The URL can be used to link to this page

Home My WebLink AboutENERGY EFFICIENCY CODEFORM 60OA-2004 EnergyGauge® 4.0 FLORIDA ENERGY EFFICIENCY CODE FOR BUILDING CONSTRUCTION Florida Department of Community Affairs Residential Whole Building Performance Method A Project Name: Saltzman Res Builder: Address: Permitting Office: SCANNED City, State: Permit Number: Owner: BY Jurisdiction Number: Climate Zone: Central St. Lucie COUnty 1. New construction or existing New _ 12. Cooling systems 2. Single fancily or multi -family Single family a. Central Unit Cap: 42.0 kBtu/hr _ 3. Number of units, if multi -family _ 1 _ SEER: 13.00 _ 4. Number of Bedrooms 2 _ b. Central Unit Cap: 24.0 kBmfhr _ 5. Is this a worst case? No _ SEER: 13.00 _ 6. Conditioned floor area (IF) 3080 ft' _ c. N/A _ 7. Glass type I and area: (Label regd. by 13-104.4.5 if not default) _ a. U-factor: Description Area 13. Heating systems (or Single or Double DEFAULT) 7a. (Dble Default) 498.1 ft- _ a. Electric Heat Pump Cap: 42.0 kBm/hr b. SHGC: HSPF: 7.70 _ (or Clear or Tint DEFAULT) 7b. (Tint) 498.1 fP _ b. Electric Heat Pump Cap: 24.0 kBtulhr 8. Floor types HSPF: 7.70 _ a. Slab -On -Grade Edge Insulation R=0.0, 334.3(p) it _ c. N/A _ b. N/A c. NIA _ 14. Hot water systems 9. Nall types a. Electric Resistance Cap: 50.0 gallons a. Concrete. Int Insul, Exterior R=4.2. 2118.6 ft' _ EF: 0.97 _ b. N/A _ b. N/A _ c. N/A d. NIA _ c. Conservation credits _ e. N/A _ (HR-Heat recovery, Solar 10. Ceiling types _ DHP-Dedicated beat pump) a. Under Attic R=30.0, 3080.0 W 15. HVAC credits CV, _ b. N/A _ (CF-Ceiling fan. CV -Cross ventilation, c. NIA _ HF-Whole house fan, , 11. Ducts _ PT -Programmable Thermostat. a. Sup: Unc. Ret: Unc. AH: Attic Sup. R=6.0, 200.0 ft IvIZ-C-Multizone cooling, b. Sup: Unc. Ret: Unc. AH: Attic Sup. R=6.0, 200.0 ft _ NIZ-H-Multizone heating) Glass/Floor Area: 0.16 Total as -built points: 33160 PASS Total base points: 35097 I hereby certify that the plans and specifications covered by this calculation are in compliance with the Florida Energy Code. PREPARED BY' / ✓ti DATE: % /( e) I hereby certify that this building, as designed, is in compliance with the Florida Energy Code. OWNER/AGEN<:L- � DATE: glass type and areas, see Summer & V Review of the plans and specifications covered by this ,yy041M STArB calculation indicates compliance with the Florida Energy Code. '"r "' :> `':'" 4 Before construction is completed ` o this building will be inspected for compliance with Section 553.908 •� ct Florida Statutes. goo Wr, �o BUILDING OFFICIAL: DATE: linter Glass output on pages 2&4. EnergyGauge® (Version: FLRCSB v4.0) FORM 60OA-2004 EnergyGauge® 4.0 SUMMER CALCULATIONS Residential Whole Building Performance Method A - Details ADDRESS: , , . PERMIT #: BASE AS -BUILT GLASS TYPES .18 X Conditioned X BSPM = Points Overhang Floor Area Type/SC Ornt Len Hgt Area X SPM X SOF = Points .18 3080.0 25.78 14292.4 Double, Tint S 0.0 0.0 113.4 33.69 1.00 3820.1 Double, Tint E 0.0 0.0 63.4 45.16 1.00 2863.0 Double, Tint N 0.0 0.0 137.2 20.63 1.00 2830.8 Double, Tint NE 0.0 0.0 6.4 32.90 1.00 210.6 Double, Tint NW 0.0 0.0 82.7 28.29 1.00 2339.2 Double, Tint N 0.0 0.0 40.8 20.63 1.00 841.8 Double, Tint W 0.0 0.0 45.0 40.60 1.00 1826.8 Double, Tint S 0.0 0.0 9.2 33.69 1.00 309.9 As -Built Total: 498.1 15042.2 WALL TYPES Area X BSPM = Points Type R-Value Area X SPM = Points Adjacent 0.0 0.00 0.0 Concrete,. Int Insul, Exterior 4.2 2118.6 1.16 2457.6 Exterior 2118.6 1.90 4025.3 Base Total: 2118.6 4025.3 As -Built Total: 2118.6 2467.6 DOOR TYPES Area X BSPM = Points Type Area X SPM = Points Adjacent 0.0 0.00 0.0 Exterior Insulated 40.8 4.80 195.8 Exterior 57.8 4.80 277.4 Exterior Insulated 17.0 4.80 81.6 Base Total: 