEVARD, PALM CITY, FLORIDA 33490 SKETCH NOT A SURVEY MOCK, ROOS & ASSOCIATES, INC. SCALE: i°=30 ENGINEERSa SURVEYORS a PLANNERS Prepared for DATE: MAR. 1993 � CORPORATE NAY P.A.M..89-239 NEST PALM BEACH, FLORIDA 33407 HARBOUR RIDGE, LTD. Phone: 407 683-3113 Fax: 407 478-7246 DR. No. A- 2631 11 of Community Affairs - FLORIDA ENERGY EFFICIENCY CODE FOR BUILDING CONSTRUCTION z= 93 Residential Whole Building Performance Method A , ... ,' " -n _CENTRAL '4 5 6 PROJECT NAME: -Abaco r� - _.=- BUILDER: J & N Construction Inc AND ADDRESS: PERMITTING CLIMATE. ;,?. �j OFFICE: ZONE: ( 4 75 ❑6 K I OWNER: - Harbour Ridge, Ltd. I PERMIT NO. (JURISDICTION NO.: FT --I I I I1 I 1. New construction or addition - - 2. Single family detached or Multifamily attached 3. If Multifamily -No. of units covered by this submission 4. If Multifamily, is this a worst case (yes / no) 5. Conditioned floor area (sq. ft.) 6. Predominant eave overhang (ft.) 7. Porch overhang length (ft.) 8. Glass type and area: a. Clear glass b. Tint, film or solar screen 9. Floor type and insulation: a. _Slab on grade (R-value + perimeter) b. Wood, raised (R-value + sq. ft.) c. Concrete, raised (R-value) 10. Net Wall type, area and insulation: a. Exterior: 1. Concrete block (Insulation R-value) • 2. Wood frame (Insulation R-value) 3. Steel frame (Insulation R-value) 4. Log (Insulation R-value) b. Adjacent: 1. Concrete block (Insulation R-value) 2. Wood frame (Insulation R-value) 3. Steel frame (Insulation R-value) 4. Log (Insulation R-value) 11. Ceiling type, area and insulation: a. Under attic (Insulation R-value) b. Single assembly (Insulation R-value) 12. Air distribution system: a. Ducts (Insulation + Location) b. Air Handler( Insulation + Location) 13. Cooling system: (Types: central -split, central -single pkg., room unit, PTAC., none) 14. Heating system: (Types: heat pump, elec. strip, nat. gas, L.P. gas, room or PTAC, none) 15. Hot water system: (Types: elec., natural gas, solar, L.P. gas, none) 16. Hot Water Credits: a. Heat Recovery (HR) b. Dedicated Heat Pump(DHP) 17. Infiltration practice. 1, 2 or 3 18. HVAC Credits (Type in Letter designation: CF-Ceiling Fan, CV -Cross vent, HF-Whole house fan, RB-Attic radiant barrier, MZ-Multizone) 19. EPI (must not exceed 100 points) a. Total As -Built points EPI = Total As-Builtpam x 100 b. Total Base points Total Base peinis Please Type -' - • . � ' - CK 2. 5Gg tSL 3. �- 4. 5. / ;7G `/ sq. ft. 6. /, 5 ft. 7. 11,0 ft. Single Pane Double Pane 8a. sq. ft. sq. 8b. /,� sq. ft. sq. 9a. R= -�, 7n'R I. ft 9b. R= -sq.