diff --git a/src/cncult3.cpp b/src/cncult3.cpp index 45a6d0a55..bb048ae26 100644 --- a/src/cncult3.cpp +++ b/src/cncult3.cpp @@ -2704,9 +2704,8 @@ void SBC::sb_SetCoeffs( // set convective and radiant coefficients else if (sb_pXS->sfExCnd==C_EXCNDCH_SPECT) { sb_txa = sb_pXS->sfExT; sb_txr = sb_txa; - sb_hcNat = sb_pXS->uX; - sb_hcFrc = 0.f; - sb_hxa = sb_hcMult * sb_hcNat; + sb_HCAmbient(); + sb_hxa = sb_hcMult * (sb_hcNat + sb_hcFrc); sb_hxr = 0.f; } else if (sb_pXS->sfExCnd == C_EXCNDCH_GROUND) @@ -2939,6 +2938,7 @@ x printf( "Hit\n"); case C_CONVMODELCH_INPUT: sb_hcNat = 1.f; + sb_hcFrc = 0.f; break; default: diff --git a/test/1ZAttic.cse b/test/1ZAttic.cse index 9e5dc67e9..5e943fcb8 100644 --- a/test/1ZAttic.cse +++ b/test/1ZAttic.cse @@ -201,8 +201,8 @@ ZONE Z1 sfExT=50 //10 C ground temperature sfInAbs=INABSORP sfInHcModel = Unified //floor inside film coefficient - sfExH=100000 //floor outside film coefficient - sfExHcModel = Unified + sfExHcMult=100000 //floor outside film coefficient + sfExHcModel = INPUT SURFACE North_Wall sfType=Wall diff --git a/test/2ZAttic.cse b/test/2ZAttic.cse index a00245831..cea035254 100644 --- a/test/2ZAttic.cse +++ b/test/2ZAttic.cse @@ -201,8 +201,8 @@ ZONE Z1 sfExT=50 //10 C ground temperature sfInAbs=INABSORP sfInHcModel = Unified //floor inside film coefficient - sfExH=100000 //floor outside film coefficient - sfExHcModel = Unified + sfExHcMult=100000 //floor outside film coefficient + sfExHcModel = INPUT SURFACE North_Wall sfType=Wall @@ -390,8 +390,8 @@ ZONE Z2 sfExT=50 //10 C ground temperature sfInAbs=INABSORP sfInHcModel = Unified //floor inside film coefficient - sfExH=100000 //floor outside film coefficient - sfExHcModel = Unified + sfExHcMult=100000 //floor outside film coefficient + sfExHcModel = INPUT SURFACE North_Wall sfType=Wall diff --git a/test/CRTerminalAH.cse b/test/CRTerminalAH.cse index 93056c303..1209ddd87 100644 --- a/test/CRTerminalAH.cse +++ b/test/CRTerminalAH.cse @@ -191,7 +191,8 @@ ZONE Z1 sfExT=50 //10 C ground temperature sfInAbs=INABSORP sfInHcModel = Unified //floor inside film coefficient - sfExH=100000 //floor outside film coefficient + sfExHcMult=100000 //floor outside film coefficient + sfExHcModel = INPUT sfModel = SFMODELX SURFACE North_Wall diff --git a/test/Zonetest4W.cse b/test/Zonetest4W.cse index 41561dfba..7506cf556 100644 --- a/test/Zonetest4W.cse +++ b/test/Zonetest4W.cse @@ -35,7 +35,7 @@ MATERIAL "stucco" matCond=0.4167 matSpHt=0.2 matDens=116. // JA //Constructions -CONSTRUCTION WCav13 // ’W.13.2X4 BAW 9/2 +CONSTRUCTION WCav13 // �W.13.2X4 BAW 9/2 layer lrMat="Gypbd" lrThk=0.25/12. layer lrMat="Gypbd" lrThk=0.25/12. layer lrMat="R11" lrThk=3.5/(12.*2) @@ -153,16 +153,16 @@ Zone Single znArea=100 znCAir=18.3 infAC=0 infShld=5 infStories=1 infELA=0 znVol znQMxH = 1000000 znQMxC = -500000 // GAIN gnPower= select( $hour >12,0.,default 0.0) gnFrRad=0 // -SURFACE "North" sfType=Wall sfCon=WCav13 sfArea=10 sfAzm=Front sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExH=1.5 // -SURFACE "South" sfType=Wall sfCon=WCav13 sfArea=100 sfAzm=Back sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExH=1.5 // +SURFACE "North" sfType=Wall sfCon=WCav13 sfArea=10 sfAzm=Front sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExHcMult=1.5 sfExHcModel=INPUT// +SURFACE "South" sfType=Wall sfCon=WCav13 sfArea=100 sfAzm=Back sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExHcMult=1.5 sfExHcModel=INPUT// #redefine WinU 0.4 // Window NFRC U-factor -WINDOW wnHeight=10; wnWidth=5 wnGt=GT wnSMSO=0.; wnSMSC=0.; wnU=(1./((1./WinU)-0.85)) wnInH=1.5 // BAW 10/17 +WINDOW wnHeight=10; wnWidth=5 wnGt=GT wnSMSO=0.; wnSMSC=0.; wnU=(1./((1./WinU)-0.85)) wnExHcMult=1.5 wnExHcModel=INPUT // BAW 10/17 -SURFACE "East" sfType=Wall sfCon=WCav13 sfArea=100 sfAzm=Back sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExH=1.5 -SURFACE "West" sfType=Wall sfCon=WCav13 sfArea=100 sfAzm=right sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExH=1.5 // -SURFACE "Ceil" sfType=Ceiling sfCon=WCav13 sfArea=100 sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExH=1.5 // -SURFACE "Floor" sfType=Floor sfCon=WCav13 sfArea=100 sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExH=1.5 // +SURFACE "East" sfType=Wall sfCon=WCav13 sfArea=100 sfAzm=Back sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExHcMult=1.5 sfExHcModel=INPUT +SURFACE "West" sfType=Wall sfCon=WCav13 sfArea=100 sfAzm=right sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExHcMult=1.5 sfExHcModel=INPUT// +SURFACE "Ceil" sfType=Ceiling sfCon=WCav13 sfArea=100 sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExHcMult=1.5 sfExHcModel=INPUT// +SURFACE "Floor" sfType=Floor sfCon=WCav13 sfArea=100 sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExHcMult=1.5 sfExHcModel=INPUT// // SURFACE "IExSlab" UseType "IntExpSlab" sfArea=100 diff --git a/test/actest1bL.cse b/test/actest1bL.cse index 8e6234629..b2d32b4a7 100644 --- a/test/actest1bL.cse +++ b/test/actest1bL.cse @@ -99,7 +99,7 @@ MATERIAL "Crawl" matThk=1. matCond=1./6. matSpHt=.24 ma MATERIAL "SoftWood" matCond=0.98/12 matSpHt=.39 matDens=35. // 2009 HOF 26.6 Douglas fir/larch MATERIAL "Concrete" matCond=1. matSpHt=0.2 matDens=144. //MATERIAL "Sheath" matThk=1./12. matCond=1./(12*Rval) matSpHt=.35 matDens=1.5 // R4 from 2009 HOF 26.6 -//MATERIAL "BlownInsul" matCond=0.032051282/RCQ matSpHt=.2 matDens=0.5 // Certainteed InsulSafe®SP Fiber Glass R=2.6/in for R30-38 +//MATERIAL "BlownInsul" matCond=0.032051282/RCQ matSpHt=.2 matDens=0.5 // Certainteed InsulSafe�SP Fiber Glass R=2.6/in for R30-38 MATERIAL "BlownInsul" matCond=0.032051282/RCQ matSpHt=.2 matDens=0.5 matCondCT =0.00418 // variable k @@ -673,13 +673,13 @@ Zone Single znArea=1000 infAC=0 infShld=4 infStories=1 infELA=0 znVol = 9000 znE znRSYS = MySys //BAW 120312 //znQMxHRated = 1000000 znQMxCRated = -1000000 znQMxH =1000000 znQMxC = -1000000 znModel = CZM znTH = 70 znTD = 74 znTC = 78 - SURFACE Wall1 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. - SURFACE Wall2 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. - SURFACE Wall3 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. - SURFACE Wall4 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. + SURFACE Wall1 