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@mitchute
Last active September 15, 2017 20:32
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IDF Severe/Warnings
{
"Total Severe Count": 19,
"Total Warning Count": 1035,
"Severe Files": {
"5ZoneAirCooledWithSlab": {
"Severe Count": 5,
"Severe": [
" BuildingSurface:Detailed=\"F1-1\", invalid Outside Boundary Condition=\"GROUNDSLABPREPROCESSORPERIMETER\". The ExpandObjects program has not been run or is not in your EnergyPlus.exe folder.",
" BuildingSurface:Detailed=\"F2-1\", invalid Outside Boundary Condition=\"GROUNDSLABPREPROCESSORPERIMETER\". The ExpandObjects program has not been run or is not in your EnergyPlus.exe folder.",
" BuildingSurface:Detailed=\"F3-1\", invalid Outside Boundary Condition=\"GROUNDSLABPREPROCESSORPERIMETER\". The ExpandObjects program has not been run or is not in your EnergyPlus.exe folder.",
" BuildingSurface:Detailed=\"F4-1\", invalid Outside Boundary Condition=\"GROUNDSLABPREPROCESSORPERIMETER\". The ExpandObjects program has not been run or is not in your EnergyPlus.exe folder.",
" BuildingSurface:Detailed=\"F5-1\", invalid Outside Boundary Condition=\"GROUNDSLABPREPROCESSORCORE\". The ExpandObjects program has not been run or is not in your EnergyPlus.exe folder."
]
},
"DOAToUnitVentilator": {
"Warning Count": 2,
"Warning": [
" GetAirPathData: AirLoopHVAC=\"DOAS\" has no Controllers.",
" HeatExchanger:AirToAir:SensibleAndLatent \"DOAS HEAT RECOVERY\" Average air volume flow rate is <50% or >130% of the nominal HX supply air volume flow rate. Air volume flow rate ratio = 6.513E-002. Environment=CHICAGO_IL_USA ANNUAL HEATING 99% DESIGN CONDITIONS DB, at Simulation time=01/21 06:00 - 06:15"
],
"Severe Count": 5,
"Severe": [
" Node Connection Error, Node=\"ZONE1UNITVENTOAMIXEROUTLETNODE\", The same node appears as a non-parent Inlet node more than once. Reference Object=ZONEHVAC:UNITVENTILATOR-OA MIXER, Name=TU1 Reference Object=FAN:CONSTANTVOLUME, Name=ZONE1UNITVENTFAN",
" Node Connection Error, Node=\"ZONE2UNITVENTOAMIXEROUTLETNODE\", The same node appears as a non-parent Inlet node more than once. Reference Object=FAN:CONSTANTVOLUME, Name=ZONE2UNITVENTFAN Reference Object=ZONEHVAC:UNITVENTILATOR-OA MIXER, Name=TU2",
" Node Connection Error, Node=\"ZONE3UNITVENTOAMIXEROUTLETNODE\", The same node appears as a non-parent Inlet node more than once. Reference Object=FAN:CONSTANTVOLUME, Name=ZONE3UNITVENTFAN Reference Object=ZONEHVAC:UNITVENTILATOR-OA MIXER, Name=TU3",
" Node Connection Error, Node=\"ZONE4UNITVENTAIRINLETNODE\", The same node appears as a non-parent Inlet node more than once. Reference Object=FAN:CONSTANTVOLUME, Name=ZONE4UNITVENTFAN Reference Object=ZONEHVAC:UNITVENTILATOR-OA MIXER, Name=TU4",
" Node Connection Error, Node=\"ZONE5UNITVENTAIRINLETNODE\", The same node appears as a non-parent Inlet node more than once. Reference Object=FAN:CONSTANTVOLUME, Name=ZONE5UNITVENTFAN Reference Object=ZONEHVAC:UNITVENTILATOR-OA MIXER, Name=TU5"
]
},
"EMSTestMathAndKill": {
"Warning Count": 1,
"Warning": [
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=SHWSYS1 PUMP"
],
"Severe Count": 1,
"Severe": [
" Problem found in EMS EnergyPlus Runtime Language. Erl program name: DOVARIOUSMATHTESTS Erl program line number: 73 Erl program line text: SET N = M / N Error message: *** Error: EvaluateExpression: Divide By Zero in EMS Program! *** During Warmup, Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 00:10 - 00:11"
]
},
"LgOffVAVusingBasement": {
"Severe Count": 5,
"Severe": [
" BuildingSurface:Detailed=\"UWB\", invalid Outside Boundary Condition=\"GROUNDBASEMENTPREPROCESSORAVERAGEWALL\". The ExpandObjects program has not been run or is not in your EnergyPlus.exe folder.",
" BuildingSurface:Detailed=\"UWR\", invalid Outside Boundary Condition=\"GROUNDBASEMENTPREPROCESSORAVERAGEWALL\". The ExpandObjects program has not been run or is not in your EnergyPlus.exe folder.",
" BuildingSurface:Detailed=\"UWF\", invalid Outside Boundary Condition=\"GROUNDBASEMENTPREPROCESSORAVERAGEWALL\". The ExpandObjects program has not been run or is not in your EnergyPlus.exe folder.",
" BuildingSurface:Detailed=\"UWL\", invalid Outside Boundary Condition=\"GROUNDBASEMENTPREPROCESSORAVERAGEWALL\". The ExpandObjects program has not been run or is not in your EnergyPlus.exe folder.",
" BuildingSurface:Detailed=\"UF\", invalid Outside Boundary Condition=\"GROUNDBASEMENTPREPROCESSORAVERAGEFLOOR\". The ExpandObjects program has not been run or is not in your EnergyPlus.exe folder."
],
"Warning Count": 1,
"Warning": [
" CalcSurfaceCentroid: 5 Surfaces have the Z coordinate < 0. ...in any calculations, Wind Speed will be 0.0 for these surfaces. ...in any calculations, Outside temperatures will be the outside temperature + 9.750E-003 for these surfaces. ...that is, these surfaces will have conditions as though at ground level."
]
},
"VSHeatPumpWaterToAirWithRHControl": {
"Warning Count": 14,
"Warning": [
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN CLG 1% CONDNS DB=>MWB, 07/21 09:10 - 09:13 The solution for one or more of the Air Loop HVAC systems did not appear to converge ...use Output:Diagnostics,DisplayExtraWarnings; to show more details on each max iteration exceeded.",
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB, 01/21 09:50 - 10:00 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB, 01/21 09:53 - 09:55 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB, 01/21 09:55 - 09:57 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB, 01/21 09:57 - 09:58 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB, 01/21 10:11 - 10:13 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB, 01/21 10:20 - 10:30 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB, 01/21 10:24 - 10:26 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB, 01/21 10:33 - 10:35 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB, 01/21 10:40 - 10:50 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB, 01/21 10:44 - 10:46 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB, 01/21 10:50 - 11:00 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB, 01/21 10:54 - 10:56 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (20) exceeded for all HVAC loops, at MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB, 01/21 11:03 - 11:04 The solution for one or more of the Air Loop HVAC systems did not appear to converge"
],
"Severe Count": 2,
"Severe": [
" CheckWarmupConvergence: Loads Initialization, Zone=\"SPACE2-1\" did not converge after 40 warmup days. See Warmup Convergence Information in .eio file for details. ...Environment(SizingPeriod)=\"MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB\" ..Max Temp Comparison = 0.34 vs Temperature Convergence Tolerance=0.50 - Pass Convergence ..Min Temp Comparison = 6.71E-003 vs Temperature Convergence Tolerance=0.50 - Pass Convergence ..Max Heat Load Comparison = 0.3609 vs Loads Convergence Tolerance=0.50 - Pass Convergence ..Max Cool Load Comparison = 0.9470 vs Loads Convergence Tolerance=0.50 - Fail Convergence",
" CheckWarmupConvergence: Loads Initialization, Zone=\"SPACE5-1\" did not converge after 40 warmup days. ...Environment(SizingPeriod)=\"MIAMI INTL AP ANN HTG WIND 99% CONDNS WS=>MCDB\" ..Max Temp Comparison = 3.85E-002 vs Temperature Convergence Tolerance=0.50 - Pass Convergence ..Min Temp Comparison = 5.60E-003 vs Temperature Convergence Tolerance=0.50 - Pass Convergence ..Max Heat Load Comparison = 0.7046 vs Loads Convergence Tolerance=0.50 - Fail Convergence ..Max Cool Load Comparison = 3.0028E-002 vs Loads Convergence Tolerance=0.50 - Pass Convergence"
]
},
"_ExternalInterface-schedule": {
"Warning Count": 2,
"Warning": [
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs.",
" CalculateZoneVolume: 4 zones are not fully enclosed. For more details use: Output:Diagnostics,DisplayExtrawarnings;"
],
"Severe Count": 1,
"Severe": [
" ExternalInterface: Did not find file \"socket.cfg\". This file needs to be in same directory as in.idf. Check the documentation for the ExternalInterface."
]
}
},
"Warning Only Files": {
"1ZoneDataCenterCRAC_wPumpedDXCoolingCoil": {
"Warning Count": 1,
"Warning": [
" CalcDoe2DXCoil: Coil:Cooling:DX:SingleSpeed \"MAIN COOLING COIL 1\" - Air-cooled condenser inlet dry-bulb temperature below 0 C. Outdoor dry-bulb temperature = -18.80 ... Occurrence info = DENVER CENTENNIAL ANN HTG 99.6% CONDNS DB, 12/21 00:00 - 00:10 ... Operation at low ambient temperatures may require special performance curves."
]
},
"1ZoneEvapCooler": {
"Warning Count": 1,
"Warning": [
" GetAirPathData: AirLoopHVAC=\"EVAP COOLER SYSTEM\" has no Controllers."
]
},
"1ZoneUncontrolled3SurfaceZone": {
"Warning Count": 2,
"Warning": [
" CalculateZoneVolume: 1 zone is not fully enclosed. For more details use: Output:Diagnostics,DisplayExtrawarnings;",
" Surfaces in Zone=\"ZONE ONE\" do not define an enclosure. Number of surfaces <= 3, view factors are set to force reciprocity but may not fulfill completeness. Reciprocity means that radiant exchange between two surfaces will match and not lead to an energy loss. Completeness means that all of the view factors between a surface and the other surfaces in a zone add up to unity. So, when there are three or less surfaces in a zone, EnergyPlus will make sure there are no losses of energy but it will not exchange the full amount of radiation with the rest of the zone as it would if there was a completed enclosure."
]
},
"1ZoneUncontrolled_win_1": {
"Warning Count": 1,
"Warning": [
" GetSurfaceData: Window dimensions differ from Window 5/6 data file dimensions, 1 times. This will affect the frame heat transfer calculation if the frame in the Data File entry is not uniform, i.e., has sections with different geometry and/or thermal properties. For explicit details on each window, use Output:Diagnostics,DisplayExtraWarnings;"
]
},
"1ZoneUncontrolled_win_2": {
"Warning Count": 1,
"Warning": [
" GetSurfaceData: Window dimensions differ from Window 5/6 data file dimensions, 1 times. This will affect the frame heat transfer calculation if the frame in the Data File entry is not uniform, i.e., has sections with different geometry and/or thermal properties. For explicit details on each window, use Output:Diagnostics,DisplayExtraWarnings;"
]
},
"2ZoneDataCenterHVAC_wEconomizer": {
"Warning Count": 5,
"Warning": [
" Calculated design heating load for zone=WEST ZONE is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=EAST ZONE is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" ManageSizing: Calculated Heating Design Air Flow Rate for System=WEST ZONE AIR SYSTEM is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" ManageSizing: Calculated Heating Design Air Flow Rate for System=EAST ZONE AIR SYSTEM is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" CoolingTower:VariableSpeed \"COOLING TOWER\" - Tower approach temperature is outside model boundaries at 0.00. ...Valid range = 1.11 to 40.00. Occurrence info = CHICAGO_IL_USA ANNUAL COOLING 1% DESIGN CONDITIONS DB/MCWB, 07/03 00:00 - 00:15 ...Tower approach temperature passed to the model = 0.00000 ...Approach temperatures outside model boundaries may not adversely affect tower performance. ...This is not an unexpected occurrence when simulating actual conditions."
]
},
"4ZoneWithShading_Simple_1": {
"Warning Count": 1,
"Warning": [
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs."
]
},
"4ZoneWithShading_Simple_2": {
"Warning Count": 1,
"Warning": [
" CalcSurfaceCentroid: 16 Surfaces have the Z coordinate < 0. ...in any calculations, Wind Speed will be 0.0 for these surfaces. ...in any calculations, Outside temperatures will be the outside temperature + 9.750E-003 for these surfaces. ...that is, these surfaces will have conditions as though at ground level."
]
},
"5ZoneBoilerOutsideAirReset": {
"Warning Count": 2,
"Warning": [
" SetUpZoneSizingArrays: Requested Sizing for Zone=\"PLENUM-1\", Zone is not found in the Controlled Zones List",
" SetUpZoneSizingArrays: Requested Sizing for Zone=\"PLENUM-1\", Zone has no thermostat (ref: ZoneControl:Thermostat, et al)"
]
},
"5ZoneCoolBeam": {
"Warning Count": 12,
"Warning": [
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at SAN_FRANCISCO ANN CLG 1% CONDNS DB=>MWB, 09/21 14:15 - 14:30 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge ...use Output:Diagnostics,DisplayExtraWarnings; to show more details on each max iteration exceeded.",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at SAN_FRANCISCO ANN CLG 1% CONDNS DB=>MWB, 09/21 14:30 - 14:45 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at SAN_FRANCISCO ANN CLG 1% CONDNS DB=>MWB, 09/21 14:45 - 15:00 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at SAN_FRANCISCO ANN CLG 1% CONDNS DB=>MWB, 09/21 15:00 - 15:15 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at SAN_FRANCISCO ANN CLG 1% CONDNS DB=>MWB, 09/21 15:15 - 15:30 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at SAN_FRANCISCO ANN CLG 1% CONDNS DB=>MWB, 09/21 15:30 - 15:45 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at SAN_FRANCISCO ANN CLG 1% CONDNS DB=>MWB, 09/21 15:45 - 16:00 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at SAN_FRANCISCO ANN CLG 1% CONDNS DB=>MWB, 09/21 16:00 - 16:15 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at SAN_FRANCISCO ANN CLG 1% CONDNS DB=>MWB, 09/21 16:15 - 16:30 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at SAN_FRANCISCO ANN CLG 1% CONDNS DB=>MWB, 09/21 16:30 - 16:45 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at SAN_FRANCISCO ANN CLG 1% CONDNS DB=>MWB, 09/21 16:45 - 17:00 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at SAN_FRANCISCO ANN CLG 1% CONDNS DB=>MWB, 09/21 17:00 - 17:15 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge"
]
},
"5ZoneDetailedIceStorage": {
"Warning Count": 3,
"Warning": [
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" Plant Loop: CHILLED WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CHILLED WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"5ZoneDetailedIceStorage2": {
"Warning Count": 3,
"Warning": [
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" Plant Loop: CHILLED WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CHILLED WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"5ZoneDetailedIceStorageCubicLinear": {
"Warning Count": 1,
"Warning": [
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"5ZoneDetailedIceStorageSimpleCtrl": {
"Warning Count": 3,
"Warning": [
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" Plant Loop: CHILLED WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CHILLED WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"5ZoneEconomicsTariffAndLifeCycleCosts": {
"Warning Count": 1,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"5ZoneFanCoilDOASCool": {
"Warning Count": 1,
"Warning": [
" Chiller:Electric:EIR = MAIN CHILLER: Integrated Part Load Value (IPLV) calculated is not at the AHRI test condition. Check limits in Cooling Capacity Function of Temperature Curve, Curve Type = BIQUADRATIC, Curve Name = MAIN CHILLER RECIPCAPFT Check limits in EIR Function of Temperature Curve, Curve Type = BIQUADRATIC, Curve Name = MAIN CHILLER RECIPEIRFT"
]
},
"5ZoneIceStorage": {
"Warning Count": 3,
"Warning": [
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" Plant Loop: CHILLED WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CHILLED WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"5ZoneSupRetPlenRAB": {
"Warning Count": 2,
"Warning": [
" CalcSurfaceCentroid: 4 Surfaces have the Z coordinate < 0. ...in any calculations, Wind Speed will be 0.0 for these surfaces. ...in any calculations, Outside temperatures will be the outside temperature + 9.750E-003 for these surfaces. ...that is, these surfaces will have conditions as though at ground level. User-Specified Minimum Cooling Air Flow Fraction of 5.00000E-002 [m3/s] differs from Design Size Minimum Cooling Air Flow Fraction of 0.20000 [m3/s] This may, or may not, indicate mismatched component sizes. Verify that the value entered is intended and is consistent with other components. User-Specified Minimum Cooling Air Flow Fraction of 5.00000E-002 [m3/s] differs from Design Size Minimum Cooling Air Flow Fraction of 0.20000 [m3/s] This may, or may not, indicate mismatched component sizes. Verify that the value entered is intended and is consistent with other components. User-Specified Minimum Cooling Air Flow Fraction of 5.00000E-002 [m3/s] differs from Design Size Minimum Cooling Air Flow Fraction of 0.20000 [m3/s] This may, or may not, indicate mismatched component sizes. Verify that the value entered is intended and is consistent with other components. User-Specified Minimum Cooling Air Flow Fraction of 5.00000E-002 [m3/s] differs from Design Size Minimum Cooling Air Flow Fraction of 0.20000 [m3/s] This may, or may not, indicate mismatched component sizes. Verify that the value entered is intended and is consistent with other components. User-Specified Minimum Cooling Air Flow Fraction of 0.30000 [m3/s] differs from Design Size Minimum Cooling Air Flow Fraction of 0.20000 [m3/s] This may, or may not, indicate mismatched component sizes. Verify that the value entered is intended and is consistent with other components.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"5ZoneSupRetPlenVSATU": {
"Warning Count": 1,
"Warning": [
" CalcSurfaceCentroid: 4 Surfaces have the Z coordinate < 0. ...in any calculations, Wind Speed will be 0.0 for these surfaces. ...in any calculations, Outside temperatures will be the outside temperature + 9.750E-003 for these surfaces. ...that is, these surfaces will have conditions as though at ground level."