-ft 9c. R= sq. ft. 102-1 R= 'sq. ft. 10a-2 R= Iq /&S -I) sq. ft. 10a-3 R= -sq. ft. 10a-4 R= -sq. ft. 10b-1 R= -sq. ft. 10b-2 R= // /S S sq. ft. 10b-3 R= sq. ft. 10b-4 R= -sq. ft. 11a. R= _ /9 _18y 9 sq. ft. 11 b. R- sq. ft. 12a. R= , Un coy C�coodluncond.) 12b. R= , CahCQ• (cold/uncond.) 13a. Type: Ce, Vk-AL L', 13b. SEER/EER/COP: o • O 13c. Capacity: 3/z- 14a. Type: gco,T :'u w.�• 14b. HSPF/COP/AFUE: _7�.I0 14c. Capacity: 3 /i 15a. Type: E/ec, 15b. EF: 16a. A/ 2 , 16b. 17. Z 18. rF-- 19. 7a, 2 19a. 308'7H•I 19b. Li7IF,7, S I hereby certify that the plans and specifications covered by the calculation are in compliance with the Review of plans and specifications covered by this calculation indicates compliance with Florida Energy Code. � n the Florida Energy Code. Before construction is completed, this building will be inspected PREPARED BY:Y`r�-t%i.0 `�.� DATE:y �-93 for compliance in accordance with Section 553.90B, F.S. I hereby certify that (his building is in compliance wU h the Florida Energy Code. BUILDING OFFICIAL• OWNER AGENT: DATE: DATE: SUMMER CALCULATIONS ` ,o I. 6 CLIMATE ZONES 4 5 6 -. GLASS AREA x SINGLE -PANE ,-- -0R --= DOUBLE -PANE -1 - SUMMER POINT MULT.. SUMMER POINT MULT. ':x SUMMER AS -BUILT OVERHANG =-. GLASS FACTOR (6A-1) SUM. PTS CLEINY', AR T CLEAR --TINT' N z. 51.0 51.5 \ 47.8 43.5 NE 77.2 76.6 1 71.7 63.4 ZZ 0 87.3 2-E ,0.3 SE 1101 104.1 89A S I L 100.2 98.3 90.9 78.8 8.4 SW 112.9 1 110.3 '1D4.1 89.4 W IN 109.2 1 107.1 102.0 87.3 •q Z. �o NW 77.2 1 76.6 I 71.7 63.4 ' H' 367.7 1 303.3 324.6 238.1 • i J - v COND TOTAL BASE BASE ADJUSTED 15 x FLOOR + GLASS - ADJUST. x GLASS - GLASS AREA AREA FACTOR SUBTOTAL BASESP 75 o Z • COMPONENT ' AREA x BASE SUMMER BASE POINT. MULT. = SUMMER DESCRIPTION POINTS EXTERIOR / 9 1.0 � ADJACENT S .7 G 6 3 AS -BUILT GLASS SUBTOTAL O 4 COMPONENT DESCRIPTION AREA x SUMMER AS -BUILT POINT. MULT. = SUMMER 0-2 THRU 6A-6 POINTS w N9 I,O Y98.0 .S �+ EXTERIOR 2 4.8 3. ExT, ruS ZZ 4�8 3• ¢o ADJACENT TI . L 20 • `-I 0 0 OLING BASECOOLING TOTAL BASE BASE STEM SYSTEM x SUMMER COOLING ro MULTIPLIER POINTS POINTS •37 1 3l S1•n 1•3 HOT NUMBER I BASE BASE OF x HOT WATER HOT WATER WATER BEDROOMS MULTIPLIER POINTS SYSTEM 3 3527 $I,0 AS -BUILT NUMBER A%UILT AS -BUILT AS -BUILT HOT WATER OF x HWM x HWCM HOT WATER SYSTEM DESC. BEDROOMS 6A-9 6A-20 POINTS pleC-T 3 I .36o9 1 ' 68 (Z • 7 'H = HORIZONTAL GLASS (SKYLIGHTS) 'FOR GLASS WITH KNOWN SHADING COEFFICIENT, SEE SEC] IUN 1.1 Ur AFFLNUix u. UN i muu irutMa MAT 0c USED FOR GLASS WITH SOLAR SCREENS, FILM, OR TINT. 2- r� ' SUMMER POINT MULTIPLIERS (SPM) CLIMATEZONES 4 5`6 ._ 6A-1 SUMMER OVERHANG FACT ORS SO FOR SINGLE AND DOUBLE PANE GLASS. 