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. sfExHcModel = INPUT sfExHcMult = 2.64 + SURFACE Wall2 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. sfExHcModel = INPUT sfExHcMult = 2.64 + SURFACE Wall3 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. sfExHcModel = INPUT sfExHcMult = 2.64 + SURFACE Wall4 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. sfExHcModel = INPUT sfExHcMult = 2.64 - SURFACE Floor sfType=floor sfArea=900 sfCon=CondSurf; sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. - SURFACE Ceil sfType=ceiling sfArea=900 sfCon=CondSurf; sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. + SURFACE Floor sfType=floor sfArea=900 sfCon=CondSurf; sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. sfExHcModel = INPUT sfExHcMult = 2.64 + SURFACE Ceil sfType=ceiling sfArea=900 sfCon=CondSurf; sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. sfExHcModel = INPUT sfExHcMult = 2.64 IZXFER CZtran izNVTYPE = AirNetExt izZN1 = Single izALo = 1 izCpr=0. izExp=.65 izHD =1 Run \ No newline at end of file diff --git a/test/dhw_zone.cse b/test/dhw_zone.cse index 3ae476921..1eae4365b 100644 --- a/test/dhw_zone.cse +++ b/test/dhw_zone.cse @@ -80,166 +80,166 @@ MATERIAL "Gypbd" matCond=.0926 matSpHt=0.26 matDens=50 // JA T MATERIAL "m-SoftWood" matDens = 35 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Steel" matDens = 489 // Density, lb/ft3 - matSpHt = 0.12 // Specific heat of material, Btu/lb-°F - matCond = 26.2 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.12 // Specific heat of material, Btu/lb-�F + matCond = 26.2 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-SIPSskin" matDens = 41 // Density, lb/ft3 - matSpHt = 0.45 // Specific heat of material, Btu/lb-°F - matCond = 0.06127 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.45 // Specific heat of material, Btu/lb-�F + matCond = 0.06127 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Gypsum Board" matDens = 40 // Density, lb/ft3 - matSpHt = 0.27 // Specific heat of material, Btu/lb-°F - matCond = 0.09167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.27 // Specific heat of material, Btu/lb-�F + matCond = 0.09167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.000122 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Insul-R7.5-D1.5-SH0.35-C0.01111" matDens = 1.5 // Density, lb/ft3 - matSpHt = 0.35 // Specific heat of material, Btu/lb-°F - matCond = 0.011111 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.35 // Specific heat of material, Btu/lb-�F + matCond = 0.011111 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.00175 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Synthetic Stucco" matDens = 58 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.2 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.2 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-Carpet" matDens = 12.3 // Density, lb/ft3 - matSpHt = 0.34 // Specific heat of material, Btu/lb-°F - matCond = 0.02 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.34 // Specific heat of material, Btu/lb-�F + matCond = 0.02 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-Wood layer" matDens = 41 // Density, lb/ft3 - matSpHt = 0.45 // Specific heat of material, Btu/lb-°F - matCond = 0.06127 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.45 // Specific heat of material, Btu/lb-�F + matCond = 0.06127 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-TileGap" matDens = 0.075 // Density, lb/ft3 - matSpHt = 0.24 // Specific heat of material, Btu/lb-°F - matCond = 0.07353 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.24 // Specific heat of material, Btu/lb-�F + matCond = 0.07353 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-10 PSF Roof" matDens = 120 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 1 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 1 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-VertWallCavity" matDens = 0.075 // Density, lb/ft3 - matSpHt = 0.24 // Specific heat of material, Btu/lb-°F - matCond = 0.314 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.24 // Specific heat of material, Btu/lb-�F + matCond = 0.314 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.00397 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-3 Coat Stucco" matDens = 116 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.4167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.4167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-Ins-R21-D1.5-SH0.2-C0.02183" matDens = 1.5 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.021825 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.021825 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.003254 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Ins-R9.1-D1.5-SH0.2-C0.03205" matDens = 1.5 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.032051 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.032051 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.00418 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Ins-R13-D1.5-SH0.2-C0.02244" matDens = 1.5 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.022438 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.022438 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.003254 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Ins-R19-D1.5-SH0.2-C0.01535" matDens = 1.5 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.015351 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.015351 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.003254 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Ins-R18-D1.5-SH0.2-C0.02546" matDens = 1.5 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.025463 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.025463 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.003254 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-SNEICConcrete" matDens = 144 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 1 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 1 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-SNEICEarth" matDens = 115 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 1 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 1 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-SNEICCarpet" matDens = 12.3 // Density, lb/ft3 - matSpHt = 0.34 // Specific heat of material, Btu/lb-°F - matCond = 0.02 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.34 // Specific heat of material, Btu/lb-�F + matCond = 0.02 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-Zone1DoorFront-dr" matThk = 0.041667 // Thickness (feet), ft matDens = 41 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.01004 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.01004 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-Zone1ToGarageDoorFront-dr" matThk = 0.041667 // Thickness (feet), ft matDens = 41 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.01004 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.01004 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-GarageCarDoorFront-dr" matThk = 0.041667 // Thickness (feet), ft matDens = 41 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.277778 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.277778 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-AtticTruss" matDens = 35 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-AtticTruss 25" matDens = 35 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "IntMassMat-SoftWood" matDens = 35 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "IntMassMat-Carpet" matDens = 12.3 // Density, lb/ft3 - matSpHt = 0.34 // Specific heat of material, Btu/lb-°F - matCond = 0.02 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.34 // Specific heat of material, Btu/lb-�F + matCond = 0.02 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "IntMassMat-WoodLayer" matDens = 35 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "IntMassMat-Gypsum" matDens = 40 // Density, lb/ft3 - matSpHt = 0.27 // Specific heat of material, Btu/lb-°F - matCond = 0.09167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.27 // Specific heat of material, Btu/lb-�F + matCond = 0.09167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.000122 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) @@ -955,8 +955,8 @@ ZONE Z1 sfExT=50 //10 C ground temperature sfInAbs=INABSORP sfInHcModel = Unified //floor inside film coefficient - sfExH=100000 //floor outside film coefficient - sfExHcModel = Unified + sfExHcMult=100000 //floor outside film coefficient + sfExHcModel = INPUT SURFACE North_Wall sfType=Wall diff --git a/test/ref/1ZATTIC.REP b/test/ref/1ZATTIC.REP index 6ec1b29e7..7883e4bdd 100644 --- a/test/ref/1ZATTIC.REP +++ b/test/ref/1ZATTIC.REP @@ -3224,7 +3224,7 @@ Infil AC: 0 ELA: 0 Stackc: 323.482 Windc: 2156.54 UA: 25.352 UANom: 96.398 Surface CbJ Area: 465.0 Az: 0 T: 0 UNom: 0.0289 UA: 13.43 InAbs: 0.20 ExAbs: 0.20 ExCnd: AdjZn Attic Surface CtJ Area: 51.7 Az: 0 T: 0 UNom: 0.0378 UA: 1.96 InAbs: 0.20 ExAbs: 0.20 ExCnd: AdjZn Attic -Surface Floor Area: 516.7 Az: 0 T: 180 UNom: 0.00693 UA: 3.58 InAbs: 0.90 ExAbs: 0 ExCnd: SpecifiedT 50 +Surface Floor Area: 516.7 Az: 0 T: 180 UNom: 0.00692 UA: 3.57 InAbs: 0.90 ExAbs: 0 ExCnd: SpecifiedT 50 Surface North_Wall Area: 232.5 Az: 0 T: 90 UNom: 0.0908 UA: 21.12 InAbs: 0.90 ExAbs: 0.50 ExCnd: Ambient Surface East_Wall Area: 162.4 Az: 90 T: 90 UNom: 0.0908 UA: 14.75 InAbs: 0.90 ExAbs: 0.50 ExCnd: Ambient Surface West_Wall Area: 162.4 Az: 270 T: 90 UNom: 0.0908 UA: 14.75 InAbs: 0.90 ExAbs: 0.50 ExCnd: Ambient @@ -3275,12 +3275,12 @@ Mass CtJ Area: 51.668 UNom: 0.03784 tc: 2.86 subhrly: Layer thk: 0.175 vhc: 0.300 cond: 0.0250 R: 6.994 Layer thk: 0.175 vhc: 0.300 cond: 0.0250 R: 6.994 Outside: Zone 'Attic' RSrfNom: 0.92 -Mass Floor Area: 516.680 UNom: 0.006928 tc: 0.72 subhrly: +Mass Floor Area: 516.680 UNom: 0.006919 tc: 0.72 subhrly: Inside: Zone 'Z1' RSrfNom: 0.92 Layer thk: 0.0410 vhc: 11.651 cond: 0.0809 R: 0.507 Layer thk: 0.0410 vhc: 11.651 cond: 0.0809 R: 0.507 Layer thk: 3.291 vhc: 0 cond: 0.0231 R: 142.406 - Outside: SpecifiedT 50 RSrfNom: 0.00 + Outside: SpecifiedT 50 RSrfNom: 0.19 Mass North_Wall Area: 232.510 UNom: 0.09083 tc: 0.47 subhrly: Inside: Zone 'Z1' RSrfNom: 0.68 Layer thk: 0.0394 vhc: 11.922 cond: 0.0924 R: 0.426 @@ -3393,7 +3393,7 @@ IzXfer AX2 Zn1: Attic Zn2: (ambient) UAconst: 0 NVctrl: AirN ! Log for Run 001: ################ -! CSE 0.918.0+main.d3a747f9.133.dirty for Win32 console Mon 09-Oct-23 2:57:48 pm +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console Thu 19-Oct-23 12:57:42 pm ================ @@ -17220,7 +17220,7 @@ Attic W: mwIG=0.000 mwInf=0.000 mwAN=5.730 mwDuctLk=0.000 mwSys=0.000 mwSu Attic UZ: anMCp/T[ 0]=115.33/8945.1 anMCp/T[ 1]=0.00/0.0 ventUt=0 Nair=83482.96 Dair=1004.26 Nrad=85182.20 Drad=931.28 CX=600.19 airX=9.883 ta=85.35 tr=89.07 qIzSh=-898 fvent=0.000 pz0=-0.0069 qsHvac=0 -! CSE 0.918.0+main.d3a747f9.133.dirty for Win32 console +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console @@ -17429,8 +17429,8 @@ Input for Run 001: sfExT=50 //10 C ground temperature sfInAbs=INABSORP sfInHcModel = Unified //floor inside film coefficient - sfExH=100000 //floor outside film coefficient - sfExHcModel = Unified + sfExHcMult=100000 //floor outside film coefficient + sfExHcModel = INPUT SURFACE North_Wall sfType=Wall @@ -17730,18 +17730,18 @@ Input for Run 001: -! CSE 0.918.0+main.d3a747f9.133.dirty for Win32 console run(s) done: Mon 09-Oct-23 2:57:51 pm +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console run(s) done: Thu 19-Oct-23 12:57:46 pm -! Executable: d:\cse\msvc\cse.exe -! 09-Oct-23 2:57 pm (VS 14.29 2796032 bytes) (HPWH 1.22.0+HEAD.d205413.4) -! Command line: -x! -t1 1zattic -! Input file: D:\cse\test\1zattic.cse -! Report file: D:\CSE\TEST\1ZATTIC.REP +! Executable: c:\users\nathan oliver\desktop\repositories\cse\msvc\cse.exe +! 