67.8 277.4 As -Built Total: 57.8 277.4 CEILING TYPES Area X BSPM = Points Type R-Value Area X SPM X SCM = Points Under Attic 3080.0 2.13 6560.4 Under Attic 30.0 3080.0 2.13 X 1.00 6560.4 Base Total: 3080.0 6660.4 As -Built Total: 3080.0 6660.4 FLOOR TYPES Area X BSPM = Points Type R-Value Area X SPM = Points Slab 334.3(p) -31.8 -10630.7 Slab -On -Grade Edge Insulation 0.0 334.3(p -31.90 .10664.2 Raised 0.0 0.00 0.0 Base Total: -10630.7 As -Built Total: 334.3 -10664.2 INFILTRATION Area X BSPM = Points Area X SPM = Points 3080.0 14.31 44074.8 3080.0 14.31 44074.8 EnergyGauge® DCA Form 60OA-2004 EnergyGauge®/FlaRES'2004 FLRCSB v4.0 FORM 60OA-2004 EnergyGauge® 4.0 SUMMER CALCULATIONS Residential Whole Building Performance Method A - Details ADDRESS: , , , PERMIT #: BASE AS -BUILT Summer Base Points: 58599.7 Summer As -Built Points: 67748.3 Total Summer X System = Cooling Total X Cap X Duct X System X Credit = Cooling Points Multiplier Points Component Ratio Multiplier Multiplier Multiplier Points (System - Points) (DM x DSM x AHU) lays 1: Central Unit 42000 btuh ,SEER/EFF(13.0) Ducts:Unc(S),Unc(R),Att(AH),R6.0(INS) 57748 0.64 (1.09 x 1.150 x 1.10) 0.262 0.950 12592.1 (sys 2: Central Unit 24000 btuh .SEERIEFF(13.0) Ducts:Unc(5),Unc(R),Att(AH),R6.0(INS) 57748 0.36 (1.09 x 1.150 x 1.10) 0.262 • 0.950 7195.5 58599.7 0.4266 24998.6 57748.3 1.00 1.375 0.262 0.950 19787.6 EnergyGaugeTM DCA Form 60OA-2004 EnergyGauge®/FlaRES'2004 FLRCSB v4.0 FORM 60OA-2004 EnergyGauge® 4.0 WINTER CALCULATIONS Residential Whole Building Performance Method A - Details ADDRESS: ... PERMIT* BASE AS -BUILT GLASS TYPES .18 X Conditioned X BWPM = Points Overhang Floor Area Type/SC Ornt Len Hgt Area X WPM X WOF = Point .18 3080.0 6.86 3248.8 Double, Tint S 0.0 0.0 113.4 7.70 1.00 873.6 Double, Tint E 0.0 0.0 63.4 9.46 1.00 599.7 Double, Tint N 0.0 0.0 137.2 11.29 1.00 1548.3 Double, Tint NE 0.0 0.0 6.4 11.04 1.00 70.6 Double, Tint NW 0.0 0.0 82.7 11.21 1.00 927.2 Double, Tint N 0.0 0.0 40.8 11.29 1.00 460.4 Double, Tint W 0.0 0.0 45.0 10.07 1.00 453.0 Double, Tint S 0.0 0.0 9.2 7.70 1.00 70.9 As -Built Total: 498.1 6003.7 WALL TYPES Area X BWPM = Points Type R-Value Area X WPM = Points Adjacent 0.0 0.00 0.0 Concrete, Int Insul, Exterior 4.2 2118.6 3.26 6906.6 Exterior 2118.6 2.00 4237.2 Base Total: 2118.6 4237.2 As -Built Total: 2118.6 6906.6 DOOR TYPES Area X BWPM = Points Type Area X WPM = Points Adjacent 0.0 0.00 0.0 Exterior Insulated 40.8 5.10 208.1 Exterior 57.8 5.10 294.8 Exterior Insulated 17.0 5.10 86.7 Base Total: 57.8 294.8 As -Built Total: 67.8 294.8 CEILING TYPESArea X BWPM = Points Type R-Value Area X WPM X WCM = Points Under Attic 3080.0 0.64 1971.2 Under Attic 30.0 3080.0 0.64X1.00 1971.2 Base Total: 3080.0 1971.2 As -Built Total: 3080.0 1971.2 FLOOR TYPES Area X BWPM = Points Type R-Value Area X WPM = Points Slab 334.3(p) -1.9 -635.2 Slab -On -Grade Edge Insulation 0.0 334.3(p 2.50 835.8 Raised 0.0 0.00 0.0 Base Total: -635.2 As -Built Total: 334.3 835.8 INFILTRATION Area X BWPM = Points Area X WPM = Points 3080.0 -0.28 -862.4 3080.0 -0.28 -862.4 EnergyGauge® DCA Form 60OA-2004 EnergyGauge®/FlaRES'2004 FLRCSB v4.0 FORM 60OA-2004 EnergyGaugeO 4.0 WINTER CALCULATIONS Residential Whole Building Performance Method A - Details ADDRESS: , , , PERMIT #: BASE AS -BUILT Winter Base Points: 8254.4 Winter As -Built Points: 14149.7 Total Winter X System = Heating Total X Cap X Duct X System X Credit = Heating Points Multiplier Points Component Ratio Multiplier Multiplier Multiplier Points (System - Points) (DM x DSM x AHU) lays 1: Electric Heat Pump 42000 btuh ,EFF(7.7) Ducts:Unc(S),Unc(R),Att(AH),R6.0 14149.7 0.636 (1.078 x 1.160 x 1.11) 0.443 1.000 5539.9 lays 2: Electric Heat Pump 