4 OH RATIO .00-.11 .12-.17 18-.26� 27-.35 .36-.46 .47-.57 .511.70 .71•.83 .84.1.18 1.19-1.72 1.73-2.73 2.74f N -- 1.00 "- .94 ' .91 ` .87 .83 .79 .75 �•-72 - .69 ..62 - .56 1-.50 m NEMW 1.00 .94 .91 .85 .79 .72 .6B I- a, .58 I K. - .40 '.36 � wo E. 1.00 .95 I .92 1 .85 .78 .70 .64 .58 .52 I .42 .33 .26 w SE/SW 1.00 .93 1 .90 ! .81 -22 .62 .55 .49 .42 .33 27 22 S 1.00 .91 1 .87 / .77 .67 .57 .50 .45 .39 .32 .28 25 'To select•ty Ddrhanq Lencth, m mftot qLm shall be mm Ban 8 ft belmft we 6A-2 WALL SUMMER POINT MULTIPLIERS ISPMI • - - FRAME' a a' `` �+ - '?' ;- S;a CONCRETE BLOCK' INT. INSULATION NORMAL WT. . INSU NOR WT.v,[ <== y ,'-. `_- yrt* - `i; TS° - FACE BRICK r*yr - s-%: ,y1„ L00 R-VALUE WOOD FR WOOD STEEL 0-6.9 2.9 61NCH R-VALUE EXT ADJ E7(T ADJ R-VALUE EXT ADJ EXT 7.10.9 6 R•VALUE EXT 0-6.9 6.4 2.2 8.9 2.9 0-2.9 2.5 .9 25 11.18.9 4 0-2.9 1.7 7-10.9 2.3 .8- 4.1 1.3 3-4.9 1.4 .7 .7 19-25.9 .2 .a'•«' 3E.9 1.1 11-12.9 1.9 .7 3.0 1.0 5-6.9 1.0 .6 3 26 & U 1 7 & U .8 13-18.9 1.7 .6 2.8 0.9 7-10.9 .8 .4 1 R-VALUE BLOCK '" ` e 81NCH 19-25.9 1.0 .3 2.4 0.8 11-18.9 .4 .3 0 0-2.9 1.0 R-VALUE EXT 26& U .6 .2 1.3 0.4 19-25.9 .2 .2 3-6.9 6 1.0 7-9.9 .4 6A-3 DOOR SUMMER POINT MULTIPLIERS DOOR TYPE EXTERIOR ADJACENT WOOD 7.2 2.4 INSULATED 4.8 1.6 ;PM) GA-5 FLOOR SUMMER POINT MULTIPLIERS ISPMI 6A-4 CEILING SUMMER POINT MULTIPLIERS ISPMI UNDER ATTIC SINGLE ASSEMBLY CONCRETE DECK ROOF R-VALUE SPM R-VALUE SPM CEILING TYPE 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 21 & II 1.4 1 1.3 38 & U .4 26-29.9 1.1 SLAB -ON -GRADE EDGE INSULATION RAISED CONCRETE RAISED WOOD' POST OR PIER CONSTRUCTION STEM WALL w/ UNDER FLOOR INSULATION ADJACENT - R-VALUE SPM R-VALUE SPM R-VALUE SPM SPM SPM 0-2.9 -31.9 0-2.9 -1.0 0-6.9 0.9 -5.8 5.3 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 -2.2 1.8 1 6A-6INFILTRATION SUMMER POINT MULTIPLIERS (SPM) 6A-7 DUCT MULTIPLIERS (DM) INFILTRATION PRACTICE SEE TABLE 6A-21 SPM PRACTICE #1 13.8 PRACTICE #2 10.9 PRACTICE #3 7. RA-R COOT ING SYSTEM MITI TIP[ IFRS ICSMI R-VALUE RETURN DUCTS IN UNCONDITIONED SPACE RETURN DUCTS IN CONDITIONED SPACE SUPPLY DUCTS IN UNCONDITIONED SPACE 4.2-5.9 1.14 1.10 6.0-6.6 1.10 1.07 6.7 & Up 1.09 1.06 SUPPLY DUCTS IN CONDITIONED SPACE' 4.2-5.9 1.10 1.00 6.0-6.6 1.07 1.00 6.7 SYSTEM TYPE COOLING SYSTEM MULTIPLIERS CSM Ratinq 7.5-7.9 1 8.0-8.4 8.5-8.8 8.9-9.4 