]
},
"5ZoneSwimmingPool": {
"Warning Count": 1,
"Warning": [
" Calculated Relative Humidity out of range (PsyRhFnTdbWPb) Routine=Unknown, Environment=Chicago Ohare Intl Ap IL USA TMY3 WMO#=725300, at Simulation time=07/21 24:00 - 24:15 Dry-Bulb= 29.98 Humidity Ratio= 2.782E-002 Calculated Relative Humidity [%]= 102.28 Relative Humidity being reset to 100.0%"
]
},
"5ZoneTDV": {
"Warning Count": 1,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"5ZoneVAV-ChilledWaterStorage-Mixed": {
"Warning Count": 4,
"Warning": [
" SizeWaterCoil: Coil=\"VAV WITH REHEAT_COOLC\", Cooling Coil has leaving humidity ratio > entering humidity ratio. Wair,in = 8.746958E-003 Wair,out = 9.058810E-003 ....coil leaving humidity ratio will be reset to: Wair,out = 8.746958E-003",
" The design coil load is zero for Coil:Heating:Water VAV WITH REHEAT_HEATC The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=SHWSYS1 PUMP",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"5ZoneVAV-ChilledWaterStorage-Mixed_DCV_MaxZd": {
"Warning Count": 2,
"Warning": [
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=SHWSYS1 PUMP",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"5ZoneVAV-ChilledWaterStorage-Mixed_DCV_MultiPath": {
"Warning Count": 11,
"Warning": [
" GetSysInput: A zone secondary recirculation fraction is specified for zone served by ...terminal unit \"ZN_1_FLR_1_SEC_2 VAV BOX COMPONENT\" , that indicates a single path system ...The zone secondary recirculation for that zone was set to 0.0",
" GetSysInput: A zone secondary recirculation fraction is specified for zone served by ...terminal unit \"ZN_1_FLR_1_SEC_3 VAV BOX COMPONENT\" , that indicates a single path system ...The zone secondary recirculation for that zone was set to 0.0",
" GetSysInput: A zone secondary recirculation fraction is specified for zone served by ...terminal unit \"ZN_1_FLR_1_SEC_4 VAV BOX COMPONENT\" , that indicates a single path system ...The zone secondary recirculation for that zone was set to 0.0",
" GetSysInput: A zone secondary recirculation fraction is specified for zone served by ...terminal unit \"ZN_1_FLR_1_SEC_5 VAV BOX COMPONENT\" , that indicates a single path system ...The zone secondary recirculation for that zone was set to 0.0",
" Controller:MechanicalVentilation=\"VAV WITH REHEAT_OAMECHANICAL VENTILATION\", inappropriate use of Zone secondary recirculation A zone secondary recirculation fraction is specified for zone served by ...terminal unit \"ZN_1_FLR_1_SEC_2 VAV BOX\" , that indicates a single path system For Zone=\"ZN_1_FLR_1_SEC_2\". ...The zone secondary recirculation for that zone was set to 0.0",
" Controller:MechanicalVentilation=\"VAV WITH REHEAT_OAMECHANICAL VENTILATION\", inappropriate use of Zone secondary recirculation A zone secondary recirculation fraction is specified for zone served by ...terminal unit \"ZN_1_FLR_1_SEC_3 VAV BOX\" , that indicates a single path system For Zone=\"ZN_1_FLR_1_SEC_3\". ...The zone secondary recirculation for that zone was set to 0.0",
" Controller:MechanicalVentilation=\"VAV WITH REHEAT_OAMECHANICAL VENTILATION\", inappropriate use of Zone secondary recirculation A zone secondary recirculation fraction is specified for zone served by ...terminal unit \"ZN_1_FLR_1_SEC_4 VAV BOX\" , that indicates a single path system For Zone=\"ZN_1_FLR_1_SEC_4\". ...The zone secondary recirculation for that zone was set to 0.0",
" Controller:MechanicalVentilation=\"VAV WITH REHEAT_OAMECHANICAL VENTILATION\", inappropriate use of Zone secondary recirculation A zone secondary recirculation fraction is specified for zone served by ...terminal unit \"ZN_1_FLR_1_SEC_5 VAV BOX\" , that indicates a single path system For Zone=\"ZN_1_FLR_1_SEC_5\". ...The zone secondary recirculation for that zone was set to 0.0",
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=SHWSYS1 PUMP",
" ComponentCost:LineItem: \"INTERIOR FLOOR\" Construction=\"INT-FLOOR-UNDERSIDE\", no surfaces have the Construction specified No costs will be calculated for this Construction.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"5ZoneVAV-ChilledWaterStorage-Stratified": {
"Warning Count": 4,
"Warning": [
" SizeWaterCoil: Coil=\"VAV WITH REHEAT_COOLC\", Cooling Coil has leaving humidity ratio > entering humidity ratio. Wair,in = 8.770600E-003 Wair,out = 9.058810E-003 ....coil leaving humidity ratio will be reset to: Wair,out = 8.770600E-003",
" The design coil load is zero for Coil:Heating:Water VAV WITH REHEAT_HEATC The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=SHWSYS1 PUMP",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"5ZoneWarmestMultDDSizBypass": {
"Warning Count": 2,
"Warning": [
" Plant Loop: CONDENSER WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSER WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"5ZoneWarmestMultDDSizOnOff": {
"Warning Count": 2,
"Warning": [
" Plant Loop: CONDENSER WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSER WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"5ZoneWarmestMultDDSizVAV": {
"Warning Count": 2,
"Warning": [
" Plant Loop: CONDENSER WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSER WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"5ZoneWarmestMultDDSizVT": {
"Warning Count": 2,
"Warning": [
" Plant Loop: CONDENSER WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSER WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"5Zone_Unitary_HXAssistedCoil": {
"Warning Count": 9,
"Warning": [
" ProcessScheduleInput: Schedule:Constant=\"SUPPLY AIR HUM RATE SCHEDULE\", Blank Schedule Type Limits Name input -- will not be validated.",
" CoilSystem:Cooling:DX:HeatExchangerAssisted \"HEAT EXCHANGER ASSISTED COOLING COIL 1\" -- Exceeded max iterations (50) while calculating operating conditions. During Warmup, Environment=CHICAGO ANN CLG .4% CONDNS WB=>MDB, at Simulation time=07/21 00:00 - 00:15",
" Enthalpy out of range (PsyTsatFnHPb) Routine=Unknown, Environment=CHICAGO_IL_USA ANNUAL HEATING 99% DESIGN CONDITIONS DB, at Simulation time=01/08 00:00 - 00:15 Enthalpy=-62695.06581 Pressure= 99063.00 Initial Resultant Temperature= -59.98",
" HeatExchanger:AirToAir:SensibleAndLatent \"HEAT EXCHANGER ASSISTED DX 1\" Average air volume flow rate is <50% or >130% of the nominal HX supply air volume flow rate. Air volume flow rate ratio = 0.403. Environment=CHICAGO ANN CLG .4% CONDNS WB=>MDB, at Simulation time=07/21 00:00 - 00:15",
" Temperature out of range [-100. to 200.] (PsyPsatFnTemp) Routine=CalcMultiSpeedVarSpeedCoilCooling, Environment=CHICAGO ANN CLG .4% CONDNS WB=>MDB, at Simulation time=07/21 00:00 - 00:15 Input Temperature=-115.36",
" Calculated Humidity Ratio invalid (PsyWFnTdbH) Routine=CalcMultiSpeedVarSpeedCoilCooling, Environment=CHICAGO ANN CLG .4% CONDNS WB=>MDB, at Simulation time=07/21 04:30 - 04:45 Dry-Bulb= -38.77 Enthalpy= -39212.107 Calculated Humidity Ratio= -1.0170E-004 ... Humidity Ratio set to .00001",
" AirLoopHVAC:UnitarySystem - DX unit sensible part-load ratio calculation failed: part-load ratio limits exceeded, for unit = GASHEAT DXAC FURNACE 1 Estimated part-load ratio = 0.932 The estimated part-load ratio will be used and the simulation continues. Occurrence info: Environment=CHICAGO ANN CLG .4% CONDNS WB=>MDB, at Simulation time=07/21 08:30 - 08:45",
" AirLoopHVAC:UnitarySystem - sensible part-load ratio calculation failed: part-load ratio limits exceeded, for unit = GASHEAT DXAC FURNACE 1 Estimated part-load ratio = 0.932 The estimated part-load ratio will be used and the simulation continues. Occurrence info: Environment=CHICAGO ANN CLG .4% CONDNS WB=>MDB, at Simulation time=07/21 08:30 - 08:45",
" The following Report Variables were requested but not generated -- check.rdd file Either the IDF did not contain these elements, the variable name is misspelled, or the requested variable is an advanced output which requires Output : Diagnostics, DisplayAdvancedReportVariables;"
]
},
"5Zone_Unitary_VSDesuperheater": {
"Warning Count": 2,
"Warning": [
" ProcessScheduleInput: Schedule:Constant=\"SUPPLY AIR HUM RATE SCHEDULE\", Blank Schedule Type Limits Name input -- will not be validated.",
" The following Report Variables were requested but not generated -- check.rdd file Either the IDF did not contain these elements, the variable name is misspelled, or the requested variable is an advanced output which requires Output : Diagnostics, DisplayAdvancedReportVariables;"
]
},
"5Zone_Unitary_VSDesuperheatWaterHeater": {
"Warning Count": 3,
"Warning": [
" ProcessScheduleInput: DecodeHHMMField, Invalid \"until\" field value is not a multiple of the minutes for each timestep: UNTIL: 13:10 Other errors may result. Occurred in Day Schedule=HOT WATER DEMAND SCHEDULE_dy_1",
" ProcessScheduleInput: Schedule:Constant=\"SUPPLY AIR HUM RATE SCHEDULE\", Blank Schedule Type Limits Name input -- will not be validated.",
" The following Report Variables were requested but not generated -- check.rdd file Either the IDF did not contain these elements, the variable name is misspelled, or the requested variable is an advanced output which requires Output : Diagnostics, DisplayAdvancedReportVariables;"
]
},
"ActiveTrombeWall": {
"Warning Count": 1,
"Warning": [
" GetAirPathData: AirLoopHVAC=\"FAN LOOP\" has no Controllers."
]
},
"AirEconomizerFaults_RefBldgLargeOfficeNew2004_Chicago": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"AirflowNetwork3zVent": {
"Warning Count": 2,
"Warning": [
" GetAirflowNetworkInput: AirflowNetwork:MultiZone:Surface=\"WINDOW11\". The opening is a Triangular subsurface. A rectangular subsurface will be used with equivalent width and height.",
" GetAirflowNetworkInput: AirflowNetwork:MultiZone:Surface=\"WINDOW12\". The opening is a Triangular subsurface. A rectangular subsurface will be used with equivalent width and height."
]
},
"AirflowNetwork_MultiZone_House_TwoSpeed": {
"Warning Count": 2,
"Warning": [
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance."
]
},
"AirflowNetwork_MultiZone_SmallOffice_CoilHXAssistedDX": {
"Warning Count": 1,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=MIAMI_FL_USA_WMO_722020 ..Weather File Location=Miami Intl Ap FL USA TMY3 WMO#=722020 ..due to location differences, Latitude difference=[4.00E-002] degrees, Longitude difference=[3.00E-002] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[450.00] percent, [9.00] meters."
]
},
"AirflowNetwork_MultiZone_SmallOffice_VAV": {
"Warning Count": 83,
"Warning": [
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation",
" Air temperature out of limits for conductivity calculation"
]
},
"AirflowWindowsAndBetweenGlassBlinds": {
"Warning Count": 2,
"Warning": [
" Window construction WIN-CON-DOUBLEPANE WITH BETWEEN-GLASS BLIND has a between-glass shade or blind The ReportGlass entry for this construction will not be printed in eplusout.eio.",
" Window construction WIN-CON-TRIPLEPANE WITH BETWEEN-GLASS BLIND has a between-glass shade or blind The ReportGlass entry for this construction will not be printed in eplusout.eio."
]
},
"AirflowWindowsAndBetweenGlassShades": {
"Warning Count": 2,
"Warning": [
" Window construction WIN-CON-DOUBLEPANE WITH BETWEEN-GLASS SHADE has a between-glass shade or blind The ReportGlass entry for this construction will not be printed in eplusout.eio.",
" Window construction WIN-CON-TRIPLEPANE WITH BETWEEN-GLASS SHADE has a between-glass shade or blind The ReportGlass entry for this construction will not be printed in eplusout.eio."