24000 btuh ,EFF(7.7) Ducts:Unc(S),Unc(R),Att(AH),R6.0 14149.7 0.364 (1.078 x 1.160 x 1.11) 0AA3 1.000 3165.6 8254.4 0.6274 5178.8 14149.7 1.00 1.388 0.443 1.000 8705.5 EnergyGaugeTM DCA Form 60OA-2004 EnergyGaugeOlFlaRES'2004 FLRCSB v4.0 FORM 60OA-2004 EnergyGauge® 4.0 WATER HEATING & CODE COMPLIANCE STATUS Residential Whole Building Performance Method A - Details ADDRESS: , , , PERMIT #: BASE AS -BUILT WATER HEATING Number of X Multiplier = Total Tank EF Number of X Tank X Multiplier X Credit = Total Bedrooms Volume Bedrooms Ratio Multiplier 2 2460.00 4920.0 50.0 0.97 2 1.00 2333.20 1.00 4666.4 As -Built Total: 4666.4 CODE COMPLIANCE STATUS BASE AS -BUILT Cooling + Heating + Points Points Hot Water = Total Points Points Cooling Points + Heating + Hot Water = Total Points Points Points 24999 5179 4920 35097 19788 8705 4666 33160 PASS EnergyGauge' DCA Form 60OA-2004 EnergyGauge®/FlaRES'2004 FLRCSB v4.0 V FORM 60OA-2004 EnergyGauge® 4.0 Code Compliance Checklist Residential Whole Building Performance Method A - Details ADDRESS: , , , PERMIT #: 6A-21 INFILTRATION REDUCTION COMPLIANCE CHECKLIST COMPONENTS SECTION REQUIREMENTS FOR EACH PRACTICE CHECK, Exterior Windows & Doors 606.1.ABC.1.1 Maximum:.3 cfm/sq.ft. window area; .5 cfm/sq.ft. door area. Exterior & Adjacent Walls 606.1.ABC.1.2.1 Caulk, gasket, weatherstrip or seal between: windows/doors & frames, surrounding wall; foundation & wall sole or sill plate; joints between exterior wall panels at corners; utility penetrations; between wall panels & top/bottom plates; between walls and floor. EXCEPTION: Frame walls where a continuous infiltration barrier is installed that extends from, and is sealed to, the foundation to the top plate. Floors 606.1.ABC.1.2.2 Penetrationslopenings >1/8" sealed unless backed by truss or joint members. EXCEPTION: Frame floors where a continuous infiltration barrier is installed that is sealed to the perimeter, penetrations and seams. Ceilings 606.1.ABC.1.2.3 Between walls & ceilings; penetrations of ceiling plane of top floor; around shafts, chases, soffits, chimneys, cabinets sealed to continuous air barrier; gaps in gyp board & top plate; attic access. EXCEPTION: Frame ceilings where a continuous infiltration barrier is Installed that is sealed at the perimeter, at penetrations and seams. ' Recessed Lighting Fixtures 606.1.ABC.1.2.4 Type IC rated with no penetrations, sealed; or Type IC or non -IC rated, installed inside a sealed box with 1/2" clearance & 3" from insulation; or Type IC rated with 4 2.0 cfm from conditioned space, tested. Multi -story Houses 606.1.ABC.1.2.5 Air barrier on perimeter of floor cavity between floors. Additional Infiltration reqts 606.1.ABC.1.3 Exhaust fans vented to outdoors, dampers; combustion space healers comply with NFPA, have combustion air. am-LL V 1 rlCrt rMCAI.RIr, 11 V C 111ICFlOUMMo (muss De met or eXceeOeC1 Dy all resmences./ COMPONENTS SECTION REQUIREMENTS CHECK Water Healers 612.1 Comply with efficiency requirements in Table 612.1.ABC.3.2. Switch or clearly marked circuit breaker (electric) or cutoff (gas) must be provided. External or built-in heat trap required. Swimming Pools & Spas 612.1 Spas & heated pools must have covers (except solar heated). Non-commercial pools must have a pump timer. Gas spa & pool heaters must have a minimum thermal efficiency of 78%. Shower heads 612.1 Water flow must be restricted to no more than 2.5 gallons per minute at 80 PSIG. Air Distribution Systems 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: R-6 min. insulation. HVAC Controls 607.1 Separate readily accessible manual or automatic thermostat for each system. Insulation 604.1, 602.1 Ceilings -Min. R-19. Common walls -Frame R-11 or CBS R-3 