Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
SHORT FORM - 05-00448 - 8 Peterson Ln - New SFR Mechanical
D wrightsoft- JAMB 1W 8 PetersonL-ane-Mad. Co. Mech. For: Bill Taylor Htg Clg Outside: db (°F) -fi 89 Inside db (°F) 70 75 Design TD (4F) 76 14 Daily range H inside humidity 50 Moisture difference (gr1lb) - -31 HEATING EQUIPMENT Make Trade Mode! Efficiency Heating input Heating output 80 AFUE 0 Btuh 0 Btuh Method Construction Fireplaces !`fake Trade Cord Coil Infiltration quality Simplified Average 0 COOLING EQUIPMENT Efficiency Sensible cooling Latent cooling DEER 0 Btuh 0 Btuh Temperature rise 0 OF Total cooling () Btuh Actual air flow 1030 cfm Actual air flaw 1030 cpm Air flow factor 0,019 cfmiBtuh Air flaw factor 0.048 cfmf6tuh Static pressure 0.00 in H20 Static pressure 0.00 in H20 Space thermostat Load sensible heat rata 1.04 ROOM NAME Rooml Room2 Room3 Room4 Rooms Room6 Room Room9 Room 10 X01 E+VV 11+0 IAV cig ASF (cfm) Printout certified by ACCO to meet all requirements of Manual J 8th Ed.L %ftej RP ht -Suite Resfdentfaf 6.0,22 RSR40897 ,I Documents\' ri ht oft H kT mpg ate\Various H u e CHUM L.rrp Ca1c=MJ8 Orientation 2005 -Nov -1 4 1 4 ' 7. 7 Page 1 entire House Other equip loads Equip. @ x.94 RSM latent caning TOTALS 3434 54924 6122 �* 114' 10 ral 21547 1128 21314 0 21314 1030 1030 Printout certified by RCCA to meet all requirements of Manual J nth Ed. ,� VVrjghtSvfC Right -Suite Residential 6.0.22 RsR40897 )M C:tMy DvcumentslWright5oft HVAC1TemplatelVarious HouseslHUNILop Cale = MJ8 Orientation - N 1030 1030 2005 -Nov -14 14, 47,37 Page Ak �wnghtsoft- A Ve. s k fes! l 6-1 Job: Date: Nov 0,, 2005 ,. a For: Nates: Bill Taylor Weather: Winter Design Conditions Outside db -fi °F Inside db 70 °F design TD 76 OF Heating Summary Structure Ducts Central vent (87 Humidification Piping Equipment load cfm) Infiltration Method Construction quality Fireplaces 4283 1341 6122' 0 0 61046 Heati ng Area (ft2) 3434 Volume (f3) 26148 Air change ..our 0.28 Equiv. AVF (cfm) 122 Btuh cpm Btuh Btuh Btuh Btuh Idaho Falls, ID, US Simplified Average Coolin3434 26148 0.15 65 Heating equipment Summary Make Trade Model Efficiencv 80 AGUE Heating. input 0 Btu Heating output 0 Btuh Temperature rise 0 OF Actual air haw 1030 cfm Air flow factor €3.01 9 cfmlBtuh Static pressure 0.00 in H20 Space thermostat Summer Design Conditions Outside db 89 OF Inside db 75 OF Design Td 14 OF Daily range H Relative humidity 54 % Moisture difference -31 grab Sensible Cooling Equipment Lead Sizing Structure 12943 Btuh Quos 8604 Btuh Central vent (S7 cfm) 1128 Btuh Blower 4 Btuh Use manufacturer's data n Rate/sWng mulfiplier d.94 Equipment sensible load 21314 Bfi.,h Latent Cooling Equipment Load Sizing Structure Ducts Central vent (87 cfm) Equipment latent load -117& Btuh -246 Btuh -1567 Btuh 0 Btuh Equipment total load X1314 Btuh Req, total capacity at 0.70 SHR 2.5 tan Cooling Equipment Summary Make Trade Cond Coil Efficiency 0 EER Sensible cooling 0 Btuh Latera cooling 0 Btuh Total cooing 0 Btuh Actual air flow 1030 cfm Air flow factor 0.048 cfmlBtuh Static pressure 0.00 in H20 Load sensible heat ratio 1.00 Printout cetfified by ACCA to meet all requirements of Manual J 8th Ed, VV" Right -Suite Residential 6.0.22 RSR40897 2006 -Nov -14 14,47-37 ACC4k CAMY DocurnentsWright oil HVAQTemplateWarfous House \HUML„ rrp Calc = MJ8 ori ntatron = N Page 1 Iko Duct Sy.,acem Su ary w r 1 91TIt- S. of E Entire House Bill Taylor Job. Date: Nov 08, 2006 By -at For: Bill Taylor External static pressure Pressure losses Available static pressure Supply ! return available Heating D.0(} in H2O 0.00 in H20 0.00 in H20 pressure 0.00 1 0.00 in H20 Lowest friction rate Actual air flaw Total effective length (TEL) Cooling 0.00 in H20 0.00 0.00 0.00/0.00 in H2O in'1120 to H20 0.000 iN100ft O.OQO in/I 00ft 1030 c#m 103U cfm oft ,:i= wi'7gntSaft Right -Suite Resident-lai 6.4.22 RSR40897 }OCK+, C:1My DvcumerttslWrightsaft HVAG1Temp1atelVariaus HouseslHUML.rrp Calc = M.i8 Orientation = N 2005 -Nov -1 14:4737 Page I Design Htg CIg Design Diam Rect Duct Actual Ftg. Eqv Duct I Name (Btuh) (CfM) (GfM) FR (in) Size (in) Mab Ln (ft) Ln (ft) Trunk Room1-A h 1992 117 95 0.000 0 Ox 0 ShMt 0,0 0.0 Ox D Room1-B h 7992 117 95 0-.000 0 0x 0 ShMt 0.0 0.0 Room1 h 1993 117 95 0.000 0 Ox 0 ShMt 0.0 0.0 Room2 c 3148 99 150 0.000 0 OX 0 ShMt 0,0 0.0 Room3 C 1978 .26 95 0.000 0 Ox 0 ShMt 0.0 0.0 Room4 C 1629 71 78 Q.000 Q Ox .ShMt 0.0 0.0 Room5 c 7673 63 80 0.000 0 0x 0 ShMt 0.0 0.0 Rooms h 1629 82 78 0.000 0 Ox 0 ShMt 0.0 0.0 Raom7 C 2715 91 130 0-.000 0 Ox 0 ShMt 0.0 0.0 Rooms h 329 107 16 0.000 0 NO ShMt 0.0 0.0 Room 10 h 2469 139 118 O.000 p Ox 0 ShMt Q.0 0.0 ,:i= wi'7gntSaft Right -Suite Resident-lai 6.4.22 RSR40897 }OCK+, C:1My DvcumerttslWrightsaft HVAG1Temp1atelVariaus HouseslHUML.rrp Calc = M.i8 Orientation = N 2005 -Nov -1 14:4737 Page I Grip Htg CIS TEL Design Veloc Diam FtectSize I Stud/Joist Duct I I I ame Size (in) (cfm) (cfm) eft} FR {fpm} (in) (in) Opening (in) Math Trunk rbl ox d 1030' 1 0.0 0.000: 01 D Ox D 1 ShMt ,:i= wi'7gntSaft Right -Suite Resident-lai 6.4.22 RSR40897 }OCK+, C:1My DvcumerttslWrightsaft HVAG1Temp1atelVariaus HouseslHUML.rrp Calc = M.i8 Orientation = N 2005 -Nov -1 14:4737 Page I