]
},
"CentralChillerHeaterSystem_Cooling_Heating": {
"Warning Count": 6,
"Warning": [
" Capacity ratio as a function of temperature curve output is not equal to 1.0 (+ or - 10%) at reference conditions for ChillerHeaterPerformance:Electric:EIR= CHILLERHEATERMODULE 1 Curve output at reference conditions = 1.166",
" Energy input ratio as a function of temperature curve output is not equal to 1.0 (+ or - 10%) at reference conditions for ChillerHeaterPerformance:Electric:EIR= CHILLERHEATERMODULE 1 Curve output at reference conditions = 0.717",
" Capacity ratio as a function of temperature curve output is not equal to 1.0 (+ or - 10%) at reference conditions for ChillerHeaterPerformance:Electric:EIR= CHILLERHEATERMODULE 2 Curve output at reference conditions = 1.166",
" Energy input ratio as a function of temperature curve output is not equal to 1.0 (+ or - 10%) at reference conditions for ChillerHeaterPerformance:Electric:EIR= CHILLERHEATERMODULE 2 Curve output at reference conditions = 0.717",
" Missing temperature setpoint on cooling side for CentralHeatPumpSystem named CHILLERBANK A temperature setpoint is needed at the outlet node of a CentralHeatPumpSystem, use a SetpointManager The overall loop setpoint will be assumed for CentralHeatPumpSystem. The simulation continues ...",
" Missing temperature setpoint on heating side for CentralHeatPumpSystem named CHILLERBANK A temperature setpoint is needed at the outlet node of a CentralHeatPumpSystem, use a SetpointManager The overall loop setpoint will be assumed for CentralHeatPumpSystem. The simulation continues ..."
]
},
"CentralChillerHeaterSystem_Simultaneous_Cooling_Heating": {
"Warning Count": 4,
"Warning": [
" Capacity ratio as a function of temperature curve output is not equal to 1.0 (+ or - 10%) at reference conditions for ChillerHeaterPerformance:Electric:EIR= CHILLERHEATERMODULE Curve output at reference conditions = 1.166",
" Energy input ratio as a function of temperature curve output is not equal to 1.0 (+ or - 10%) at reference conditions for ChillerHeaterPerformance:Electric:EIR= CHILLERHEATERMODULE Curve output at reference conditions = 0.717",
" Missing temperature setpoint on cooling side for CentralHeatPumpSystem named CHILLERBANK A temperature setpoint is needed at the outlet node of a CentralHeatPumpSystem, use a SetpointManager The overall loop setpoint will be assumed for CentralHeatPumpSystem. The simulation continues ...",
" Missing temperature setpoint on heating side for CentralHeatPumpSystem named CHILLERBANK A temperature setpoint is needed at the outlet node of a CentralHeatPumpSystem, use a SetpointManager The overall loop setpoint will be assumed for CentralHeatPumpSystem. The simulation continues ... User-Specified Nominal Capacity of 680000.00 [W] differs from Design Size Nominal Capacity of 30097.14 [W] This may, or may not, indicate mismatched component sizes. Verify that the value entered is intended and is consistent with other components."
]
},
"ChangeoverBypassVAV_AirToAir": {
"Warning Count": 2,
"Warning": [
" Coil:Heating:Fuel \"FURNACE HEATING COIL 1\" The Temperature Setpoint Node Name input is not required for this heating coil because this heating coil is controlled based on the load calculated by the thermostat. ... this heating coil is not controlled by using a temperature setpoint manager. ... if a temperature setpoint is placed at the outlet node of this heating coil, that temperature setpoint will not be used. ... leaving the input field \"Temperature Setpoint Node Name\" blank will eliminate this warning.",
" The following Report Variables were requested but not generated -- check.rdd file Either the IDF did not contain these elements, the variable name is misspelled, or the requested variable is an advanced output which requires Output : Diagnostics, DisplayAdvancedReportVariables;"
]
},
"ChillerPartLoadCurve_RefBldgLargeOfficeNew2004_Chicago": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"CmplxGlz_Daylighting_SouthVB45deg": {
"Warning Count": 7,
"Warning": [
" Site:GroundTemperature:BuildingSurface: Some values fall outside the range of 15-25C. These values may be inappropriate. Please consult the Input Output Reference for more details.",
" GetDaylightingControls: Fraction of Zone controlled by the Daylighting reference points is < 1.0. ..discovered in \"Daylighting:Controls\" for Zone=\"COMFENZONE\", only 0.00 of the zone is controlled.",
" The Standard Ratings is calculated for Coil:Cooling:DX:SingleSpeed = SYS-1 DX COOLING COIL but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" GetNextEnvironment: Adaptive Comfort being reported during design day.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" GetNextEnvironment: Adaptive Comfort being reported during design day.",
" The following Report Variables were requested but not generated -- check.rdd file Either the IDF did not contain these elements, the variable name is misspelled, or the requested variable is an advanced output which requires Output : Diagnostics, DisplayAdvancedReportVariables;"
]
},
"CmplxGlz_SchedSurfGains": {
"Warning Count": 1,
"Warning": [
" Timestep: Requested number (1) is less than the suggested minimum of 4. Please see entry for Timestep in Input/Output Reference for discussion of considerations."
]
},
"ConvectionAdaptiveSmallOffice": {
"Warning Count": 2,
"Warning": [
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=SWHSYS1 PUMP",
" CalcDoe2DXCoil: Coil:Cooling:DX:SingleSpeed \"PSZ-AC:1_COOLC DXCOIL\" - Air-cooled condenser inlet dry-bulb temperature below 0 C. Outdoor dry-bulb temperature = -20.60 ... Occurrence info = CHICAGO ANN HTG 99.6% CONDNS DB, 01/21 00:02 - 00:04 ... Operation at low ambient temperatures may require special performance curves."
]
},
"CoolingTowerWithWBDeltaTempOp": {
"Warning Count": 2,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=TAMPA_INTL_AIRPORT_FL_USA DESIGN_CONDITIONS ..Weather File Location=Tampa International Ap FL USA TMY3 WMO#=722110 ..due to location differences, Latitude difference=[0.00] degrees, Longitude difference=[0.00] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[100.00] percent, [3.00] meters.",
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs."
]
},
"CoolingTower_MerkelVariableSpeed": {
"Warning Count": 3,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" The following Report Variables were requested but not generated -- check.rdd file Either the IDF did not contain these elements, the variable name is misspelled, or the requested variable is an advanced output which requires Output : Diagnostics, DisplayAdvancedReportVariables;"
]
},
"CoolingTower_VariableSpeed": {
"Warning Count": 1,
"Warning": [
" CoolingTower:VariableSpeed \"CENTRAL TOWER\" - Tower range temperature is outside model boundaries at 0.49. ...Valid range = 1.11 to 22.22. Occurrence info = CHICAGO OHARE INTL AP ANN CLG 1% CONDNS DB=>MWB, 07/21 00:00 - 00:15 ...Tower range temperature passed to the model = 0.48953 ...Range temperatures outside model boundaries may not adversely affect tower performance. ...This is not an unexpected occurrence when simulating actual conditions."
]
},
"CoolingTower_VariableSpeed_CondEntTempReset": {
"Warning Count": 1,
"Warning": [
" CoolingTower:VariableSpeed \"CENTRAL TOWER\" - Tower range temperature is outside model boundaries at 0.55. ...Valid range = 1.11 to 22.22. Occurrence info = CHICAGO OHARE INTL AP ANN CLG 1% CONDNS DB=>MWB, 07/21 00:00 - 00:15 ...Tower range temperature passed to the model = 0.55175 ...Range temperatures outside model boundaries may not adversely affect tower performance. ...This is not an unexpected occurrence when simulating actual conditions."
]
},
"CoolingTower_VariableSpeed_CondEntTempReset_MultipleTowers": {
"Warning Count": 1,
"Warning": [
" CoolingTower:VariableSpeed \"CENTRAL TOWER\" - Tower range temperature is outside model boundaries at 0.55. ...Valid range = 1.11 to 22.22. Occurrence info = CHICAGO OHARE INTL AP ANN CLG 1% CONDNS DB=>MWB, 07/21 00:00 - 00:15 ...Tower range temperature passed to the model = 0.55175 ...Range temperatures outside model boundaries may not adversely affect tower performance. ...This is not an unexpected occurrence when simulating actual conditions."
]
},
"CoolingTower_VariableSpeed_IdealCondEntTempSetpoint": {
"Warning Count": 2,
"Warning": [
" CoolingTower:VariableSpeed \"CENTRAL TOWER\" - Tower range temperature is outside model boundaries at 1.09. ...Valid range = 1.11 to 22.22. Occurrence info = CHICAGO OHARE INTL AP ANN CLG 1% CONDNS DB=>MWB, 07/21 00:00 - 00:15 ...Tower range temperature passed to the model = 1.08783 ...Range temperatures outside model boundaries may not adversely affect tower performance. ...This is not an unexpected occurrence when simulating actual conditions.",
" CoolingTower:VariableSpeed \"CENTRAL TOWER\" - Tower approach temperature is outside model boundaries at -2.81. ...Valid range = 1.11 to 40.00. Occurrence info = CHICAGO OHARE INTL AP ANN CLG 1% CONDNS DB=>MWB, 07/21 10:00 - 10:08 ...Tower approach temperature passed to the model = -2.80698 ...Approach temperatures outside model boundaries may not adversely affect tower performance. ...This is not an unexpected occurrence when simulating actual conditions."
]
},
"CoolingTower_VariableSpeed_IdealCondEntTempSetpoint_MultipleTowers": {
"Warning Count": 1,
"Warning": [
" CoolingTower:VariableSpeed \"CENTRAL TOWER\" - Tower range temperature is outside model boundaries at 1.09. ...Valid range = 1.11 to 22.22. Occurrence info = CHICAGO OHARE INTL AP ANN CLG 1% CONDNS DB=>MWB, 07/21 00:00 - 00:15 ...Tower range temperature passed to the model = 1.08783 ...Range temperatures outside model boundaries may not adversely affect tower performance. ...This is not an unexpected occurrence when simulating actual conditions."
]
},
"CoolingTower_VariableSpeed_MultiCell": {
"Warning Count": 1,
"Warning": [
" CoolingTower:VariableSpeed \"TOWERWATERSYS COOLTOWER\" - Tower approach temperature is outside model boundaries at 0.00. ...Valid range = 1.11 to 40.00. Occurrence info = CHICAGO ANN CLG .4% CONDNS WB=>MDB, 07/21 05:00 - 05:05 ...Tower approach temperature passed to the model = 0.00000 ...Approach temperatures outside model boundaries may not adversely affect tower performance. ...This is not an unexpected occurrence when simulating actual conditions."
]
},
"CooltowerSimpleTest": {
"Warning Count": 1,
"Warning": [
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs."
]
},
"CooltowerSimpleTestwithVentilation": {
"Warning Count": 1,
"Warning": [
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs."
]
},
"CrossVent_1Zone_AirflowNetwork_with2CrossflowJets": {
"Warning Count": 1,
"Warning": [
" GetAirflowNetworkInput: AirflowNetwork:MultiZone:Zone object, Ventilation Control Zone Temperature Setpoint Schedule Name not required, when Ventilation Control Mode is neither Temperature nor Enthalpy. ..Ventilation Control Zone Temperature Setpoint Schedule Name specified = WINDOWVENTSCHED ..for Zone Name = \"ZONA\", with Ventilation Control Mode = \"CONSTANT\""
]
},
"CustomSolarVisibleSpectrum_RefBldgSmallOfficeNew2004_Chicago": {
"Warning Count": 3,
"Warning": [
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=SWHSYS1 PUMP",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"DaylightingDeviceShelf": {
"Warning Count": 1,
"Warning": [
" CalculateZoneVolume: 1 zone is not fully enclosed. For more details use: Output:Diagnostics,DisplayExtrawarnings;"
]
},
"DesiccantDehumidifierWithAirToAirCoil": {
"Warning Count": 11,
"Warning": [
" HeatExchanger:Desiccant:BalancedFlow:PerformanceDataType1 \"HXDESPERF1\" - Regeneration inlet air temperature used in regen outlet air temperature equation is outside model boundaries at 34.37. ...Valid range = 46.11 to 46.11. Occurrence info = MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB, 07/21 03:20 - 03:21 ...Regeneration outlet air temperature equation: regeneration inlet air temperature passed to the model = 46.111110 ...Using regeneration inlet air temperatures that are outside the regeneration outlet air temperature equation model boundaries may adversely affect desiccant model performance.",
" HeatExchanger:Desiccant:BalancedFlow:PerformanceDataType1 \"HXDESPERF1\" - Process inlet air temperature used in regen outlet air temperature equation is outside model boundaries at 23.81. ...Valid range = 4.58 to 21.83. Occurrence info = MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB,07/21 03:20 - 03:21 ...Regeneration outlet air temperature equation: process inlet air temperature passed to the model = 21.833330 ...Using process inlet air temperatures that are outside the regeneration outlet air temperature equation model boundaries may adversely affect desiccant model performance.",
" HeatExchanger:Desiccant:BalancedFlow:PerformanceDataType1 \"HXDESPERF1\" - Regeneration outlet air temperature is greater than inlet temperature at 41.90. ...Regen inlet air temperature = 34.37. Occurrence info = MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB, 07/21, 03:20 - 03:21 ...Regeneration outlet air temperature should always be less than or equal to regen inlet air temperature. Verify correct model coefficients.",
" HeatExchanger:Desiccant:BalancedFlow:PerformanceDataType1 \"HXDESPERF1\" - Regeneration inlet air temperature used in regen outlet air humidity ratio equation is outside model boundaries at 34.37. ...Valid range = 46.11 to 46.11. Occurrence info = MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB, 07/21 , 03:20 - 03:21 ...Regeneration outlet air humidity ratio equation: regeneration inlet air temperature passed to the model = 46.11 ...Using regeneration inlet air temperatures that are outside the regeneration inlet air temperature equation model boundaries may adversely affect desiccant model performance.",
" HeatExchanger:Desiccant:BalancedFlow:PerformanceDataType1 \"HXDESPERF1\" - Process inlet air temperature used in regen outlet air humidity ratio equation is outside model boundaries at 23.81. ...Valid range = 4.58 to 21.83. Occurrence info = MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB, 07/21 03:20 - 03:21 ...Regeneration outlet air humidity ratio equation: process inlet air temperature passed to the model = 21.833330 ...Using process inlet air temperatures that are outside the regeneration outlet air humidity ratio equation model may adversely affect desiccant model performance.",
" HeatExchanger:Desiccant:BalancedFlow:PerformanceDataType1 \"HXDESPERF1\" - Regeneration inlet air relative humidity related to regen outlet air temperature equation is outside model boundaries at 49.9. ...Model limit on regeneration inlet air relative humidity is 5.0 to 45.0. ...Occurrence info = MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB, 07/21, 03:20 - 03:21 ...Using regeneration inlet air relative humidities that are outside the regeneration outlet temperature equation model boundaries may adversely affect desiccant model performance. Verify correct model coefficients.",
" HeatExchanger:Desiccant:BalancedFlow:PerformanceDataType1 \"HXDESPERF1\" - Process inlet air relative humidity related to regen outlet air temperature equation is outside model boundaries at 44.9. ...Model limit on process inlet air relative humidity is 80.0 to 100.0. ...Occurrence info = MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB, 07/21, 03:20 - 03:21 ...Using process inlet air relative humidities that are outside the regeneration outlet temperature equation model boundaries may adversely affect desiccant model performance. Verify correct model coefficients.",
" HeatExchanger:Desiccant:BalancedFlow:PerformanceDataType1 \"HXDESPERF1\" - Regeneration inlet air relative humidity related to regen outlet air humidity ratio equation is outside model boundaries at 49.9. ...Model limit on regeneration inlet air relative humidity is 5.0 to 45.0. ...Occurrence info = MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB, 07/21, 03:20 - 03:21 ...Using regeneration inlet air relative humidities that are outside the regeneration outlet humidity ratio equation model boundaries may adversely affect desiccant model performance. Verify correct model coefficients.",
" HeatExchanger:Desiccant:BalancedFlow:PerformanceDataType1 \"HXDESPERF1\" - Process inlet air relative humidity related to regen outlet air humidity ratio equation is outside model boundaries at 44.9. ...Model limit on process inlet air relative humidity is 80.0 to 100.0. ...Occurrence info = MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB, 07/21, 03:20 - 03:21 ...Using process inlet air relative humidities that are outside the regeneration outlet humidity ratio equation model boundaries may adversely affect desiccant model performance. Verify correct model coefficients.",
" HeatExchanger:Desiccant:BalancedFlow:PerformanceDataType1 \"HXDESPERF1\" - Process inlet air humidity ratio used in regen outlet air temperature equation is outside model boundaries at 4.983093E-003. ...Valid range = 5.000000E-003 to 1.571400E-002. Occurrence info = MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB, 07/21 03:49 - 03:50 ...Regeneration outlet air temperature equation: process inlet air humidity ratio passed to the model = 5.000000E-003 ...Using process inlet air humidity ratios that are outside the regeneratoin outlet air temperature equation model boundaries may adversely affect desiccant model performance.",
" HeatExchanger:Desiccant:BalancedFlow:PerformanceDataType1 \"HXDESPERF1\" - Process inlet air humidity ratio used in regen outlet air humidity ratio equation is outside model boundaries at 4.983093E-003. ...Valid range = 5.000000E-003 to 1.571400E-002. Occurrence info = MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB, 07/21, 03:49 - 03:50 ...Regeneration outlet air humidity ratio equation: process inlet air humidity ratio passed to the model = 5.000000E-003 ...Using process inlet air humidity ratios that are outside the regeneration outlet humidity ratio equation model boundaries may adversely affect desiccant model performance."