both sides. ' Common ceiling & floors R-11. EnergyGauge^" DCA Form 60OA-2004 EnergyGauge®/FlaRES'2004 FLRCSB v4.0 ENERGY PERFORMANCE LEVEL (EPL) DISPLAY CARD ESTIMATED ENERGY PERFORMANCE SCORE* = 84.9 The higher the score, the more efficient the home. 1. New construction or existing New _ 2. Single family or multi -family Single family _ 3. Number of units. if multi -fancily 1 _ 4. Number of Bedrooms 2 5. Is this a worst case? _ No _ 6. Conditioned floor area (W) 3080 fF 7. Glass type I and area: (Label rend. by 13-104.4.5 _ if not default) a. U-factor: Description Area (or Single or Double DEFAULT) 7a. (Dble Default) 498.1 ft- _ b. SHGC: (or Clear or Tint DEFAULT) 7b. (Tint) 498.1 W _ S. Floor types a. Slab -On -Grade Edge Insulation R=0.0, 334.3(p) ft _ b. NIA _ c. N/A _ 9. wall types a. Concrete, Int Insul, Exterior R=4.2, 2118.6 W _ b. NIA _ c. N/A _ d. N/A _ e. NIA _ 10. Ceiling types a. Under Attic R=30.0.3080.0 ft' _ b. N/A _ c. NIA _ 11. Ducts a. Sup: Unc. Ret: Unc. AH: Attic Sup. R=6.0, 200.0 ft b. Sup: Unc. Ret: Unc. AH: Attic Sup. R=6.0, 200.0 ft _ 12. Cooling systems a. Central Unit b. Central Unit c. NIA 13. Heating systems a. Electric Heat Pump b. Electric Heat Pump c. NIA 14. Hot water systems a. Electric Resistance b. N/A c. Conservation credits (HR-Heat recovery, Solar DHP-Dedicated heat pump) 15. HVAC credits (CF-Ccilhcg fan, CV -Cross ventilation, HF-whole house fan. PT -Programmable Thermostat, MZ-C-Multizone cooling, bIZ-H-Multizone heating) I certify that this home has complied with the Florida Energy Efficiency Code For Building Construction through the above energy saving features which will be installed (or exceeded) in this home before final inspection. Otherwise, a new EPL Display Card will be completed based on installed Code compliant features. Builder Signature: Date: Address of New Home: City/FL Zip: Cap: 42.0 kBtu/hr _ SEER:13.00 _ Cap: 24.0 kBtu/hr _ SEER: 13.00 Cap: 42.0 kBm/hr _ HSPF: 7.70 _ Cap: 24.0 kBtu/hr HSPF: 7.70 Cap: 50.0 gallons EF: 0.97 * "NOTE: The home's estimated energy performance score is only available through the FLARES computer program. This is not a Building Energy Rating. Ifyour score is 80 or greater (or 86for a US EPAIDOE EnergyStafr designation), your- home nay qualify for energy efficiency urorigage (EEe11) incentives if you obtain a Florida Energy Gauge Rating. Contact the Energy Gauge Hotline at 3211638-1492 or see the Energy Gauge web site at i mar fsec. ucf edu for information and a list of certified Raters. For it formation about Florida's Ener D, Ef iciency Code For Building Construction, contact the Department ofCommunity Affairs at 8501487-I824. 1 Predominant glass type. For actual elms type and areas, see Summer & winter Glass output onees 2&4. EnergyGaugeS (Version: FLRV0 v4.0) Cv, 4 Project Summary Entire House SCANNizu BY St. Lucie Cnrinty Project Information` For: Saltzman 1317 NW Lancewood Terr, Notes: Weather. Fort Pierce, FL, US Winter Design Conditions Outside db Inside db. Design TO Job: Date: Dec 04, 2007 By: D-) II-02,1--� Summer Design Conditions 42 OF Outside db 70 OF Inside db 28 OF Design TO Daily range Relative humidity Moisture difference Heating Summary Structure 38052 Btuh Ducts 2761 cfm Central vent (82 cfm) 0 Btuh Humidification 0 Btuh Piping 0 Btuh Equipment load 40813 Btuh Infiltration Method Simplified Construction quality Average Fireplaces 0 Heatingg Coolingg Area (fl=) 3080 3080 Volume (ft3) 24640 24640 Air changesihour 0.28 0.15 Equiv. AVF (cfm) 115 62 Heating Equipment Summary Make n/a Trade n/a Model n/a Efficiency Heating input Heating output Temperature rise Actual air flow Air flow factor Static pressure �e Space thermostat ri n/a 0 Stub 0 OF 0 cfm 0.000 