$ CALIBRATED VERSION $ Single-Family Residence $ Hathaway House (Solar Patriot) $ Created by Paul Reeves (PRC) $ for Paul Norton and Ren Anderson (NREL) $ $ Created using DOE2.2 beta release from Jeff Hirsch $ $ Using TMY2 weather file for Sterling, Virginia (primary station) $ $ Proposed IECC Weather Zone 4 $ $ Window U-value: 0.40 (includes exterior air film) $ Window SHGC = 0.4 if HDD<3500 = 0.55 for HDD>3500 $ Ceiling U-value: 0.030 (R=33.3) $ Wall U-value: 0.082 (R=12.2) $ Floor U-value: 0.047 (R=21.3) $ BsmtWall U-value: 0.059 (R=16.95) $ CrwlWall U-value: 0.047 (R=21.3) $ $ Two-story house over a conditioned basement with a partially conditioned attic $ Total conditioned area = 5040 sqft $ 3 zones on the second floor (1440 sqft) $ master bedroom + walk-in + bath2 $ bedroom2 + hallway + bath1 $ bedroom3 + sitting room + stairwell $ 2 zones on the first floor (1440 sqft) $ kitchen + family room (back side) $ living room + dining room + stairwell (front side) $ 1 zone in the basement (1440 sqft) $ 1 zone in the attic (1440 sqft) $ ##write ##show ##showdetail ##traceback ##ifndef eemlvl ##set1 eemlvl 0 ##endif ##ifndef whatif ##set1 whatif 0 ##endif INPUT .. TITLE LINE-1 = *Hathaway House 5040/2880 sqft * LINE-2 = *Created by PRC for Ren Andercon, NREL* .. $data file including EEMs and basic setup: ##set1 houseaz 0 ##set1 HOUSEarea #[1440 * 2] ##set1 MB_area 562 ##set1 BRB_area 428 ##set1 BRF_area 450 ##set1 BSMT_area 1440 ##set1 KI_area 720 ##set1 LR_area 720 ##set1 ATTarea 720 ##set1 LivingArea #[KI_area[] + LR_area[]] ##set1 BedroomArea #[MB_area[] + #[BRB_area[] + BRF_area[]]] ##set1 NumFloors 3 $for infiltration calculations ##set1 InfPower 1.39039 ##set1 InfW 0.76 $ASHRAE W for this location $BA specifications:================================================================================ ##set1 dhwuse 56.1 $ Gallons per day ##set1 NumBedRooms 3 $ fixed assumption for all BA houses ##set1 NumPeople NumBedRooms[] $ Fixed assumption is that there are 3 people ##set1 DHWtemp 120 ##set1 NightVent Standard $ Indoor Lighting: ##set1 AnnLtg #[#[HOUSEarea[] * 0.8] + 455] ##set1 AnnLtgLR #[AnnLtg[] * 0.63] ##set1 AnnLtgBR #[AnnLtg[] * 0.37] $ Indoor Electric Equipment: ##set1 AnnEquC0 3011 ##set1 AnnEquC1 #[HOUSEarea[] * 1.61] ##set1 AnnEqu #[AnnEquC0[] + AnnEquC1[]] ##set1 EquSens #[#[#[AnnEquC0[] * 0.50] + #[AnnEquC1[] * 0.9]] / AnnEqu[]] ##set1 EquLat #[#[#[AnnEquC0[] * 0.09] + #[AnnEquC1[] * 0.1]] / AnnEqu[]] ##set1 BA_TotWinA #[0.18 * HOUSEarea[]] ##set1 BA_WinArea #[BA_TotWinA[] / 12] $3 windows on each orientation x 4 orientations ##set1 nLeak #[#[InfPower[] * #[0.000480 * 6.944]] * 144] ##set1 InfACH #[nLeak[] * InfW[]] $IECC specifications:============================================================================== ##set1 WallAbs 0.50 $ exterior absorptivity of walls (corrected from published) ##set1 RoofAbs 0.75 $ exterior absorptivity of roof ##set1 CoolTSP 78 $ cooling thermostat set point (yr-round) ##set1 HeatTSP 68 $ heating thermostat set point (yr-round) ##set1 SumWinShad 0.7 ##set1 BA_SHGC 0.40 $ fenestration SHGC ##set1 BA_WinU 0.40 $ fenestration U-value ##set1 BA_WallU 0.082 $ exterior wall u-value ##set1 BA_CeilU 0.030 $ ceiling u-value ##set1 BA_BsmtWU 0.059 $ basement wall u-value ##if #[eemlvl[] EQS 0] $ Building America (IECC) Base case ##set1 SEER 10 $ A/C ##set1 coolcap 5 $ tons of cooling ##set1 hpHSPF 6.8 $ HP ##set1 heattype 2 $ 1=furnace, 2=HP ##set1 GSHP 0 ##set1 DoorCons "DOOR-BA" ##set1 WallMethod SpecU ##set1 WallU BA_WallU[] ##set1 CeilU BA_CeilU[] ##set1 BsmtWU BA_BsmtWU[] ##set1 WinShade None ##set1 WinAreaMeth IECC18 ##set1 mainglass WinGlassBA ##set1 doorglass WinGlassBA ##set1 framwid 1.5 $ frame for SideLites only (not included in 18%) ##set1 framecond 3.037 ##set1 DuctMethod EffMod $ equipment efficiency modifier ##set1 DuctLoss 0.20 ##set1 dhwType ELEC ##set1 DHWcop 0.98 ##else $ Building America Regional Standard Practice (testing for now) ##set1 SEER 10 $ A/C ##set1 coolcap 5 $ tons of cooling ##set1 hpHSPF 6.8 $ HP ##set1 heattype 2 $ 1=furnace, 2=HP ##set1 GSHP 0 ##set1 DoorCons "DOOR-BA" ##set1 WallMethod SpecU ##set1 WallU BA_WallU[] ##set1 CeilU BA_CeilU[] ##set1 BsmtWU BA_BsmtWU[] ##set1 WinShade None ##set1 WinAreaMeth Actual ##set1 mainglass WinGlassBA ##set1 doorglass WinGlassBA ##set1 framwid 1.5 $ frame for SideLites only (not included in 18%) ##set1 framecond 3.037 ##set1 DuctMethod EffMod $ equipment efficiency modifier ##set1 DuctLoss 0.20 ##set1 dhwType ELEC ##set1 DHWcop 0.98 ##endif $Base levels: ============================================================= ##set1 cfmperton 400 $ total supply air flow CFM/ton inc. losses ##set1 supplykw 0.00055 $ kW/cfm ##set1 PVkw 0 ##set1 afue 0.80 ##if #[eemlvl[] GT 1.5] $========================== Builder Standard Practice ##set1 SEER 10 ##set1 coolcap 5 ##set1 hpHSPF 6.8 ##set1 heattype 2 $ 1=furnace, 2=HP ##set1 DoorCons "DOOR-1" ##set1 WallMethod SpecIns ##set1 FramType "2x4Frame" ##set1 WallIns 13 ##set1 SheathIns 0 ##set1 ceilrval 30 ##set1 bswallrval 7 ##set1 WinShade Actual ##set1 WinAreaMeth Actual ##set1 mainglass DblWinGlass ##set1 doorglass DblDoorGlass ##set1 framwid 1.5 $ average frame width (inches) included mullions ##set1 framecond 3.037 $ 3.037 = aluminum $ 1.245 = thermally broken aluminum $ 0.434 = wood $ 0.319 = vinyl ##set1 DuctMethod Actual ##set1 DuctLoss 0.05 $ percent of supply CFM lost ##set1 DuctDT 2.5 $ duct deltaT under design (90-55 F) ##set1 dhwType ELEC ##set1 DHWcop 0.98 $ ##set1 InfACH 0.35 doesn't really change ##endif ##if #[eemlvl[] GT 2.5] $========================== Improved Wall Framing/Insulation ##set1 FramType "2x6Frame" ##set1 WallIns 19 ##set1 SheathIns 5 ##endif ##if #[eemlvl[] GT 3.5] $========================== Improved Windows ##set1 WinMethod SpecCode ##set1 mainglass LowEWinGlass ##set1 doorglass LowEDoorGlass ##set1 framwid 1.5 $ average frame width (inches) included mullions ##set1 framecond 0.434 ##endif ##if #[eemlvl[] GT 4.5] $========================== Smaller AC due to shell improvements ##set1 coolcap 4 $ tons ##endif ##if #[eemlvl[] GT 5.5] $========================== Basement Insulation ##set1 bswallrval 19 ##endif ##if #[eemlvl[] GT 6.5] $========================== Improved Systems (htg,clg,dhw) ##set1 hpCOP 3.7 ##set1 clCOP #[2.2 / 0.8] $ = 2.8 ##set1 GSHP 1 ##set1 hpHSPF 14 ##set1 SEER 16 ##set1 dhwType ELEC $HEAT-PUMP ##set1 DHWcop 1.6 ##endif $ if this was just a high eff. HP: $ 0.582 * (1/(HSPF/3.413)) -> 7.05 cop $ 0.941 * (1/(SEER/3.413)) -> 5.0 ##if #[eemlvl[] GT 7.5] $========================== Solar DHW ##set1 DHWcop 3.51 ##endif ##if #[eemlvl[] GT 8.5] $========================== CFL Lighting & reduced equipment loads ##set1 AnnLtgLR #[#[AnnLtg[] * 0.63] * 0.4] ##set1 AnnLtgBR #[#[AnnLtg[] * 0.37] * 0.4] ##set1 AnnEquC0 #[3011 - 210] ##set1 AnnEquC1 #[HOUSEarea[] * 1.61] ##set1 AnnEqu #[AnnEquC0[] + AnnEquC1[]] ##set1 EquSens #[#[#[AnnEquC0[] * 0.50] + #[AnnEquC1[] * 0.9]] / AnnEqu[]] ##set1 EquLat #[#[#[AnnEquC0[] * 0.09] + #[AnnEquC1[] * 0.1]] / AnnEqu[]] ##endif ##if #[eemlvl[] GT 9.5] $========================== CALIBRATED ##def1 calib ##set1 dhwuse 57.4 ##set1 AnnEqu #[AnnEqu[] - 3897] ##set1 HeatTSP 0 ##set1 CoolTSP 0 ##set1 SumWinShad 1.0 ##set1 InfACH 0.35 ##set1 supplykw 0.00064 ##endif ##if #[whatif[] GT 0.5] $========================== What If - R50 Walls ##set1 FramType "OffSetFrame" ##set1 WallIns 40 ##set1 SheathIns 10 ##endif ##if #[whatif[] GT 1.5] $========================== What If - Electrochomic glass ##set1 mainglass ElectoGlass ##set1 doorglass ElectoGlass ##endif ##if #[whatif[] GT 2.5] $========================== What If - High Eff. HVAC ##set1 hpHSPF 14 ##set1 SEER 16 ##set1 GSHP 0 ##endif ##if #[whatif[] GT 3.5] $========================== What If - Heat Recov Vent ##set1 InfACH #[0.35 * 0.2] ##endif $ infiltration coefficients: ##set1 infconst InfACH[] ##set1 infdeltat 0.0 ##set1 infwind 0.0 ##set1 attach 1.5 ##set1 bsmtach 0.5 $Applies always: ##if #[DuctMethod EQS EffMod] ##set1 DuctMult DuctLoss[] ##else ##set1 DuctMult 1 ##endif ##set1 supcfm #[#[cfmperton[] * coolcap[]] * DuctMult[]] $T-24 Cooling EIR Calculation ============================================== $ either the EER95 must be specified, or the SEER ##ifdef EER95[] ##set1 EER95s EER95[] ##else ##SET1 EERb = #[SEER[] / 0.985] ##SET1 EER95s = #[0.855 * EERb[]] ##endif ##SET1 FAN-KW = supplykw[] ##SET1 FAN_KW = 0.000365 $ ARI ##SET1 SUPPLY_DT = #[FAN-KW[] * 3160] $ 3413/1.08 ##SET1 EIRn = #[#[1 / EER95s[]] - #[33.333 * FAN_KW[]]] ##SET1 EIRd = #[0.2930 + #[33.333 * FAN_KW[]]] ##SET1 EIRa = #[EIRn[] / EIRd[]] ##SET1 EIRb = #[#[#[1.07 / EERb[]] - 0.012167] / 0.3257] ##SET1 Neirb = #[EIRb[] / EIRa[]] ##SET1 Neiradj = #[Neirb[] * 0.876] ##SET1 HSPF = hpHSPF[] ##SET1 COP47s = #[#[0.4813 * HSPF[]] - 0.2606] ##SET1 HIRn = #[#[1 / #[COP47s[] * 3.413]] - #[33.333 * FAN_KW[]]] ##SET1 HIRd = #[0.2930 - #[33.333 * FAN_KW[]]] ##SET1 HP-HIR = #[HIRn[] / HIRd[]] $========================================================================== COOL-EIR-SEER = CURVE-FIT TYPE = BI-QUADRATIC-T INPUT-TYPE = DATA INDEPENDENT-1 = (67, 67, 67, 67, 67, 80, 50) INDEPENDENT-2 = (95, 82,110,105, 70, 95, 95) DEPENDENT = (1.0,Neirb[],1.174,1.113,Neiradj[],0.897,1.070) .. $T-24 HIR Calculation ==================================================== ##if #[afue[] GT 0.835] ##SET1 FURN-HIR = #[ 1 / #[#[1.1116 * afue[]] + 0.098185]] ##else ##SET1 FURN-HIR = #[ 1 / #[#[0.2907 * afue[]] + 0.5787]] ##endif $ HERS accepted conversion from SEER/HSPF when no other information is known. $ Also, there are performance curves that are included in the HVAC section. ##set1 HeatEIR #[0.582 * #[1 / #[hpHSPF[] / 3.413]]] ##set1 CoolEIR #[0.941 * #[1 / #[SEER[] / 3.413]]] ##if #[SEER[] LT 13.5] ##set1 