]
},
"DirectIndirectEvapCoolers": {
"Warning Count": 1,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"DirectIndirectEvapCoolersVSAS": {
"Warning Count": 14,
"Warning": [
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 00:00 - 00:10 The solution for one or more of the Air Loop HVAC systems did not appear to converge ...use Output:Diagnostics,DisplayExtraWarnings; to show more details on each max iteration exceeded.",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 00:10 - 00:20 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 00:20 - 00:30 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 00:30 - 00:40 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 00:40 - 00:50 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 00:50 - 01:00 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 01:00 - 01:10 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 01:10 - 01:20 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 01:20 - 01:30 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 01:30 - 01:40 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 01:40 - 01:50 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 01:50 - 02:00 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 02:00 - 02:10 The solution for one or more of the Air Loop HVAC systems did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at PHOENIX_AZ_USA COOLING .4% CONDITIONS WB=>MDB, 07/21 02:10 - 02:20 The solution for one or more of the Air Loop HVAC systems did not appear to converge"
]
},
"DisplacementVent_1ZoneOffice": {
"Warning Count": 1,
"Warning": [
" SizeWaterCoil: Coil=\"SIMPLE COOLING COIL\", Cooling Coil has leaving humidity ratio > entering humidity ratio. Wair,in = 9.152622E-003 Wair,out = 1.239123E-002 ....coil leaving humidity ratio will be reset to: Wair,out = 9.152622E-003"
]
},
"DisplacementVent_Nat_AirflowNetwork_AdaptiveComfort": {
"Warning Count": 3,
"Warning": [
" GetAirflowNetworkInput: AirflowNetwork:MultiZone:Zone object, Ventilation Control Zone Temperature Setpoint Schedule Name not required, when Ventilation Control Mode is neither Temperature nor Enthalpy. ..Ventilation Control Zone Temperature Setpoint Schedule Name specified = ALWAYSON ..for Zone Name = \"ZONE ONE\", with Ventilation Control Mode = \"ASHRAE55ADAPTIVE\"",
" GetNextEnvironment: Adaptive Comfort being reported during design day.",
" GetNextEnvironment: Adaptive Comfort being reported during design day."
]
},
"DisplacementVent_VAV": {
"Warning Count": 1,
"Warning": [
" UpdateZoneSizing: Cooling supply air temperature (calculated) within 5C of zone temperature ...check zone thermostat set point and design supply air temperatures ...zone name = ZONE ONE ...design sensible cooling load = 3738.49 W ...thermostat set point temp = 0.000 C ...zone temperature = 23.311 C ...supply air temperature = 19.000 C ...temperature difference = -4.31105 C ...calculated volume flow rate = 0.69104 m3/s ...calculated mass flow rate = 0.83173 kg/s"
]
},
"DOASDualDuctSchool": {
"Warning Count": 1,
"Warning": [
" The following schedule names are \"Unused Schedules\". These schedules are in the idf file but are never obtained by the simulation and therefore are NOT used."
]
},
"DOAToFanCoilInlet": {
"Warning Count": 2,
"Warning": [
" Chiller:Electric:EIR = MAIN CHILLER: Integrated Part Load Value (IPLV) calculated is not at the AHRI test condition. Check limits in Cooling Capacity Function of Temperature Curve, Curve Type = BIQUADRATIC, Curve Name = MAIN CHILLER RECIPCAPFT Check limits in EIR Function of Temperature Curve, Curve Type = BIQUADRATIC, Curve Name = MAIN CHILLER RECIPEIRFT",
" HeatExchanger:AirToAir:SensibleAndLatent \"DOAS HEAT RECOVERY\" Average air volume flow rate is <50% or >130% of the nominal HX supply air volume flow rate. Air volume flow rate ratio = 0.399. Environment=CHICAGO_IL_USA ANNUAL COOLING 1% DESIGN CONDITIONS DB/MCWB, at Simulation time=07/21 12:00 - 12:15"
]
},
"DOAToFanCoilSupply": {
"Warning Count": 2,
"Warning": [
" Chiller:Electric:EIR = MAIN CHILLER: Integrated Part Load Value (IPLV) calculated is not at the AHRI test condition. Check limits in Cooling Capacity Function of Temperature Curve, Curve Type = BIQUADRATIC, Curve Name = MAIN CHILLER RECIPCAPFT Check limits in EIR Function of Temperature Curve, Curve Type = BIQUADRATIC, Curve Name = MAIN CHILLER RECIPEIRFT",
" HeatExchanger:AirToAir:SensibleAndLatent \"DOAS HEAT RECOVERY\" Average air volume flow rate is <50% or >130% of the nominal HX supply air volume flow rate. Air volume flow rate ratio = 0.399. Environment=CHICAGO_IL_USA ANNUAL COOLING 1% DESIGN CONDITIONS DB/MCWB, at Simulation time=07/21 12:00 - 12:15"
]
},
"DOAToPTAC": {
"Warning Count": 1,
"Warning": [
" GetAirPathData: AirLoopHVAC=\"DOAS\" has no Controllers."
]
},
"DOAToPTHP": {
"Warning Count": 2,
"Warning": [
" GetAirPathData: AirLoopHVAC=\"DOAS\" has no Controllers.",
" HeatExchanger:AirToAir:SensibleAndLatent \"DOAS HEAT RECOVERY\" Average air volume flow rate is <50% or >130% of the nominal HX supply air volume flow rate. Air volume flow rate ratio = 1.321E-002. Environment=MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB, at Simulation time=07/21 08:15 - 08:30"
]
},
"DOAToUnitarySystem": {
"Warning Count": 1,
"Warning": [
" GetAirPathData: AirLoopHVAC=\"DOAS\" has no Controllers."
]
},
"DOAToVRF": {
"Warning Count": 8,
"Warning": [
" GetVRFInput: AirConditioner:VariableRefrigerantFlow=\"VRF HEAT PUMP\" curve values ... Cooling Capacity Ratio Modifier Function of Low Temperature Curve Name = VRFCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"TU1 VRF DX COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = VRFTUCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"TU2 VRF DX COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = VRFTUCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"TU3 VRF DX COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = VRFTUCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"TU4 VRF DX COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = VRFTUCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"TU5 VRF DX COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = VRFTUCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetAirPathData: AirLoopHVAC=\"DOAS\" has no Controllers.",
" HeatExchanger:AirToAir:SensibleAndLatent \"DOAS HEAT RECOVERY\" Average air volume flow rate is <50% or >130% of the nominal HX supply air volume flow rate. Air volume flow rate ratio = 0.446. Environment=MIAMI INTL AP ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 00:00 - 00:15"
]
},
"DOAToWaterToAirHPInlet": {
"Warning Count": 2,
"Warning": [
" GetAirPathData: AirLoopHVAC=\"DOAS\" has no Controllers.",
" HeatExchanger:AirToAir:SensibleAndLatent \"DOAS HEAT RECOVERY\" Average air volume flow rate is <50% or >130% of the nominal HX supply air volume flow rate. Air volume flow rate ratio = 0.399. Environment=CHICAGO_IL_USA ANNUAL COOLING 1% DESIGN CONDITIONS DB/MCWB, at Simulation time=07/21 12:00 - 12:15"
]
},
"DOAToWaterToAirHPSupply": {
"Warning Count": 2,
"Warning": [
" GetAirPathData: AirLoopHVAC=\"DOAS\" has no Controllers.",
" HeatExchanger:AirToAir:SensibleAndLatent \"DOAS HEAT RECOVERY\" Average air volume flow rate is <50% or >130% of the nominal HX supply air volume flow rate. Air volume flow rate ratio = 0.399. Environment=CHICAGO_IL_USA ANNUAL COOLING 1% DESIGN CONDITIONS DB/MCWB, at Simulation time=07/21 12:00 - 12:15"
]
},
"DynamicClothing": {
"Warning Count": 1,
"Warning": [
" Timestep: Requested number (1) is less than the suggested minimum of 4. Please see entry for Timestep in Input/Output Reference for discussion of considerations."
]
},
"EarthTubeSimpleTest": {
"Warning Count": 2,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=HILO_HI_USA TMY2-21504 ..Weather File Location=San Francisco Intl Ap CA USA TMY3 WMO#=724940 ..due to location differences, Latitude difference=[17.90] degrees, Longitude difference=[32.67] degrees. ..Time Zone difference=[2.0] hour(s), Elevation difference=[81.82] percent, [9.00] meters.",
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs."
]
},
"EcoroofOrlando": {
"Warning Count": 4,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=ORLANDO_FL_USA DESIGN_CONDITIONS ..Weather File Location=Tampa International Ap FL USA TMY3 WMO#=722110 ..due to location differences, Latitude difference=[0.58] degrees, Longitude difference=[1.20] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[81.25] percent, [26.00] meters.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Plant Loop: CHILLER PLANT CONDENSER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CHILLER PLANT CONDENSER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"ElectricChiller": {
"Warning Count": 2,
"Warning": [
" ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.",
" In calculating the design coil UA for Coil:Cooling:Water MAIN COOLING COIL 1 no apparatus dew-point can be found for the initial entering and leaving conditions; The initial design conditions are: Tair,in = 26.6670 Wair,in = 1.670000E-002 Twater,in = 7.2220 Tair,out = 14.3890 Wair,out = 9.900000E-003"
]
},
"ElectricEIRChillerHeatRecoveryAuto": {
"Warning Count": 2,
"Warning": [
" Plant Loop: HEAT RECOVERY WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: HEAT RECOVERY WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"EMSAirflowNetworkOpeningControlByHumidity": {
"Warning Count": 3,
"Warning": [
" GetHybridVentilationInputs: AvailabilityManager:HybridVentilation=\"HYBRID VENTILATION CONTROLLER 1\" Ventilation Control Mode Schedule Name=\"HYBRID CONTROL MODE SCHEDULE\" specifies control mode 0 for all entries. All zones using this Ventilation Control Mode Schedule Name have no hybrid ventilation control.",
" AirflowNetwork: The window or door is open during HVAC system operation ZN001:WALL001:WIN001 The window or door opening factor is 1.00 Environment=CHICAGO_IL_USA ANNUAL COOLING 1% DESIGN CONDITIONS DB/MCWB, at Simulation time=07/21 07:00 - 07:10",
" AirflowNetwork: The window or door is open during HVAC system operation ZN002:WALL003:WIN001 The window or door opening factor is 0.50 Environment=CHICAGO_IL_USA ANNUAL COOLING 1% DESIGN CONDITIONS DB/MCWB, at Simulation time=07/21 07:00 - 07:10"
]
},
"EMSCustomOutputVariable": {
"Warning Count": 2,
"Warning": [
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=SHWSYS1 PUMP",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"EMSCustomSchedule": {
"Warning Count": 2,
"Warning": [
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=SHWSYS1 PUMP",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"EMSDemandManager_LargeOffice": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" CoolingTower:SingleSpeed \"TOWERWATERSYS COOLTOWER\" Cooling tower water outlet temperature (4.69 C) is below the specified minimum condenser loop temp of 5.00 C Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 07:00 - 07:15"
]
},
"EMSDiscreteAirSystemSizes": {
"Warning Count": 2,
"Warning": [
" ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"EMSPlantLoopOverrideControl": {
"Warning Count": 2,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=ORLANDO_FL_USA DESIGN_CONDITIONS ..Weather File Location=Tampa International Ap FL USA TMY3 WMO#=722110 ..due to location differences, Latitude difference=[0.58] degrees, Longitude difference=[1.20] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[81.25] percent, [26.00] meters.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"EMSPlantOperation_largeOff": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"EMSReplaceTraditionalManagers_LargeOffice": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" CoolingTower:SingleSpeed \"TOWERWATERSYS COOLTOWER\" Cooling tower water outlet temperature (4.69 C) is below the specified minimum condenser loop temp of 5.00 C Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 07:00 - 07:15"
]
},
"EMSThermochromicWindow": {
"Warning Count": 4,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=LAS_VEGAS_NV_USA TMY2-23169 ..Weather File Location=Cedar City Municipal Ap UT USA TMY3 WMO#=724755 ..due to location differences, Latitude difference=[1.62] degrees, Longitude difference=[2.07] degrees. ..Time Zone difference=[1.0] hour(s), Elevation difference=[156.48] percent, [1039.00] meters.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=93598 differs by more than 10% from Standard Barometric Pressure=82471. ...occurs in DesignDay=LAS_VEGAS ANN HTG 99.6% CONDNS DB, Standard Pressure (based on elevation) will be used.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=93598 differs by more than 10% from Standard Barometric Pressure=82471. ...occurs in DesignDay=LAS_VEGAS ANN CLG .4% CONDNS DB=>MWB, Standard Pressure (based on elevation) will be used.",
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=SHWSYS1 PUMP"
]
},
"EngineChiller": {
"Warning Count": 1,
"Warning": [
" The following Report Variables were requested but not generated -- check.rdd file Either the IDF did not contain these elements, the variable name is misspelled, or the requested variable is an advanced output which requires Output : Diagnostics, DisplayAdvancedReportVariables;"
]
},
"ExhFiredAbsorptionChiller": {
"Warning Count": 4,
"Warning": [
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:BUILDING\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:HVAC\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:BUILDING\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:HVAC\" - not found."