9.5-9.9 10.0-10.4 10.5-10.9 11.0-11.4 11.5-11.9 12.0-12.4 Central Units (SEER) CSM .45 .43 .40 .38 .36 .34 .32 1 .31 .30 1 .28 PTAC Ratan 12.5-12.9 13.0-13.4 13.5-13.9 14.0-14.4 14.5-14.9 15.0-15.4 15.5-15.9 16.0-16.4 16.5-16.9 17.0-17.4 117.5 & U & Room Units (EER) CSM .27 1 .26 1 .25 1 .24 1 .24 1 .23 1 .22 1 .21 1 .21 1 .20 1 .19 MINIMUMS: CENTRAL UNITS -AIR COOLED SPLIT SYSTEM 10.0 SEER, SINGLE PKG. 9.7 SEER, GROUNDWATER HEAT PUMP 11.0 EER. PTACSEE TABLE 6.2 6A.9 HOT WATER MULTIPLIERS I14WMI SYSTEM TYPE HOT WATER MULTIPLIERS HWM Resistance EF .80-.81 1 82-.83 1 .84-.85 .86-.87 1 .88-.90 1 .91-.93 1 .94-.96 .97 & U Electric HWM 3879 3785 3695 3609 3527 3411 3302 3200 Gas EF .43-.47 1 .48-.49 .50-.51 .52-.53 .54-.55 .56-57 .58-.59 .60-.61 .62-.63 .64-.65 .66 & U Natural HWM 2974 1 2664 2558 1 2459 2368 2284 2205 2132 2063 1998 1938 LP Gas HWM 3638 1 3259 3129 1 3009 2897 2794 2697 2607 1 2523 2444 2370 I FOR MULTIPLIERS FOR OTHER TYPES OFCONCRETE BLOCK CONSTRUCTION SEE SECTION 2.10F APPENDIX C. 2 MULTIPLIERS FOR OTHER TYPES OF RAISED WOODASSEMBLIES SEE SECTION 3.1 OF APPENDIX C. a DUCTS IN CONDITIONED SPACE NEED TO BE INSULATED ONLY TO THE R-VALUE NECESSARY TO PREVENT CONDENSATION. WINTER CALCULATIONS ; ®Mill , us © M� 22� ma�■� --- CLIMATEZONES 4 5 6 7 -. - GLASS AREA x _-"-SINGLE-PANE -- ,OR _..DOUBLE -PANE 1-_".: WINTER POINT MULT. ' WINTER POINT MULT. �x -WINTER OVERHANG = FACTOR (6A-10)1 AS -BUILT ' GLASS WIN. PTS CLEAR ' TINT' CLEAR TINT' N Z 9.6 ( 9.6\ 5.6 6.1 .O O• NE 7.4 / 7.3 3.5 4.2 E L(. -2.2 -2.0 .I -5.6 -3.6 i SE -10.3 - 9.7 I -13.4 -10.4 S Z -10.9 1 -10.2 I -14.0 -11.0 Z - /.6 SW - - -10.3 1 -- 9.7 I - -13.4 •10.4 - W -2.2 1 --2.0 f -5.6 -3.6 NW 7.4 1 7.3 ! 3.5 4.2 H' -32.1 -28.0 / -27.0 -21.5 COND I TOTAL BASE BASE ADJUSTED 15 x FLOOR + GLASS ADJUST. x GLASS - = GLASS AREA AREA FACTOR SUBTOTAL BASE WP .15 1 -9 . -! ,Z ati COMPONENT BASE WINTER BASE DESCRIPTION AREA x POINT. MULT. = LATER POINTS EXTERIOR a ADJACENT S.S" 1.8 4,0 3 1 EXTERIOR 5.1 2,L 0 ADJACENT 4.0 0 0 UNDERATT z OR SINGLE ASSEMBLY SLAB PERIN o RAISED qRl LL LA (I INFILTRATION o`t 4.1 72S7.4 USE TOTAL FLOOR AI • TOTAL COMPONENT BASE WINTE PINTS BASE HEATING TOTAL BASE BASE HEATING SYSTEM x WINTER - HEATING SYSTEM MULTIPLIER POINTS POINTS 1.1 // 1Z-S.