supplykw 0.000500 $ kW/cfm ##else ##set1 supplykw 0.000375 $ kW/cfm ##endif $DIAGNOSTIC DEFAULTS .. "Run Period 1" = RUN-PERIOD-PD BEGIN-YEAR = 1999 END-YEAR = 1999 .. $ --------------------------------------------------------- $ Site and Building Data $ --------------------------------------------------------- SITE-PARAMETERS DAYLIGHT-SAVINGS = NO .. BUILD-PARAMETERS AZIMUTH = houseaz[] GROSS-AREA = HOUSEarea[] .. $ ------------------------------------------------------------ $ Standard MATERIALS $ ------------------------------------------------------------ PW01 = MAT TYPE=PROPERTIES TH=0.0209 COND=0.0667 DENS=34 S-H=0.29 .. PW02 = MAT TYPE=PROPERTIES TH=0.0303 COND=0.0667 DENS=34 S-H=0.29 .. PW03 = MAT TYPE=PROPERTIES TH=0.0417 COND=0.0667 DENS=34 S-H=0.29 .. WD01 = MAT TYPE=PROPERTIES TH=0.0625 COND=0.0667 DENS=32 S-H=0.33 .. WD02 = MAT TYPE=PROPERTIES TH=0.1257 COND=0.0667 DENS=32 S-H=0.33 .. WD04 = MAT TYPE=PROPERTIES TH=0.2917 COND=0.0667 DENS=32 S-H=0.33 .. AC02 = MAT TYPE=PROPERTIES TH=0.0417 COND=0.0330 DENS=18 S-H=0.32 .. GP01 = MAT TYPE=PROPERTIES TH=0.0417 COND=0.0926 DENS=50 S-H=0.20 .. GP02 = MAT TYPE=PROPERTIES TH=0.0521 COND=0.0926 DENS=50 S-H=0.20 .. SC01 = MAT TYPE=PROPERTIES TH=0.0833 COND=0.4167 DENS=166 S-H=0.20 .. CC01 = MAT TYPE=PROPERTIES TH=0.0833 COND=0.7576 DENS=140 S-H=0.20 .. CC03 = MAT TYPE=PROPERTIES TH=0.3333 COND=0.7576 DENS=140 S-H=0.20 .. CC04 = MAT TYPE=PROPERTIES TH=0.5 COND=0.7576 DENS=140 S-H=0.20 .. CC05 = MAT TYPE=PROPERTIES TH=0.6667 COND=0.7576 DENS=140 S-H=0.20 .. CC07 = MAT TYPE=PROPERTIES TH=1.0 COND=0.7576 DENS=140 S-H=0.20 .. CC15 = MAT TYPE=PROPERTIES TH=0.5 COND=1.0417 DENS=140 S-H=0.20 .. CT11 = MAT TYPE=PROPERTIES TH=0.0313 COND=1.0416 DENS=120 S-H=0.20 .. RG01 = MAT TYPE=PROPERTIES TH=0.0417 COND=0.0834 DENS=55 S-H=0.40 .. BR01 = MAT TYPE=PROPERTIES TH=0.0313 COND=0.0939 DENS=70 S-H=0.35 .. CC24 = MAT TYPE=PROPERTIES TH=0.3333 COND=0.2083 DENS=80 S-H=0.20 .. CB14 = MAT TYPE=PROPERTIES TH=0.6667 COND=0.6746 DENS=93 S-H=0.20 .. CB24 = MAT TYPE=PROPERTIES TH=0.3333 COND=0.3306 DENS=89 S-H=0.20 .. CB31 = MAT TYPE=PROPERTIES TH=0.6667 COND=0.3876 DENS=53 S-H=0.20 .. CB32 = MAT TYPE=PROPERTIES TH=0.6667 COND=0.4937 DENS=123 S-H=0.20 .. CB33 = MAT TYPE=PROPERTIES TH=0.6667 COND=0.1141 DENS=56 S-H=0.20 .. CB34 = MAT TYPE=PROPERTIES TH=0.6667 COND=0.4348 DENS=76 S-H=0.20 .. CB37 = MAT TYPE=PROPERTIES TH=1.0000 COND=0.4814 DENS=121 S-H=0.20 .. IN02 = MAT TYPE=PROPERTIES TH=0.2957 COND=0.025 DENS=0.6 S-H=0.20 .. IN01 = MAT TYPE=PROPERTIES TH=0.0833 COND=0.02 DENS=1.8 S-H=0.29 .. IN31 = MAT TYPE=PROPERTIES TH=0.0417 COND=0.02 DENS=1.8 S-H=0.29 .. IN33 = MAT TYPE=PROPERTIES TH=0.0833 COND=0.02 DENS=1.8 S-H=0.29 .. IN72 = MAT TYPE=PROPERTIES TH=0.0833 COND=0.03 DENS=16 S-H=0.20 .. IN76 = MAT TYPE=PROPERTIES TH=0.2083 COND=0.03 DENS=16 S-H=0.20 .. AS01 = MAT TYPE=PROPERTIES TH=0.005 COND=26.0 DENS=18 S-H=0.32 .. LT01 = MAT TYPE=RESISTANCE RES=0.05 .. AR02 = MAT TYPE=RESISTANCE RES=0.44 .. AL21 = MAT TYPE=RESISTANCE RES=0.89 .. AL23 = MAT TYPE=RESISTANCE RES=0.87 .. CONCRETE-1=MAT TYPE=PROPERTIES TH=.3333 COND=.7576 DENS=140 S-H=0.2 .. CARP/PAD-1=MAT TYPE=RESISTANCE RES=2.08 .. "Soil" = MATERIAL TYPE = PROPERTIES THICKNESS = 1 CONDUCTIVITY = 0.5 DENSITY = 85 $ T24 SPECIFIC-HEAT = 0.20 .. ##if #[WallMethod[] EQS SpecIns] ##SET1 CEILTH #[ceilrval[] / 40] $ WALL INSULATION THICKNESS IN FT. CEILINS = MAT TYPE=PROPERTIES TH=CEILTH[] COND=0.0250 DENS=0.6 S-H=0.2 .. ##SET1 BSWATH #[bswallrval[] / 40] $ WALL INSULATION THICKNESS IN FT. BSWALLINS = MAT TYPE=PROPERTIES TH=BSWATH[] COND=0.0250 DENS=0.6 S-H=0.2 .. $ ================================================================================ $ Standard Wall definition ------------------------------------------------------- ##if #[FramType[] EQS "2x4Frame"] ##set1 cavitydep #[3.5 / 12] $ cavity depth, feet ##set1 maxcavR 10.8 $ filled cavity R-value ##set1 FramFact 0.23 ##set1 framerval #[15 * cavitydep[]] $ pine framing R-15 per ft ##set1 framedens 32.0 $ pine framing 32 lbs/ft3 ##set1 cavityrval WallIns[] ##elseif #[FramType[] EQS "2x6Frame"] ##set1 cavitydep #[5.5 / 12] $ cavity depth, feet ##set1 maxcavR 17.0 $ filled cavity R-value ##set1 FramFact 0.20 ##set1 framerval #[15 * cavitydep[]] $ pine framing R-15 per ft ##set1 framedens 32.0 $ pine framing 32 lbs/ft3 ##set1 cavityrval WallIns[] ##elseif #[FramType[] EQS "OffSetFrame"] ##set1 cavitydep #[12 / 12] $ cavity depth, feet ##set1 maxcavR 40 ##set1 FramFact 0.0 ##set1 framerval #[15 * cavitydep[]] $ pine framing R-15 per ft ##set1 framedens 32.0 $ pine framing 32 lbs/ft3 ##set1 cavityrval WallIns[] ##else ##ABORT - framing type not defined ##endif ##if #[cavityrval[] LT maxcavR[]] ##set1 cavityrval #[cavityrval[] + 0.9] ##endif ##if #[cavityrval[] GT maxcavR[]] ##set1 cavityrval maxcavR[] ##endif ##set1 ffill #[WallIns[] / maxcavR[]] ##if #[ffill[] GT 1] ##set1 ffill 1 ##endif ##set1 cavitydens #[#[0.6 * ffill[]] + #[0.016 * #[1 - ffill[]]]] $ fiberglass, 0.6 lbs/ft3 $ Net exterior wall values: ##set1 wallrval #[#[1 / cavityrval[]] * #[1 - FramFact[]]] ##set1 wallrval #[wallrval[] + #[ #[1 / framerval[]] * FramFact[]]] ##set1 wallrval #[1 / wallrval[]] ##else ##set1 ceilrval #[1 / CeilU[]] ##SET1 CEILTH #[ceilrval[] / 40] $ WALL INSULATION THICKNESS IN FT. CEILINS = MAT TYPE=PROPERTIES TH=CEILTH[] COND=0.0250 DENS=0.6 S-H=0.2 .. ##set1 bswallrval #[1 / BsmtWU[]] ##SET1 BSWATH #[bswallrval[] / 40] $ WALL INSULATION THICKNESS IN FT. BSWALLINS = MAT TYPE=PROPERTIES TH=BSWATH[] COND=0.0250 DENS=0.6 S-H=0.2 .. $ ================================================================================ $ U-Value Wall definition -------------------------------------------------------- $##if #[FramType[] EQS "2x4Frame"] ##set1 cavitydep #[3.5 / 12] $ cavity depth, feet ##set1 maxcavIns 10.8 $ filled cavity R-value ##set1 FramFact 0.23 ##set1 FrameRval #[15 * cavitydep[]] $ pine framing R-15 per ft ##set1 framedens 32.0 $ pine framing 32 lbs/ft3 ##set1 NonInsRval 2.32 $ = 0.47 * 2 (pw02) + 0.45 (gp01) + 0.68 (in) + 0.25 (out) $##endif ##set1 WallR #[1 / WallU[]] $required wall construction R-value ##set1 WallCavR #[WallR[] - NonInsRval[]] $required wall cavity composite R-value ##set1 CavIns #[#[1 / WallCavR[]] - #[FramFact[] / FrameRval[]]] $required Insulation R-value ##set1 CavIns #[#[1 - FramFact[]] / CavIns[]] $ of cavity ##if #[CavIns[] GT maxcavIns[]] ##set1 CavIns maxcavIns[] ##endif ##set1 wallrval #[#[1 / CavIns[]] * #[1 - FramFact[]]] $actual cavity R-value ##set1 wallrval #[wallrval[] + #[ #[1 / FrameRval[]] * FramFact[]]] ##set1 wallrval #[1 / wallrval[]] ##set1 SheathIns #[WallCavR[] - wallrval[]] ##set1 cavitydens 0.6 $ fiberglass, 0.6 lbs/ft3 ##endif ##set1 walldens #[cavitydens[] * #[1 - FramFact[]]] ##set1 walldens #[walldens[] + #[framedens[] * FramFact[]]] $wall insulation material is a combination of insulation and wood WALLINSM =MAT TYPE=PROPERTIES TH = cavitydep[] COND = #[cavitydep[] / wallrval[]] DENS = walldens[] S-H = 0.2 .. $exterior wall: siding, insulation, plywood, cavity and gypboard ##if #[SheathIns[] GT 0.3] SHEATHINS =MAT TYPE=PROPERTIES TH = #[0.02 * SheathIns[]] COND = 0.02 DENS = 1.8 S-H = 0.29 .. LAY-1 =LAYERS MAT=(PW02,SHEATHINS,PW02,WALLINSM,GP01) I-F-R = 0.68 .. ##else LAY-1 =LAYERS MAT=(PW02,PW02,WALLINSM,GP01) I-F-R = 0.68 .. ##endif EXT-WALL =CONS TYPE=LAYERS LAYERS=LAY-1 ROUGHNESS=6 ABS=WallAbs[] .. $ End of Standard Wall definition ----------------------------------------------- $ ================================================================================ $ Standard Interior ceiling: LAY-7c =LAYERS MAT=(CEILINS,PW02,GP01) .. INTWALL-ATTFLR=CONS TYPE=LAYERS LAYERS = LAY-7c .. $ exterior wall in the attic: siding over insulating board, plywood, ignore framing LAY-1a =LAYERS MAT=(PW02,IN31,PW02) .. EXTATT-WALL =CONS TYPE=LAYERS LAYERS=LAY-1a ROUGHNESS=6 ABS=WallAbs[] .. "Carpet & Rubber Pad (CP02)" = MATERIAL LIBRARY-ENTRY "Carpet & Rubber Pad (CP02)" .. $ SLAB FICTICIOUS INSULATING LAYERS "MAT-FIC-CORE LA" = MATERIAL TYPE = RESISTANCE RESISTANCE = 2 .. "Slab Layer Core LA" = LAYERS MATERIAL = ("MAT-FIC-CORE LA", "Soil", CC03,LT01) .. "Floor Slab Cons LA" = CONSTRUCTION TYPE = LAYERS LAYERS = "Slab Layer Core LA" .. $ -----LAYERS & CONSTRUCTIONS----- $ $ Standard Interior wall: LAY-7 =LAYERS MAT=(GP01,AL21,GP01) .. INTWALL-1 =CONS TYPE=LAYERS LAYERS = LAY-7 .. $ Standard Interior ceiling: LAY-7a =LAYERS MAT=(CARP/PAD-1,PW02,AL21,GP01) .. INTWALL-CEIL =CONS TYPE=LAYERS LAYERS = LAY-7a .. $ Standard Interior floor: LAY-7b =LAYERS MAT=(GP01,AL21,PW02,CARP/PAD-1) .. INTWALL-FLOOR =CONS TYPE=LAYERS LAYERS = LAY-7b .. $ hollow core flush, no storm DOOR-1 =CONS TYPE=U-VALUE U= 0.27 ABS=.78 ROUGHNESS=4 .. DOOR-BA =CONS TYPE=U-VALUE U= BA_WinU[] ABS=.78 ROUGHNESS=4 .. $ part panel door, part interior wall INTWALL-DOOR =CONS TYPE=U-VALUE U= 0.87 ABS=.78 ROUGHNESS=4 .. $ metal garage door DOOR-MECH =CONS TYPE=U-VALUE U=0.37 ABS=.7 ROUGHNESS=4 .. LAY-1d =LAYERS MAT=(SC01,IN33,PW02,PW02) .. EXWALL-MECH =CONS TYPE=LAYERS LAYERS=LAY-1d ROUGHNESS=6 ABS=WallAbs[] .. $ Air wall AIR-WALL =CONS TYPE=U-VALUE U=2.7 .. LAY-5 =LAYERS MAT=("Soil",CONCRETE-1) I-F-R=0.92 .. MECHSLAB =CONS TYPE=LAYERS LAYERS = LAY-5 .. $ roof of attic, garage: LAY-12 =LAYERS MAT=(BR01,PW01,AL21,CEILINS) .. EXWALL-ROOF =CONS TYPE=LAYERS LAYERS = LAY-12 ABS=RoofAbs[] .. LAY-BSMTA =LAYERS MAT=(CB14,IN01,BSWALLINS) .. EXWALL-BSMTA =CONS TYPE=LAYERS LAYERS = LAY-BSMTA .. LAY-BSMTU =LAYERS MAT=("Soil",CC01,IN01,BSWALLINS) .. EXWALL-BSMTU =CONS TYPE=LAYERS LAYERS = LAY-BSMTU .. WinGlassBA = GLASS-TYPE TYPE = SHADING-COEF GLASS-CONDUCT = #[1 / #[#[1 / BA_WinU[]] - 0.19]] SHADING-COEF = #[BA_SHGC[] / 0.86] .. DblWinGlass = GLASS-TYPE TYPE = GLASS-TYPE-CODE $std window, double tint G-T-C = 