19-Oct-23 12:57 pm (VS 14.29 2798592 bytes) (HPWH 1.22.0+HEAD.d205413.4) +! Command line: -x! -b -t1 1zattic +! Input file: C:\Users\Nathan Oliver\Desktop\Repositories\cse\test\1zattic.cse +! Report file: C:\USERS\NATHAN OLIVER\DESKTOP\REPOSITORIES\CSE\TEST\1ZATTIC.REP ! Timing info -- -! Input: Time = 0.05 Calls = 1 T/C = 0.0520 +! Input: Time = 0.05 Calls = 1 T/C = 0.0500 ! AutoSizing: Time = 0.00 Calls = 0 T/C = 0.0000 -! Simulation: Time = 3.31 Calls = 1 T/C = 3.3130 -! Reports: Time = 0.01 Calls = 1 T/C = 0.0130 -! Total: Time = 3.38 Calls = 1 T/C = 3.3800 +! Simulation: Time = 3.87 Calls = 1 T/C = 3.8690 +! Reports: Time = 0.01 Calls = 1 T/C = 0.0150 +! Total: Time = 3.94 Calls = 1 T/C = 3.9350 diff --git a/test/ref/2ZATTIC.REP b/test/ref/2ZATTIC.REP index c2318b67c..704b13d5b 100644 --- a/test/ref/2ZATTIC.REP +++ b/test/ref/2ZATTIC.REP @@ -931,7 +931,7 @@ Infil AC: 0 ELA: 0 Stackc: 323.482 Windc: 2156.54 UA: 25.352 UANom: 96.398 Surface CbJ Area: 232.5 Az: 0 T: 0 UNom: 0.0289 UA: 6.71 InAbs: 0.20 ExAbs: 0.20 ExCnd: AdjZn Attic Surface CtJ Area: 25.8 Az: 0 T: 0 UNom: 0.0378 UA: 0.98 InAbs: 0.20 ExAbs: 0.20 ExCnd: AdjZn Attic -Surface Floor Area: 516.7 Az: 0 T: 180 UNom: 0.00693 UA: 3.58 InAbs: 0.90 ExAbs: 0 ExCnd: SpecifiedT 50 +Surface Floor Area: 516.7 Az: 0 T: 180 UNom: 0.00692 UA: 3.57 InAbs: 0.90 ExAbs: 0 ExCnd: SpecifiedT 50 Surface North_Wall Area: 232.5 Az: 0 T: 90 UNom: 0.0908 UA: 21.12 InAbs: 0.90 ExAbs: 0.50 ExCnd: Ambient Surface East_Wall Area: 162.4 Az: 90 T: 90 UNom: 0.0908 UA: 14.75 InAbs: 0.90 ExAbs: 0.50 ExCnd: Ambient Surface West_Wall Area: 162.4 Az: 270 T: 90 UNom: 0.0908 UA: 14.75 InAbs: 0.90 ExAbs: 0.50 ExCnd: Ambient @@ -982,12 +982,12 @@ Mass CtJ Area: 25.834 UNom: 0.03784 tc: 2.86 subhrly: Layer thk: 0.175 vhc: 0.300 cond: 0.0250 R: 6.994 Layer thk: 0.175 vhc: 0.300 cond: 0.0250 R: 6.994 Outside: Zone 'Attic' RSrfNom: 0.92 -Mass Floor Area: 516.680 UNom: 0.006928 tc: 0.72 subhrly: +Mass Floor Area: 516.680 UNom: 0.006919 tc: 0.72 subhrly: Inside: Zone 'Z1' RSrfNom: 0.92 Layer thk: 0.0410 vhc: 11.651 cond: 0.0809 R: 0.507 Layer thk: 0.0410 vhc: 11.651 cond: 0.0809 R: 0.507 Layer thk: 3.291 vhc: 0 cond: 0.0231 R: 142.406 - Outside: SpecifiedT 50 RSrfNom: 0.00 + Outside: SpecifiedT 50 RSrfNom: 0.19 Mass North_Wall Area: 232.510 UNom: 0.09083 tc: 0.47 subhrly: Inside: Zone 'Z1' RSrfNom: 0.68 Layer thk: 0.0394 vhc: 11.922 cond: 0.0924 R: 0.426 @@ -1100,7 +1100,7 @@ IzXfer AH Zn1: Attic Zn2: (ambient) UAconst: 0 NVctrl: AirN ! Log for Run 001: ################ -! CSE 0.904.0+termah.b5bf7204.90.dirty for Win32 console Fri 29-Apr-22 2:27:53 pm +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console Thu 19-Oct-23 12:57:52 pm ================ @@ -20028,7 +20028,7 @@ Attic W: mwIG=0.000 mwInf=0.000 mwAN=4.130 mwDuctLk=0.000 mwSys=0.000 mwSu Attic UZ: anMCp/T[ 0]=111.22/7063.2 anMCp/T[ 1]=0.00/0.0 ventUt=0 Nair=47772.24 Dair=991.10 Nrad=39875.05 Drad=786.60 CX=467.88 airX=8.846 ta=48.77 tr=49.98 qIzSh=1639 fvent=0.000 pz0=0.0019 qsHvac=0 -! CSE 0.904.0+termah.b5bf7204.90.dirty for Win32 console +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console @@ -20237,8 +20237,8 @@ Input for Run 001: sfExT=50 //10 C ground temperature sfInAbs=INABSORP sfInHcModel = Unified //floor inside film coefficient - sfExH=100000 //floor outside film coefficient - sfExHcModel = Unified + sfExHcMult=100000 //floor outside film coefficient + sfExHcModel = INPUT SURFACE North_Wall sfType=Wall @@ -20426,8 +20426,8 @@ Input for Run 001: sfExT=50 //10 C ground temperature sfInAbs=INABSORP sfInHcModel = Unified //floor inside film coefficient - sfExH=100000 //floor outside film coefficient - sfExHcModel = Unified + sfExHcMult=100000 //floor outside film coefficient + sfExHcModel = INPUT SURFACE North_Wall sfType=Wall @@ -20736,18 +20736,18 @@ Input for Run 001: -! CSE 0.904.0+termah.b5bf7204.90.dirty for Win32 console run(s) done: Fri 29-Apr-22 2:27:58 pm +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console run(s) done: Thu 19-Oct-23 12:57:57 pm -! Executable: d:\cse\msvc\cse.exe -! 29-Apr-22 2:24 pm (VS 14.29 2998272 bytes) (HPWH 1.18.1) +! Executable: c:\users\nathan oliver\desktop\repositories\cse\msvc\cse.exe +! 19-Oct-23 12:57 pm (VS 14.29 2798592 bytes) (HPWH 1.22.0+HEAD.d205413.4) ! Command line: -x! -b -t1 2zattic -! Input file: D:\cse\test\2zattic.cse -! Report file: D:\cse\test\2zattic.rep +! Input file: C:\Users\Nathan Oliver\Desktop\Repositories\cse\test\2zattic.cse +! Report file: C:\USERS\NATHAN OLIVER\DESKTOP\REPOSITORIES\CSE\TEST\2ZATTIC.REP ! Timing info -- -! Input: Time = 0.04 Calls = 1 T/C = 0.0420 -! AutoSizing: Time = 0.00 Calls = 0 T/C = 0.0000 -! Simulation: Time = 4.73 Calls = 1 T/C = 4.7320 -! Reports: Time = 0.01 Calls = 1 T/C = 0.0100 -! Total: Time = 4.78 Calls = 1 T/C = 4.7840 +! Input: Time = 0.05 Calls = 1 T/C = 0.0500 +! AutoSizing: Time = 0.00 Calls = 0 T/C = 0.0000 +! Simulation: Time = 5.33 Calls = 1 T/C = 5.3320 +! Reports: Time = 0.01 Calls = 1 T/C = 0.0150 +! Total: Time = 5.40 Calls = 1 T/C = 5.3970 diff --git a/test/ref/ACTEST1BL.REP b/test/ref/ACTEST1BL.REP index c84bce3cf..849fead9c 100644 --- a/test/ref/ACTEST1BL.REP +++ b/test/ref/ACTEST1BL.REP @@ -4454,7 +4454,7 @@ IzXfer RDuctZone-DLkO Zn1: RDuctZone Zn2: -- UAconst: 0 NVctrl: AirNetD ! Log for Run 001: Simple Default, no latent ################ -! CSE 0.918.0+64-bit-debug.a6ce06b3.81.dirty for Win32 console Tue 15-Aug-23 3:12:38 pm +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console Thu 19-Oct-23 12:57:58 pm ================ @@ -57735,7 +57735,7 @@ Single CZ: anMCp/T[ 0]=21.42/1132.7 anMCp/T[ 1]=0.00/0.0 ventUt=0 Nair=8386216.40 Dair=107014.39 Nrad=205594.83 Drad=2437.89 CX=1173.65 airX=12.820 TH=70.00 TD=74.00 TC=78.00 tSP=78.00 md=2 amfReq=9084 amfSup=8267 tSup=56.03 ta=78.00 tr=82.27 qIzSh=-538 fvent=0.000 pz0=-0.0052 qsHvac=-44111 -! CSE 0.918.0+64-bit-debug.a6ce06b3.81.dirty for Win32 console +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console @@ -57842,7 +57842,7 @@ Input for Run 001: MATERIAL "SoftWood" matCond=0.98/12 matSpHt=.39 matDens=35. // 2009 HOF 26.6 Douglas fir/larch MATERIAL "Concrete" matCond=1. matSpHt=0.2 matDens=144. //MATERIAL "Sheath" matThk=1./12. matCond=1./(12*Rval) matSpHt=.35 matDens=1.5 // R4 from 2009 HOF 26.6 - //MATERIAL "BlownInsul" matCond=0.032051282/RCQ matSpHt=.2 matDens=0.5 // Certainteed InsulSafe®SP Fiber Glass R=2.6/in for R30-38 + //MATERIAL "BlownInsul" matCond=0.032051282/RCQ matSpHt=.2 matDens=0.5 // Certainteed InsulSafe�SP Fiber Glass R=2.6/in for R30-38 MATERIAL "BlownInsul" matCond=0.032051282/RCQ matSpHt=.2 matDens=0.5 matCondCT =0.00418 // variable k @@ -58416,13 +58416,13 @@ Input for Run 001: znRSYS = MySys //BAW 120312 //znQMxHRated = 1000000 znQMxCRated = -1000000 znQMxH =1000000 znQMxC = -1000000 znModel = CZM znTH = 70 znTD = 