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Simple Heating System Size: Wa gton State <br /> This heating system sizing calculator is based on the Prescriptive Requirements of the 2012 Washington State Energy Code(WSEC)and ACCA Manuals <br /> J and S.This calculator will calculate heating loads only.ACCA procedures for sizing cooling systems should be used to determine cooling loads. <br /> The glazing(window)and door portion of this calculator assumes the installed glazing and door products have an area weighted average U-factor of 0.30. <br /> The incorporated insulation requirements are the minimum prescriptive amounts specified by the 2012 WSEC. <br /> -Please fill out all of the green drop-downs and boxes that are applicable to your project.As you make selections in the drop-downs for each section,some <br /> values will be calculated for you.If you do not see the selection you need in the drop-down options,please call the WSU Energy Extension Program at <br /> (360)956-2042 for assistance. <br /> Project Information Contact Information <br /> Plan 1775 <br /> Heating System Type: ® All Other Systems 0 Heat Pump <br /> To see detailed instructions for each section,place your cursor on the word"Instructions". <br /> Design Temperature <br /> Instructions ---- ----- Design Temperature Difference(AT) 49 <br /> Everett Paine AFB R4 <br /> ,T=Indoor(70 degrees)-Outdoor Design Temp <br /> Area of Building <br /> Conditioned Floor Area <br /> Instructions Conditioned Floor Area(sq ft) ���, ;a„775,; <br /> Average Ceiling Height Conditioned Volume <br /> Instructions Average Ceiling Height(ft) .,,,.8.5 15,088 <br /> Glazing and Doors U-Factor XArea = UA <br /> Instructions <br /> 0.30 ,. 285, ,,.'i 85.50 <br /> Skylights U-Factor X Area = UA <br /> Instructions 0.50 --- <br /> Insulation <br /> Attic _ _ _ U-Factor X Area = UA <br /> Instructions 0.026 .770, 20.02 <br /> R-49 <br /> Single Rafter or Joist Vaulted Ceilings — U-Factor X Area UA <br /> Instructions R-38 Vented 0.027 <br /> Above Grade Walls(see Figure 1) U-Factor X Area UA <br /> Instructions --- - - <br /> Leate _ .- 0.056 , ,:.:2,.000 ,.. 112.00 <br /> Floors U-Factor X Area UA <br /> Instructions __Li <br /> ..e ,� 0.029 495 .. ' 14.36 <br /> .R-30 LJ <br /> ._... _.. <br /> Below Grade Walls(see Figure 1) U-Factor X Area UA <br /> Instructions .,.600'; <br /> No Below Grade Walls in this project. R <br /> Slab Below Grade(see Figure 1) F-Factor X Length UA <br /> Instructions k_ ;_. No selection --- <br /> Select conditioning <br /> r _.. <br /> Slab on Grade(see Figure 1) . F-Factor X Length UA <br /> Instructions �. 0.540 .1,16 62.64 <br /> 1 R-10 Perimeter <br /> Location of Ducts <br /> Instructions ' ' =-- F - Duct Leakage Coefficient <br /> No Ducts 1.00 ' <br /> Sum of UA 294.52 <br /> Envelope Heat Load 14,431 Btu/Hour <br /> Figure 1.. Sum ofuAXAT <br /> Air Leakage Heat Load 7,984 Btu/Hour <br /> VolumeX O.6 XAT X.018 <br /> Building Design Heat Load 22,416 Btu/Hour <br /> Via <br /> Air Leakage+Envelope Heat Loss <br /> .... <br /> m,'' . <br /> � '4 Building and Duct Heat Load 22,416 Btu/Hour <br /> Ducts in unconditioned space:Sum of Building Heat Loss X 1.10 , <br /> Ducts in conditioned space:Sum of Building Heat Loss X 1 / 1 <br /> Maximum Heat Equipment Output 31,382 Btu/Hour // <br /> Building and Duct Heat Loss X 1.40 for Forced Air Furnace O I <br /> Building and Duct Heat Loss X 1.25 for Heat Pump <br /> (07/01/13) <br />