2212 .. DblDoorGlass = GLASS-TYPE TYPE = GLASS-TYPE-CODE $std door, double tint G-T-C = 2216 .. LowEWinGlass = GLASS-TYPE TYPE = GLASS-TYPE-CODE $Low-E Tint 0.37 SHGC, 0.31 U G-T-C = 2637 .. LowEDoorGlass = GLASS-TYPE TYPE = GLASS-TYPE-CODE $Low-E Tint 0.29 SHGC, 0.29 U G-T-C = 2667 .. ElectoGlass = GLASS-TYPE TYPE = GLASS-TYPE-CODE G-T-C = 2824 .. ElectoGlassSW = GLASS-TYPE TYPE = GLASS-TYPE-CODE G-T-C = 2825 .. "Fraction1" = SCHEDULE TYPE = FRACTION THRU DEC 31 (ALL) (1,24) (1.0) .. "Always On" = SCHEDULE TYPE = ON/OFF THRU DEC 31 (ALL) (1,24) (1.0) .. "Always Off" = SCHEDULE TYPE = ON/OFF THRU DEC 31 (ALL) (1,24) (0.0) .. "Always 1" = SCHEDULE TYPE = MULTIPLIER THRU DEC 31 (ALL) (1,24) (1.0) .. "Always 0" = SCHEDULE TYPE = MULTIPLIER THRU DEC 31 (ALL) (1,24) (0.0) .. AWNINGSHADE = SCHEDULE TYPE = MULTIPLIER THRU APR 30 (ALL) (1,24) (1.0) THRU OCT 31 (ALL) (1,24) (0.2) THRU DEC 31 (ALL) (1,24) (1.0) .. $##include c:\projects\nrel\hathaway\Hathaway-Sch.inc $ This file contains the Occupancy, Lighting, Equipment and DHW Schedules $ DOE2 Occupancy Schedule from spreadsheet ======================================================================= $ Occupancy Schedule, average for all WEEKDAYS of the year, DAYUSE Only, LIVING Areas Occ-DU-LR-WD-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.5000,0.5000, 0.3300,0.2500,0.2500,0.2500,0.2500,0.2500,0.2500,0.2500, 0.2500,0.5000,1.0000,1.0000,1.0000,1.0000,0.5000,0.0000) .. $ Occupancy Schedule, average for all WEEKDAYS of the year, DAYUSE Only, BEDROOM Areas Occ-DU-BR-WD-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (1.0000,1.0000,1.0000,1.0000,1.0000,1.0000,0.5000,0.3300, 0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.0000, 0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.5000,1.0000) .. $ Occupancy Schedule, average for all WEEKEND days of the year, DAYUSE Only, LIVING Areas Occ-DU-LR-WE-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.5000, 0.6700,0.5000,0.5000,0.5000,0.5000,0.5000,0.5000,0.5000, 0.6700,0.6700,0.6700,0.6700,0.6700,1.0000,0.5000,0.0000) .. $ Occupancy Schedule, average for all WEEKEND days of the year, DAYUSE Only, BEDROOM Areas Occ-DU-BR-WE-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (1.0000,1.0000,1.0000,1.0000,1.0000,1.0000,1.0000,0.5000, 0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.0000, 0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.5000,1.0000) .. $ Occupancy Schedule, average for all WEEKDAYS of the year, NON-DAY-USE Only, LIVING Areas Occ-ND-LR-WD-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.5000,0.5000, 0.2500,0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.0000, 0.0000,0.5000,1.0000,1.0000,1.0000,1.0000,0.5000,0.0000) .. $ Occupancy Schedule, average for all WEEKDAYS of the year, NON-DAY-USE Only, BEDROOM Areas Occ-ND-BR-WD-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (1.0000,1.0000,1.0000,1.0000,1.0000,1.0000,0.5000,0.3300, 0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.0000, 0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.5000,1.0000) .. $ Occupancy Schedule, average for all WEEKEND days of the year, NON-DAY-USE Only, LIVING Areas Occ-ND-LR-WE-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.5000, 0.6700,0.5000,0.5000,0.5000,0.5000,0.5000,0.5000,0.5000, 0.6700,0.6700,0.6700,0.6700,0.6700,1.0000,0.5000,0.0000) .. $ Occupancy Schedule, average for all WEEKEND days of the year, NON-DAY-USE Only, BEDROOM Areas Occ-ND-BR-WE-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (1.0000,1.0000,1.0000,1.0000,1.0000,1.0000,1.0000,0.5000, 0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.0000, 0.0000,0.0000,0.0000,0.0000,0.0000,0.0000,0.5000,1.0000) .. OCC-LR-DU-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Occ-DU-LR-WD-DS DAYS (WEH) DAY-SCHEDULE = Occ-DU-LR-WE-DS .. OCC-LR-ND-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Occ-ND-LR-WD-DS DAYS (WEH) DAY-SCHEDULE = Occ-ND-LR-WE-DS .. $ for Yr2000, Jan 1 is a Saturday $ week schedules alternate Day-Use and Non-Day-Use Schedules OCC-LR-SCH = SCHEDULE TYPE = FRACTION THRU JAN 7 WEEK-SCHEDULE = OCC-LR-DU-WS THRU JAN 14 WEEK-SCHEDULE = OCC-LR-ND-WS THRU JAN 21 WEEK-SCHEDULE = OCC-LR-DU-WS THRU JAN 28 WEEK-SCHEDULE = OCC-LR-ND-WS THRU FEB 4 WEEK-SCHEDULE = OCC-LR-DU-WS THRU FEB 11 WEEK-SCHEDULE = OCC-LR-ND-WS THRU FEB 18 WEEK-SCHEDULE = OCC-LR-DU-WS THRU FEB 25 WEEK-SCHEDULE = OCC-LR-ND-WS THRU MAR 3 WEEK-SCHEDULE = OCC-LR-DU-WS THRU MAR 10 WEEK-SCHEDULE = OCC-LR-ND-WS THRU MAR 17 WEEK-SCHEDULE = OCC-LR-DU-WS THRU MAR 24 WEEK-SCHEDULE = OCC-LR-ND-WS THRU MAR 31 WEEK-SCHEDULE = OCC-LR-DU-WS THRU APR 7 WEEK-SCHEDULE = OCC-LR-ND-WS THRU APR 14 WEEK-SCHEDULE = OCC-LR-DU-WS THRU APR 21 WEEK-SCHEDULE = OCC-LR-ND-WS THRU APR 28 WEEK-SCHEDULE = OCC-LR-DU-WS THRU MAY 5 WEEK-SCHEDULE = OCC-LR-ND-WS THRU MAY 12 WEEK-SCHEDULE = OCC-LR-DU-WS THRU MAY 19 WEEK-SCHEDULE = OCC-LR-ND-WS THRU MAY 26 WEEK-SCHEDULE = OCC-LR-DU-WS THRU JUN 2 WEEK-SCHEDULE = OCC-LR-ND-WS THRU JUN 9 WEEK-SCHEDULE = OCC-LR-DU-WS THRU JUN 16 WEEK-SCHEDULE = OCC-LR-ND-WS THRU JUN 23 WEEK-SCHEDULE = OCC-LR-DU-WS THRU JUN 30 WEEK-SCHEDULE = OCC-LR-ND-WS THRU JUL 7 WEEK-SCHEDULE = OCC-LR-DU-WS THRU JUL 14 WEEK-SCHEDULE = OCC-LR-ND-WS THRU JUL 21 WEEK-SCHEDULE = OCC-LR-DU-WS THRU JUL 28 WEEK-SCHEDULE = OCC-LR-ND-WS THRU AUG 4 WEEK-SCHEDULE = OCC-LR-DU-WS THRU AUG 11 WEEK-SCHEDULE = OCC-LR-ND-WS THRU AUG 18 WEEK-SCHEDULE = OCC-LR-DU-WS THRU AUG 25 WEEK-SCHEDULE = OCC-LR-ND-WS THRU SEP 1 WEEK-SCHEDULE = OCC-LR-DU-WS THRU SEP 8 WEEK-SCHEDULE = OCC-LR-ND-WS THRU SEP 15 WEEK-SCHEDULE = OCC-LR-DU-WS THRU SEP 22 WEEK-SCHEDULE = OCC-LR-ND-WS THRU SEP 29 WEEK-SCHEDULE = OCC-LR-DU-WS THRU OCT 6 WEEK-SCHEDULE = OCC-LR-ND-WS THRU OCT 13 WEEK-SCHEDULE = OCC-LR-DU-WS THRU OCT 20 WEEK-SCHEDULE = OCC-LR-ND-WS THRU OCT 27 WEEK-SCHEDULE = OCC-LR-DU-WS THRU NOV 3 WEEK-SCHEDULE = OCC-LR-ND-WS THRU NOV 10 WEEK-SCHEDULE = OCC-LR-DU-WS THRU NOV 17 WEEK-SCHEDULE = OCC-LR-ND-WS THRU NOV 24 WEEK-SCHEDULE = OCC-LR-DU-WS THRU DEC 1 WEEK-SCHEDULE = OCC-LR-ND-WS THRU DEC 8 WEEK-SCHEDULE = OCC-LR-DU-WS THRU DEC 15 WEEK-SCHEDULE = OCC-LR-ND-WS THRU DEC 22 WEEK-SCHEDULE = OCC-LR-DU-WS THRU DEC 31 WEEK-SCHEDULE = OCC-LR-DU-WS .. OCC-BR-DU-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Occ-DU-BR-WD-DS DAYS (WEH) DAY-SCHEDULE = Occ-DU-BR-WE-DS .. OCC-BR-ND-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Occ-ND-BR-WD-DS DAYS (WEH) DAY-SCHEDULE = Occ-ND-BR-WE-DS .. $ for Yr2000, Jan 1 is a Saturday $ week schedules alternate Day-Use and Non-Day-Use Schedules OCC-BR-SCH = SCHEDULE TYPE = FRACTION THRU JAN 7 WEEK-SCHEDULE = OCC-BR-DU-WS THRU JAN 14 WEEK-SCHEDULE = OCC-BR-ND-WS THRU JAN 21 WEEK-SCHEDULE = OCC-BR-DU-WS THRU JAN 28 WEEK-SCHEDULE = OCC-BR-ND-WS THRU FEB 4 WEEK-SCHEDULE = OCC-BR-DU-WS THRU FEB 11 WEEK-SCHEDULE = OCC-BR-ND-WS THRU FEB 18 WEEK-SCHEDULE = OCC-BR-DU-WS THRU FEB 25 WEEK-SCHEDULE = OCC-BR-ND-WS THRU MAR 3 WEEK-SCHEDULE = OCC-BR-DU-WS THRU MAR 10 WEEK-SCHEDULE = OCC-BR-ND-WS THRU MAR 17 WEEK-SCHEDULE = OCC-BR-DU-WS THRU MAR 24 WEEK-SCHEDULE = OCC-BR-ND-WS THRU MAR 31 WEEK-SCHEDULE = OCC-BR-DU-WS THRU APR 7 WEEK-SCHEDULE = OCC-BR-ND-WS THRU APR 14 WEEK-SCHEDULE = OCC-BR-DU-WS THRU APR 21 WEEK-SCHEDULE = OCC-BR-ND-WS THRU APR 28 WEEK-SCHEDULE = OCC-BR-DU-WS THRU MAY 5 WEEK-SCHEDULE = OCC-BR-ND-WS THRU MAY 12 WEEK-SCHEDULE = OCC-BR-DU-WS THRU MAY 19 WEEK-SCHEDULE = OCC-BR-ND-WS THRU MAY 26 WEEK-SCHEDULE = OCC-BR-DU-WS THRU JUN 2 WEEK-SCHEDULE = OCC-BR-ND-WS THRU JUN 9 WEEK-SCHEDULE = OCC-BR-DU-WS THRU JUN 16 WEEK-SCHEDULE = OCC-BR-ND-WS THRU JUN 23 WEEK-SCHEDULE = OCC-BR-DU-WS THRU JUN 30 WEEK-SCHEDULE = OCC-BR-ND-WS THRU JUL 7 WEEK-SCHEDULE = OCC-BR-DU-WS THRU JUL 14 WEEK-SCHEDULE = OCC-BR-ND-WS THRU JUL 21 WEEK-SCHEDULE = OCC-BR-DU-WS THRU JUL 28 WEEK-SCHEDULE = OCC-BR-ND-WS THRU AUG 4 WEEK-SCHEDULE = OCC-BR-DU-WS THRU AUG 11 WEEK-SCHEDULE = OCC-BR-ND-WS THRU AUG 18 WEEK-SCHEDULE = OCC-BR-DU-WS THRU AUG 25 WEEK-SCHEDULE = OCC-BR-ND-WS THRU SEP 1 WEEK-SCHEDULE = OCC-BR-DU-WS THRU SEP 8 WEEK-SCHEDULE = OCC-BR-ND-WS THRU SEP 15 WEEK-SCHEDULE = OCC-BR-DU-WS THRU SEP 22 WEEK-SCHEDULE = OCC-BR-ND-WS THRU SEP 29 WEEK-SCHEDULE = OCC-BR-DU-WS THRU OCT 6 WEEK-SCHEDULE = OCC-BR-ND-WS THRU OCT 13 WEEK-SCHEDULE = OCC-BR-DU-WS THRU OCT 20 WEEK-SCHEDULE = OCC-BR-ND-WS THRU OCT 27 WEEK-SCHEDULE = OCC-BR-DU-WS THRU NOV 3 WEEK-SCHEDULE = OCC-BR-ND-WS THRU NOV 10 WEEK-SCHEDULE = OCC-BR-DU-WS THRU NOV 17 WEEK-SCHEDULE = OCC-BR-ND-WS THRU NOV 24 WEEK-SCHEDULE = OCC-BR-DU-WS THRU DEC 1 WEEK-SCHEDULE = OCC-BR-ND-WS THRU DEC 8 WEEK-SCHEDULE = OCC-BR-DU-WS THRU DEC 15 WEEK-SCHEDULE = OCC-BR-ND-WS THRU DEC 22 WEEK-SCHEDULE = OCC-BR-DU-WS THRU DEC 31 WEEK-SCHEDULE = OCC-BR-DU-WS .. $ DOE2 Lighting Schedule from spreadsheet: ================================================================= $ Winter Schedule: $ Lighting Schedule, average for all WEEKDAYS of the year, DAYUSE Only, LIVING Areas Ltg-DU-LR-WD-WI-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0080,0.0080,0.0080,0.0080,0.0159,0.0319,0.0558,0.0478, 0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0558, 0.1037,0.1276,0.1356,0.1356,0.1196,0.0638,0.0319,0.0159) .. $ Lighting Schedule, average for all WEEKDAYS of the year, DAYUSE Only, BEDROOM Areas Ltg-DU-BR-WD-WI-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0092,0.0092,0.0092,0.0092,0.0366,0.1008,0.1191,0.1008, 0.0275,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092,0.0183, 0.0366,0.0458,0.0824,0.1191,0.1374,0.1191,0.0641,0.0275) .. $ Lighting Schedule, average for all WEEKEND days of the year, DAYUSE Only, LIVING Areas Ltg-DU-LR-WE-WI-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0080,0.0080,0.0080,0.0080,0.0159,0.0319,0.0399,0.0399, 0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0399, 