]
},
"Fault_ChillerSWTSensorOffset_RefBldgLargeOfficeNew2004": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"Fault_FoulingAirFilter_RefBldgMediumOfficeNew2004": {
"Warning Count": 3,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" The following Report Variables were requested but not generated -- check.rdd file Either the IDF did not contain these elements, the variable name is misspelled, or the requested variable is an advanced output which requires Output : Diagnostics, DisplayAdvancedReportVariables;"
]
},
"Fault_FoulingChillerBoiler_RefBldgLargeOfficeNew2004": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"Fault_HumidistatOffset_Supermarket": {
"Warning Count": 5,
"Warning": [
" ManageSizing: For a zone sizing run, there must be at least 1 Sizing:Zone input object. SimulationControl Zone Sizing option ignored.",
" ManageSizing: For a system sizing run, there must be at least 1 Sizing:System object input. SimulationControl System Sizing option ignored.",
" ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"Fault_HumidistatOffset_ThermostatOffset_Supermarket": {
"Warning Count": 5,
"Warning": [
" ManageSizing: For a zone sizing run, there must be at least 1 Sizing:Zone input object. SimulationControl Zone Sizing option ignored.",
" ManageSizing: For a system sizing run, there must be at least 1 Sizing:System object input. SimulationControl System Sizing option ignored.",
" ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"Fault_ThermostatOffset_RefBldgMediumOfficeNew2004": {
"Warning Count": 3,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" The following Report Variables were requested but not generated -- check.rdd file Either the IDF did not contain these elements, the variable name is misspelled, or the requested variable is an advanced output which requires Output : Diagnostics, DisplayAdvancedReportVariables;"
]
},
"FourPipeBeamLargeOffice": {
"Warning Count": 12,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" CoolingTower:SingleSpeed \"TOWERWATERSYS COOLTOWER\" Cooling tower water outlet temperature (4.40 C) is below the specified minimum condenser loop temp of 5.00 C Environment=CHICAGO ANN HTG 99.6% CONDNS DB HVAC Sizing Pass 1, at Simulation time=01/21 04:30 - 04:45",
" CHILLER:ELECTRIC:REFORMULATEDEIR \"COOLSYS1 CHILLER 1\": The condenser outlet temperature (4.48 C) is outside the range of condenser outlet temperatures (X var) given in Electric Input to Cooling Output Ratio Function of Part-load Ratio bicubic curve = REFORMEIRCHILLER CARRIER 19XR 1259KW/6.26COP/VANES EIRFPLR The range specified = 14.56 C to 34.97 C. Environment=CHICAGO ANN HTG 99.6% CONDNS DB HVAC Sizing Pass 1, at Simulation time=01/21 06:00 - 06:15",
" CHILLER:ELECTRIC:REFORMULATEDEIR \"COOLSYS1 CHILLER 2\": The condenser outlet temperature (4.48 C) is outside the range of condenser outlet temperatures (X var) given in Electric Input to Cooling Output Ratio Function of Part-load Ratio bicubic curve = REFORMEIRCHILLER CARRIER 19XR 1259KW/6.26COP/VANES EIRFPLR The range specified = 14.56 C to 34.97 C. Environment=CHICAGO ANN HTG 99.6% CONDNS DB HVAC Sizing Pass 1, at Simulation time=01/21 06:00 - 06:15",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at CHICAGO ANN HTG 99.6% CONDNS DB, 01/21 06:00 - 06:02 The solution for zone HVAC equipment did not appear to converge ...use Output:Diagnostics,DisplayExtraWarnings; to show more details on each max iteration exceeded.",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at CHICAGO ANN HTG 99.6% CONDNS DB, 01/21 06:02 - 06:04 The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at CHICAGO ANN CLG .4% CONDNS WB=>MDB, 07/21 06:00 - 06:02 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at CHICAGO ANN CLG .4% CONDNS WB=>MDB, 07/21 06:02 - 06:04 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at CHICAGO ANN CLG .4% CONDNS WB=>MDB, 07/21 06:15 - 06:30 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at CHICAGO ANN CLG .4% CONDNS WB=>MDB, 07/21 06:20 - 06:25 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge",
" SimHVAC: Maximum iterations (25) exceeded for all HVAC loops, at CHICAGO ANN CLG .4% CONDNS WB=>MDB, 07/21 06:25 - 06:30 The solution for one or more of the Air Loop HVAC systems did not appear to converge The solution for zone HVAC equipment did not appear to converge"
]
},
"FreeCoolingChiller": {
"Warning Count": 2,
"Warning": [
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs.",
" Coil:Cooling:Water:DetailedGeometry in Coil =DETAILED COOLING COIL Air Flow Rate Velocity has greatly exceeded upper design guidelines of ~2.5 m/s Air MassFlowRate[kg/s]=29.397116 Air Face Velocity[m/s]=6.041382 Approximate MassFlowRate limit for Face Area[kg/s]=12.164895 Coil:Cooling:Water:DetailedGeometry could be resized/autosized to handle capacity"
]
},
"FurnaceWithDXSystemComfortControl": {
"Warning Count": 1,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=MIAMI_FL_USA_WMO_722020 ..Weather File Location=Miami Intl Ap FL USA TMY3 WMO#=722020 ..due to location differences, Latitude difference=[4.00E-002] degrees, Longitude difference=[3.00E-002] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[450.00] percent, [9.00] meters."
]
},
"GeometryTest": {
"Warning Count": 2,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=COLORADO_SPRGS_CO_USA_WMO_724660 ..Weather File Location=Denver-Stapleton CO USA TMY--23062 WMO#=724690 ..due to location differences, Latitude difference=[0.94] degrees, Longitude difference=[0.14] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[14.35] percent, [270.00] meters.",
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs."
]
},
"GSHP-GLHE": {
"Warning Count": 4,
"Warning": [
" ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.",
" In calculating the design coil UA for Coil:Cooling:Water MAIN COOLING COIL 1 no apparatus dew-point can be found for the initial entering and leaving conditions; The initial design conditions are: Tair,in = 26.6670 Wair,in = 1.670000E-002 Twater,in = 7.2220 Tair,out = 14.3890 Wair,out = 9.900000E-003",
" Plant Loop: HOT WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: HOT WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"GSHP-Slinky": {
"Warning Count": 4,
"Warning": [
" ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.",
" In calculating the design coil UA for Coil:Cooling:Water MAIN COOLING COIL 1 no apparatus dew-point can be found for the initial entering and leaving conditions; The initial design conditions are: Tair,in = 26.6670 Wair,in = 1.670000E-002 Twater,in = 7.2220 Tair,out = 14.3890 Wair,out = 9.900000E-003",
" Plant Loop: HOT WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: HOT WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"GSHPSimple-GLHE": {
"Warning Count": 2,
"Warning": [
" Plant Loop: HOT WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: HOT WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"HeatPumpWaterHeater": {
"Warning Count": 5,
"Warning": [
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=MAINS PRESSURE",
" Plant Loop: HOT WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: HOT WATER LOOP Supply Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSER WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSER WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"HeatPumpWaterHeaterStratified": {
"Warning Count": 5,
"Warning": [
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=MAINS PRESSURE",
" Plant Loop: HOT WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: HOT WATER LOOP Supply Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSER WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSER WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"HeatPumpWaterToAirEquationFit": {
"Warning Count": 2,
"Warning": [
" Plant Loop: WATER SOURCE HEAT PUMP CONDENSER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: WATER SOURCE HEAT PUMP CONDENSER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"HospitalBaseline": {
"Warning Count": 32,
"Warning": [
" Calculated design heating load for zone=FLOOR 1 KITCHEN is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 CLEAN 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 EXAM 3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 LOUNGE 1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 OFFICE 3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 PROCEDURE 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 SOIL 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 STORAGE 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 TRAUMA is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 3 CLEAN is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 3 SOIL is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 4-6 CLEAN is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 4-6 SOIL is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=MOB FLOOR 2-4 CORE is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" The design coil load is zero for Coil:Heating:Water AHU1_HEATC 1 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU1_HEATC 2 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU1_HEATC 3 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU1_HEATC 4 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU3_HEATC 1 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU3_HEATC 2 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU3_HEATC 3 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU3_HEATC 4 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU6_HEATC 1 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU6_HEATC 2 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU6_HEATC 3 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU6_HEATC 4 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" GetInputEconomicsTariff: UtilityCost:Tariff=\"PSI_LLF_LOWLOADFACTORSERVICE\" atypical meter The meter chosen \"ELECTRICITYNET:FACILITY is not typically used with the buyFromUtility option. Usually the Electricity:Facility meter or the ElectricityPurchased:Facility is selected when the buyFromUtility option is used.",
" GetInputEconomicsTariff: UtilityCost:Tariff=\"PSI_CS_COMMERCIALELECTRICSERVICE\" atypical meter The meter chosen \"ELECTRICITYNET:FACILITY is not typically used with the buyFromUtility option. Usually the Electricity:Facility meter or the ElectricityPurchased:Facility is selected when the buyFromUtility option is used.",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for AHU2, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 05:05 - 05:10",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for AHU1, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 14:00 - 14:10",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for AHU1, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 14:20 - 14:30"
]
},
"HospitalBaselineReheatReportEMS": {
"Warning Count": 32,
"Warning": [
" Calculated design heating load for zone=FLOOR 1 KITCHEN is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 CLEAN 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 EXAM 3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 LOUNGE 1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 OFFICE 3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 PROCEDURE 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 SOIL 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 STORAGE 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 TRAUMA is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 3 CLEAN is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 3 SOIL is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 4-6 CLEAN is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 4-6 SOIL is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=MOB FLOOR 2-4 CORE is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" The design coil load is zero for Coil:Heating:Water AHU1_HEATC 1 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU1_HEATC 2 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU1_HEATC 3 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU1_HEATC 4 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU3_HEATC 1 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU3_HEATC 2 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU3_HEATC 3 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU3_HEATC 4 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU6_HEATC 1 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU6_HEATC 2 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU6_HEATC 3 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" The design coil load is zero for Coil:Heating:Water AHU6_HEATC 4 The autosize value for maximum water flow rate is zero To change this, input a value for UA, change the heating design day, or raise the system heating design supply air temperature. Also check to make sure the Preheat Design Temperature is not the same as the Central Heating Design Supply Air Temperature.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" GetInputEconomicsTariff: UtilityCost:Tariff=\"PSI_LLF_LOWLOADFACTORSERVICE\" atypical meter The meter chosen \"ELECTRICITYNET:FACILITY is not typically used with the buyFromUtility option. Usually the Electricity:Facility meter or the ElectricityPurchased:Facility is selected when the buyFromUtility option is used.",
" GetInputEconomicsTariff: UtilityCost:Tariff=\"PSI_CS_COMMERCIALELECTRICSERVICE\" atypical meter The meter chosen \"ELECTRICITYNET:FACILITY is not typically used with the buyFromUtility option. Usually the Electricity:Facility meter or the ElectricityPurchased:Facility is selected when the buyFromUtility option is used.",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for AHU2, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 05:05 - 05:10",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for AHU1, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 14:00 - 14:10",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for AHU1, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 14:20 - 14:30"
]
},
"HospitalLowEnergy": {
"Warning Count": 45,
"Warning": [
" Calculated design heating load for zone=FLOOR 1 KITCHEN is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 CLEAN 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 EXAM 3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 LOUNGE 1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 OFFICE 3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 PROCEDURE 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 SOIL 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 STORAGE 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 TRAUMA is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 3 CLEAN is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 3 SOIL is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 4-6 CLEAN is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 4-6 SOIL is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=MOB FLOOR 2-4 CORE is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" In AirLoopHVAC DOAS2 there is unbalanced exhaust air flow. During Warmup, Environment=Chicago Ohare Intl Ap IL USA TMY3 WMO#=725300, at Simulation time=01/01 00:00 - 00:10 Unless there is balancing infiltration / ventilation air flow, this will result in load due to induced outdoor air being neglected in the simulation.",
" GetInputEconomicsTariff: UtilityCost:Tariff=\"PSI_LLF_LOWLOADFACTORSERVICE\" atypical meter The meter chosen \"ELECTRICITYNET:FACILITY is not typically used with the buyFromUtility option. Usually the Electricity:Facility meter or the ElectricityPurchased:Facility is selected when the buyFromUtility option is used.",
" GetInputEconomicsTariff: UtilityCost:Tariff=\"PSI_CS_COMMERCIALELECTRICSERVICE\" atypical meter The meter chosen \"ELECTRICITYNET:FACILITY is not typically used with the buyFromUtility option. Usually the Electricity:Facility meter or the ElectricityPurchased:Facility is selected when the buyFromUtility option is used.",
" CoolingTower:VariableSpeed \"CONDENSERLOOP CHILLER TOWERSYS COOLTOWER\" - Tower range temperature is outside model boundaries at 4.41E-002. ...Valid range = 1.11 to 11.11. Occurrence info = CHICAGO ANN HTG 99.6% CONDNS DB, 01/21 00:10 - 00:15 ...Tower range temperature passed to the model = 4.40860E-002 ...Range temperatures outside model boundaries may not adversely affect tower performance. ...This is not an unexpected occurrence when simulating actual conditions.",
" CoolingTower:VariableSpeed \"CONDENSERLOOP CHILLER TOWERSYS COOLTOWER\" - Inlet air wet-bulb temperature is outside model boundaries at -20.60. ...Valid range = -1.00 to 26.67. Occurrence info = CHICAGO ANN HTG 99.6% CONDNS DB, 01/21 00:10 - 00:15 ...Inlet air wet-bulb temperature passed to the model = -1.000000 ...Wet-bulb temperatures outside model boundaries may not adversely affect tower performance.",
" CoolingTower:VariableSpeed \"CONDENSERLOOP CHILLER TOWERSYS COOLTOWER\" - Tower approach temperature is outside model boundaries at 50.60. ...Valid range = 1.11 to 11.11. Occurrence info = CHICAGO ANN HTG 99.6% CONDNS DB, 01/21 00:10 - 00:15 ...Tower approach temperature passed to the model = 50.60000 ...Approach temperatures outside model boundaries may not adversely affect tower performance. ...This is not an unexpected occurrence when simulating actual conditions.",
" CoolingTower:VariableSpeed \"CONDENSERLOOP CHILLER TOWERSYS COOLTOWER\" - Inlet air wet-bulb temperature is outside model boundaries at -20.60. ...Valid range = -1.00 to 26.67. Occurrence info = CHICAGO ANN HTG 99.6% CONDNS DB, 01/21 00:30 - 00:35 ...Inlet air wet-bulb temperature passed to the model = -1.000000 ...Wet-bulb temperatures outside model boundaries may not adversely affect tower performance.",
" CoolingTower:VariableSpeed \"CONDENSERLOOP CHILLER TOWERSYS COOLTOWER\" - Inlet air wet-bulb temperature is outside model boundaries at -20.60. ...Valid range = -1.00 to 26.67. Occurrence info = CHICAGO ANN HTG 99.6% CONDNS DB, 01/21 00:50 - 00:55 ...Inlet air wet-bulb temperature passed to the model = -1.000000 ...Wet-bulb temperatures outside model boundaries may not adversely affect tower performance.",
" CoolingTower:VariableSpeed \"CONDENSERLOOP CHILLER TOWERSYS COOLTOWER\" - Inlet air wet-bulb temperature is outside model boundaries at -20.60. ...Valid range = -1.00 to 26.67. Occurrence info = CHICAGO ANN HTG 99.6% CONDNS DB, 01/21 01:10 - 01:15 ...Inlet air wet-bulb temperature passed to the model = -1.000000 ...Wet-bulb temperatures outside model boundaries may not adversely affect tower performance.",
" CoolingTower:VariableSpeed \"CONDENSERLOOP CHILLER TOWERSYS COOLTOWER\" - Inlet air wet-bulb temperature is outside model boundaries at -20.60. ...Valid range = -1.00 to 26.67. Occurrence info = CHICAGO ANN HTG 99.6% CONDNS DB, 01/21 01:30 - 01:35 ...Inlet air wet-bulb temperature passed to the model = -1.000000 ...Wet-bulb temperatures outside model boundaries may not adversely affect tower performance.",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS4, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 00:05 - 00:10",
" CoolingTower:VariableSpeed \"COOLSYS1 CHILLER TOWERSYS COOLTOWER\" - Tower approach temperature is outside model boundaries at 0.00. ...Valid range = 1.11 to 11.11. Occurrence info = CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 00:00 - 00:05 ...Tower approach temperature passed to the model = 0.00000 ...Approach temperatures outside model boundaries may not adversely affect tower performance. ...This is not an unexpected occurrence when simulating actual conditions.",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS1, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 00:20 - 00:25",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS5, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 00:30 - 00:35",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS2, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 00:40 - 00:45",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS1, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 00:45 - 00:50",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS4, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 00:50 - 00:55",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS1, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 00:55 - 01:00",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS1, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 01:10 - 01:15",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS5, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 01:20 - 01:25",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS2, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 01:20 - 01:25",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS4, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 01:25 - 01:30",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS1, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 01:25 - 01:30",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS5, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 01:30 - 01:35",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for DOAS1, at CHICAGO ANN CLG .4% CONDNS DB=>MWB, 07/21 01:45 - 01:50",
" CHILLER:ELECTRIC:REFORMULATEDEIR \"CONDENSERLOOP CHILLER\": The evaporator outlet temperature (30.59 C) is outside the range of evaporator outlet temperatures (X var) given in Cooling Capacity Function of Temperature biquadratic curve = CONDENSERLOOP CHILLER CLGCAPFUNCTEMPCURVE The range specified = 0.00 C to 20.00 C. Environment=CHICAGO ANN CLG .4% CONDNS DB=>MWB, at Simulation time=07/21 05:00 - 05:10",
" CHILLER:ELECTRIC:REFORMULATEDEIR \"CONDENSERLOOP CHILLER\": The evaporator outlet temperature (30.59 C) is outside the range of evaporator outlet temperatures (X var) given in Electric Input to Cooling Output Ratio Function of Temperature biquadratic curve = CONDENSERLOOP CHILLER EIRFUNCTEMPCURVE The range specified = 0.00 C to 20.00 C. Environment=CHICAGO ANN CLG .4% CONDNS DB=>MWB, at Simulation time=07/21 05:00 - 05:10",
" Plant Loop: CONDENSERLOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSERLOOP Supply Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSERLOOP CHILLER TOWERSYS Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSERLOOP CHILLER TOWERSYS Supply Side is storing excess heat the majority of the time."