-7 -2-),%3 AS -BUILT GLASS SUBTOTAL COMPONENT DESCRIPTION AREA x WINTER POINT. MULT. 6A-11 THRU 6A-15 AS -BUILT WINTER POINTS T. DuS 22 . I //LZ AS -BUILT WIN. PTS. 1 wa 2S G•o ,eu.v USE AREA OVER UNCONDITIONED SPACE. /7L5 41 77527 °NT AS WINTER POINTS -BUILT I AS -BUILT AS -BUILT AS -BUILT DM x HSM x HCM HEATING AS -BUILT AS -BUILT AS -BUILT TOTAL BASE BASE BASE TOTAL a COOLING + HEATING + HOT WATER BASE COOLING + HEATING + HOTWATER AS -BUILT o POINTS POINTS POINTS POINTS POINTS POINTS POINTS POINTS From P. 2 From P.2 Enter on P.1 From P.2 From P.2 Enter on P.1 17�:-" .Z % 34,. _ I zos'i310 1 4Z I b 1. 5, .S J H = HORIZONTAL GLASS (SKYLIGHTS) 2FOR GLASS WITH KNOWN SHADING COEFFICIENT, SEE SECTION 1.1 OF APPENDIX C. TINT MULTIPLIERS MAY BE USED FOR GLASS WITH SOLAR SCREENS, FILM, OR TINT. 4- WINTER POINT MULTIPLIERS (WPM) •,: 6A-10 WINTER OVERHANG FACTORS 0 - - r • - =°CLIMATE ZONES_ 4 5 6 a - OH RATIO .00-.11 .12-.17 .18-26 27-.35 .38•.46 .47-.57 1 .58-30 1 .71-.83 .841.18 11.19-1.7211.73-2.731 274+ - - _ - - SINGLE PANE ` - GLASS N 1.00 1.03 1.05 •• 1.08 1.10 1.13 1.15 1.18 1.20 1 1.24 1.29 1.34 NEINW - 7.00 1.07 1.10 1.15 1.20 1.25 1.30 1.35 1.39 11.50 1.59 1.67 EIW 7.00 .71 ' .57 i .19-.20 -.65 -1.05 -1.48 -2.03 ' -3.01 -0.O6 3.04 m SEISW 1.00 .93 - .90 - .80 .68 .54 111 22 .05 -.33 -.71- -1.01 S - 1.00 .95 .92 .83 -.70 1 .54 .36 .13 -.13 -.70 1 -.an -1.09 - - DOUBLE PANE GLASS N -- 1.00 1.05 1.07 1.11 1.14 1.18 121 1.24 1.28 1.34 1.40 1.47 NE/NW 1.00 1.11 1.16 1.24 1.32 1.41 1.48 1.56 1.63 1.80 1.94 2.08 EIW 1.00 .88 .82 .66 .50 .31 .15 -.03 -.26 -.66 -1.10 -1.50 SE/SW 1.00 .95 .92 .85 .76 .65 .54 .41 .28 -.01 -.30 -.52 S 1.00 .96 .94 .87 .78 .65 .51 .33 .13 -.30 -.51 -.60 OH LENGTH' Oft, Ift. 1 1'hft. 1 21L 1 3ft. 1 3'hlt 1 4'hft. 1 5'/,4. 1 61/24 9'/zfl. 14fl. 20ft.+ TO SELECT BY OVERHANG LENGTH. NO PART OFGLASS SHALL BE MORE THAN 8 FT. BELOW THE OVERHANG. 6A-11 WALL WINTER POINT MULTIPLIERS fWPMI FRAME ;.'• - "- -.' CONCRETE BLOCK' _ '; FACE BRICK - '. -_ ;> ''` - `t., LOG INT. INSULATION NORMAL WT. Pff.INSU_. I NOR. MIT. R-VALUE WOODFR WOOD STEEL 0-6.9 7.0 6INCH R-VALUE EXT ADJ EXT ADJ.` R-VALUE EXT ADJ EXT 7-10.9 2.1 R-VALUE EXT 0-6.9 6.8 5.3 9.4 6.7 0-2.9 6.0 3.1 6.0 11-18.9 1.7 0-2.9 2.2 7-10.9 2.5 2.1 4.4 3.3 3-4.9 3.8 2.3 2.8 19-25.9 1.0 3-6.9 1.2 11.12.9 2.0 1.8 3.3 2.6r�-:. 5-6.9 2.9 1.9 2.0 268U 6 7&U .9- 13-18.9 1.8 1.6 3.0 2.4 7-10.9 2.3 1.5 1.5 R-VALUE BLOCK 81NCH 19-25.9 11 1.0 2.6 2.2 11-18.9 1.5 1.1 .8 0-2.9 3.7 R-VALUE EXT 268 Up .7 .7 1.4 1.2 19-25.9 .8 .7 3-6.9 2.6 0-2.9 12 26 & U .5 .5 7-9.9 1.8 31.9 .9 6A-12 DOOR WINTER POINT MULTIPLIERS DOORTYPE EXTERIOR ADJACENT WOOD 7.6 5.9 INSULATED 5.1 4.0 NPM) 6A-14 FLOOR WINTER POINT MULTIPLIERS fWPMI RA-13 CPII ING W WTPP PLANT MI II TIP[ IFPS 1WPM1 UNDER