0.0877,0.1116,0.1356,0.1356,0.1196,0.0797,0.0478,0.0159) .. $ Lighting Schedule, average for all WEEKEND days of the year, DAYUSE Only, BEDROOM Areas Ltg-DU-BR-WE-WI-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0092,0.0092,0.0092,0.0092,0.0366,0.1008,0.1191,0.1008, 0.0275,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092,0.0183, 0.0366,0.0458,0.0824,0.1191,0.1374,0.1191,0.0641,0.0275) .. $ Lighting Schedule, average for all WEEKDAYS of the year, NON-DAY-USE Only, LIVING Areas Ltg-ND-LR-WD-WI-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0080,0.0080,0.0080,0.0080,0.0159,0.0319,0.0558,0.0478, 0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0558, 0.1037,0.1276,0.1356,0.1356,0.1196,0.0638,0.0319,0.0159) .. $ Lighting Schedule, average for all WEEKDAYS of the year, NON-DAY-USE Only, BEDROOM Areas Ltg-ND-BR-WD-WI-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0092,0.0092,0.0092,0.0092,0.0366,0.1008,0.1191,0.1008, 0.0275,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092,0.0183, 0.0366,0.0458,0.0824,0.1191,0.1374,0.1191,0.0641,0.0275) .. $ Lighting Schedule, average for all WEEKEND days of the year, NON-DAY-USE Only, LIVING Areas Ltg-ND-LR-WE-WI-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0080,0.0080,0.0080,0.0080,0.0159,0.0319,0.0399,0.0399, 0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0399, 0.0877,0.1116,0.1356,0.1356,0.1196,0.0797,0.0478,0.0159) .. $ Lighting Schedule, average for all WEEKEND days of the year, NON-DAY-USE Only, BEDROOM Areas Ltg-ND-BR-WE-WI-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0092,0.0092,0.0092,0.0092,0.0366,0.1008,0.1191,0.1008, 0.0275,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092,0.0183, 0.0366,0.0458,0.0824,0.1191,0.1374,0.1191,0.0641,0.0275) .. Ltg-LR-DU-WI-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Ltg-DU-LR-WD-WI-DS DAYS (WEH) DAY-SCHEDULE = Ltg-DU-LR-WE-WI-DS .. Ltg-LR-ND-WI-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Ltg-ND-LR-WD-WI-DS DAYS (WEH) DAY-SCHEDULE = Ltg-ND-LR-WE-WI-DS .. Ltg-BR-DU-WI-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Ltg-DU-BR-WD-WI-DS DAYS (WEH) DAY-SCHEDULE = Ltg-DU-BR-WE-WI-DS .. Ltg-BR-ND-WI-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Ltg-ND-BR-WD-WI-DS DAYS (WEH) DAY-SCHEDULE = Ltg-ND-BR-WE-WI-DS .. $ Spring/Fall Schedule: $ Lighting Schedule, average for all WEEKDAYS of the year, DAYUSE Only, LIVING Areas Ltg-DU-LR-WD-SF-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0080,0.0080,0.0080,0.0080,0.0159,0.0319,0.0399,0.0399, 0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0399, 0.0877,0.1116,0.1356,0.1356,0.1196,0.0638,0.0319,0.0159) .. $ Lighting Schedule, average for all WEEKDAYS of the year, DAYUSE Only, BEDROOM Areas Ltg-DU-BR-WD-SF-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0092,0.0092,0.0092,0.0092,0.0366,0.0733,0.0824,0.0733, 0.0275,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092, 0.0275,0.0458,0.0824,0.1191,0.1374,0.1191,0.0641,0.0275) .. $ Lighting Schedule, average for all WEEKEND days of the year, DAYUSE Only, LIVING Areas Ltg-DU-LR-WE-SF-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0080,0.0080,0.0080,0.0080,0.0159,0.0319,0.0399,0.0399, 0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0399, 0.0877,0.1116,0.1356,0.1356,0.1196,0.0797,0.0478,0.0159) .. $ Lighting Schedule, average for all WEEKEND days of the year, DAYUSE Only, BEDROOM Areas Ltg-DU-BR-WE-SF-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0092,0.0092,0.0092,0.0092,0.0366,0.0733,0.0824,0.0733, 0.0275,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092, 0.0275,0.0458,0.0824,0.1191,0.1374,0.1191,0.0916,0.0275) .. $ Lighting Schedule, average for all WEEKDAYS of the year, NON-DAY-USE Only, LIVING Areas Ltg-ND-LR-WD-SF-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0080,0.0080,0.0080,0.0080,0.0159,0.0319,0.0399,0.0399, 0.0080,0.0080,0.0080,0.0080,0.0080,0.0080,0.0080,0.0239, 0.0877,0.1116,0.1356,0.1356,0.1196,0.0638,0.0319,0.0159) .. $ Lighting Schedule, average for all WEEKDAYS of the year, NON-DAY-USE Only, BEDROOM Areas Ltg-ND-BR-WD-SF-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0092,0.0092,0.0092,0.0092,0.0366,0.0733,0.0824,0.0733, 0.0275,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092, 0.0275,0.0458,0.0824,0.1191,0.1374,0.1191,0.0641,0.0275) .. $ Lighting Schedule, average for all WEEKEND days of the year, NON-DAY-USE Only, LIVING Areas Ltg-ND-LR-WE-SF-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0080,0.0080,0.0080,0.0080,0.0159,0.0319,0.0399,0.0399, 0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0399, 0.0877,0.1116,0.1356,0.1356,0.1196,0.0797,0.0478,0.0159) .. $ Lighting Schedule, average for all WEEKEND days of the year, NON-DAY-USE Only, BEDROOM Areas Ltg-ND-BR-WE-SF-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0092,0.0092,0.0092,0.0092,0.0366,0.0733,0.0824,0.0733, 0.0275,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092, 0.0275,0.0458,0.0824,0.1191,0.1374,0.1191,0.0916,0.0275) .. Ltg-LR-DU-SF-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Ltg-DU-LR-WD-SF-DS DAYS (WEH) DAY-SCHEDULE = Ltg-DU-LR-WE-SF-DS .. Ltg-LR-ND-SF-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Ltg-ND-LR-WD-SF-DS DAYS (WEH) DAY-SCHEDULE = Ltg-ND-LR-WE-SF-DS .. Ltg-BR-DU-SF-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Ltg-DU-BR-WD-SF-DS DAYS (WEH) DAY-SCHEDULE = Ltg-DU-BR-WE-SF-DS .. Ltg-BR-ND-SF-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Ltg-ND-BR-WD-SF-DS DAYS (WEH) DAY-SCHEDULE = Ltg-ND-BR-WE-SF-DS .. $ Summer Schedule: $ Lighting Schedule, average for all WEEKDAYS of the year, DAYUSE Only, LIVING Areas Ltg-DU-LR-WD-SU-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0080,0.0080,0.0080,0.0080,0.0159,0.0319,0.0239,0.0239, 0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0239, 0.0239,0.0718,0.0957,0.1196,0.1196,0.0638,0.0319,0.0159) .. $ Lighting Schedule, average for all WEEKDAYS of the year, DAYUSE Only, BEDROOM Areas Ltg-DU-BR-WD-SU-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0092,0.0092,0.0092,0.0092,0.0366,0.0733,0.0641,0.0458, 0.0275,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092, 0.0092,0.0092,0.0275,0.0824,0.1374,0.1191,0.0641,0.0275) .. $ Lighting Schedule, average for all WEEKEND days of the year, DAYUSE Only, LIVING Areas Ltg-DU-LR-WE-SU-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0080,0.0080,0.0080,0.0080,0.0159,0.0319,0.0239,0.0239, 0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0239, 0.0239,0.0399,0.0957,0.1356,0.1196,0.0797,0.0478,0.0159) .. $ Lighting Schedule, average for all WEEKEND days of the year, DAYUSE Only, BEDROOM Areas Ltg-DU-BR-WE-SU-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0092,0.0092,0.0092,0.0092,0.0366,0.0733,0.0641,0.0458, 0.0275,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092, 0.0092,0.0092,0.0275,0.0824,0.1374,0.1191,0.0641,0.0275) .. $ Lighting Schedule, average for all WEEKDAYS of the year, NON-DAY-USE Only, LIVING Areas Ltg-ND-LR-WD-SU-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0080,0.0080,0.0080,0.0080,0.0159,0.0319,0.0080,0.0080, 0.0080,0.0080,0.0080,0.0080,0.0080,0.0080,0.0080,0.0080, 0.0080,0.0718,0.0957,0.1196,0.1196,0.0638,0.0319,0.0159) .. $ Lighting Schedule, average for all WEEKDAYS of the year, NON-DAY-USE Only, BEDROOM Areas Ltg-ND-BR-WD-SU-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0092,0.0092,0.0092,0.0092,0.0366,0.0733,0.0641,0.0458, 0.0275,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092, 0.0092,0.0092,0.0275,0.0824,0.1374,0.1191,0.0641,0.0275) .. $ Lighting Schedule, average for all WEEKEND days of the year, NON-DAY-USE Only, LIVING Areas Ltg-ND-LR-WE-SU-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0080,0.0080,0.0080,0.0080,0.0159,0.0319,0.0239,0.0239, 0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0239,0.0239, 0.0239,0.0399,0.0957,0.1356,0.1196,0.0797,0.0478,0.0159) .. $ Lighting Schedule, average for all WEEKEND days of the year, NON-DAY-USE Only, BEDROOM Areas Ltg-ND-BR-WE-SU-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0092,0.0092,0.0092,0.0092,0.0366,0.0733,0.0641,0.0458, 0.0275,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092,0.0092, 0.0092,0.0092,0.0275,0.0824,0.1374,0.1191,0.0641,0.0275) .. Ltg-LR-DU-SU-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Ltg-DU-LR-WD-SU-DS DAYS (WEH) DAY-SCHEDULE = Ltg-DU-LR-WE-SU-DS .. Ltg-LR-ND-SU-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Ltg-ND-LR-WD-SU-DS DAYS (WEH) DAY-SCHEDULE = Ltg-ND-LR-WE-SU-DS .. Ltg-BR-DU-SU-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Ltg-DU-BR-WD-SU-DS DAYS (WEH) DAY-SCHEDULE = Ltg-DU-BR-WE-SU-DS .. Ltg-BR-ND-SU-WS = WEEK-SCHEDULE TYPE = FRACTION DAYS (WD ) DAY-SCHEDULE = Ltg-ND-BR-WD-SU-DS DAYS (WEH) DAY-SCHEDULE = Ltg-ND-BR-WE-SU-DS .. $ for Yr2000, Jan 1 is a Saturday $ week schedules alternate Day-Use and Non-Day-Use Schedules Ltg-LR-SCH = SCHEDULE TYPE = FRACTION THRU JAN 7 WEEK-SCHEDULE = Ltg-LR-DU-WI-WS THRU JAN 14 WEEK-SCHEDULE = Ltg-LR-ND-WI-WS THRU JAN 21 WEEK-SCHEDULE = Ltg-LR-DU-WI-WS THRU JAN 28 WEEK-SCHEDULE = Ltg-LR-ND-WI-WS THRU FEB 4 WEEK-SCHEDULE = Ltg-LR-DU-WI-WS THRU FEB 11 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU FEB 18 WEEK-SCHEDULE = Ltg-LR-DU-SF-WS THRU FEB 25 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU MAR 3 WEEK-SCHEDULE = Ltg-LR-DU-SF-WS THRU MAR 10 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU MAR 17 WEEK-SCHEDULE = Ltg-LR-DU-SF-WS THRU MAR 24 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU MAR 31 WEEK-SCHEDULE = Ltg-LR-DU-SF-WS THRU APR 7 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU APR 14 WEEK-SCHEDULE = Ltg-LR-DU-SF-WS THRU APR 21 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU APR 28 WEEK-SCHEDULE = Ltg-LR-DU-SF-WS THRU MAY 5 