74 znTC = 78 - SURFACE Wall1 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. - SURFACE Wall2 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. - SURFACE Wall3 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. - SURFACE Wall4 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. + SURFACE Wall1 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. sfExHcModel = INPUT sfExHcMult = 2.64 + SURFACE Wall2 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. sfExHcModel = INPUT sfExHcMult = 2.64 + SURFACE Wall3 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. sfExHcModel = INPUT sfExHcMult = 2.64 + SURFACE Wall4 sfType=Wall sfArea=300 sfCon=CondSurf; sfAZM=0 sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. sfExHcModel = INPUT sfExHcMult = 2.64 - SURFACE Floor sfType=floor sfArea=900 sfCon=CondSurf; sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. - SURFACE Ceil sfType=ceiling sfArea=900 sfCon=CondSurf; sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. + SURFACE Floor sfType=floor sfArea=900 sfCon=CondSurf; sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. sfExHcModel = INPUT sfExHcMult = 2.64 + SURFACE Ceil sfType=ceiling sfArea=900 sfCon=CondSurf; sfExCnd=SPECIFIEDT sfModel = FD sfLThkF=LFact sfInHcModel=Input sfExAbs=0 sfExT=OutT sfexEpsLW=0. sfExHcModel = INPUT sfExHcMult = 2.64 IZXFER CZtran izNVTYPE = AirNetExt izZN1 = Single izALo = 1 izCpr=0. izExp=.65 izHD =1 Run @@ -58436,18 +58436,18 @@ Input for Run 001: -! CSE 0.918.0+64-bit-debug.a6ce06b3.81.dirty for Win32 console run(s) done: Tue 15-Aug-23 3:12:40 pm +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console run(s) done: Thu 19-Oct-23 12:58:01 pm -! Executable: d:\cse\msvc\cse.exe -! 15-Aug-23 2:42 pm (VS 14.29 2776576 bytes) (HPWH 1.22.0) -! Command line: -x! -t1 actest1bl -! Input file: D:\cse\test\actest1bl.cse -! Report file: D:\CSE\TEST\ACTEST1BL.REP +! Executable: c:\users\nathan oliver\desktop\repositories\cse\msvc\cse.exe +! 19-Oct-23 12:57 pm (VS 14.29 2798592 bytes) (HPWH 1.22.0+HEAD.d205413.4) +! Command line: -x! -b -t1 actest1bL +! Input file: C:\Users\Nathan Oliver\Desktop\Repositories\cse\test\actest1bL.cse +! Report file: C:\USERS\NATHAN OLIVER\DESKTOP\REPOSITORIES\CSE\TEST\ACTEST1BL.REP ! Timing info -- -! Input: Time = 0.06 Calls = 1 T/C = 0.0640 +! Input: Time = 0.07 Calls = 1 T/C = 0.0650 ! AutoSizing: Time = 0.00 Calls = 0 T/C = 0.0000 -! Simulation: Time = 2.74 Calls = 1 T/C = 2.7380 -! Reports: Time = 0.07 Calls = 1 T/C = 0.0680 -! Total: Time = 2.87 Calls = 1 T/C = 2.8730 +! Simulation: Time = 3.03 Calls = 1 T/C = 3.0310 +! Reports: Time = 0.07 Calls = 1 T/C = 0.0740 +! Total: Time = 3.17 Calls = 1 T/C = 3.1710 diff --git a/test/ref/CRTERMINALAH.REP b/test/ref/CRTERMINALAH.REP index c18e1911a..38f548454 100644 --- a/test/ref/CRTERMINALAH.REP +++ b/test/ref/CRTERMINALAH.REP @@ -220,7 +220,7 @@ Air Handler Sizing, air handler "MainAH" ! Log for Run 001: -! CSE 0.906.0+ah-report-heat-recovery.24a27189.6.dirty for Win32 console +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console @@ -419,7 +419,8 @@ Input for Run 001: sfExT=50 //10 C ground temperature sfInAbs=INABSORP sfInHcModel = Unified //floor inside film coefficient - sfExH=100000 //floor outside film coefficient + sfExHcMult=100000 //floor outside film coefficient + sfExHcModel = INPUT sfModel = SFMODELX SURFACE North_Wall @@ -648,18 +649,18 @@ Input for Run 001: -! CSE 0.906.0+ah-report-heat-recovery.24a27189.6.dirty for Win32 console run(s) done: Fri 20-May-22 11:18:10 am +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console run(s) done: Thu 19-Oct-23 1:02:03 pm -! Executable: d:\cse\msvc\cse.exe -! 20-May-22 11:08 am (VS 14.29 3001856 bytes) (HPWH 1.18.1) -! Command line: -x! -t1 crterminalah -! Input file: D:\cse\test\crterminalah.cse -! Report file: D:\cse\test\crterminalah.rep +! Executable: c:\users\nathan oliver\desktop\repositories\cse\msvc\cse.exe +! 19-Oct-23 12:57 pm (VS 14.29 2798592 bytes) (HPWH 1.22.0+HEAD.d205413.4) +! Command line: -x! -b -t1 CRTerminalAH +! Input file: C:\Users\Nathan Oliver\Desktop\Repositories\cse\test\CRTerminalAH.cse +! Report file: C:\USERS\NATHAN OLIVER\DESKTOP\REPOSITORIES\CSE\TEST\CRTERMINALAH.REP ! Timing info -- -! Input: Time = 0.05 Calls = 1 T/C = 0.0470 -! AutoSizing: Time = 0.00 Calls = 0 T/C = 0.0000 -! Simulation: Time = 1.31 Calls = 1 T/C = 1.3120 -! Reports: Time = 0.00 Calls = 1 T/C = 0.0010 -! Total: Time = 1.36 Calls = 1 T/C = 1.3630 +! Input: Time = 0.06 Calls = 1 T/C = 0.0550 +! AutoSizing: Time = 0.00 Calls = 0 T/C = 0.0000 +! Simulation: Time = 1.54 Calls = 1 T/C = 1.5430 +! Reports: Time = 0.00 Calls = 1 T/C = 0.0020 +! Total: Time = 1.60 Calls = 1 T/C = 1.6000 diff --git a/test/ref/DHW_ZONE.REP b/test/ref/DHW_ZONE.REP index dd7d9f019..de6330717 100644 --- a/test/ref/DHW_ZONE.REP +++ b/test/ref/DHW_ZONE.REP @@ -1052,7 +1052,7 @@ CFA: 516.68 Vol: 4133.4 FloorZ: 0 CeilingHt: 8.00 EaveZ: 20.00 CAir: 1 Infil AC: 0 ELA: 0 Stackc: 323.482 Windc: 2156.54 UA: 25.352 UANom: 111.649 Surface Ceiling Area: 516.7 Az: 0 T: 0 UNom: 0.0295 UA: 15.25 InAbs: 0.20 ExAbs: 0.50 ExCnd: Ambient -Surface Floor Area: 516.7 Az: 0 T: 180 UNom: 0.00693 UA: 3.58 InAbs: 0.90 ExAbs: 0 ExCnd: SpecifiedT 50 +Surface Floor Area: 516.7 Az: 0 T: 180 UNom: 0.00692 UA: 3.57 InAbs: 0.90 ExAbs: 0 ExCnd: SpecifiedT 50 Surface North_Wall Area: 232.5 Az: 0 T: 90 UNom: 0.0908 UA: 21.12 InAbs: 0.90 ExAbs: 0.50 ExCnd: Ambient Surface East_Wall Area: 162.4 Az: 90 T: 90 UNom: 0.0908 UA: 14.75 InAbs: 0.90 ExAbs: 0.50 ExCnd: Ambient Surface West_Wall Area: 162.4 Az: 270 T: 90 UNom: 0.0908 UA: 14.75 InAbs: 0.90 ExAbs: 0.50 ExCnd: Ambient @@ -1091,12 +1091,12 @@ Mass Ceiling Area: 516.680 UNom: 0.02952 tc: 0.60 subhrly: Layer thk: 0.204 vhc: 0.300 cond: 0.0250 R: 8.162 Layer thk: 0.204 vhc: 0.300 cond: 0.0250 R: 8.162 Outside: Ambient RSrfNom: 0.17 -Mass Floor Area: 516.680 UNom: 0.006928 tc: 0.72 subhrly: +Mass Floor Area: 516.680 UNom: 0.006919 tc: 0.72 subhrly: Inside: Zone 'Z1' RSrfNom: 0.92 Layer thk: 0.0410 vhc: 11.651 cond: 0.0809 R: 0.507 Layer thk: 0.0410 vhc: 11.651 cond: 0.0809 R: 0.507 Layer thk: 3.291 vhc: 0 cond: 0.0231 R: 142.406 - Outside: SpecifiedT 50 RSrfNom: 0.00 + Outside: SpecifiedT 50 RSrfNom: 0.19 