ATTIC SINGLE ASSEMBLY CONCRETE DECK ROOF - R-VALUE WPM R-VALUE WPM CEILING TYPE 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 1 .7 30-37.9 .6 19-25.9 1.1 21 811 .4 1 .3 38 & U .4 26-29.9 .6 SLAB4IN-GRADE EDGE INSULATION - RAISED CONCRETE RAISED WOOD' - POST OR PIER CONSTRUCTION STEM WALL w/UNDER FLOOR INSULATION ADJACENT R-VALUE WPM R-VALUE WPM R-VALUE WPM WPM WPM 0-2.9 2.5 0-2.9 4.0 0-6.9 7.9 1.8 5.3 3-4.9 -1.7 3-4.9 1.a 7.10.9 2.1 .7 2.1 5-6.9 -2.4 5-6.9 1.1 11-18.9 1.5 .5 1.8 6A-15 INFILTRATION WINTER POINT MULTIPLIERS IWPM) 6A-16 DUCT MULTIPLIERS fDMI INFILTRATION PRACTICE SEE TABLE 6A-21 WPM PRACTICE #1 6.2 PRACTICE 92 4.1 6A-17 HEATING SYSTEM MITI TIPI IFPS fHSMI R-VALUE RETURN DUCTS IN UNCONDITIONED SPACE RETURN DUCTS IN CONDITIONED SPACE SUPPLY DUCTS IN UNCONDITIONED SPACE 4.2-5.9 1.14 1.10 6.0-6.6 1.10 1.07 6.7 & Up 1.09 1.06 SUPPLY DUCTS IN CONDITIONED SPACE' 4.2-5.9 1.10 1.00 6.0-6.6 1.07 1.00 SYSTEM TYPE HEATING SYSTEM MULTIPLIERS HSM Central Heat HSPF 6.40-6.79 6.80-6.89 6.90-7.39 7.40-7.89 7.90-8.39 8.40-8.89 8.9-9.39 9.4-9.89 Pump Units HSM .53 .50 1 .49 .46 % .41 .38 .36 HSPF 9.90-10.39 10.40.10.89 1 10.90-11.39 11.40-11.89 1 11.90-12.39 1 12.40 & u HSM .34 .33 .31 .30 .29 .28 PTHP COP 2.50-2.69 2.70-289 2.90-3.09 3.10-3.29 3.30-3.49 3.50-3.69 3.70.3.89 3.90-4.19 HSM .40 .37 .34 .32 .30 .29 .27 .26 Electric Strip 1.0 Gas & LP Gas 1.0 See Table 6A-18 for Credit Multiplier) MINIMUMS: CENTRAL UNITS -AIR SOURCE SPLIT SYSTEM 6.8 HSPF, SINGLE PKG: 6.6 HSPF, WATER SOURCE 3.8 COP, GROUND WATER SOURCE 3.4 COP, PTHP SEE TABLES 6.6 TO 6-8. 1 FOR MULTIPLIERS FOR OTHER TYPES OF CONCRETE BLOCK CONSTRUCTION SEE SECTION 2.1 OF APPENDIX C. 2 MULTIPLIERS FOR OTHER TYPES OF RAISED WOODASSEMBLIES SEE SECTION 3.1 OF APPENDIX C. 3 DUCTS IN CONDITIONED SPACE NEED TO BE INSULATED ONLY TO THE R-VALUE NECESSARY TO PREVENT CONDENSATION. .5- • ADDITIONAL TABLES =:l=,cuMATezoNEs a s 6 '6A-18 HEATING CREDIT MULTIPLIERS CM •• - - - - -• - 4 •••�. SYSTEMTYPE-HEATINGCREDITMULTIPLIERS _ - _ • =- - - I--- "' HCM -r r _...•, Attic Radiant Barrier ,.; - = Multzane HCM _.r- .95 F Natural Gas '. ' AFUE .68-72 73-. .78-.82 83-.87 . & UM LP Gas HC .61 5 :50 4 44 HCM - .77 .72 1 .67 .63 .60 1 .57 bA-19 COOLING CREOfT MULTIPLIERS (CCM) - - - .. I SYSTEM TYPE— I COOLING CREDIT MULTIPLIERS ICCMt 1 'Credit may be taken for only one of these system types concurrently. 