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU MAY 12 WEEK-SCHEDULE = Ltg-LR-DU-SU-WS THRU MAY 19 WEEK-SCHEDULE = Ltg-LR-ND-SU-WS THRU MAY 26 WEEK-SCHEDULE = Ltg-LR-DU-SU-WS THRU JUN 2 WEEK-SCHEDULE = Ltg-LR-ND-SU-WS THRU JUN 9 WEEK-SCHEDULE = Ltg-LR-DU-SU-WS THRU JUN 16 WEEK-SCHEDULE = Ltg-LR-ND-SU-WS THRU JUN 23 WEEK-SCHEDULE = Ltg-LR-DU-SU-WS THRU JUN 30 WEEK-SCHEDULE = Ltg-LR-ND-SU-WS THRU JUL 7 WEEK-SCHEDULE = Ltg-LR-DU-SU-WS THRU JUL 14 WEEK-SCHEDULE = Ltg-LR-ND-SU-WS THRU JUL 21 WEEK-SCHEDULE = Ltg-LR-DU-SU-WS THRU JUL 28 WEEK-SCHEDULE = Ltg-LR-ND-SU-WS THRU AUG 4 WEEK-SCHEDULE = Ltg-LR-DU-SU-WS THRU AUG 11 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU AUG 18 WEEK-SCHEDULE = Ltg-LR-DU-SF-WS THRU AUG 25 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU SEP 1 WEEK-SCHEDULE = Ltg-LR-DU-SF-WS THRU SEP 8 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU SEP 15 WEEK-SCHEDULE = Ltg-LR-DU-SF-WS THRU SEP 22 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU SEP 29 WEEK-SCHEDULE = Ltg-LR-DU-SF-WS THRU OCT 6 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU OCT 13 WEEK-SCHEDULE = Ltg-LR-DU-SF-WS THRU OCT 20 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU OCT 27 WEEK-SCHEDULE = Ltg-LR-DU-SF-WS THRU NOV 3 WEEK-SCHEDULE = Ltg-LR-ND-SF-WS THRU NOV 10 WEEK-SCHEDULE = Ltg-LR-DU-WI-WS THRU NOV 17 WEEK-SCHEDULE = Ltg-LR-ND-WI-WS THRU NOV 24 WEEK-SCHEDULE = Ltg-LR-DU-WI-WS THRU DEC 1 WEEK-SCHEDULE = Ltg-LR-ND-WI-WS THRU DEC 8 WEEK-SCHEDULE = Ltg-LR-DU-WI-WS THRU DEC 15 WEEK-SCHEDULE = Ltg-LR-ND-WI-WS THRU DEC 22 WEEK-SCHEDULE = Ltg-LR-DU-WI-WS THRU DEC 31 WEEK-SCHEDULE = Ltg-LR-DU-WI-WS .. $ for Yr2000, Jan 1 is a Saturday $ week schedules alternate Day-Use and Non-Day-Use Schedules Ltg-BR-SCH = SCHEDULE TYPE = FRACTION THRU JAN 7 WEEK-SCHEDULE = Ltg-BR-DU-WI-WS THRU JAN 14 WEEK-SCHEDULE = Ltg-BR-ND-WI-WS THRU JAN 21 WEEK-SCHEDULE = Ltg-BR-DU-WI-WS THRU JAN 28 WEEK-SCHEDULE = Ltg-BR-ND-WI-WS THRU FEB 4 WEEK-SCHEDULE = Ltg-BR-DU-WI-WS THRU FEB 11 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU FEB 18 WEEK-SCHEDULE = Ltg-BR-DU-SF-WS THRU FEB 25 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU MAR 3 WEEK-SCHEDULE = Ltg-BR-DU-SF-WS THRU MAR 10 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU MAR 17 WEEK-SCHEDULE = Ltg-BR-DU-SF-WS THRU MAR 24 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU MAR 31 WEEK-SCHEDULE = Ltg-BR-DU-SF-WS THRU APR 7 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU APR 14 WEEK-SCHEDULE = Ltg-BR-DU-SF-WS THRU APR 21 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU APR 28 WEEK-SCHEDULE = Ltg-BR-DU-SF-WS THRU MAY 5 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU MAY 12 WEEK-SCHEDULE = Ltg-BR-DU-SU-WS THRU MAY 19 WEEK-SCHEDULE = Ltg-BR-ND-SU-WS THRU MAY 26 WEEK-SCHEDULE = Ltg-BR-DU-SU-WS THRU JUN 2 WEEK-SCHEDULE = Ltg-BR-ND-SU-WS THRU JUN 9 WEEK-SCHEDULE = Ltg-BR-DU-SU-WS THRU JUN 16 WEEK-SCHEDULE = Ltg-BR-ND-SU-WS THRU JUN 23 WEEK-SCHEDULE = Ltg-BR-DU-SU-WS THRU JUN 30 WEEK-SCHEDULE = Ltg-BR-ND-SU-WS THRU JUL 7 WEEK-SCHEDULE = Ltg-BR-DU-SU-WS THRU JUL 14 WEEK-SCHEDULE = Ltg-BR-ND-SU-WS THRU JUL 21 WEEK-SCHEDULE = Ltg-BR-DU-SU-WS THRU JUL 28 WEEK-SCHEDULE = Ltg-BR-ND-SU-WS THRU AUG 4 WEEK-SCHEDULE = Ltg-BR-DU-SU-WS THRU AUG 11 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU AUG 18 WEEK-SCHEDULE = Ltg-BR-DU-SF-WS THRU AUG 25 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU SEP 1 WEEK-SCHEDULE = Ltg-BR-DU-SF-WS THRU SEP 8 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU SEP 15 WEEK-SCHEDULE = Ltg-BR-DU-SF-WS THRU SEP 22 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU SEP 29 WEEK-SCHEDULE = Ltg-BR-DU-SF-WS THRU OCT 6 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU OCT 13 WEEK-SCHEDULE = Ltg-BR-DU-SF-WS THRU OCT 20 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU OCT 27 WEEK-SCHEDULE = Ltg-BR-DU-SF-WS THRU NOV 3 WEEK-SCHEDULE = Ltg-BR-ND-SF-WS THRU NOV 10 WEEK-SCHEDULE = Ltg-BR-DU-WI-WS THRU NOV 17 WEEK-SCHEDULE = Ltg-BR-ND-WI-WS THRU NOV 24 WEEK-SCHEDULE = Ltg-BR-DU-WI-WS THRU DEC 1 WEEK-SCHEDULE = Ltg-BR-ND-WI-WS THRU DEC 8 WEEK-SCHEDULE = Ltg-BR-DU-WI-WS THRU DEC 15 WEEK-SCHEDULE = Ltg-BR-ND-WI-WS THRU DEC 22 WEEK-SCHEDULE = Ltg-BR-DU-WI-WS THRU DEC 31 WEEK-SCHEDULE = Ltg-BR-DU-WI-WS .. $ DOE2 Equipment Schedule from spreadsheet: ===================================================================== $ Appliance & Plug Load Schedule, average for all days of the year, all spaces $ Daily sum = 1.0, Peak schedule value = 0.0588 ApplPlug-DS =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0335,0.0288,0.0288,0.0270,0.0270,0.0335,0.0447,0.0523, 0.0523,0.0482,0.0417,0.0417,0.0376,0.0341,0.0341,0.0341, 0.0429,0.0347,0.0588,0.0588,0.0564,0.0564,0.0506,0.0417) .. ApplPlug-DS2 =DAY-SCHEDULE TYPE = FRACTION (1,24) (#[0.0335 * 1.2],#[0.0288 * 1.2],#[0.0288 * 1.2],#[0.0270 * 1.2], #[0.0270 * 1.2],#[0.0335 * 1.2],#[0.0447 * 1.2],#[0.0523 * 1.2], #[0.0523 * 1.2],#[0.0482 * 1.2],#[0.0417 * 1.2],#[0.0417 * 1.2], #[0.0376 * 1.2],#[0.0341 * 1.2],#[0.0341 * 1.2],#[0.0341 * 1.2], #[0.0429 * 1.2],#[0.0347 * 1.2],#[0.0588 * 1.2],#[0.0588 * 1.2], #[0.0564 * 1.2],#[0.0564 * 1.2],#[0.0506 * 1.2],#[0.0417 * 1.2]) .. Equipment-SCH =SCHEDULE TYPE = FRACTION ##ifdef calib[] THRU JUL 31 (ALL) ApplPlug-DS THRU AUG 31 (ALL) ApplPlug-DS2 ##endif THRU DEC 31 (ALL) ApplPlug-DS .. $ DHW Usage Schedule, average for all days of the year $ Daily sum = 1.0, Peak schedule value = 0.0921 DHW-DS-Jan =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0131,0.0044,0.0044,0.0000,0.0000,0.0044,0.0173,0.0737, 0.0781,0.0955,0.0737,0.0608,0.0564,0.0521,0.0391,0.0347, 0.0391,0.0433,0.0564,0.0781,0.0651,0.0564,0.0477,0.0433) .. DHW-DS-Feb =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0131,0.0044,0.0044,0.0000,0.0000,0.0044,0.0174,0.0740, 0.0784,0.0959,0.0740,0.0610,0.0566,0.0523,0.0393,0.0349, 0.0393,0.0435,0.0566,0.0784,0.0654,0.0566,0.0479,0.0435) .. DHW-DS-Mar =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0131,0.0044,0.0044,0.0000,0.0000,0.0044,0.0173,0.0737, 0.0781,0.0955,0.0737,0.0608,0.0564,0.0521,0.0391,0.0347, 0.0391,0.0433,0.0564,0.0781,0.0651,0.0564,0.0477,0.0433) .. DHW-DS-Apr =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0129,0.0043,0.0043,0.0000,0.0000,0.0043,0.0171,0.0729, 0.0772,0.0944,0.0729,0.0601,0.0557,0.0514,0.0386,0.0343, 0.0386,0.0428,0.0557,0.0772,0.0644,0.0557,0.0471,0.0428) .. DHW-DS-May =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0127,0.0042,0.0042,0.0000,0.0000,0.0042,0.0168,0.0715, 0.0757,0.0926,0.0715,0.0589,0.0547,0.0504,0.0379,0.0337, 0.0379,0.0420,0.0547,0.0757,0.0631,0.0547,0.0462,0.0420) .. DHW-DS-Jun =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0124,0.0041,0.0041,0.0000,0.0000,0.0041,0.0164,0.0697, 0.0738,0.0903,0.0697,0.0575,0.0533,0.0492,0.0370,0.0328, 0.0370,0.0410,0.0533,0.0738,0.0616,0.0533,0.0451,0.0410) .. DHW-DS-Jul =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0121,0.0040,0.0040,0.0000,0.0000,0.0040,0.0160,0.0681, 0.0722,0.0883,0.0681,0.0562,0.0521,0.0481,0.0361,0.0321, 0.0361,0.0401,0.0521,0.0722,0.0602,0.0521,0.0441,0.0401) .. DHW-DS-Aug =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0120,0.0040,0.0040,0.0000,0.0000,0.0040,0.0159,0.0675, 0.0715,0.0874,0.0675,0.0556,0.0516,0.0477,0.0358,0.0318, 0.0358,0.0397,0.0516,0.0715,0.0596,0.0516,0.0437,0.0397) .. DHW-DS-Sep =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0121,0.0040,0.0040,0.0000,0.0000,0.0040,0.0160,0.0681, 0.0722,0.0883,0.0681,0.0562,0.0521,0.0481,0.0361,0.0321, 0.0361,0.0401,0.0521,0.0722,0.0602,0.0521,0.0441,0.0401) .. DHW-DS-Oct =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0124,0.0041,0.0041,0.0000,0.0000,0.0041,0.0164,0.0697, 0.0738,0.0903,0.0697,0.0575,0.0533,0.0492,0.0370,0.0328, 0.0370,0.0410,0.0533,0.0738,0.0616,0.0533,0.0451,0.0410) .. DHW-DS-Nov =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0127,0.0042,0.0042,0.0000,0.0000,0.0042,0.0168,0.0715, 0.0757,0.0926,0.0715,0.0589,0.0547,0.0504,0.0379,0.0337, 0.0379,0.0420,0.0547,0.0757,0.0631,0.0547,0.0462,0.0420) .. DHW-DS-Dec =DAY-SCHEDULE TYPE = FRACTION (1,24) (0.0129,0.0043,0.0043,0.0000,0.0000,0.0043,0.0171,0.0729, 0.0772,0.0944,0.0729,0.0601,0.0557,0.0514,0.0386,0.0343, 0.0386,0.0428,0.0557,0.0772,0.0644,0.0557,0.0471,0.0428) .. DHW-SCH =SCHEDULE TYPE = FRACTION THRU Jan 31 (ALL) DHW-DS-Jan THRU Feb 28 (ALL) DHW-DS-Feb THRU Mar 31 (ALL) DHW-DS-Mar THRU Apr 30 (ALL) DHW-DS-Apr THRU May 31 (ALL) DHW-DS-May THRU Jun 30 (ALL) DHW-DS-Jun THRU Jul 31 (ALL) DHW-DS-Jul THRU Aug 31 (ALL) DHW-DS-Aug THRU Sep 30 (ALL) DHW-DS-Sep THRU Oct 31 (ALL) DHW-DS-Oct THRU Nov 30 (ALL) DHW-DS-Nov THRU Dec 31 (ALL) DHW-DS-Dec .. $ ============================================================================= $ WINDOW INTERIOR SHADE $ ============================================================================= "Shading Sched" = SCHEDULE TYPE = MULTIPLIER THRU MAY 15 (ALL) (1,24) (0.85) THRU SEP 30 (ALL) (1,24) (SumWinShad[]) THRU DEC 31 (ALL) (1,24) (0.85) .. $ -------------------------------------------------------------- $ Meters $ -------------------------------------------------------------- "EM1" = ELEC-METER $master meter TYPE = UTILITY COGEN-TRACK-MODE = MAX-OUTPUT $this allows PV-array to produce more .. $power than needed, will run meter "backwards" "FM1" = FUEL-METER $master meter TYPE = NATURAL-GAS .. MASTER-METERS MSTR-ELEC-METER = "EM1" MSTR-FUEL-METER = "FM1" .. Shading10 = SCHEDULE TYPE = MULTIPLIER THRU DEC 31 (ALL) (1,24) (0.9) .. Shading15 = SCHEDULE TYPE = MULTIPLIER THRU DEC 31 (ALL) (1,24) (0.85) .. Shading20 = SCHEDULE TYPE = MULTIPLIER THRU DEC 31 (ALL) (1,24) (0.8) .. Shading30 = SCHEDULE TYPE = MULTIPLIER THRU DEC 31 (ALL) (1,24) (0.7) .. Shading70 = SCHEDULE TYPE = MULTIPLIER THRU DEC 31 (ALL) (1,24) (0.3) .. $ -------------------------------------------------------------- $ Building Shade Commands $ -------------------------------------------------------------- BUILDING-SHADE X=0 Y=0 Z= #[9 + 8] H=2 W=48 AZ=180 TILT = 180 .. BUILDING-SHADE X=48 Y=30 Z= #[9 + 8] H=2 W=48 AZ=0 TILT = 180 .. BUILDING-SHADE X=#[48 + 14] Y=30 Z=0 H=13 W=20 AZ=270 TILT = 90 .. BUILDING-SHADE X=48 Y=15 Z=7 H=9.5 W=14 AZ=180 TILT = 36.87 .. BUILDING-SHADE X=#[48 + 14] Y=30 Z=7 H=9.5 W=14 AZ=0 TILT = 36.87 .. $ --------------------------------------------------------- $ Polygons $ --------------------------------------------------------- HousePoly = POLYGON V1 = ( 0 , 0 ) V2 = ( 48 , 0 ) V3 = ( 48 , 30 ) V4 = ( 0 , 30 ) .. LivingPoly = POLYGON V1 = ( 0 , 0 ) V2 = ( 48 , 0 ) V3 = ( 48 , 15 ) V4 = ( 0 , 15 ) .. KitchenPoly = POLYGON V1 = ( 0 , 0 ) V2 = ( 16 , 0 ) V3 = ( 32 , 0 ) V4 = ( 48 , 0 ) V5 = ( 48 , 15 ) V6 = ( 0 , 15 ) .. BedrmBackPoly = POLYGON V1 = ( 0 , 0 ) V2 = ( 30 , 0 ) V3 = ( 30 , 15 ) V4 = ( 2 , 15 ) V5 = ( 2 , 4 ) V6 = ( 0 , 4 ) .. BedrmFrontPoly = POLYGON V1 = ( 0 , 0 ) V2 = ( 30 , 0 ) V3 = ( 30 , 15 ) V4 = ( 0 , 15 ) .. MasterPoly = POLYGON V1 = ( 0 , 0 ) V2 = ( 18 , 0 ) V3 = ( 18 , 19 ) V4 = ( 20 , 19 ) V5 = ( 20 , 30 ) V6 = ( 0 , 30 ) .. AtticPoly = POLYGON V1 = ( 0 , 0 ) V2 = ( 48 , 0 ) V3 = ( 48 , 15 ) V4 = ( 0 , 15 ) .. AttSpcPoly = POLYGON V1 = ( 0 , 0 ) V2 = ( 48 , 0 ) V3 = ( 48 , 7.5 ) V4 = ( 0 , 7.5 ) .. AtticEndPoly = POLYGON V1 = ( 0 , 0 ) V2 = ( 30 , 0 ) V3 = ( 15 , 11.25 ) .. "SuperWindow" = SCHEDULE TYPE = MULTIPLIER THRU DEC 31 (ALL) (1,24) (0.22) .. $**************************$ $ SPACE DESCRIPTIONS $ $**************************$ HOUSE-SC = SPACE-CONDITIONS $ Custom weighting factors used FLOOR-WEIGHT = 0 FURNITURE-TYPE = LIGHT FURN-FRACTION = 0.4 FURN-WEIGHT = 8.0 INF-METHOD = RESIDENTIAL RES-INF-COEF = (infconst[],infwind[],infdeltat[]) $ const,wind ,deltaT coefficients .. SET-DEFAULT FOR WINDOW SHADING-SCHEDULE = "Shading Sched" SETBACK = 0.167 ##if #[mainglass[] EQS "ElectoGlass"] GLASS-TYPE-SW = ElectoGlassSW SWITCH-CONTROL = OUTSIDE-TEMP SWITCH-SET-HI = 73 SWITCH-SET-LO = 60 SWITCH-SCH = "Always On" CONDUCT-SCHEDULE = "SuperWindow" ##endif .. SET-DEFAULT FOR EXTERIOR-WALL CONSTRUCTION = EXT-WALL .. FirstFloor = FLOOR X = 0 Y = 0 Z = 0 AZIMUTH = 0 SHAPE = POLYGON POLYGON = HousePoly FLOOR-HEIGHT = 9 SPACE-HEIGHT = 9 .. $====================================================================== $ Great Rooms Space $====================================================================== GREATROOM = SPACE SPACE-CONDITIONS = HOUSE-SC X = 0 Y = 0 Z = 0 AZ = 0 SHAPE = POLYGON POLYGON = LivingPoly PEOPLE-SCHEDULE = OCC-LR-SCH PEOPLE-HG-SENS = 230 PEOPLE-HG-LAT = 190 NUMBER-OF-PEOPLE = #[0.5 * NumPeople[]] LIGHTING-SCHEDULE= Ltg-LR-SCH LIGHTING-W/AREA = #[#[AnnLtgLR[] / LivingArea[]] / 0.365] EQUIP-SCHEDULE = Equipment-SCH EQUIPMENT-W/AREA = #[#[AnnEqu[] / LivingArea[]] / 0.365] EQUIP-SENSIBLE = EquSens[] EQUIP-LATENT = EquLat[] .. GR-INT = INTERIOR-WALL INT-WALL-TYPE = INTERNAL AREA = #[10 * 40] CONSTRUCTION = INTWALL-1 .. GR-EXT1 = EXTERIOR-WALL LOCATION = SPACE-V1 .. ##if #[WinAreaMeth[] EQS Actual] ##set1 fw #[framwid[] * 1.5] "Front GR1" = WINDOW GLASS-TYPE = mainglass[] HEIGHT = #[#[73 - #[fw[] * 2]] / 12] WIDTH = #[#[73 - #[fw[] * 2]] / 12] X = 2.5 Y = #[7.5 - #[73 / 12]] FRAME-WIDTH = #[fw[] / 12] FRAME-ABS = 0.7 FRAME-CONDUCT = framecond[] OVERHANG-A = #[0.5 + #[fw[] / 12]] $ offset from side of window OVERHANG-B = 0.6 $ offset from top of window OVERHANG-W = #[0.5 + #[73 / 12]] $ width of shading surface OVERHANG-D = #[29.5 / 12] $ depth of shading surface .. "Front GR2" = WINDOW LIKE "Front GR1" X = 10 .. "Front GR3" = WINDOW LIKE "Front GR1" X = 32 .. "Front GR4" = WINDOW LIKE "Front GR1" X = 39.5 .. ##else "BAwindow GR1" = WINDOW GLASS-TYPE = mainglass[] HEIGHT = 6 WIDTH = #[BA_WinArea[] / 6] X = 2.5 Y = 1.5 .. ##endif ##set1 fw #[framwid[] * 1.5] "SideLite 1" = WINDOW GLASS-TYPE = mainglass[] HEIGHT = #[#[80 - #[fw[] * 2]] / 12] WIDTH = #[#[12 - #[fw[] * 2]] / 12] X = 21.5 Y = #[7 - #[80 / 12]] FRAME-WIDTH = #[fw[] / 12] FRAME-ABS = 0.7 FRAME-CONDUCT = framecond[] .. "SideLite 2" = WINDOW LIKE "SideLite 1" X = 26 .. "Front Door" = DOOR HEIGHT = #[80 / 12] WIDTH = #[36 / 12] X = 22.5 Y = 0 CONSTRUCTION = DoorCons[] .. GR-EXT2 = EXTERIOR-WALL LOCATION = SPACE-V2 .. ##if #[WinAreaMeth[] EQS Actual] ##set1 fw #[framwid[] * 1.5] "East GR1" = WINDOW GLASS-TYPE = mainglass[] HEIGHT = #[#[54 - #[fw[] * 2]] / 12] WIDTH = #[#[36 - #[fw[] * 2]] / 12] X = 2.5 Y = #[7.5 - #[54 / 12]] FRAME-WIDTH = #[fw[] / 12] FRAME-ABS = 0.7 FRAME-CONDUCT = framecond[] .. ##else "BAwindow GR2" = WINDOW LIKE "BAwindow GR1" .. ##endif GR-EXT3 = EXTERIOR-WALL LOCATION = SPACE-V4 .. ##if #[WinAreaMeth[] EQS Actual] "West GR1" = WINDOW LIKE "East GR1" X = 7 .. ##else "BAwindow GR3" = WINDOW LIKE "BAwindow GR1" .. ##endif GR-CEIL1 = INTERIOR-WALL SURFACE-TYPE = WALL HEIGHT = 15 WIDTH = 18 X = 0 Y = 0 Z = 9 AZ = 180 TILT = 0 NEXT-TO = MASTERBR CONSTRUCTION = INTWALL-CEIL .. GR-CEIL2 = INTERIOR-WALL SURFACE-TYPE = WALL HEIGHT = 15 WIDTH = 30 X = 15 Y = 0 Z = 9 AZ = 180 TILT = 0 NEXT-TO = BEDRMFRONT CONSTRUCTION = INTWALL-CEIL .. GR-CEIL3 = INTERIOR-WALL SURFACE-TYPE = WALL HEIGHT = 10 WIDTH = 5 INT-WALL-TYPE = AIR NEXT-TO = BEDRMFRONT CONSTRUCTION = AIR-WALL .. GR-Floor = INTERIOR-WALL LOCATION = BOTTOM TILT = 180 NEXT-TO = BASEMENT CONSTRUCTION = "INTWALL-FLOOR" .. $====================================================================== $ Kitchen/Dining Room $====================================================================== KITCHEN = SPACE SPACE-CONDITIONS = HOUSE-SC X = 0 Y = 15 SHAPE = POLYGON POLYGON = KitchenPoly PEOPLE-SCHEDULE = OCC-LR-SCH PEOPLE-HG-SENS = 230 PEOPLE-HG-LAT = 190 NUMBER-OF-PEOPLE = #[0.5 * NumPeople[]] LIGHTING-SCHEDULE= Ltg-LR-SCH LIGHTING-W/AREA = #[#[AnnLtgLR[] / LivingArea[]] / 0.365] EQUIP-SCHEDULE = Equipment-SCH EQUIPMENT-W/AREA = #[#[AnnEqu[] / LivingArea[]] / 0.365] EQUIP-SENSIBLE = EquSens[] EQUIP-LATENT = EquLat[] .. KI-INT = INTERIOR-WALL INT-WALL-TYPE = INTERNAL AREA = #[10 * 15] CONSTRUCTION = INTWALL-1 .. KI-INT1 = INTERIOR-WALL LOCATION = SPACE-V1 NEXT-TO = GREATROOM CONSTRUCTION = INTWALL-1 .. KI-INT2 = INTERIOR-WALL LOCATION = SPACE-V2 INT-WALL-TYPE = AIR NEXT-TO = GREATROOM CONSTRUCTION = AIR-WALL .. KI-INT3 = INTERIOR-WALL LOCATION = SPACE-V3 NEXT-TO = GREATROOM CONSTRUCTION = INTWALL-1 .. KI-EXT1 = EXTERIOR-WALL LOCATION = SPACE-V4 .. "Side Door" = DOOR HEIGHT = #[80 / 12] WIDTH = #[32 / 12] X = 5 Y = 0 CONSTRUCTION = DOOR-1 .. KI-EXT2 = EXTERIOR-WALL LOCATION = SPACE-V5 .. ##if #[WinAreaMeth[] EQS Actual] ##set1 fw #[framwid[] * 1.5] "East KI1" = WINDOW GLASS-TYPE = mainglass[] HEIGHT = #[#[28 - #[fw[] * 2]] / 12] WIDTH = #[#[36 - #[fw[] * 2]] / 12] X = 6 Y = #[7.5 - #[28 / 12]] FRAME-WIDTH = #[fw[] / 12] FRAME-ABS = 0.7 FRAME-CONDUCT = framecond[] .. "Back Slider1" = WINDOW GLASS-TYPE = doorglass[] HEIGHT = #[#[80 - #[fw[] * 2]] / 12] WIDTH = #[#[72 - #[fw[] * 2]] / 12] X = 19 Y = #[7.5 - #[80 / 12]] FRAME-WIDTH = #[fw[] / 12] FRAME-ABS = 0.7 FRAME-CONDUCT = framecond[] .. "Back Slider2" = WINDOW LIKE "Back Slider1" X = 38 .. ##else "BAwindow KI1" = WINDOW LIKE "BAwindow GR1" .. ##endif KI-EXT3 = EXTERIOR-WALL LOCATION = SPACE-V6 .. ##if #[WinAreaMeth[] EQS Actual] "Kitchen Win1" = WINDOW LIKE "East GR1" X = 6 .. ##else "BAwindow KI2" = WINDOW LIKE "BAwindow GR1" .. ##endif KI-CEIL1 = INTERIOR-WALL SURFACE-TYPE = WALL HEIGHT = 15 WIDTH = 30 X = 15 Y = 0 Z = 9 AZ = 180 TILT = 0 NEXT-TO = BEDRMFRONT CONSTRUCTION = INTWALL-CEIL .. KI-Floor = INTERIOR-WALL LOCATION = BOTTOM TILT = 180 NEXT-TO = BASEMENT CONSTRUCTION = "INTWALL-FLOOR" .. SecondFloor = FLOOR X = 0 Y = 0 Z = 9 AZIMUTH = 0 SHAPE = POLYGON POLYGON = HousePoly FLOOR-HEIGHT = 8 SPACE-HEIGHT = 8 .. $====================================================================== $ Master Bedrooms Space $====================================================================== MASTERBR = SPACE SPACE-CONDITIONS = HOUSE-SC Y = 0 X = 0 Z = 0 AZ = 0 SHAPE = POLYGON POLYGON = MasterPoly PEOPLE-SCHEDULE = OCC-BR-SCH PEOPLE-HG-SENS = 210 PEOPLE-HG-LAT = 140 NUMBER-OF-PEOPLE = #[0.5 * NumPeople[]] LIGHTING-SCHEDULE= Ltg-BR-SCH LIGHTING-W/AREA = #[#[AnnLtgBR[] / BedroomArea[]] / 0.365] .. MB-INT = INTERIOR-WALL INT-WALL-TYPE = INTERNAL AREA = #[10 * 3] CONSTRUCTION = INTWALL-1 .. MB-EXT1 = EXTERIOR-WALL LOCATION = SPACE-V1 .. ##if #[WinAreaMeth[] EQS Actual] "Front MB2" = WINDOW LIKE "Front GR1" HEIGHT = #[#[54 - #[fw[] * 2]] / 12] Y = #[7.5 - #[54 / 12]] .. "Front MB3" = WINDOW LIKE "Front MB2" X = 10 .. ##else "BAwindow MB1" = WINDOW LIKE "BAwindow GR1" .. ##endif MB-EXT2 = EXTERIOR-WALL LOCATION = SPACE-V5 .. ##if #[WinAreaMeth[] EQS Actual] ##set1 fw #[framwid[] * 1.5] "Back MB1" = WINDOW GLASS-TYPE = mainglass[] HEIGHT = #[#[36 - #[fw[] * 2]] / 12] WIDTH = #[#[34 - #[fw[] * 2]] / 12] X = 1.5 Y = #[7.5 - #[36 / 12]] FRAME-WIDTH = #[fw[] / 12] FRAME-ABS = 0.7 FRAME-CONDUCT = framecond[] .. "Back MB2" = WINDOW LIKE "Back MB1" HEIGHT = #[#[28 - #[fw[] * 2]] / 12] Y = #[7.5 - #[28 / 12]] X = 15 .. ##else "BAwindow MB2" = WINDOW LIKE "BAwindow GR1" .. ##endif MB-EXT3 = EXTERIOR-WALL LOCATION = SPACE-V6 .. ##if #[WinAreaMeth[] EQS Actual] "West MB1" = WINDOW LIKE "East GR1" HEIGHT = #[#[54 - #[fw[] * 2]] / 12] Y = #[7.5 - #[54 / 12]] X = 16.5 .. ##else "BAwindow MB3" = WINDOW LIKE "BAwindow GR1" .. ##endif MB-CEIL1 = INTERIOR-WALL SURFACE-TYPE = WALL HEIGHT = 15 WIDTH = 18 X = 0 Y = 7.5 Z = 8 AZ = 180 TILT = 0 NEXT-TO = ATTIC CONSTRUCTION = INTWALL-ATTFLR .. MB-CEIL2 = INTERIOR-WALL SURFACE-TYPE = WALL HEIGHT = 7.5 WIDTH = 20 X = 0 Y = 22.5 Z = 8 AZ = 180 TILT = 0 NEXT-TO = ATTIC $ ATTIC-BACK CONSTRUCTION = INTWALL-ATTFLR .. MB-CEIL3 = INTERIOR-WALL SURFACE-TYPE = WALL HEIGHT = 7.5 WIDTH = 18 X = 0 Y = 0 Z = 8 AZ = 180 TILT = 0 NEXT-TO = ATTIC $ ATTIC-FRONT CONSTRUCTION = INTWALL-ATTFLR .. $====================================================================== $ FRONT Bedroom Space $====================================================================== BEDRMFRONT = SPACE SPACE-CONDITIONS = HOUSE-SC X = 18 Y = 0 Z = 0 AZ = 0 SHAPE = POLYGON POLYGON = BedrmFrontPoly PEOPLE-SCHEDULE = OCC-BR-SCH PEOPLE-HG-SENS = 210 PEOPLE-HG-LAT = 140 NUMBER-OF-PEOPLE = #[0.25 * NumPeople[]] LIGHTING-SCHEDULE= Ltg-BR-SCH LIGHTING-W/AREA = #[#[AnnLtgBR[] / BedroomArea[]] / 0.365] .. BL-INT = INTERIOR-WALL INT-WALL-TYPE = INTERNAL AREA = #[10 * 20] CONSTRUCTION = INTWALL-1 .. BL-INT1 = INTERIOR-WALL LOCATION = SPACE-V3 NEXT-TO = BEDRMBACK CONSTRUCTION = INTWALL-1 .. BL-INT2 = INTERIOR-WALL LOCATION = SPACE-V4 NEXT-TO = MASTERBR CONSTRUCTION = INTWALL-1 .. BL-EXT1 = EXTERIOR-WALL LOCATION = SPACE-V1 .. ##if #[WinAreaMeth[] EQS Actual] "BL Window1" = WINDOW LIKE "Front MB2" X = 3 .. "BL Window2" = WINDOW LIKE "Front MB2" X = #[32 - 18] .. "BL Window3" = WINDOW LIKE "Front MB2" X = #[39.5 - 18] .. ##else "BAwindow BL1" = WINDOW LIKE "BAwindow GR1" .. ##endif BL-EXT2 = EXTERIOR-WALL LOCATION = SPACE-V2 .. ##if #[WinAreaMeth[] EQS Actual] ##else "BAwindow BL2" = WINDOW LIKE "BAwindow GR1" .. ##endif BL-CEIL1 = INTERIOR-WALL SURFACE-TYPE = WALL HEIGHT = 7.5 WIDTH = 30 X = 0 Y = 7.5 Z = 8 AZ = 180 TILT = 0 NEXT-TO = ATTIC CONSTRUCTION = INTWALL-ATTFLR .. BL-CEIL2 = INTERIOR-WALL SURFACE-TYPE = WALL HEIGHT = 7.5 WIDTH = 30 X = 0 Y = 0 Z = 8 AZ = 180 TILT = 0 NEXT-TO = ATTIC $ ATTIC-FRONT CONSTRUCTION = INTWALL-ATTFLR .. $====================================================================== $ BACK Bedroom Space $====================================================================== BEDRMBACK = SPACE SPACE-CONDITIONS = HOUSE-SC X = 18 Y = 15 Z = 0 AZ = 0 SHAPE = POLYGON POLYGON = BedrmBackPoly PEOPLE-SCHEDULE = OCC-BR-SCH PEOPLE-HG-SENS = 210 PEOPLE-HG-LAT = 140 NUMBER-OF-PEOPLE = #[0.25 * NumPeople[]] LIGHTING-SCHEDULE= Ltg-BR-SCH LIGHTING-W/AREA = #[#[AnnLtgBR[] / BedroomArea[]] / 0.365] .. BR-INT = INTERIOR-WALL INT-WALL-TYPE = INTERNAL AREA = #[10 * 20] CONSTRUCTION = INTWALL-1 .. BR-INT1 = INTERIOR-WALL LOCATION = SPACE-V4 NEXT-TO = MASTERBR CONSTRUCTION = INTWALL-1 .. BR-INT2 = INTERIOR-WALL LOCATION = SPACE-V5 NEXT-TO = MASTERBR CONSTRUCTION = INTWALL-1 .. BR-INT3 = INTERIOR-WALL LOCATION = SPACE-V6 NEXT-TO = MASTERBR CONSTRUCTION = INTWALL-1 .. BR-EXT1 = EXTERIOR-WALL LOCATION = SPACE-V2 .. ##if #[WinAreaMeth[] EQS Actual] "BR Window1" = WINDOW LIKE "West MB1" X = 1.5 .. ##else "BAwindow BR1" = WINDOW LIKE "BAwindow GR1" .. ##endif BR-EXT2 = EXTERIOR-WALL LOCATION = SPACE-V3 .. ##if #[WinAreaMeth[] EQS Actual] "BR Window3" = WINDOW LIKE "BR Window1" X = 12 .. "BR Window4" = WINDOW LIKE "Back MB2" X = 23 .. ##else "BAwindow BR2" = WINDOW LIKE "BAwindow GR1" .. ##endif BR-CEIL1 = INTERIOR-WALL SURFACE-TYPE = WALL HEIGHT = 7.5 WIDTH = 30 X = 0 Y = 0 Z = 8 AZ = 180 TILT = 0 NEXT-TO = ATTIC CONSTRUCTION = INTWALL-ATTFLR .. BR-CEIL2 = INTERIOR-WALL SURFACE-TYPE = WALL HEIGHT = 7.5 WIDTH = 30 X = 0 Y = 7.5 Z = 8 AZ = 180 TILT = 0 NEXT-TO = ATTIC $ ATTIC-BACK CONSTRUCTION = INTWALL-ATTFLR .. $====================================================================== $ Attic as 1 Space (unfinished attic, with insulation in attic floor) $====================================================================== ATTIC = SPACE FLOOR-WEIGHT = 70 INF-METHOD = AIR-CHANGE AIR-CHANGES/HR = attach[] ZONE-TYPE = UNCONDITIONED NUMBER-OF-PEOPLE = 0 X = 0 Y = 0 Z = 8 AZ = 0 SHAPE = POLYGON POLYGON = HousePoly .. AT-EXT1 = EXTERIOR-WALL LOCATION = SPACE-V1 CONSTRUCTION = EXWALL-ROOF HEIGHT = 18.75 TILT = 36.87 .. AT-EXT2 = EXTERIOR-WALL LOCATION = SPACE-V3 CONSTRUCTION = EXWALL-ROOF HEIGHT = 18.75 TILT = 36.87 .. AT-EXT3 = EXTERIOR-WALL LOCATION = SPACE-V2 CONSTRUCTION = EXTATT-WALL POLYGON = AtticEndPoly .. ##set1 fw #[framwid[] * 1.15] "Side AT1" = WINDOW GLASS-TYPE = mainglass[] HEIGHT = #[#[57 - #[fw[] * 2]] / 12] WIDTH = #[#[38 - #[fw[] * 2]] / 12] X = 13.5 Y = 2 FRAME-WIDTH = #[fw[] / 12] FRAME-ABS = 0.7 FRAME-CONDUCT = framecond[] .. AT-EXT4 = EXTERIOR-WALL LOCATION = SPACE-V4 CONSTRUCTION = EXTATT-WALL POLYGON = AtticEndPoly .. "Side AT2" = WINDOW LIKE "Side AT1" .. GroundFloor = FLOOR X = 0 Y = 0 Z = -8 AZIMUTH = 0 SHAPE = POLYGON POLYGON = HousePoly FLOOR-HEIGHT = 8 SPACE-HEIGHT = 8 .. $====================================================================== $ Basement $====================================================================== BASEMENT = SPACE FLOOR-WEIGHT = 70 INF-METHOD = AIR-CHANGE AIR-CHANGES/HR = bsmtach[] ZONE-TYPE = UNCONDITIONED NUMBER-OF-PEOPLE = 0 X = 0 Y = 0 Z = 0 AZ = 0 SHAPE = POLYGON POLYGON = HousePoly .. BSF-EXT1 = EXTERIOR-WALL LOCATION = SPACE-V1 CONSTRUCTION = EXWALL-BSMTA HEIGHT = 5.5 WIDTH = 48 Z = 2.5 .. ##set1 fw #[framwid[] * 1.5] "Front BS1" = WINDOW GLASS-TYPE = mainglass[] HEIGHT = #[#[45 - #[fw[] * 2]] / 12] WIDTH = #[#[73 - #[fw[] * 2]] / 12] X = 2.5 Y = #[5.5 - #[45 / 12]] FRAME-WIDTH = #[fw[] / 12] FRAME-ABS = 0.7 FRAME-CONDUCT = framecond[] .. "Front BS2" = WINDOW LIKE "Front BS1" X = 10 .. "Front BS3" = WINDOW LIKE "Front BS1" X = 32 .. "Front BS4" = WINDOW LIKE "Front BS1" X = 39.5 .. BSF-EXT2 = EXTERIOR-WALL LOCATION = SPACE-V1 CONSTRUCTION = EXWALL-BSMTU HEIGHT = 2.5 WIDTH = 48 Z = 0 .. BSR-EXT1 = EXTERIOR-WALL LOCATION = SPACE-V2 CONSTRUCTION = EXWALL-BSMTA HEIGHT = 1.75 WIDTH = 30 Z = 6.25 .. BSR-EXT2 = EXTERIOR-WALL LOCATION = SPACE-V2 CONSTRUCTION = EXWALL-BSMTU HEIGHT = 3 WIDTH = 30 Z = 3.25 .. BSR-EXT3 = UNDERGROUND-WALL LOCATION = SPACE-V2 CONSTRUCTION = EXWALL-BSMTU U-EFFECTIVE = 0.0001 HEIGHT = 3.25 WIDTH = 30 Z = 0 .. BSB-EXT1 = EXTERIOR-WALL LOCATION = SPACE-V3 CONSTRUCTION = EXWALL-BSMTA HEIGHT = 1.5 WIDTH = 48 Z = 6.5 .. BSB-EXT2 = EXTERIOR-WALL LOCATION = SPACE-V3 CONSTRUCTION = EXWALL-BSMTU HEIGHT = 3 WIDTH = 48 Z = 3.5 .. BSB-EXT3 = UNDERGROUND-WALL LOCATION = SPACE-V3 CONSTRUCTION = EXWALL-BSMTU U-EFFECTIVE = 0.0001 HEIGHT = 3.5 WIDTH = 48 Z = 0 .. BSL-EXT1 = EXTERIOR-WALL LOCATION = SPACE-V4 CONSTRUCTION = EXWALL-BSMTA HEIGHT = 4.833 WIDTH = 30 Z = 3.167 .. BSL-EXT2 = EXTERIOR-WALL LOCATION = SPACE-V4 CONSTRUCTION = EXWALL-BSMTU HEIGHT = 3 WIDTH = 30 Z = 0.167 .. BSL-EXT3 = UNDERGROUND-WALL LOCATION = SPACE-V4 CONSTRUCTION = EXWALL-BSMTU U-EFFECTIVE = 0.0001 HEIGHT = 0.167 WIDTH = 30 Z = 0 .. BS-FLR = UNDERGROUND-FLOOR LOCATION = BOTTOM CONSTRUCTION = "Floor Slab Cons LA" U-EFFECTIVE = 0.0001 .. $*****************************************$ $ SYSTEMS $ $*****************************************$ ##if #[CoolTSP[] LT 1] COOL-SCH = SCHEDULE TYPE = TEMPERATURE THRU JAN 31 (ALL) (1,24) ( 90 ) THRU FEB 28 (ALL) (1,24) ( 90 ) THRU MAR 31 (ALL) (1,24) ( 90 ) THRU APR 30 (ALL) (1,24) ( 90 ) THRU MAY 31 (ALL) (1,24) ( 90 ) THRU JUN 30 (ALL) (1,24) ( 80 ) THRU JUL 5 (ALL) (1,24) ( 95 ) THRU JUL 31 (ALL) (1,24) ( 78 ) THRU AUG 31 (ALL) (1,24) ( 77 ) THRU SEP 30 (ALL) (1,24) ( 80 ) THRU OCT 31 (ALL) (1,24) ( 90 ) THRU NOV 30 (ALL) (1,24) ( 90 ) THRU DEC 31 (ALL) (1,24) ( 90 ) .. ##else COOL-SCH = SCHEDULE TYPE = TEMPERATURE THRU DEC 31 (ALL) (1,24) (CoolTSP[]) .. ##endif ##if #[HeatTSP[] LT 1] HEAT-SCH = SCHEDULE TYPE = TEMPERATURE THRU JAN 31 (ALL) (1,24) ( 66 ) THRU FEB 28 (ALL) (1,24) ( 65 ) THRU MAR 31 (ALL) (1,24) ( 65 ) THRU APR 30 (ALL) (1,24) ( 66 ) THRU MAY 31 (ALL) (1,24) ( 66 ) THRU JUN 30 (ALL) (1,24) ( 55 ) THRU JUL 31 (ALL) (1,24) ( 55 ) THRU AUG 31 (ALL) (1,24) ( 55 ) THRU SEP 30 (ALL) (1,24) ( 55 ) THRU OCT 31 (ALL) (1,24) ( 66 ) THRU NOV 30 (ALL) (1,24) ( 64 ) THRU DEC 24 (ALL) (1,24) ( 64 ) THRU DEC 31 (ALL) (1,24) ( 55 ) .. ##else HEAT-SCH = SCHEDULE TYPE = TEMPERATURE THRU DEC 31 (ALL) (1,24) (HeatTSP[]) .. ##endif "Heat On" = SCHEDULE TYPE = ON/OFF THRU APR 15 (ALL) (1,24) (1) THRU SEP 30 (ALL) (1,24) (1) THRU DEC 31 (ALL) (1,24) (1) .. "Cool On" = SCHEDULE TYPE = ON/OFF THRU APR 15 (ALL) (1,24) (1) THRU SEP 30 (ALL) (1,24) (1) THRU DEC 31 (ALL) (1,24) (1) .. DHWLoop = CIRCULATION-LOOP TYPE = DHW PROCESS-FLOW = #[dhwuse[] / 60] PROCESS-SCH = DHW-SCH HEAT-SETPT-T = DHWtemp[] .. DHWheater = DW-HEATER TYPE = dhwType[] $ ELEC or HEAT-PUMP EIR = #[1 / DHWcop[]] DHW-LOOP = DHWLoop TANK-UA = 3.05 TANK-VOLUME = 40 LOCATION = ZONE ZONE-NAME = BASEMENTZ .. GSHP-CAP-FT2 = CURVE-FIT TYPE = BI-QUADRATIC-T COEF = ( 1.00000000, 0.00000000, 0.00000000, 0.00000000, 0.00000000 0.00000000) INPUT-TYPE = COEFFICIENTS .. GSHP-EIR-FT2 = CURVE-FIT TYPE = BI-QUADRATIC-T COEF = ( 1.00000000, 0.00000000, 0.00000000, 0.00000000, 0.00000000 0.00000000) INPUT-TYPE = COEFFICIENTS .. RESYS-EIR-fPLR2 CURVE-FIT TYPE = LINEAR INPUT-TYPE = COEFFICIENTS COEF = ( 0.125, 0.875) .. CycleLoss-fPLR2 CURVE-FIT TYPE = LINEAR INPUT-TYPE = COEFFICIENTS COEF = ( 1.0, 0.0) .. ##if #[NightVent[] EQS Standard] ##set1 ventach 5 VTSCH = SCHEDULE TYPE = TEMPERATURE THRU MAY 31 (ALL) (1,24) (75) THRU SEP 30 (ALL) (1,24) (75) THRU DEC 31 (ALL) (1,24) (75) .. ##elseif #[NightVent[] EQS Optimal] ##set1 ventach 10 VTSCH = SCHEDULE TYPE = TEMPERATURE THRU MAY 31 (ALL) (1,24) (75) THRU SEP 30 (ALL) (1,24) (75) THRU DEC 31 (ALL) (1,24) (75) .. ##else ##set1 ventach 2 VTSCH = SCHEDULE TYPE = TEMPERATURE THRU MAY 31 (ALL) (1,24) (75) THRU SEP 30 (ALL) (1,24) (75) THRU DEC 31 (ALL) (1,24) (75) .. ##endif VOPSCH = SCHEDULE TYPE = ON/OFF THRU DEC 31 (ALL) (1,24) (1) .. WINDOPER= SCHEDULE TYPE = FRACTION THRU DEC 31 (ALL) (1,24) (1) .. REVFPLR CURVE-FIT TYPE CUBIC INPUT-TYPE COEFFICIENTS COEF= (0.000352822,1.19199,-0.246716,0.0546566) .. RHTFPLR CURVE-FIT TYPE CUBIC INPUT-TYPE COEFFICIENTS COEF= (0.000352822,1.19199,-0.246716,0.0546566) .. FRFPLR CURVE-FIT TYPE CUBIC INPUT-TYPE