cfm/Btuh 0.00 in H2O n/a 90 OF 75 OF 1L OF 50 % 61 grilb Sensible Cooling Equipment Load Sizing Structure 35329 Stuh Ducts 5663 Btuh Central vent (82 cfm) 0 Btuh Blower 0 Btuh Use manufacturers data n Rate/swing multiplier 0.95 Equipment sensible load 38943 Btuh Latent Cooling Equipment Load Sizing Structure 2573 Btuh Ducts 1114 Btuh Central vent (82 cfm) 0 Btuh Equipment latent load 3687 Btuh Equipment total load 42629 Btuh Req. total capacity at 0.70 SHR 4.6 ton Cooling Equipment Summary Make n/a Trade n/a Cond n/a Col n/a Efficiency Sensible cooling Latent cooling Total cooling Actual air flow Air flow factor Static pressure Load sensible heat ratio Printout certified by ACCA to meet all requirements of Manual J 8th Ed. ,,Z-- wn0htsoft RlghtSufte Residential5.9.52 RSR31284 ACCA C'.Wy Documenls%Wdghlsoft HVACIProjectl.np Calc = MJ8 OnentaBon = N 0 Sttuuh 0 Btuh 0 Btuh 0 cfm 0.000 cfm/Btuh 0.00 in H2O 0.00 2007-0ec.0417:29:06 Page 1 A K ProProject Summary Job: 1 ry Date: Dec 04, zoos Zone 1 By: Project -Information For: Saltzman 1317 NW Lancewood Terr, Notes: Weather: Fort Pierce, FL, US Winter Design Conditions Outside'db Inside db Design TD Summer Design Conditions 42 OF Outside db 70 OF Inside db 28 OF Design TD Dairy range Relative humidity Moisture difference Heating Summary Structure 2D465 Btuh Ducts 1554 cfm Central vent (46 cfm) 1404 Btuh Humidification 0 Stuh Piping 0 Btuh Equipment load 23423 Btuh Infiltration Method Simplified Construction quality Average Fireplaces 0 ting He 1649 cool't649 Area (ft2) Volume (fta) 13192 13192 Air changeslhour 0.27 0.14 Equiv. AVF (cfm) 59 31 Heating Equipment Summary Make Amana Trade Amana Model GSC42 Efficiency Heating input Heating output Temperature rise Actual air flow Air flow factor Static pressure Space thermostat 0 HSPF 40000 Btuh @ 47-F 27 OF 1360 cfm 0.062 cfm/Btuh 0.00 in H2O 90 OF 75 OF 1L OF 50 % 61 grub Sensible Cooling Equipment Load Sizing Structure 21985 Btuh Ducts Btuh Central vent (46 cfm) 3429 752 Btuh Blower 0 Btuh Use manufacturer's data n Rate/swing multiplier 0.95 Equipment sensible load 24857 Btuh Latent Cooling Equipment Load Sizing Structure 1309 Btuh Ducts 597 Btuh Central vent (46 cfm) 1905 Btuh Equipment latent load 3812 Btuh Equipment total load 28670 Btuh Req. total capacity at 0.70 SHR 3.0 ton Cooling Equipment Summary Make Amana Trade Amana Cond GSC42 Coil ARUF374316 Efficiency Sensible cooling Latent cooling Total cooling Actual air flow Air flow factor Static pressure Load sensible heat ratio Printout certified by ACCA to meet all requirements of Manual J 8th Ed. Ar wr1Qhtsoft Right -Suite Residential 5.9.52 RSR31284 .,CCh C:1My Documents\Wrightsoft HVAC\Projectl.rrp Calc= MJ8 Orientation = N 0 EER 28000 Btuh 12000 Btuh 40000 Btuh 1360 cfm 0.054 cfm1Btuh 0.00 in H2O 0.87 2007-Dec-0417:29:06 Page 2 w w Pro ect Summary Job 1 rY Date: Dec 04, 20a7 Zone 2 By: For: Saltzman 1317 NW Lancewood Terr, Notes: Weather: Fort Pierce, FL, US Winter Design Conditions Summer Design Conditions Outside db 42 OF Outside db 90 OF Inside db 70 OF Inside db 75 OF Design TD 28 OF Design TD 15 OF Daily range L Relative humidity 50 % Moisture difference 61 gr/Ib Heating Summary Sensible Cooling Equipment Load Sizing Structure 17587 Btuh Structure 15177 Btuh Ducts 1207 cfm Ducts 2235 Btuh Central vent (37 cfm) 1124 Btuh Central vent (37 cfm) 602 Btuh Humidification 0 Btuh Blower 0 Btuh Piping 0 Btuh Equipment load 19918 Btuh Use manufacturer's data n Rate/swing multiplier 0.95 Infiltration Equipment sensible load 17113 Btuh Method Simplified Latent Cooling Equipment Load Sizing Construction quality Average Fireplaces 0 Structure 1264 Btuh Ducts 516 Btuh Heating Cooling Central vent (37 cfm) 1526 Btuh Area (ft2) 1431 143g Equipment latent load 3306 Btuh Volume 11448 11448 Air changes/hour 0.30 0.16 Equipment total load 20419 Btuh Equiv. AVF (cfm) 56 30 Req. total capacity at 0.70 SHR 2.0 ton Heating Equipment Summary Cooling Equipment Summary Make Amana Make Amana Trade Amana Trade Amana Model GSC14 Cond GSC14 Coil ARUF193116 Efficiency 0 HSPF Efficiency 0 EER Heating Input Sensible cooling 16800 Btuh Heating output 24000 Btuh @ 470F Latent cooling 7200 Btuh Temperature rise 26 OF Total cooling 24000 Btuh Actual air flow 825 cfm Actual air flow 825 cfm Air flow factor 0.044 cfm/Btuh Air flow factor 0.047 cfm/Btuh Static pressure 0.00 in H2O Static pressure 0.00 in H2O Space thermostat Load sensible heat ratio 0.84 Printout certified by ACCA to meet all requirements of Manual J 8th Ed. �. Wr1(jht5012 RightSuite Residential5.9.52RSR31284 2007-Dec-0417:29:06 ACC% C:1My Documents\Wrightsofl HVADProjecti.np Cato= MJ8 Orientation = N Page 3 Short Form Entire House For: Saltzman 1317 NW Lancewood Terr, Job: Date: Dec 04, 2007 By: Designs • Htg Clg Infiltration Outside db (°F) 42 90 Method Simplified Inside db (°F) 70 75 Construction quarity Average Design TD (°F) 28 15 Fireplaces 0 Daily range - L Inside humidity (%) 50 Moisture difference (glib) 61 HEATING EQUIPMENT Make n/a Trade n/a Model n/a Efficiency Heating input Heating output Temperature rise Actual air flow Air flow factor Static pressure Space thermostat 7,161 0 Btuh 0 OF 0 cfm 0.000 cfmBtuh 0.00 in H2O nla COOLING EQUIPMENT Make Na Trade n/a Cond n/a Coil n/a Efficiency Na Sensible cooling 0 Btuh Latent cooling 0 Btuh Total cooling 0 Btuh Actual air flow 0 cfm Air flow factor 0.000 cfmBtuh Static pressure 0.00 in H2O Load sensible heat ratio 0.00 ROOM NAME Area Htg load Clg load Htg AVF Clg AVF (ft") (Btuh) (Btuh) (cfm) (cfm) Zone 1649 22019 25414 1360 1360 Zone 2 1431 18794 17412 825 825 Entire House 3080 40813 40992 2185 2185 Other equip loads 0 0 Equip. @ 0.95 RSM 38943 Latent cooling 3687 Tr%TA1 C 4n°n Ano41 A•f Q cc n4ee .•„Wv JVVV TVV IV TLVLJ LrVJ LIVJ Printout certified by ACCA to meet all requirements of Manual J 8th Ed. wnghtsoft RightSu@e Residerdial5.9.52 RSR312a4 2007-Dec-0417:29:08 ACCA C:1My DocumentslWrlghtsoa WAMProjectt.rtp Calc= MJ8 Orientation = N Page 1 Short Form Zone 9 Project Information For: Saltzman 1317 NW Lancewood Terr, Job: Date: Dec 04, 2007 By: besign Information: Htg Cig Infiltration Outside db (°F) 42 90 Method Simplified Inside db (OF) 70 75 Construction quality Average Design TD (°F) 28 15 Fireplaces 0 Daily range - L Inside humidity (%) 50 Moisture difference (grAb) - 61 HEATING EQUIPMENT Make Amana Trade Amana Model GSC42 Efficiency Heating input Heating output Temperature rise Actual air flow Air flow factor Static pressure Space thermostat t91:1*A 40000 Btuh @ 47°F 27 OF 1360 cfm 0.062 cfm/Btuh 0.00 in H2O COOLING EQUIPMENT Make Amana Trade Amana Cond GSC42 Coil ARUF374316 Efficiency 0 EER Sensible cooling 28000 Btuh Latent cooling 12000 Btuh Total cooling 40000 Btuh Actual air flow 1360 cfm Air flow factor 0.054 cfm/Btuh Static pressure 0.00 in H2O Load sensible heat ratio 0.87 ROOM NAME Area Htg load Clg load Htg AVF Cig AVF (ft2) (Btuh) (Btuh) (cfm) (cfm) Right Side 1539 18562 17920 1146 959 Addition 110 3457 7494 214 401 Zone 1 1649 22019 25414 1360 1360 Other equip loads 1404 752 Equip. @ 0.95 RSM 24857 Latent cooling 3812 yn1 Al C i .CAn i nelne no&,n 4 an 49nn VTJ LJTLJ LVVIV IJVV IJVV Printout certified by ACCA to meet all requirements of Manual J 8th Ed. wnghtsoft RightSufte Residenllal5.9.52RSR31284 2007-Dee-0417:29:06 ACCN CAMy Documents\Wdghtsoft HVACIProjectl.np Cale= MJ8 Orienlatlon = N Page 2 Short Form Zone 2 For: Saltzman 1317 NW Lancewood Terr, Htg