]
},
"HPAirToAir_wSolarCollectorHWCoil": {
"Warning Count": 1,
"Warning": [
" GetSpecificHeatGlycol: Temperature is out of range (too high) for fluid [WATER] specific heat ** ..Called From:UpdateSolarCollector,Temperature=[129.08], supplied data range=[0.00,125.00] Environment=MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB, at Simulation time=07/21 08:30 - 08:45"
]
},
"HVACTemplate-5ZoneBaseboardHeat": {
"Warning Count": 5,
"Warning": [
" Calculated design cooling load for zone=SPACE1-1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=SPACE2-1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=SPACE3-1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=SPACE4-1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=SPACE5-1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs."
]
},
"HVACTemplate-5ZoneFanCoil-DOAS": {
"Warning Count": 1,
"Warning": [
" Chiller:Electric:EIR = MAIN CHILLER: Integrated Part Load Value (IPLV) calculated is not at the AHRI test condition. Check limits in Cooling Capacity Function of Temperature Curve, Curve Type = BIQUADRATIC, Curve Name = MAIN CHILLER RECIPCAPFT Check limits in EIR Function of Temperature Curve, Curve Type = BIQUADRATIC, Curve Name = MAIN CHILLER RECIPEIRFT"
]
},
"HVACTemplate-5ZonePTAC-DOAS": {
"Warning Count": 3,
"Warning": [
" ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:PLANT\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:PLANT\" - not found."
]
},
"HVACTemplate-5ZonePTAC": {
"Warning Count": 1,
"Warning": [
" ProcessScheduleInput: Schedule:Constant=\"ALWAYS1\", Blank Schedule Type Limits Name input -- will not be validated."
]
},
"HVACTemplate-5ZoneUnitarySystem": {
"Warning Count": 1,
"Warning": [
" Output:PreprocessorMessage=\"ExpandObjects\" has the following Warning conditions: In HVACTemplate:Plant:MixedWaterLoop \"Heat Pump Water Loop\" an HVACTemplate:Plant:HotWaterLoop is also present. All boilers with blank Template Loop Type field will be connected to the Hot Water Loop."
]
},
"HVACTemplate-5ZoneVRF": {
"Warning Count": 7,
"Warning": [
" GetVRFInput: AirConditioner:VariableRefrigerantFlow=\"VRF SYS 1 WATER SOURCE VRF HEAT PUMP\" curve values ... Cooling Capacity Ratio Modifier Function of Low Temperature Curve Name = VRF SYS 1 WATER SOURCE VRFCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetVRFInput: AirConditioner:VariableRefrigerantFlow=\"VRF SYS 2 AIR SOURCE VRF HEAT PUMP\" curve values ... Cooling Capacity Ratio Modifier Function of Low Temperature Curve Name = VRF SYS 2 AIR SOURCE VRFCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"SPACE1-1 VRF COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = SPACE1-1 VRF COOLING COIL CAP-FT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"SPACE2-1 VRF COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = SPACE2-1 VRF COOLING COIL CAP-FT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"SPACE3-1 VRF COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = SPACE3-1 VRF COOLING COIL CAP-FT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"SPACE4-1 VRF COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = SPACE4-1 VRF COOLING COIL CAP-FT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"SPACE5-1 VRF COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = SPACE5-1 VRF COOLING COIL CAP-FT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136"
]
},
"HybridVentilationControl": {
"Warning Count": 2,
"Warning": [
" GetNextEnvironment: Adaptive Comfort being reported during design day.",
" GetNextEnvironment: Adaptive Comfort being reported during design day."
]
},
"HybridZoneModel": {
"Warning Count": 2,
"Warning": [
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs.",
" The following Report Variables were requested but not generated -- check.rdd file Either the IDF did not contain these elements, the variable name is misspelled, or the requested variable is an advanced output which requires Output : Diagnostics, DisplayAdvancedReportVariables;"
]
},
"IceStorage-Parallel": {
"Warning Count": 3,
"Warning": [
" SetupCommonPipes: detected variable speed pump on supply inlet of TwoWayCommonPipe plant loop Occurs on plant loop name = CHILLED WATER LOOP The common pipe model does not support varying the flow rate on the primary/supply side The primary/supply side will operate as if constant speed, and the simulation continues",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"IceStorage-Series-ChillerDownstream": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"IceStorage-Series-ChillerUpstream": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"LBuilding-G000": {
"Warning Count": 2,
"Warning": [
" Calculated design cooling load for zone=MAIN_ZONE_I_J_K_L is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"LBuilding-G090": {
"Warning Count": 1,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"LBuilding-G180": {
"Warning Count": 2,
"Warning": [
" Calculated design cooling load for zone=MAIN_ZONE_I_J_K_L is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"LBuilding-G270": {
"Warning Count": 1,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"LgOffVAV": {
"Warning Count": 12,
"Warning": [
" SetUpZoneSizingArrays: Sizing for Zone=\"PER-2T\" will use Sizing:Zone specifications listed for Zone=\"PER-1T\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"PER-3T\" will use Sizing:Zone specifications listed for Zone=\"PER-1T\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"PER-4T\" will use Sizing:Zone specifications listed for Zone=\"PER-1T\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"COR-T\" will use Sizing:Zone specifications listed for Zone=\"PER-1T\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"PER-1F\" will use Sizing:Zone specifications listed for Zone=\"PER-1T\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"PER-2F\" will use Sizing:Zone specifications listed for Zone=\"PER-1T\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"PER-3F\" will use Sizing:Zone specifications listed for Zone=\"PER-1T\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"COR-F\" will use Sizing:Zone specifications listed for Zone=\"PER-1T\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"PER-1I\" will use Sizing:Zone specifications listed for Zone=\"PER-1T\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"PER-2I\" will use Sizing:Zone specifications listed for Zone=\"PER-1T\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"PER-3I\" will use Sizing:Zone specifications listed for Zone=\"PER-1T\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"PER-4I\" will use Sizing:Zone specifications listed for Zone=\"PER-1T\"."
]
},
"LrgOff_GridStorageDemandLeveling": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"LrgOff_GridStorageEMSSmoothing": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"LrgOff_GridStorageScheduled": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"MicroCogeneration": {
"Warning Count": 7,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=NEWARK_NJ_USA TMY2-14734 ..Weather File Location=Washington Dc Dulles IntL Ar VA USA TMY3 WMO#=724030 ..due to location differences, Latitude difference=[1.72] degrees, Longitude difference=[3.30] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[811.11] percent, [73.00] meters.",
" Calculated design heating load for zone=ZN_1_FLR_1_SEC_5 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Check input. Calculated Pump Efficiency=13.14% which is less than 50%, for pump=MICROCHP SENERTECH PUMP Calculated Pump_Efficiency % =Total_Efficiency % [11.4] / Motor_Efficiency % [87.0] Total_Efficiency % =(Rated_Volume_Flow_Rate [8.0E-004] * Rated_Pump_Head [20000.0] / Rated_Power_Use [140.0]) * 100.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" GetDensityGlycol: Temperature is out of range (too high) for fluid [WATER] density ** ..Called From:PlantPumps:CalcPumps: ,Temperature=[100.06], supplied data range=[0.00,100.00] Environment=NEWARK ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 01:00 - 01:10",
" Plant Loop: MICROCHP SENERTECH Demand Side is storing excess heat the majority of the time.",
" Plant Loop: MICROCHP SENERTECH Supply Side is storing excess heat the majority of the time."
]
},
"MultiSpeedACFurnace": {
"Warning Count": 4,
"Warning": [
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance."
]
},
"MultispeedHeatPump": {
"Warning Count": 4,
"Warning": [
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance."
]
},
"MultiSpeedHP_StagedThermostat": {
"Warning Count": 4,
"Warning": [
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance."
]
},
"MultiStory": {
"Warning Count": 1,
"Warning": [
" GetSurfaceData: There are 6 window/glass door(s) that may cause inaccurate shadowing due to Solar Distribution. For explicit details on each window, use Output:Diagnostics,DisplayExtraWarnings;"
]
},
"Mundt_System_Always_On": {
"Warning Count": 1,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=TAMPA_INTL_AIRPORT_FL_USA DESIGN_CONDITIONS ..Weather File Location=Tampa International Ap FL USA TMY3 WMO#=722110 ..due to location differences, Latitude difference=[0.00] degrees, Longitude difference=[0.00] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[100.00] percent, [3.00] meters."
]
},
"Mundt_System_On_During_the_Day": {
"Warning Count": 1,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=TAMPA_INTL_AIRPORT_FL_USA DESIGN_CONDITIONS ..Weather File Location=Tampa International Ap FL USA TMY3 WMO#=722110 ..due to location differences, Latitude difference=[0.00] degrees, Longitude difference=[0.00] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[100.00] percent, [3.00] meters."
]
},
"OutdoorAirUnitwithAirloopHVAC": {
"Warning Count": 3,
"Warning": [
" ProcessScheduleInput: Schedule:Compact=\"HVACTEMPLATE-ALWAYS 12.8\", Schedule Type Limits Name=\"HVACTEMPLATE ANY NUMBER\" not found -- will not be validated",
" ProcessScheduleInput: Schedule:Compact=\"HVACTEMPLATE-ALWAYS 1\", Schedule Type Limits Name=\"HVACTEMPLATE ANY NUMBER\" not found -- will not be validated",
" SetUpZoneSizingArrays: Sizing for Zone=\"SPACE2-1\" will use Sizing:Zone specifications listed for Zone=\"SPACE5-1\"."
]
},
"PassiveTrombeWall": {
"Warning Count": 1,
"Warning": [
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs."
]
},
"PipeHeatTransfer_Outair": {
"Warning Count": 3,
"Warning": [
" In calculating the design coil UA for Coil:Cooling:Water MAIN COOLING COIL 1 no apparatus dew-point can be found for the initial entering and leaving conditions; The initial design conditions are: Tair,in = 26.6670 Wair,in = 1.670000E-002 Twater,in = 7.2220 Tair,out = 14.3890 Wair,out = 9.900000E-003",
" GetSpecificHeatGlycol: Temperature is out of range (too low) for fluid [WATER] specific heat supplied values ** ..Called From:NodeReportingCalc:HTPIPE OUTLET NODE,Temperature=[-17.30], supplied data range=[0.00,125.00] Environment=CHICAGO_IL_USA ANNUAL HEATING 99% DESIGN CONDITIONS DB, at Simulation time=01/21 00:00 - 00:15",
" GetDensityGlycol: Temperature is out of range (too low) for fluid [WATER] density ** ..Called From:NodeReportingCalc:HTPIPE OUTLET NODE,Temperature=[-17.30], supplied data range=[0.00,100.00] Environment=CHICAGO_IL_USA ANNUAL HEATING 99% DESIGN CONDITIONS DB, at Simulation time=01/21 00:00 - 00:15"
]
},
"PipeHeatTransfer_Schedule": {
"Warning Count": 1,
"Warning": [
" In calculating the design coil UA for Coil:Cooling:Water MAIN COOLING COIL 1 no apparatus dew-point can be found for the initial entering and leaving conditions; The initial design conditions are: Tair,in = 26.6670 Wair,in = 1.670000E-002 Twater,in = 7.2220 Tair,out = 14.3890 Wair,out = 9.900000E-003"
]
},
"PipeHeatTransfer_Underground": {
"Warning Count": 1,
"Warning": [
" In calculating the design coil UA for Coil:Cooling:Water MAIN COOLING COIL 1 no apparatus dew-point can be found for the initial entering and leaving conditions; The initial design conditions are: Tair,in = 26.6670 Wair,in = 1.670000E-002 Twater,in = 7.2220 Tair,out = 14.3890 Wair,out = 9.900000E-003"
]
},
"PipeHeatTransfer_Zone": {
"Warning Count": 1,
"Warning": [
" In calculating the design coil UA for Coil:Cooling:Water MAIN COOLING COIL 1 no apparatus dew-point can be found for the initial entering and leaving conditions; The initial design conditions are: Tair,in = 26.6670 Wair,in = 1.670000E-002 Twater,in = 7.2220 Tair,out = 14.3890 Wair,out = 9.900000E-003"
]
},
"PipingSystem_Underground_FHX": {
"Warning Count": 3,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=DENVER CENTENNIAL CO USA WMO=724666 ..Weather File Location=Denver-Stapleton CO USA TMY--23062 WMO#=724690 ..due to location differences, Latitude difference=[0.19] degrees, Longitude difference=[1.00E-002] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[10.15] percent, [182.00] meters.",
" Calculated design cooling load for zone=BASEMENT is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=MAIN FLOOR is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs."
]
},
"PipingSystem_Underground_TwoPipe": {
"Warning Count": 1,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=DENVER CENTENNIAL CO USA WMO=724666 ..Weather File Location=Denver-Stapleton CO USA TMY--23062 WMO#=724690 ..due to location differences, Latitude difference=[0.19] degrees, Longitude difference=[1.00E-002] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[10.15] percent, [182.00] meters."