5A-20 HOT WATER CREDTT U111TIPLIERS IwW M Heat Recovery Unit OP— H t P Dedicated Heat Pump 44 Solar A HWM MUST BE USED IN CONJUNCTION WITH ALL HWCM. SEE TABLE 6A.9. EFMEANS ENERGY FACTOR. ' BA.91 [NMI TRATInN oonunnnu COMPONENTS SECTION REQUIREMENTS FOR EACH PRACTICE PRACTICE #1 606.1 COMPLY WITH ALL INFILTRATION PRESCRIPTIVES. I CHECK Windows Maximum of 0.34 CFM per linear foot of operable sash crack includes sliding lass doors Exterior& Ad'acent Doors Exterior Joints &Cracks . Maximum of 0.5 CFM persq. ft. of door area; solid core wood panel, insulated or lass doors onl . To be PRACTICE #2 606.1 caulked asketed weathersI ed or otherwise sealed. COMPLY WITH 41 AND THE FOLLOWING: Exterior Walls and Floors Exterior Walls & Ceilin To late enetrations sealed. Infiltration barrier installed- Sole late/floor'oint caulked or sealed. 'pints s Penetrations, and cracks on interior surtace caulked sealed or asketed. Ductwork Ductwork in unconditioned space must be sealed. Fire laces E ui ed with outside combustion air, doors and flue dampers. Exhaust Fans E ui ad with dampers. Combustion devices see 606.1.A.2 PRACTICE #3 606.1 COMPLY WITH PRACTICES #1 AND #2 AND THE FOLLOWING: Ceilin s Infiltration barrier installed. Interior Walls l o enetrations sealed or'oints &cracks on interior walls caulked sealed or asketed. Recessed U hts Sealed from conditioned &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 to outside. Combustion cooking appliances see section 606.1.A.3 6A-22 OTHER PRESCRIPTIVFMFASMM;: nt-,,..I,e,.,,,----------- G.._., COMPONENTS SECTION __-..__. REQUIREMENTS Water Heaters 612.1 Comply with efficiency requirements in Table 6.11. Switch or clearly marked circuit breaker (electric) CHECK or cutoff as must be provided. External or built-in heat trap re uired. Swimming Pools & Spas 612.1 Spas & heated pools must have covers (except solar heated). Non-commercial pools must have a pump timer. Gass a & ool heaters must have a minimum thermal efficient of 78%. Shower Heads 612.1 Water flow must be restricted to no more than 3 qa1lons per minute at 80 PSIG. Air Distribution System 610.1 All ducts, fittings, mechanical equipment and plenum Chambers shall be mechanically attached, sealed, insulated, and installed in accordance with the criteria of Section 610. Ducts in unconditioned attics must be insulated to a minimum of R-6. Air handlers shall not be installed in attics unless in mechanical closet. • HVAC Controls insulation 607.1 Se arate readil accessible manual or automatic thermostat for each system. 604.1, 602.1 Ceilin s-Min. R-19. Common walls -Frame R-11 or CBS R-3 both sides. Common Collin & Floors R-11.