Clg Outside db (°F) 42 90 Inside db ('F) 70 75 Design TD (°F) 28 15 Daily range - L Inside humidity (%) 50 Moisture difference (grfib) 61 HEATING EQUIPMENT Make Amana Trade Amana Model GSC14 Efficiency Heating input Heating output Temperature rise Actual air flow Air flow factor Static pressure Space thermostat 0 HSPF 24000 Btuh @ 47°F 26 OF 825 cfm 0.044 cfm/Btuh 0.00 in H2O Job: Date: Dec 04, 2007 By: Infiltration Method Construction quality Fireplaces Simplified Average 0 COOLING EQUIPMENT Make Amana Trade Amana Cond GSC14 Coil ARUF193116 Efficiency Sensible cooling Latent cooling Total cooling Actual air flow Air flow factor Static pressure Load sensible heat ratio 0 EER 16800 Btuh 7200 Btuh 24000 Btuh 825 cfm 0.047 cfm/Btuh 0.00 in H2O 0.84 ROOM NAME Area Htg load Clg load Htg AVF Clg AVF M (Btuh) (Btuh) (cfm) (cfm) Left Side 1431 18794 17412 825 825 Zone 2 1431 18794 17412 825 825 Other equip loads 1124 602 Equip. @ 0.95 RSM 17113 Latent cooling 3306 TnTAIQ 4A14 4nn4o i n.4n one one Printout certified by ACCA to meet all requirements of Manual J 8th Ed. ,:,- wrrghtsoft RightSulte Residential5.9.52 RSR31284 RCCN C:IMy Documents%Wdghtwft WACIPmiectt.np Calc = MJ8 Orientation =14 2007-Dec-04 17:29:06 Page 3 L aOed N=uo0e1uap0 9fW=WO du'N0a1wd10VAH uoslg6UWslu9wnw0 Ay+n:O 400V 906Z'LL 40-w0-LOOZ 48ZLEiiSL1 ZS'e'S lequaplsay al!nS1UBl?1 7_4<zb 73 418 f lenuew to sluawaLlnbai ale laaw of tlOFV A9 Pagglaa lnoluud 096E 09£L SW SBLz (wp)PaIwbw my KVSZ 6LOZZ Z66ob ELBOb peol wool lelol RK ML %9L %9 E99S L9LZ %9L W. speol ion(] SL 996V 9940Z 6ZES£ ZSO9E IelolgnS 0L 0 0 0 0 uognquislpaa 0 0 0 0 ialsuwl seal 0 0 0 0 peol lewapla seal 0 0 0 0 OOSL » swue!lddy D 0 0 0 OEZ @sluudnoop :su1e6 leweWl EL 0 0 0 0 uollel!luaA woos (q LL9 OOBL SLOL am uollwll0ul (e lL 894LZ 09981 UM ELM uwe6)asol adolanu3 EEBL 0 uolsmaxa O3M (a 9 0 L909 OLL 609L 0 OLLZL VCE 080E 00'0 ZO Be - 89E3 4d1-vzz d OLLZ 9Lbl 609E 091 OLL9 09LZ 090E 080E 993 060, - ZcO'0 puoc-89L O Sbzb sect 0 9L Z091, SOSL 0 EB S9'SS OZ'BL Mu 099'0 goZo-OL 0— bbL- 89L- OY Be 49- SL- BL- 99 GTEbl'0 Mu st'Vo 9L9 'M ME 6L8 0 SC 9cce 618 0 Sb U31L U'SL M OS9'0 goza clL '0--I LL6 OOLL SLZ OZE SSbZ V99Z - L69 9EL GTE VVII M StIVO 9LS M OLL 989 Lb Lb OLL 999 Lb lb Ob'LL 09'9L s 009'0 OPLL OcZ bbl 0 6 OEZ bbl 0 6 L6'bZ 99'9L s 099'0 M1Z�3L b9LZ 964L 0 Zs ME 090Z 0 stL LS'9Z OZ'8L s 099'0 goZo-OL LBL LL6 OZZ ZSc ZZ9L 9LLL 6Z4 Z69 SS'E bCb s SOVO Ste 0 0 0 0 OOLV 49LL 0 E9 cLIl -9S'£ OM a 099'0 gozoap `✓—� L£LL LZ£L WE OZE 68EZ sBLZ U9 9EL bl'0 a BbCO 8LS !N 0 0 0 0 LSE LLL 0 9 99'99 OZ'BL au 099'0 goZa-OL 'J� Z% on 6z 6Z ZSL ZLZ lS 9S 99'E PIT au BbCO SLS f!A LG 96Z 99Z LG LL 96Z 99Z LL Ll 00'LL 09'9L u 009'0 011L 0 0 0 0 9oLL b66 0 Lb Ol'LZ BETZ u OL9'O pwoZo-(31' Zb£Z LUL 0 96 SEES L64Z 0 LcL 09'EZ OZ'BL u 099'0 gozo-OL ' OL9 Z8L 691 bOs LboL OLZL £6Z 88b SS'E bl'b u StWo 9LS 9 IWO IuaH S/d/N s E) Iwo I I-H Sld/N sswE) 1000 I-H C-1.tUMn19) jagwnu (4n19) (11) jalowpod io . (4n19) as ialawped uo (rU/4n19) peol Gu) w Peal Q) ewv VLLH 10 amen-n u0110w;su00 Al dl O'649L :u O'OsOE ease waoa S sualsuawlP woos 0 u O'8 u O'e 146l84 fiumeo E u L'OLL u VKC Ilm pawdx3 Z L auoz asnol4 w!p3 aweu woos t :l(g -4�� LDoz'vo Doa :aiea asnoH aai;u3 :Qop imismioM r-ABim ma' m ra N +. N NawN+ D-I Ow71rr g� m ,o„ -1 ,llv n�i 71 33��3 N N + + + N V NNO�O+-'fnO�O-`O-'-`POE; Dm•m mom• m m m�- A.. o n 30 dro m ooA om p� � +o?000000000000000 �� e room+m:..mNm�m�m�mam� 43 �N0..m O.... 10000001 JTm 2 Ca m OwADtAgNWAWP IJ it P +4tAfJ+ NW A 01O IJ+fJ+WO1 IJ �IJ+.IJ yp O+ N W A W V A m W A(J N W V J W W 8 O OI OI III+Nla 1pNN+f1N OIN}a iw llN O OtN N W NO V J N W N N NO O O N L1 o p. a V »m�omoo�owmNmoA��. 