]
},
"PipingSystem_Underground_TwoPipe_FD_GroundTemps": {
"Warning Count": 1,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=DENVER CENTENNIAL CO USA WMO=724666 ..Weather File Location=Denver-Stapleton CO USA TMY--23062 WMO#=724690 ..due to location differences, Latitude difference=[0.19] degrees, Longitude difference=[1.00E-002] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[10.15] percent, [182.00] meters."
]
},
"PipingSystem_Underground_TwoPipe_Xing_GroundTemps": {
"Warning Count": 1,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=DENVER CENTENNIAL CO USA WMO=724666 ..Weather File Location=Denver-Stapleton CO USA TMY--23062 WMO#=724690 ..due to location differences, Latitude difference=[0.19] degrees, Longitude difference=[1.00E-002] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[10.15] percent, [182.00] meters."
]
},
"PlantApplicationsGuide_Example1": {
"Warning Count": 4,
"Warning": [
" CoolingTower:VariableSpeed \"COOLING TOWER\" - Tower approach temperature is outside model boundaries at 0.00. ...Valid range = 1.11 to 40.00. Occurrence info = CHICAGO ANN CLG 1% CONDNS DB=>MWB, 07/21 00:00 - 01:00 ...Tower approach temperature passed to the model = 0.00000 ...Approach temperatures outside model boundaries may not adversely affect tower performance. ...This is not an unexpected occurrence when simulating actual conditions.",
" CoolingTower:VariableSpeed \"COOLING TOWER\" - Tower range temperature is outside model boundaries at 0.83. ...Valid range = 1.11 to 22.22. Occurrence info = CHICAGO ANN HTG 99% CONDNS DB, 01/21 00:00 - 01:00 ...Tower range temperature passed to the model = 0.83310 ...Range temperatures outside model boundaries may not adversely affect tower performance. ...This is not an unexpected occurrence when simulating actual conditions.",
" Plant Loop: CONDENSER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"PlantApplicationsGuide_Example2": {
"Warning Count": 2,
"Warning": [
" SizeWaterCoil: Coil=\"VAV WITH REHEAT_COOLC\", Cooling Coil has leaving humidity ratio > entering humidity ratio. Wair,in = 8.788290E-003 Wair,out = 9.046779E-003 ....coil leaving humidity ratio will be reset to: Wair,out = 8.788290E-003",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Only the first unused named object of an object class is shown. Use Output:Diagnostics,DisplayAllWarnings to see all. See InputOutputReference document for more details."
]
},
"PlantComponentTemperatureSource": {
"Warning Count": 2,
"Warning": [
" Plant Loop: MAIN LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: MAIN LOOP Supply Side is storing excess heat the majority of the time."
]
},
"PlantHorizontalGroundHX": {
"Warning Count": 1,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=DENVER CENTENNIAL CO USA WMO=724666 ..Weather File Location=Denver-Stapleton CO USA TMY--23062 WMO#=724690 ..due to location differences, Latitude difference=[0.19] degrees, Longitude difference=[1.00E-002] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[10.15] percent, [182.00] meters."
]
},
"PlantLoopChainCooling": {
"Warning Count": 4,
"Warning": [
" Plant Loop: USE LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: USE LOOP Supply Side is storing excess heat the majority of the time.",
" Plant Loop: TRANSFER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: TRANSFER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"PlantLoopChainDeadband": {
"Warning Count": 2,
"Warning": [
" Plant Loop: USE HEAT LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: USE HEAT LOOP Supply Side is storing excess heat the majority of the time."
]
},
"PlantLoopChainDualDeadband": {
"Warning Count": 2,
"Warning": [
" Plant Loop: USE HEAT LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: USE HEAT LOOP Supply Side is storing excess heat the majority of the time."
]
},
"PlantPressure_VFD_Scheduled": {
"Warning Count": 2,
"Warning": [
" Plant Loop: MAIN LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: MAIN LOOP Supply Side is storing excess heat the majority of the time."
]
},
"PlateHeatExchanger": {
"Warning Count": 3,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=TAMPA_FL_USA_WMO_722110 ..Weather File Location=Tampa International Ap FL USA TMY3 WMO#=722110 ..due to location differences, Latitude difference=[0.00] degrees, Longitude difference=[1.00E-002] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[100.00] percent, [3.00] meters.",
" Plant Loop: HOT WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: HOT WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"Plenum": {
"Warning Count": 1,
"Warning": [
" Coil:Cooling:Water:DetailedGeometry in Coil =DETAILED COOLING COIL Air Flow Rate Velocity has greatly exceeded upper design guidelines of ~2.5 m/s Air MassFlowRate[kg/s]=5.056304 Air Face Velocity[m/s]=7.050460 Approximate MassFlowRate limit for Face Area[kg/s]=1.792898 Coil:Cooling:Water:DetailedGeometry could be resized/autosized to handle capacity"
]
},
"PondGroundHeatExchanger": {
"Warning Count": 2,
"Warning": [
" ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.",
" In calculating the design coil UA for Coil:Cooling:Water MAIN COOLING COIL 1 no apparatus dew-point can be found for the initial entering and leaving conditions; The initial design conditions are: Tair,in = 26.6670 Wair,in = 1.670000E-002 Twater,in = 7.2220 Tair,out = 14.3890 Wair,out = 9.900000E-003"
]
},
"PurchAirTables": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"PurchAirTables_SQL": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"PurchAirTables_wAnnual": {
"Warning Count": 3,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:Annual requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Annual will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"PurchAirWindowBlind_BlockBeamSolar": {
"Warning Count": 2,
"Warning": [
" WindowMaterial:Blind=\"BLIND\", Illegal value combination. Minimum Slat Angle=[0.0] is less than the smallest allowed by slat dimensions and spacing, min=[2.9] deg. Minimum Slat Angle will be set to 2.9 deg.",
" WindowMaterial:Blind=\"BLIND\", Illegal value combination. Maximum Slat Angle=[180.0] is greater than the largest allowed by slat dimensions and spacing, [177.1] deg. Maximum Slat Angle will be set to 177.1 deg."
]
},
"QTFtest": {
"Warning Count": 2,
"Warning": [
" Timestep: Requested number (1) is less than the suggested minimum of 4. Please see entry for Timestep in Input/Output Reference for discussion of considerations.",
" GetPollutionFactorInput: Requested reporting for Carbon Equivalent Pollution, but insufficient information is entered. Both \"FuelFactors\" and \"EnvironmentalImpactFactors\" must be entered or the displayed carbon pollution will all be zero."
]
},
"RadLoTempCFloHeatCool": {
"Warning Count": 2,
"Warning": [
" ZoneHVAC:LowTemperatureRadiant:ConstantFlow [WEST ZONE RADIANT FLOOR] Surface [ZN001:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 22.29 Zone dew-point temperature + safety delta T= 22.79 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 00:00 - 00:10 Note that a 1.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system",
" ZoneHVAC:LowTemperatureRadiant:ConstantFlow [EAST ZONE RADIANT FLOOR] Surface [ZN002:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 20.85 Zone dew-point temperature + safety delta T= 21.81 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 00:00 - 00:10 Note that a 0.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system"
]
},
"RadLoTempHydrCoolTowerCondFD": {
"Warning Count": 3,
"Warning": [
" ZoneHVAC:LowTemperatureRadiant:VariableFlow [EAST ZONE RADIANT FLOOR] Surface [ZN002:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 3.84 Zone dew-point temperature + safety delta T= 4.25 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 09:06 - 09:09 Note that a 1.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system",
" ZoneHVAC:LowTemperatureRadiant:VariableFlow [WEST ZONE RADIANT FLOOR] Surface [ZN001:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 3.72 Zone dew-point temperature + safety delta T= 3.89 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 09:09 - 09:12 Note that a 1.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system",
" ZoneHVAC:LowTemperatureRadiant:VariableFlow [NORTH ZONE RADIANT FLOOR] Surface [ZN003:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 5.91 Zone dew-point temperature + safety delta T= 6.03 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 09:42 - 09:45 Note that a 1.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system"
]
},
"RadLoTempHydrCtrlOpt": {
"Warning Count": 2,
"Warning": [
" ZoneHVAC:LowTemperatureRadiant:VariableFlow [EAST ZONE RADIANT FLOOR] Surface [ZN002:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 13.18 Zone dew-point temperature + safety delta T= 13.26 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 15:20 - 15:30 Note that a 1.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system",
" ZoneHVAC:LowTemperatureRadiant:VariableFlow [WEST ZONE RADIANT FLOOR] Surface [ZN001:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 12.39 Zone dew-point temperature + safety delta T= 12.47 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 15:40 - 15:50 Note that a 1.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system"
]
},
"RadLoTempHydrCtrlOpt2": {
"Warning Count": 2,
"Warning": [
" ZoneHVAC:LowTemperatureRadiant:VariableFlow [WEST ZONE RADIANT FLOOR] Surface [ZN001:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 12.59 Zone dew-point temperature + safety delta T= 12.82 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 15:10 - 15:20 Note that a 1.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system",
" ZoneHVAC:LowTemperatureRadiant:VariableFlow [EAST ZONE RADIANT FLOOR] Surface [ZN002:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 12.32 Zone dew-point temperature + safety delta T= 12.35 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 15:20 - 15:30 Note that a 1.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system"
]
},
"RadLoTempHydrHeatCool": {
"Warning Count": 2,
"Warning": [
" ZoneHVAC:LowTemperatureRadiant:VariableFlow [WEST ZONE RADIANT FLOOR] Surface [ZN001:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 20.21 Zone dew-point temperature + safety delta T= 21.99 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 00:00 - 00:10 Note that a 1.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system",
" ZoneHVAC:LowTemperatureRadiant:VariableFlow [EAST ZONE RADIANT FLOOR] Surface [ZN002:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 20.24 Zone dew-point temperature + safety delta T= 21.01 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 00:00 - 00:10 Note that a 0.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system"
]
},
"RadLoTempHydrHeatCoolDry": {
"Warning Count": 1,
"Warning": [
" ZoneHVAC:LowTemperatureRadiant:VariableFlow [WEST ZONE RADIANT FLOOR] Surface [ZN001:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 12.37 Zone dew-point temperature + safety delta T= 12.52 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 15:40 - 15:50 Note that a 1.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system"
]
},
"RadLoTempHydrHeatCoolDryCondFD": {
"Warning Count": 2,
"Warning": [
" ZoneHVAC:LowTemperatureRadiant:VariableFlow [WEST ZONE RADIANT FLOOR] Surface [ZN001:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 13.06 Zone dew-point temperature + safety delta T= 13.15 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 14:24 - 14:27 Note that a 1.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system",
" ZoneHVAC:LowTemperatureRadiant:VariableFlow [EAST ZONE RADIANT FLOOR] Surface [ZN002:FLR001] temperature below dew-point temperature--potential for condensation exists Flow to the radiant system will be shut-off to avoid condensation Predicted radiant system surface temperature = 12.50 Zone dew-point temperature + safety delta T= 12.56 Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 14:42 - 14:45 Note that a 1.0000 C safety was chosen in the input for the shut-off criteria Note also that this affects all surfaces that are part of this radiant system"
]
},
"RadLoTempHydrMulti10": {
"Warning Count": 1,
"Warning": [
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs."