COEFFICIENTS COEF= (0.011771251, 0.98061775, 0.11783017,-0.11032275) .. COILBF = CURVE-FIT TYPE LINEAR INPUT-TYPE COEFFICIENTS COEF (1,0) .. SYSTEM-1 = SYSTEM TYPE = RESYS2 CONTROL-ZONE = GREATROOMZ $COOLING system variables: MIN-SUPPLY-T = 55 COOLING-SCHEDULE = "Cool On" COOLING-CAPACITY = #[#[coolcap[] * 12000] * DuctMult[]] COOL-SH-CAP = #[#[#[coolcap[] * 12000] * 0.85] * DuctMult[]] ##if #[GSHP[] GT 0.5] COOLING-EIR = #[#[1 / clCOP[]] / DuctMult[]] ##else COOLING-EIR = #[CoolEIR[] / DuctMult[]] ##endif SUPPLY-CFM = supcfm[] SUPPLY-KW = FAN-KW[] SUPPLY-DELTA-T = SUPPLY_DT[] COMPRESSOR-TYPE = SINGLE-SPEED $ COOL-EIR-FPLR = RESYS-EIR-fPLR2 COOL-EIR-FPLR REVFPLR $HERS COOL-CLOSS-FPLR = CycleLoss-fPLR2 COOL-EIR-FT = COOL-EIR-SEER CRANKCASE-HEAT = 0.028 INDOOR-FAN-MODE = INTERMITTENT ##if #[DuctMethod[] NES EffMod] DUCT-DT = DuctDT[] DUCT-AIR-LOSS = DuctLoss[] DUCT-ZONE = ATTICZ ##endif $NATURAL VENTING system variables: NATURAL-VENT-SCH = VOPSCH VENT-TEMP-SCH = VTSCH OPEN-VENT-SCH = WINDOPER VENT-METHOD = AIR-CHANGE NATURAL-VENT-AC = ventach[] $HEATING system variables: MAX-SUPPLY-T = 120 ##if #[heattype[] EQ 1] HEAT-SOURCE = FURNACE FURNACE-AUX = 0 FURNACE-HIR = #[FURN-HIR[] / DuctMult[]] FURNACE-HIR-FPLR FRFPLR $HERS ##else HEAT-SOURCE = HEAT-PUMP MAX-HP-SUPP-T = 40 ##if #[GSHP[] GT 0.5] HEATING-EIR = #[#[1 / hpCOP[]] / DuctMult[]] MIN-HP-T = -10 HEAT-CAP-FT = GSHP-CAP-FT2 $"RESYS-Heat-Cap-fEDB&OAT" HEAT-EIR-FT = GSHP-EIR-FT2 $"RESYS-Heat-EIR-fEDB&OAT" ##else HEATING-EIR = #[HeatEIR[] / DuctMult[]] HEAT-EIR-FPLR RHTFPLR $HERS ##endif HP-SUPP-SOURCE = ELECTRIC $ HP-SUPP-CAPACITY = #[htgbtu[] * -1000] ##endif HEATING-SCHEDULE = "Heat On" .. ##if #[DuctMethod EQS EffMod] ##set1 housecfm supcfm[] ##else ##set1 housecfm #[supcfm[] * #[1 - DuctLoss[]]] ##endif SET-DEFAULT FOR ZONE TYPE = CONDITIONED DESIGN-HEAT-T = 70 DESIGN-COOL-T = 74 COOL-TEMP-SCH = COOL-SCH HEAT-TEMP-SCH = HEAT-SCH THERMOSTAT-TYPE = TWO-POSITION THROTTLING-RANGE = 2 BASEBOARD-CTRL = THERMOSTATIC SIZING-OPTION = ADJUST-LOADS .. GREATROOMZ = ZONE TYPE = CONDITIONED SPACE = GREATROOM ##ifdef assigncfm[] ASSIGNED-CFM = #[housecfm[] * 0.25] ##endif .. KITCHENZ = ZONE TYPE = CONDITIONED SPACE = KITCHEN ##ifdef assigncfm[] ASSIGNED-CFM = #[housecfm[] * 0.20] ##endif .. MASTERBRZ = ZONE TYPE = CONDITIONED SPACE = MASTERBR ##ifdef assigncfm[] ASSIGNED-CFM = #[housecfm[] * 0.25] ##endif .. BEDRMFRONTZ = ZONE TYPE = CONDITIONED SPACE = BEDRMFRONT ##ifdef assigncfm[] ASSIGNED-CFM = #[housecfm[] * 0.15] ##endif .. BEDRMBACKZ = ZONE TYPE = CONDITIONED SPACE = BEDRMBACK ##ifdef assigncfm[] ASSIGNED-CFM = #[housecfm[] * 0.10] ##endif .. BASEMENTZ = ZONE TYPE = UNCONDITIONED SPACE = BASEMENT D-H-T = 50 D-C-T = 70 .. ATTICZ = ZONE TYPE = UNCONDITIONED SPACE = ATTIC D-H-T = 60 D-C-T = 90 .. ##if #[PVkw[] GT 0] $ Inverter EIR-fPLR, Trace SW4048, Cap = 4.0 kW $ $ These coefficients optimize the fit in the range 0 to 0.5 PLR, $ since the inverter is oversized, this provides the best result. $ The curve cannot be well described with a quadratic across the entire range. $ Default curve is very different. TraceEIRfPLR = CURVE-FIT TYPE = QUADRATIC INPUT-TYPE = COEFFICIENTS COEFFICIENTS = ( 0.005225977,0.859205492,0.162115154) .. $These coefficients fit to Sandia data, the King equation has 5 coefficients: $ A0 A1 A2 A3 A4 $ 0.93257 0.10675 -0.048191 0.0049997 -0.0001588 $ The DOE2 curve is limited to 4 coefficients, so they were re-calculated: $ Default curve is very different. Civano2500AM = CURVE-FIT TYPE = CUBIC INPUT-TYPE = COEFFICIENTS COEFFICIENTS = (0.933291353,0.104717644,-0.046084348,0.0040469) .. $ Photovoltaic Array and Inverter specs: ============================================== $ $ Real system operates at 52 volts, it does not track the maximum power point. $ WeberSystem = ELEC-GENERATOR TYPE = PV-ARRAY CAPACITY = 6.0 $ inverter capacity, kW MIN-TRACK-VOLTS = 0 $ below this voltage, efficiency drops linearly as a f(Volts/MinTrackVolts) MAX-TRACK-VOLTS = 100 $ max voltage used for calculation of power conversion AUX-KW = 0.010 $ auxiliary power consumption AUX-MODE = WHEN-OFF $ when aux-kw is used, ALWAYS, WHEN-ON or WHEN-OFF NUM-INVERTERS = 1 ELEC-INPUT-RATIO = #[1 / 0.871379331] $ DC input / AC output at full load, or 1 / nominal efficiency EIR-FPLR = TraceEIRfPLR INVERTER-CTRL = RUN-ALL MIN-OPER-VOLTS = 40 $ below which inverter shuts down MIN-RATIO = 0.0001 $ min capacity ratio, below which inverter shuts down MAX-RATIO = 1.2 $ above which inverter is maxed out PV-MODULE = CIVANO2500 MODULES-SERIES = 1 MODULES-PARALLEL = 100 MOUNT-TYPE = RACK $ BUILDING-SURFACE MOUNT-HEIGHT = 0.33 MOUNT-AZIMUTH = 180 MOUNT-TILT = 37 $ GND-REFLECTANCE = 0.2 $ WIND-COEF defaults based on Mount-Height $ OFFSET-T defaults based on Mount-Height $ CELL-T-COEF default is: REF-IRRADIANCE/NOCT-IRRADIANCE * (Tnoct + Toffset - Tamb) $ ---------------------------------------------------------- $ exp(-Wind-Coef * Noct-Wind) $ $ ELEC-METER Utility-Meter the generator will attempt to satisfy and potentially run backward $ SURPLUS-METER only needed if the surplus electricity generated is sold at a different rate $ than it is bought (i.e. can not just run the meter backwards) ELEC-METER = "EM1" .. CIVANO2500 = PV-MODULE TYPE = A-SI $ type of semi-conductor material, used to default the performance $ curves for optical effects, choices are: $ EFD-SI $ MC-SI $ SI-FILM $ CD-TE $ A-SI $ USER-DEFINED, then must define the curve that specifies $ the spectral properties of the plane-of-array $ irradiance as a function of air mass HEIGHT = 2.212 WIDTH = 4 GLAZING-TYPE = SMOOTH $ or STIPPLED or define the IRRADIANCE-FAOI IRRADIANCE-FAM = Civano2500AM $ IRRADIANCE-FAOI = (defaults based on GLAZING-TYPE) NOM-OPER-CELL-T = 110 $ normal operating cell temperature (calc'd by Greg) ##ifdef SKmethod[] SIM-ALGORITHM = SANDIA/KING VOLTS-OPEN-CKT = 96.8 $ KING: Voco, open circuit voltage at REF-IRRADIANCE $VOLTS/T-OPEN-CKT = -0.27333 $ -0.492/C (from Greg Barker) rate at which open circuit voltage changes with cell temperature VOLTS/T-OPEN-CKT = 0 AMPS-SHORT-CKT = 0.754 $ KING: Isco, short circuit current at REF-IRRADIANCE AMPS/T-SHORT-CKT = 0.00033 $ 0.0006/C (from Greg Barker) rate at which short circuit current changes with cell temperature VOLTS-MAX-PWR = 73.5 $ KING: Vmpo, voltage at maximum power point AMPS-MAX-PWR = 0.59 $ KING: Impo, current at maximum power point $For SANDIA/KING Sim algorithm only: $VOLTS/T-MAX-PWR = #[-0.423 / 1.8] KING: BVmpo, rate at which maximum power point voltage changes with cell temperature VOLTS/T-MAX-PWR = -0.235 $AMPS/T-MAX-PWR = #[0.0011 / 1.8] KING: almp, rate at which maximum power point current changes with cell temperature AMPS/T-MAX-PWR = 0.00061 CELLS-SERIES = 71 $ KING: Series_Cells, number of cells in series within the module C0 = 1.0314 $ KING: coefficient C0 (and C1) used to calc. max power point amps C1 = -0.0314 $ C2 = -0.008904 $ KING: coefficient C2 (and C3) used to calc max power point voltage C3 = -3.72523 FDIODE = 3.443 $ KING: n, diode-effect coefficient $reference conditions, do not change unless the standard changes: $ NOCT-AMBIENT = 68 $ NOCT-IRRADIANCE = 253.76 $ NOCT-WINDSPEED = 2.2369 $ REF-IRRADIANCE = 317.2 $ Reference temperature = ##else SIM-ALGORITHM = MODIFIED-STANDARD VOLTS-OPEN-CKT = 96.8 $ VOLTS/T-OPEN-CKT = -0.27333 VOLTS/T-OPEN-CKT = 0 AMPS-SHORT-CKT = 0.754 AMPS/T-SHORT-CKT = 0.00033 VOLTS-MAX-PWR = 73.5 AMPS-MAX-PWR = 0.59 ##endif .. ##endif $*****************************************$ $ REPORTS $ $*****************************************$ LOADS-REPORT VERIFICATION=(ALL-VERIFICATION) SUMMARY=(ALL-SUMMARY) REPORT-FREQUENCY = HOURLY .. SYSTEMS-REPORT VERIFICATION=(SV-A) SUMMARY=(ALL-SUMMARY) REPORT-FREQUENCY = HOURLY .. PLANT-REPORT VERIFICATION=(PV-A) SUMMARY=(ALL-SUMMARY) $ SUMMARY=(PS-E,PS-F,BEPU) REPORT-FREQUENCY = HOURLY .. $ --------------------------------------------------------- $ Hourly Reporting $ --------------------------------------------------------- REP-SCH = SCHEDULE TYPE = ON/OFF THRU AUG 31 (ALL) (1,24) (1) THRU SEP 30 (ALL) (1,24) (1) THRU DEC 31 (ALL) (1,24) (1) .. "Global Block" = REPORT-BLOCK VARIABLE-TYPE = GLOBAL VARIABLE-LIST = (45,3,4,36,37) .. $day=45 type, WBT=3,DBT=4 Space1 = REPORT-BLOCK VARIABLE-TYPE = GREATROOMZ VARIABLE-LIST = (31) .. $temp=31 ExtWall1RB = REPORT-BLOCK VARIABLE-TYPE = AT-EXT1 VARIABLE-LIST = (1,17,18) .. ExtWall2RB = REPORT-BLOCK VARIABLE-TYPE = AT-EXT3 VARIABLE-LIST = (1,17,18) .. System1 = REPORT-BLOCK VARIABLE-TYPE = SYSTEM-1 VARIABLE-LIST = (8,22,47) .. $ZoneCoolingPower, Infiltration, CoolElec System2 = REPORT-BLOCK VARIABLE-TYPE = SYSTEM-1 VARIABLE-LIST = (17,70) .. $inf, kW Infil2 = REPORT-BLOCK VARIABLE-TYPE = MASTERBR VARIABLE-LIST = (39) .. Infil3 = REPORT-BLOCK VARIABLE-TYPE = BEDRMFRONT VARIABLE-LIST = (39) .. "Elec Enduse Blk 1" = REPORT-BLOCK VARIABLE-TYPE = "EM1" VARIABLE-LIST = ( 1, 3, 4, 10, 11, 20 ) $ltg, plug, Htg, HtgHP, HtgSHW, Total .. "Elec Enduse Blk 2" = REPORT-BLOCK VARIABLE-TYPE = "EM1" VARIABLE-LIST = ( 5, 6, 7, 8 ) $Cool, HtRej, Aux, Vent, refg, Ext, .. "Fuel Enduse Block" = REPORT-BLOCK VARIABLE-TYPE = "FM1" VARIABLE-LIST = ( 4 ) $Heat DHW Total .. GlobalHR = HOURLY-REPORT OPTION = PRINT REPORT-SCHEDULE = REP-SCH REPORT-BLOCK = ("Global Block",ExtWall1RB) .. $Elec1HR = HOURLY-REPORT $ OPTION = PRINT $ REPORT-SCHEDULE = REP-SCH $ REPORT-BLOCK = ( Space1,System1,System2 ) $ .. $Elec2HR = HOURLY-REPORT $ OPTION = PRINT $ REPORT-SCHEDULE = REP-SCH $ REPORT-BLOCK = ( "Elec Enduse Blk 2" ) $ .. $GasHR = HOURLY-REPORT $ OPTION = PRINT $ REPORT-SCHEDULE = REP-SCH $ REPORT-BLOCK = ( "Fuel Enduse Block" ) $ .. $INFILHR = HOURLY-REPORT $ OPTION = PRINT $ REPORT-SCHEDULE = REP-SCH $ REPORT-BLOCK = ( Infil1,Infil2,Infil3,Infil4 ) $ .. END .. COMPUTE .. STOP ..