Mass North_Wall Area: 232.510 UNom: 0.09083 tc: 0.47 subhrly: Inside: Zone 'Z1' RSrfNom: 0.68 Layer thk: 0.0394 vhc: 11.922 cond: 0.0924 R: 0.426 @@ -1310,7 +1310,7 @@ Daily User-defined Report, Jan ! Log for Run 001: ################ -! CSE 0.914.0+dhwbal.9a8f1532.6.dirty for Win32 console Tue 16-May-23 3:46:55 pm +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console Thu 19-Oct-23 1:01:02 pm ================ @@ -4183,7 +4183,7 @@ Garage W: mwIG=0.000 mwInf=0.000 mwAN=0.000 mwDuctLk=0.000 mwSys=0.000 mwS Garage UZ: anMCp/T[ 0]=0.00/0.0 anMCp/T[ 1]=0.00/0.0 ventUt=0 Nair=12196.94 Dair=148.00 Nrad=109282.72 Drad=1361.48 CX=191.44 airX=0.000 ta=81.27 tr=80.39 qIzSh=0 fvent=0.000 pz0=0.0004 qsHvac=0 -! CSE 0.914.0+dhwbal.9a8f1532.6.dirty for Win32 console +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console @@ -4271,166 +4271,166 @@ Input for Run 001: MATERIAL "m-SoftWood" matDens = 35 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Steel" matDens = 489 // Density, lb/ft3 - matSpHt = 0.12 // Specific heat of material, Btu/lb-°F - matCond = 26.2 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.12 // Specific heat of material, Btu/lb-�F + matCond = 26.2 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-SIPSskin" matDens = 41 // Density, lb/ft3 - matSpHt = 0.45 // Specific heat of material, Btu/lb-°F - matCond = 0.06127 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.45 // Specific heat of material, Btu/lb-�F + matCond = 0.06127 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Gypsum Board" matDens = 40 // Density, lb/ft3 - matSpHt = 0.27 // Specific heat of material, Btu/lb-°F - matCond = 0.09167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.27 // Specific heat of material, Btu/lb-�F + matCond = 0.09167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.000122 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Insul-R7.5-D1.5-SH0.35-C0.01111" matDens = 1.5 // Density, lb/ft3 - matSpHt = 0.35 // Specific heat of material, Btu/lb-°F - matCond = 0.011111 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.35 // Specific heat of material, Btu/lb-�F + matCond = 0.011111 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.00175 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Synthetic Stucco" matDens = 58 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.2 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.2 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-Carpet" matDens = 12.3 // Density, lb/ft3 - matSpHt = 0.34 // Specific heat of material, Btu/lb-°F - matCond = 0.02 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.34 // Specific heat of material, Btu/lb-�F + matCond = 0.02 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-Wood layer" matDens = 41 // Density, lb/ft3 - matSpHt = 0.45 // Specific heat of material, Btu/lb-°F - matCond = 0.06127 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.45 // Specific heat of material, Btu/lb-�F + matCond = 0.06127 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-TileGap" matDens = 0.075 // Density, lb/ft3 - matSpHt = 0.24 // Specific heat of material, Btu/lb-°F - matCond = 0.07353 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.24 // Specific heat of material, Btu/lb-�F + matCond = 0.07353 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-10 PSF Roof" matDens = 120 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 1 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 1 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-VertWallCavity" matDens = 0.075 // Density, lb/ft3 - matSpHt = 0.24 // Specific heat of material, Btu/lb-°F - matCond = 0.314 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.24 // Specific heat of material, Btu/lb-�F + matCond = 0.314 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.00397 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-3 Coat Stucco" matDens = 116 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.4167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.4167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-Ins-R21-D1.5-SH0.2-C0.02183" matDens = 1.5 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.021825 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.021825 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.003254 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Ins-R9.1-D1.5-SH0.2-C0.03205" matDens = 1.5 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.032051 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.032051 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.00418 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Ins-R13-D1.5-SH0.2-C0.02244" matDens = 1.5 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.022438 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.022438 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.003254 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Ins-R19-D1.5-SH0.2-C0.01535" matDens = 1.5 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.015351 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.015351 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.003254 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-Ins-R18-D1.5-SH0.2-C0.02546" matDens = 1.5 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 0.025463 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 0.025463 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.003254 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-SNEICConcrete" matDens = 144 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 1 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 1 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-SNEICEarth" matDens = 115 // Density, lb/ft3 - matSpHt = 0.2 // Specific heat of material, Btu/lb-°F - matCond = 1 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.2 // Specific heat of material, Btu/lb-�F + matCond = 1 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-SNEICCarpet" matDens = 12.3 // Density, lb/ft3 - matSpHt = 0.34 // Specific heat of material, Btu/lb-°F - matCond = 0.02 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.34 // Specific heat of material, Btu/lb-�F + matCond = 0.02 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-Zone1DoorFront-dr" matThk = 0.041667 // Thickness (feet), ft matDens = 41 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.01004 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.01004 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-Zone1ToGarageDoorFront-dr" matThk = 0.041667 // Thickness (feet), ft matDens = 41 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.01004 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.01004 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-GarageCarDoorFront-dr" matThk = 0.041667 // Thickness (feet), ft matDens = 41 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.277778 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.277778 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "m-AtticTruss" matDens = 35 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "m-AtticTruss 25" matDens = 35 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "IntMassMat-SoftWood" matDens = 35 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "IntMassMat-Carpet" matDens = 12.3 // Density, lb/ft3 - matSpHt = 0.34 // Specific heat of material, Btu/lb-°F - matCond = 0.02 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.34 // Specific heat of material, Btu/lb-�F + matCond = 0.02 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F MATERIAL "IntMassMat-WoodLayer" matDens = 35 // Density, lb/ft3 - matSpHt = 0.39 // Specific heat of material, Btu/lb-°F - matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.39 // Specific heat of material, Btu/lb-�F + matCond = 0.08167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.0012 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) MATERIAL "IntMassMat-Gypsum" matDens = 40 // Density, lb/ft3 - matSpHt = 0.27 // Specific heat of material, Btu/lb-°F - matCond = 0.09167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-°F + matSpHt = 0.27 // Specific heat of material, Btu/lb-�F + matCond = 0.09167 // Conductivity (always per foot of thickness), Btuh-ft/ft2-�F matCondCT = 0.000122 // Coefficient for temperature adjustment of matCond in the forward difference surface conduction model, F(-1) @@ -5146,8 +5146,8 @@ Input for Run 001: sfExT=50 //10 C ground temperature sfInAbs=INABSORP sfInHcModel = Unified //floor inside film coefficient - sfExH=100000 //floor outside film coefficient - sfExHcModel = Unified + sfExHcMult=100000 //floor outside film coefficient + sfExHcModel = INPUT SURFACE North_Wall sfType=Wall @@ -5527,18 +5527,18 @@ Input for Run 001: -! CSE 0.914.0+dhwbal.9a8f1532.6.dirty for Win32 console run(s) done: Tue 16-May-23 3:46:56 pm +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console run(s) done: Thu 19-Oct-23 1:01:04 pm -! Executable: d:\cse\msvc\cse.exe -! 16-May-23 3:40 pm (VS 14.29 2749952 bytes) (HPWH 1.21.0) -! Command line: -x! -t1 dhw_zone -! Input file: D:\cse\test\dhw_zone.cse -! Report file: D:\cse\test\dhw_zone.rep +! Executable: c:\users\nathan oliver\desktop\repositories\cse\msvc\cse.exe +! 19-Oct-23 12:57 pm (VS 14.29 2798592 bytes) (HPWH 1.22.0+HEAD.d205413.4) +! Command line: -x! -b -t1 dhw_zone +! Input file: C:\Users\Nathan Oliver\Desktop\Repositories\cse\test\dhw_zone.cse +! Report file: C:\USERS\NATHAN OLIVER\DESKTOP\REPOSITORIES\CSE\TEST\DHW_ZONE.REP ! Timing info -- -! Input: Time = 0.05 Calls = 1 T/C = 0.0480 +! Input: Time = 0.05 Calls = 1 T/C = 0.0510 ! AutoSizing: Time = 0.00 Calls = 0 T/C = 0.0000 -! Simulation: Time = 1.23 Calls = 1 T/C = 1.2320 -! Reports: Time = 0.00 Calls = 1 T/C = 0.0040 -! Total: Time = 1.29 Calls = 1 T/C = 1.2880 +! Simulation: Time = 1.56 Calls = 1 T/C = 1.5600 +! Reports: Time = 0.01 Calls = 1 T/C = 0.0050 +! Total: Time = 1.62 Calls = 1 T/C = 1.6170 diff --git a/test/ref/ZONETEST4W.REP b/test/ref/ZONETEST4W.REP index 53ed70a00..2f5c9f76c 100644 --- a/test/ref/ZONETEST4W.REP +++ b/test/ref/ZONETEST4W.REP @@ -15,57 +15,57 @@ ZONE DATA for zone Single Model: CZM CFA: 100.00 Vol: 1000.0 FloorZ: 0 CeilingHt: 10.00 EaveZ: 8.00 CAir: 18.30 Infil AC: 0 ELA: 0 Stackc: 323.482 Windc: 24.883 UA: 0 UANom: 0 -Surface North Area: 10.0 Az: 0 T: 90 UNom: 0.0733 UA: 0.73 InAbs: 0.60 ExAbs: 0 ExCnd: SpecifiedT 70 -Surface South Area: 50.0 Az: 180 T: 90 UNom: 0.0733 UA: 3.67 InAbs: 0.60 ExAbs: 0 ExCnd: SpecifiedT 70 -Surface East Area: 100.0 Az: 180 T: 90 UNom: 0.0733 UA: 7.33 InAbs: 0.60 ExAbs: 0 ExCnd: SpecifiedT 70 -Surface West Area: 100.0 Az: 270 T: 90 UNom: 0.0733 UA: 7.33 InAbs: 0.60 ExAbs: 0 ExCnd: SpecifiedT 70 -Surface Ceil Area: 100.0 Az: 0 T: 0 UNom: 0.0737 UA: 7.37 InAbs: 0.20 ExAbs: 0 ExCnd: SpecifiedT 70 -Surface Floor Area: 100.0 Az: 0 T: 180 UNom: 0.0721 UA: 7.21 InAbs: 0.80 ExAbs: 0 ExCnd: SpecifiedT 70 +Surface North Area: 10.0 Az: 0 T: 90 UNom: 0.0749 UA: 0.75 InAbs: 0.60 ExAbs: 0 ExCnd: SpecifiedT 70 +Surface South Area: 50.0 Az: 180 T: 90 UNom: 0.0749 UA: 3.75 InAbs: 0.60 ExAbs: 0 ExCnd: SpecifiedT 70 +Surface East Area: 100.0 Az: 180 T: 90 UNom: 0.0749 UA: 7.49 InAbs: 0.60 ExAbs: 0 ExCnd: SpecifiedT 70 +Surface West Area: 100.0 Az: 270 T: 90 UNom: 0.0749 UA: 7.49 InAbs: 0.60 ExAbs: 0 ExCnd: SpecifiedT 70 +Surface Ceil Area: 100.0 Az: 0 T: 0 UNom: 0.0753 UA: 7.53 InAbs: 0.20 ExAbs: 0 ExCnd: SpecifiedT 70 +Surface Floor Area: 100.0 Az: 0 T: 180 UNom: 0.0736 UA: 7.36 InAbs: 0.80 ExAbs: 0 ExCnd: SpecifiedT 70 -Window Area: 50.00 Az: 180 T: 90 UNom: 0.334 UA: 16.7 SMSO: 0 SMSC: 0 ExCnd: SpecifiedT 70 +Window Area: 50.00 Az: 180 T: 90 UNom: 0.369 UA: 18.5 SMSO: 0 SMSC: 0 ExCnd: SpecifiedT 70 -Mass North Area: 10.000 UNom: 0.07332 tc: 1.55 subhrly: +Mass North Area: 10.000 UNom: 0.07490 tc: 1.55 subhrly: Inside: Zone 'Single' RSrfNom: 0.68 Layer thk: 0.0417 vhc: 13.000 cond: 0.0926 R: 0.450 Layer thk: 0.146 vhc: 0.300 cond: 0.0250 R: 5.833 Layer thk: 0.146 vhc: 0.300 cond: 0.0250 R: 5.833 Layer thk: 0.0729 vhc: 23.200 cond: 0.417 R: 0.175 - Outside: SpecifiedT 70 RSrfNom: 0.67 -Mass South Area: 50.000 UNom: 0.07332 tc: 1.55 subhrly: + Outside: SpecifiedT 70 RSrfNom: 0.38 +Mass South Area: 50.000 UNom: 0.07490 tc: 1.55 subhrly: Inside: Zone 'Single' RSrfNom: 0.68 Layer thk: 0.0417 vhc: 13.000 cond: 0.0926 R: 0.450 Layer thk: 0.146 vhc: 0.300 cond: 0.0250 R: 5.833 Layer thk: 0.146 vhc: 0.300 cond: 0.0250 R: 5.833 Layer thk: 0.0729 vhc: 23.200 cond: 0.417 R: 0.175 - Outside: SpecifiedT 70 RSrfNom: 0.67 -Mass East Area: 100.000 UNom: 0.07332 tc: 1.55 subhrly: + Outside: SpecifiedT 70 RSrfNom: 0.38 +Mass East Area: 100.000 UNom: 0.07490 tc: 1.55 subhrly: Inside: Zone 'Single' RSrfNom: 0.68 Layer thk: 0.0417 vhc: 13.000 cond: 0.0926 R: 0.450 Layer thk: 0.146 vhc: 0.300 cond: 0.0250 R: 5.833 Layer thk: 0.146 vhc: 0.300 cond: 0.0250 R: 5.833 Layer thk: 0.0729 vhc: 23.200 cond: 0.417 R: 0.175 - Outside: SpecifiedT 70 RSrfNom: 0.67 -Mass West Area: 100.000 UNom: 0.07332 tc: 1.55 subhrly: + Outside: SpecifiedT 70 RSrfNom: 0.38 +Mass West Area: 100.000 UNom: 0.07490 tc: 1.55 subhrly: Inside: Zone 'Single' RSrfNom: 0.68 Layer thk: 0.0417 vhc: 13.000 cond: 0.0926 R: 0.450 Layer thk: 0.146 vhc: 0.300 cond: 0.0250 R: 5.833 Layer thk: 0.146 vhc: 0.300 cond: 0.0250 R: 5.833 Layer thk: 0.0729 vhc: 23.200 cond: 0.417 R: 0.175 - Outside: SpecifiedT 70 RSrfNom: 0.67 -Mass Ceil Area: 100.000 UNom: 0.07370 tc: 1.76 subhrly: + Outside: SpecifiedT 70 RSrfNom: 0.38 +Mass Ceil Area: 100.000 UNom: 0.07530 tc: 1.76 subhrly: Inside: Zone 'Single' RSrfNom: 0.61 Layer thk: 0.0417 vhc: 13.000 cond: 0.0926 R: 0.450 Layer thk: 0.146 vhc: 0.300 cond: 0.0250 R: 5.833 Layer thk: 0.146 vhc: 0.300 cond: 0.0250 R: 5.833 Layer thk: 0.0729 vhc: 23.200 cond: 0.417 R: 0.175 - Outside: SpecifiedT 70 RSrfNom: 0.67 -Mass Floor Area: 100.000 UNom: 0.07206 tc: 1.76 subhrly: + Outside: SpecifiedT 70 RSrfNom: 0.38 +Mass Floor Area: 100.000 UNom: 0.07358 tc: 1.76 subhrly: Inside: Zone 'Single' RSrfNom: 0.92 Layer thk: 0.0417 vhc: 13.000 cond: 0.0926 R: 0.450 Layer thk: 0.146 vhc: 0.300 cond: 0.0250 R: 5.833 Layer thk: 0.146 vhc: 0.300 cond: 0.0250 R: 5.833 Layer thk: 0.0729 vhc: 23.200 cond: 0.417 R: 0.175 - Outside: SpecifiedT 70 RSrfNom: 0.67 + Outside: SpecifiedT 70 RSrfNom: 0.38 @@ -830,7 +830,7 @@ Conditioned Zone Sensible Energy Balance (kBtu + into the zone) for Sat 31-Jan ! Log for Run 001: ################ -! CSE 0.904.0+termah.94de11f5.87.dirty for Win32 console Tue 26-Apr-22 3:12:02 pm +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console Thu 19-Oct-23 12:57:32 pm ================ @@ -67861,7 +67861,7 @@ Single CZ: anMCp/T[ 0]=0.00/0.0 anMCp/T[ 1]=0.00/0.0 ventUt=0 Nair=50688.48 Dair=838.56 Nrad=20767.47 Drad=339.13 CX=145.65 airX=4.800 TH=50.00 TD=58.00 TC=60.00 qhCap=1000000 qcCap=-500000 ta=60.00 tr=60.87 qIzSh=0 fvent=0.000 pz0=0.0000 qsHvac=-501 -! CSE 0.904.0+termah.94de11f5.87.dirty for Win32 console +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console @@ -67904,7 +67904,7 @@ Input for Run 001: //Constructions - CONSTRUCTION WCav13 // ’W.13.2X4 BAW 9/2 + CONSTRUCTION WCav13 // �W.13.2X4 BAW 9/2 layer lrMat="Gypbd" lrThk=0.25/12. layer lrMat="Gypbd" lrThk=0.25/12. layer lrMat="R11" lrThk=3.5/(12.*2) @@ -68022,16 +68022,16 @@ Input for Run 001: znQMxH = 1000000 znQMxC = -500000 // GAIN gnPower= select( $hour >12,0.,default 0.0) gnFrRad=0 // - SURFACE "North" sfType=Wall sfCon=WCav13 sfArea=10 sfAzm=Front sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExH=1.5 // - SURFACE "South" sfType=Wall sfCon=WCav13 sfArea=100 sfAzm=Back sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExH=1.5 // + SURFACE "North" sfType=Wall sfCon=WCav13 sfArea=10 sfAzm=Front sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExHcMult=1.5 sfExHcModel=INPUT// + SURFACE "South" sfType=Wall sfCon=WCav13 sfArea=100 sfAzm=Back sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExHcMult=1.5 sfExHcModel=INPUT// # #redefine WinU 0.4 // Window NFRC U-factor - WINDOW wnHeight=10; wnWidth=5 wnGt=GT wnSMSO=0.; wnSMSC=0.; wnU=(1./((1./WinU)-0.85)) wnInH=1.5 // BAW 10/17 + WINDOW wnHeight=10; wnWidth=5 wnGt=GT wnSMSO=0.; wnSMSC=0.; wnU=(1./((1./WinU)-0.85)) wnExHcMult=1.5 wnExHcModel=INPUT // BAW 10/17 - SURFACE "East" sfType=Wall sfCon=WCav13 sfArea=100 sfAzm=Back sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExH=1.5 - SURFACE "West" sfType=Wall sfCon=WCav13 sfArea=100 sfAzm=right sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExH=1.5 // - SURFACE "Ceil" sfType=Ceiling sfCon=WCav13 sfArea=100 sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExH=1.5 // - SURFACE "Floor" sfType=Floor sfCon=WCav13 sfArea=100 sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExH=1.5 // + SURFACE "East" sfType=Wall sfCon=WCav13 sfArea=100 sfAzm=Back sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExHcMult=1.5 sfExHcModel=INPUT + SURFACE "West" sfType=Wall sfCon=WCav13 sfArea=100 sfAzm=right sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExHcMult=1.5 sfExHcModel=INPUT// + SURFACE "Ceil" sfType=Ceiling sfCon=WCav13 sfArea=100 sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExHcMult=1.5 sfExHcModel=INPUT// + SURFACE "Floor" sfType=Floor sfCon=WCav13 sfArea=100 sfExAbs=0. sfModel = forward_difference sfExCnd=SPECIFIEDT sfExT=70 sfExHcMult=1.5 sfExHcModel=INPUT// // SURFACE "IExSlab" UseType "IntExpSlab" sfArea=100 @@ -68043,18 +68043,18 @@ Input for Run 001: -! CSE 0.904.0+termah.94de11f5.87.dirty for Win32 console run(s) done: Tue 26-Apr-22 3:12:02 pm +! CSE 0.919.0+fix-exterior-convection-heat-transfer-coefficient-cleanup.ddf468ad.7 for Win32 console run(s) done: Thu 19-Oct-23 12:57:33 pm -! Executable: d:\cse\msvc\cse.exe -! 26-Apr-22 2:49 pm (VS 14.29 2999296 bytes) (HPWH 1.18.1) -! Command line: -x! -t1 zonetest4w -! Input file: D:\cse\test\zonetest4w.cse -! Report file: D:\cse\test\zonetest4w.rep +! Executable: c:\users\nathan oliver\desktop\repositories\cse\msvc\cse.exe +! 19-Oct-23 12:57 pm (VS 14.29 2798592 bytes) (HPWH 1.22.0+HEAD.d205413.4) +! Command line: -x! -b -t1 zonetest4W +! Input file: C:\Users\Nathan Oliver\Desktop\Repositories\cse\test\zonetest4W.cse +! Report file: C:\USERS\NATHAN OLIVER\DESKTOP\REPOSITORIES\CSE\TEST\ZONETEST4W.REP ! Timing info -- -! Input: Time = 0.04 Calls = 1 T/C = 0.0390 -! AutoSizing: Time = 0.00 Calls = 0 T/C = 0.0000 -! Simulation: Time = 0.60 Calls = 1 T/C = 0.5960 -! Reports: Time = 0.05 Calls = 1 T/C = 0.0490 -! Total: Time = 0.69 Calls = 1 T/C = 0.6890 +! Input: Time = 0.05 Calls = 1 T/C = 0.0470 +! AutoSizing: Time = 0.00 Calls = 0 T/C = 0.0000 +! Simulation: Time = 0.72 Calls = 1 T/C = 0.7200 +! Reports: Time = 0.06 Calls = 1 T/C = 0.0600 +! Total: Time = 0.83 Calls = 1 T/C = 0.8270