3 0 � oo 0 �: P+ONONOO OIOOWONOOOA a�O O m �Vy (w� OOy�� ma ol PO)+w N NNNN+b W �� N A V V O o O O C J 6 n v S No a a AW AVWNVVNWWV +wW NY ONVOO NW+ d m 3 d 0 d 6 8 ' 00 O ma iv N m �• m dIaWN+ P o Oi�o —V M- M ` .o.. T O 1I S` S` :00 �i ago: �n d 0 33� 3 O m C O y d_O. G12S O� 'O n m6 %v 00 o'momo'm`oom e m 3, •� 3 O_dp3j J N O e(N/�� C ONN N. N ONN S60' 0. O �V Q V 30 �CC .0 41 N+N-1 Ol 0 llim+OftO1+ N FIT WNAN.N OOI V�AmANAOVNA �NOWODt000WOW001. 0.0 N qq >,'ma O (Ny a,'m,'a mnmAm n,'m Z. N m oma'w 1D+N+W N '.. 0N O O w0-+IJ++W N O O A O A O(D A O A O A O N O O +tNI�W.VPWVA ONiWGWNW�I VfNi1W p O W N N W N O J r UIW N N N O O O N y d o R d O •O OO IAp 1AdN OWiNO—mNN000mV Om> G o� OmOOO 0-000OOOmVOOm �d 3 RH po.. All IM.M.O 0—OW0 N OI+N C �a O {q{qyy �p�pppJJ p� (Wy p mm O N T N O O� tND N 0 0 0 0 0 O V W W O O N A OWiV O A� O J O O D M. m m y O O tWO m � U N N W + N� O •.O oV' Q 80 0 A 0 0 0 0 0 01D V O O N �m �y R WW V OfWW+ Nm.+p ry_ry OIN ON000 OVd A 1mO 1VO0 mW ON(OIIA Omi+OVOO NOON �1pp'• .5 OJ S� 0 {{((�� yI O N V WAA In+WmW W Om AN. o_ 4 icN O �l O O O O O O 41 O A O OIm A O N O O A+ OV O N W O V+ 0 0-1 V W M r� E O N S m a ii A O V c a -pi C m m J d a `a E E gn W �n0000000000eWoolno m $o 000002� g U v� m� t �� mm0000000000'Woomm ro 000m� ne C � _ OC Co X G m p O O C ..... O O O O ...... O O O cc m W O 8 1n W.We VIOOOVINW 0NnF.0.0m .I o 1NW�OWWN�WW WeN�Nt0100 m � mN m N N AM. �j gg eoWoeoeoe oWovovoory NmW�N�N�NWWN�-N p�O Ta a yOmN WymVlV eao �Irieaed a6o 2 ....... O y W Olq �vin ov In elnemWoaWeln min oou 0�oo0oa - 0o 0no0ovom o0WnoaE oo oou oono ry pGAqn t iQ5 vBEG a E 90o 0 oho •m mC tVKVL R -N �II E l4 _s-6EaWEE Q i cg�rw.. �wK fEy?@!275 8U¢ 3 II y�L u Se U 8 N Right-J Worksheet Zone 2 Job: Date: Dec 04, 2007 By: 1 Room name Zone 2 Left Side 2 Exposed wall 1642 It 164.2 it 3 Ceiling height 8.0 ft 8.0 ft haaNccol 4 Room dimensions 1.0 x 1431.0 It 5 Room area 1431.0 IF 1431.0 ft' Ty Construction U-value Or IHTM Area (it-) Load Area (Its Load number (Btutdft'-°F) (Btuhm2) or perimeter (fl) (Blob) or perimeter (ft) (Btuh) Heal I Cool Gross NIPJS Heal Cool Gross N/PIS Heat Cool 6 Vb51B 0.148 n 4.14 3.55 184 104 433 371 184 104 433 371 ID-c2ob 0.650 n 18.20 23.80 39 0 706 923 39 0 706 923 ID-c2omd 0.870 n 24.36 27.10 41 0 994 1106 41 0, 994 1106 IF0.600 n 16.80 17.40 0 0 0 0 0 0- 0 0 11 Utl SIB 0.148 ne 4.14 3.55 29 22 93 80 29 22 93 80 `G IDc2ob 0.650 ne 18.20 55.65 6 0 117 357 6 0 117 357 Y51B 0.148 a 4.14 3.55 416 353 1461 1252 416 353 1461 1252 �C 1D-c2ob 0.650 a 18.20 74.13 63 0 1154 4700 63 0 1154 4700 W 51B 0.148 s 4.14 3.55 240 209 865 742 240 209 865 742 I--G 1D-c2ob 0.650 s 18.20 26.57 31 0 568 829 31 0 568 829 1Ec2hv 0.560 s 15.68 24.97 0 0 0 0 0 0 0 0 t�-GD iiJO 0.600 s 16.80 17.40 0 0 0 0 0 0 0 0 VN SIB 0.148 w 4.14 3.55 416 416 1724 1478 416 416 1724 1478 LC ID-c2ob 0.650 w 18.20 74.13 0 0 0 0 0 0 0 0 V�1 51B 0.148 nw 4.14 3.55 29 22 93 80 29 22 93 80 I-G ID-c2ob 0.650 my 18.20 55.65 6 0 117 357 6 0 117 357 C 16B-30ad 0.032 - 0.90 1.68 1431 1431 1282 2404 1431 1431 1282 2404 F 22A-tph 1.358 - 38.02 0.00 1431 164 6242 0 1431 164 6242 0 6 c) AED excursion 0 0 Envelope loss/gain 15849 M78 15849 14678 12 a) Infiltration 1738 499 1738 499 b) Roomventilation 0 0 0 0 13 Internal gains: Occupants @ 230 0 0 0 0 Appliances @ 1200 0 0 0 0 Less external load 0 0 0 0 Less transfer 0 0 0 0 Redistribution 0 0 0 0 14 Subtotal 17587 15177 17587 15177 151 Duct loads 1 7%1 15% 1207 2235 7% 15% 1207 2235 Total room load 1 18794 17412 18794 17412 Air required (cfm) 1 825 825 825 825 Printout certified by ACCA to meet all requirements of Manual J 8th Ed. wngFltSoR Right -Suite Residential 5.9.52 RSR31284 200740eo0417:29:06 A%Ct'- C:1My Documents\Wrightscft HVACIProjectImp Cale = MJ8 Orientation = N Page 5