]
},
"RefBldgFullServiceRestaurantNew2004_Chicago": {
"Warning Count": 3,
"Warning": [
" CalcTwoSpeedDXCoilStandardRating: Did not find an appropriate fan associated with DX coil named = \"PSZ-AC_1:1_COOLC DXCOIL\". Standard Ratings will not be calculated.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgHospitalNew2004_Chicago": {
"Warning Count": 21,
"Warning": [
" Calculated design heating load for zone=CORRIDOR_NW_FLR_3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=CORRIDOR_NW_FLR_4 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=CORRIDOR_SE_FLR_3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=CORRIDOR_SE_FLR_4 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=ER_EXAM3_MULT4_FLR_1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=ER_NURSESTN_LOBBY_FLR_1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=ICU_NURSESTN_LOBBY_FLR_2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=LAB_FLR_3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=LAB_FLR_4 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=NURSESTN_LOBBY_FLR_3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=NURSESTN_LOBBY_FLR_4 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=OR2_MULT5_FLR_2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=OR3_FLR_2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=OR4_FLR_2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=PHYSTHERAPY_FLR_3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=RADIOLOGY_FLR_4 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" DXFOut: Could not triangulate surface=\"LOBBY_FLR_1_CEILING\", type=\"Roof\", check surface vertex order(entry) ...use Output:Diagnostics,DisplayExtraWarnings; to show more details on individual surfaces.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for VAV_1, at CHICAGO ANN CLG .4% CONDNS WB=>MDB, 07/21 05:10 - 05:13",
" SolveAirLoopControllers: Maximum iterations (50) exceeded for VAV_2, at CHICAGO ANN CLG .4% CONDNS WB=>MDB, 07/21 06:11 - 06:15"
]
},
"RefBldgLargeHotelNew2004_Chicago": {
"Warning Count": 5,
"Warning": [
" In calculating the design coil UA for Coil:Cooling:Water FLR_3_DOAS_COOLC no apparatus dew-point can be found for the initial entering and leaving conditions; the coil outlet design conditions will be changed to correct the problem. The initial design conditions are: Tair,in = 30.6610 Wair,in = 1.878287E-002 Twater,in = 6.6700 Tair,out = 12.8200 Wair,out = 8.489894E-003 The revised design conditions are: Tair,out = 12.8197 Wair,out = 8.490011E-003",
" In calculating the design coil UA for Coil:Cooling:Water FLR_6_DOAS_COOLC no apparatus dew-point can be found for the initial entering and leaving conditions; the coil outlet design conditions will be changed to correct the problem. The initial design conditions are: Tair,in = 30.2605 Wair,in = 1.878286E-002 Twater,in = 6.6700 Tair,out = 12.8200 Wair,out = 8.489894E-003 The revised design conditions are: Tair,out = 12.8197 Wair,out = 8.490011E-003",
" In calculating the design coil UA for Coil:Cooling:Water VAV WITH REHEAT_COOLC the apparatus dew-point is below the coil design inlet water temperature; the coil outlet design conditions will be changed to correct the problem. The initial design conditions are: Tair,in = 24.2745 Wair,in = 1.279149E-002 Twater,in = 6.6700 Tair,out = 12.8000 Wair,out = 8.478624E-003 The revised design conditions are: Tair,out = 12.7997 Wair,out = 8.478742E-003",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgLargeOfficeNew2004_Chicago-ReturnReset": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgLargeOfficeNew2004_Chicago": {
"Warning Count": 3,
"Warning": [
" Output:Meter: invalid Key Name=\"INTERIOREQUIPMENT:GAS\" - not found.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgMediumOfficeNew2004_Chicago": {
"Warning Count": 4,
"Warning": [
" Output:Meter: invalid Key Name=\"INTERIOREQUIPMENT:GAS\" - not found.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" The following Report Variables were requested but not generated -- check.rdd file Either the IDF did not contain these elements, the variable name is misspelled, or the requested variable is an advanced output which requires Output : Diagnostics, DisplayAdvancedReportVariables;"
]
},
"RefBldgMidriseApartmentNew2004_Chicago": {
"Warning Count": 8,
"Warning": [
" Calculated design cooling load for zone=T CORRIDOR is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=G CORRIDOR is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=G CORRIDOR is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=M CORRIDOR is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=M CORRIDOR is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Output:Meter: invalid Key Name=\"INTERIOREQUIPMENT:GAS\" - not found.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgOutPatientNew2004_Chicago": {
"Warning Count": 26,
"Warning": [
" Calculated design heating load for zone=FLOOR 1 CLEAN is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 CLEAN WORK is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 DICTATION is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 HUMID is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 IT ROOM is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 LOUNGE is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 MRI ROOM is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 NOURISHMENT is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 NURSE STATION is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 OFFICE is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 OPERATING ROOM 3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 PACU is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 PRE-OP ROOM 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 SOIL is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 SOIL HOLD is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 1 SOIL WORK is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 DICTATION is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 LOUNGE is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 NURSE STATION 1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 NURSE STATION 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 SCHEDULING 1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 SCHEDULING 2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 WORK HALL is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FLOOR 2 X-RAY is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgPrimarySchoolNew2004_Chicago": {
"Warning Count": 3,
"Warning": [
" CalcTwoSpeedDXCoilStandardRating: Did not find an appropriate fan associated with DX coil named = \"PSZ-AC_2:7_COOLC DXCOIL\". Standard Ratings will not be calculated.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgQuickServiceRestaurantNew2004_Chicago": {
"Warning Count": 3,
"Warning": [
" CalcTwoSpeedDXCoilStandardRating: Did not find an appropriate fan associated with DX coil named = \"PSZ-AC_1:1_COOLC DXCOIL\". Standard Ratings will not be calculated.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgSecondarySchoolNew2004_Chicago": {
"Warning Count": 5,
"Warning": [
" In calculating the design coil UA for Coil:Cooling:Water VAV_POD_1_COOLC no apparatus dew-point can be found for the initial entering and leaving conditions; the coil outlet design conditions will be changed to correct the problem. The initial design conditions are: Tair,in = 27.7400 Wair,in = 1.504534E-002 Twater,in = 6.6700 Tair,out = 12.8000 Wair,out = 8.478624E-003 The revised design conditions are: Tair,out = 12.7997 Wair,out = 8.478742E-003",
" In calculating the design coil UA for Coil:Cooling:Water VAV_POD_2_COOLC no apparatus dew-point can be found for the initial entering and leaving conditions; the coil outlet design conditions will be changed to correct the problem. The initial design conditions are: Tair,in = 27.8264 Wair,in = 1.518426E-002 Twater,in = 6.6700 Tair,out = 12.8000 Wair,out = 8.478624E-003 The revised design conditions are: Tair,out = 12.7997 Wair,out = 8.478742E-003",
" In calculating the design coil UA for Coil:Cooling:Water VAV_POD_3_COOLC no apparatus dew-point can be found for the initial entering and leaving conditions; the coil outlet design conditions will be changed to correct the problem. The initial design conditions are: Tair,in = 27.5259 Wair,in = 1.481401E-002 Twater,in = 6.6700 Tair,out = 12.8000 Wair,out = 8.478624E-003 The revised design conditions are: Tair,out = 12.7997 Wair,out = 8.478742E-003",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgSmallHotelNew2004_Chicago": {
"Warning Count": 21,
"Warning": [
" Calculated design cooling load for zone=FRONTSTAIRSFLR1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=FRONTSTAIRSFLR2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=FRONTSTAIRSFLR3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=FRONTSTAIRSFLR4 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=FRONTSTORAGEFLR1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FRONTSTORAGEFLR1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=FRONTSTORAGEFLR2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FRONTSTORAGEFLR2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=FRONTSTORAGEFLR3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=FRONTSTORAGEFLR3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=FRONTSTORAGEFLR4 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=REARSTAIRSFLR1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=REARSTAIRSFLR2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=REARSTAIRSFLR3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=REARSTAIRSFLR4 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=REARSTORAGEFLR1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=REARSTORAGEFLR2 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=REARSTORAGEFLR3 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design cooling load for zone=REARSTORAGEFLR4 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgSmallOfficeNew2004_Chicago": {
"Warning Count": 4,
"Warning": [
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=SWHSYS1 PUMP",
" Output:Meter: invalid Key Name=\"INTERIOREQUIPMENT:GAS\" - not found.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgStand-aloneRetailNew2004_Chicago": {
"Warning Count": 6,
"Warning": [
" Calculated design cooling load for zone=FRONT_ENTRY is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.",
" Output:Meter: invalid Key Name=\"INTERIOREQUIPMENT:GAS\" - not found.",
" Output:Meter: invalid Key Name=\"WATER HEATER:WATERSYSTEMS:GAS\" - not found.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgStripMallNew2004_Chicago": {
"Warning Count": 5,
"Warning": [
" ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.",
" Output:Meter: invalid Key Name=\"INTERIOREQUIPMENT:GAS\" - not found.",
" Output:Meter: invalid Key Name=\"WATER HEATER:WATERSYSTEMS:GAS\" - not found.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgSuperMarketNew2004_Chicago": {
"Warning Count": 7,
"Warning": [
" CalcTwoSpeedDXCoilStandardRating: Did not find an appropriate fan associated with DX coil named = \"PSZ-AC:2_COOLC DXCOIL\". Standard Ratings will not be calculated.",
" CalcTwoSpeedDXCoilStandardRating: Did not find an appropriate fan associated with DX coil named = \"PSZ-AC:3_COOLC DXCOIL\". Standard Ratings will not be calculated.",
" CalcTwoSpeedDXCoilStandardRating: Did not find an appropriate fan associated with DX coil named = \"PSZ-AC:4_COOLC DXCOIL\". Standard Ratings will not be calculated.",
" CalcTwoSpeedDXCoilStandardRating: Did not find an appropriate fan associated with DX coil named = \"PSZ-AC:5_COOLC DXCOIL\". Standard Ratings will not be calculated.",
" CalcTwoSpeedDXCoilStandardRating: Did not find an appropriate fan associated with DX coil named = \"PSZ-AC:6_COOLC DXCOIL\". Standard Ratings will not be calculated.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefBldgWarehouseNew2004_Chicago": {
"Warning Count": 6,
"Warning": [
" Site:GroundTemperature:BuildingSurface: Some values fall outside the range of 15-25C. These values may be inappropriate. Please consult the Input Output Reference for more details.",
" ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.",
" Output:Meter: invalid Key Name=\"INTERIOREQUIPMENT:GAS\" - not found.",
" Output:Meter: invalid Key Name=\"WATER HEATER:WATERSYSTEMS:GAS\" - not found.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"RefMedOffVAVAllDefVRP": {
"Warning Count": 4,
"Warning": [
" Output:Meter: invalid Key Name=\"INTERIOREQUIPMENT:GAS\" - not found.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" The following Report Variables were requested but not generated -- check.rdd file Either the IDF did not contain these elements, the variable name is misspelled, or the requested variable is an advanced output which requires Output : Diagnostics, DisplayAdvancedReportVariables;"
]
},
"RefrigeratedWarehouse": {
"Warning Count": 18,
"Warning": [
" Site:GroundTemperature:BuildingSurface: Some values fall outside the range of 15-25C. These values may be inappropriate. Please consult the Input Output Reference for more details.",
" Zone Air Heat Balance is out of balance for zone named SUBFREEZER Zone Air Heat Balance Deviation Rate is more than 9001.1 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 00:00 - 00:15",
" Zone Air Heat Balance is out of balance for zone named FREEZER_2 Zone Air Heat Balance Deviation Rate is more than 9664.9 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 00:00 - 00:15",
" Zone Air Heat Balance is out of balance for zone named FREEZER_3 Zone Air Heat Balance Deviation Rate is more than 9770.9 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 00:00 - 00:15",
" Zone Air Heat Balance is out of balance for zone named FREEZER_4 Zone Air Heat Balance Deviation Rate is more than 9694.8 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 00:00 - 00:15",
" Zone Air Heat Balance is out of balance for zone named COOLER_1 Zone Air Heat Balance Deviation Rate is more than 31053.9 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 00:00 - 00:15",
" Zone Air Heat Balance is out of balance for zone named COOLER_3 Zone Air Heat Balance Deviation Rate is more than 5021.7 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 00:00 - 00:15",
" Zone Air Heat Balance is out of balance for zone named DOCK Zone Air Heat Balance Deviation Rate is more than 76181.2 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 00:00 - 00:03",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" Zone Air Heat Balance is out of balance for zone named COOLER_2 Zone Air Heat Balance Deviation Rate is more than 6338.7 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 01:00 - 01:15",
" Zone Air Heat Balance is out of balance for zone named FREEZER_1 Zone Air Heat Balance Deviation Rate is more than 5241.5 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 05:15 - 05:30",
" Zone Air Heat Balance is out of balance for zone named FREEZER_5 Zone Air Heat Balance Deviation Rate is more than 5029.7 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 05:15 - 05:30",
" Zone Air Heat Balance is out of balance for zone named OFFICE1_LOWER Zone Air Heat Balance Deviation Rate is more than 29927.5 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 07:00 - 07:02",
" Zone Air Heat Balance is out of balance for zone named OFFICE1_UPPER Zone Air Heat Balance Deviation Rate is more than 29604.0 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 07:00 - 07:02",
" Zone Air Heat Balance is out of balance for zone named OFFICE2_LOWER Zone Air Heat Balance Deviation Rate is more than 29928.3 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 07:00 - 07:02",
" Zone Air Heat Balance is out of balance for zone named OFFICE2_UPPER Zone Air Heat Balance Deviation Rate is more than 29608.5 {W} Occurrence info: Environment=CHICAGO ANN HTG 99.6% CONDNS DB, at Simulation time=01/21 07:00 - 07:02",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:TIMEBINS Object=OUTPUT:TABLE:TIMEBINS Object=OUTPUT:TABLE:MONTHLY=ZONE COOLING SUMMARY Object=OUTPUT:TABLE:MONTHLY=ZONE HEATING SUMMARY Object=OUTPUT:TABLE:MONTHLY=ZONE ELECTRIC SUMMARY Object=OUTPUT:TABLE:MONTHLY=SPACE GAINS Object=OUTPUT:TABLE:MONTHLY=PEAK SPACE GAINS Object=OUTPUT:TABLE:MONTHLY=SPACE GAIN COMPONENTS AT COOLING PEAK Object=OUTPUT:TABLE:MONTHLY=ENERGY CONSUMPTION - ELECTRICITY GENERATED & PROPANE Object=OUTPUT:TABLE:MONTHLY=ENERGY CONSUMPTION - DIESEL & FUEL OIL Object=OUTPUT:TABLE:MONTHLY=ENERGY CONSUMPTION - PURCHASED HEATING & COOLING Object=OUTPUT:TABLE:MONTHLY=ENERGY CONSUMPTION - COAL & GASOLINE Object=OUTPUT:TABLE:MONTHLY=END-USE ENERGY CONSUMPTION - ELECTRICITY Object=OUTPUT:TABLE:MONTHLY=END-USE ENERGY CONSUMPTION - NATURAL GAS Object=OUTPUT:TABLE:MONTHLY=END-USE ENERGY CONSUMPTION - DIESEL Object=OUTPUT:TABLE:MONTHLY=END-USE ENERGY CONSUMPTION - FUEL OIL Object=OUTPUT:TABLE:MONTHLY=END-USE ENERGY CONSUMPTION - COAL Object=OUTPUT:TABLE:MONTHLY=END-USE ENERGY CONSUMPTION - PROPANE Object=OUTPUT:TABLE:MONTHLY=END-USE ENERGY CONSUMPTION - GASOLINE Object=OUTPUT:TABLE:MONTHLY=PEAK ENERGY END-USE - ELECTRICITY PART 1 Object=OUTPUT:TABLE:MONTHLY=PEAK ENERGY END-USE - ELECTRICITY PART 2 Object=OUTPUT:TABLE:MONTHLY=ELECTRIC COMPONENTS OF PEAK DEMAND Object=OUTPUT:TABLE:MONTHLY=PEAK ENERGY END-USE - NATURAL GAS Object=OUTPUT:TABLE:MONTHLY=PEAK ENERGY END-USE - DIESEL Object=OUTPUT:TABLE:MONTHLY=PEAK ENERGY END-USE - FUEL OIL Object=OUTPUT:TABLE:MONTHLY=PEAK ENERGY END-USE - COAL Object=OUTPUT:TABLE:MONTHLY=PEAK ENERGY END-USE - PROPANE Object=OUTPUT:TABLE:MONTHLY=PEAK ENERGY END-USE - GASOLINE Object=OUTPUT:TABLE:MONTHLY=SETPOINTS NOT MET WITH TEMPERATURES Object=OUTPUT:TABLE:MONTHLY=COMFORT REPORT - SIMPLE 55 Object=OUTPUT:TABLE:MONTHLY=UNGLAZED TRANSPIRED SOLAR COLLECTOR SUMMARY Object=OUTPUT:TABLE:MONTHLY=MANUAL OCCUPANT COMFORT DATA SUMMARY Object=OUTPUT:TABLE:MONTHLY=CHILLER REPORT Object=OUTPUT:TABLE:MONTHLY=TOWER REPORT Object=OUTPUT:TABLE:MONTHLY=BOILER REPORT Object=OUTPUT:TABLE:MONTHLY=DX REPORT Object=OUTPUT:TABLE:MONTHLY=WINDOW REPORT Object=OUTPUT:TABLE:MONTHLY=WINDOW ENERGY REPORT Object=OUTPUT:TABLE:MONTHLY=WINDOW ZONE SUMMARY Object=OUTPUT:TABLE:MONTHLY=WINDOW ENERGY ZONE SUMMARY Object=OUTPUT:TABLE:MONTHLY=AVERAGE OUTDOOR CONDITIONS Object=OUTPUT:TABLE:MONTHLY=OUTDOOR CONDITIONS MAXIMUM DRYBULB Object=OUTPUT:TABLE:MONTHLY=OUTDOOR CONDITIONS MINIMUM DRYBULB Object=OUTPUT:TABLE:MONTHLY=OUTDOOR CONDITIONS MAXIMUM WETBULB Object=OUTPUT:TABLE:MONTHLY=OUTDOOR CONDITIONS MAXIMUM DEW POINT Object=OUTPUT:TABLE:MONTHLY=OUTDOOR GROUND CONDITIONS Object=OUTPUT:TABLE:MONTHLY=WINDOW AC REPORT Object=OUTPUT:TABLE:MONTHLY=WATER HEATER REPORT Object=OUTPUT:TABLE:MONTHLY=GENERATOR REPORT Object=OUTPUT:TABLE:MONTHLY=DAYLIGHTING REPORT Object=OUTPUT:TABLE:MONTHLY=COIL REPORT Object=OUTPUT:TABLE:MONTHLY=PLANT LOOP DEMAND REPORT Object=OUTPUT:TABLE:MONTHLY=FAN REPORT Object=OUTPUT:TABLE:MONTHLY=PUMP REPORT Object=OUTPUT:TABLE:MONTHLY=COND LOOP DEMAND REPORT Object=OUTPUT:TABLE:MONTHLY=ZONE TEMPERATURE OSCILLATION REPORT"
]
},
"ReliefIndEvapCoolerRTUoffice": {
"Warning Count": 1,
"Warning": [
" CalcDoe2DXCoil: Coil:Cooling:DX:SingleSpeed \"ACDXCOIL ZN7\" - Full load outlet air dry-bulb temperature < 2C. This indicates the possibility of coil frost/freeze. Outlet temperature = 1.97 C. ...Occurrence info = PHOENIX ANN CLG .4% CONDNS DB=>MWB, 07/21 18:10 - 18:20 ... Possible reasons for low outlet air dry-bulb temperatures are: This DX coil 1) may have a low inlet air dry-bulb temperature. Inlet air temperature = 16.396 C. 2) may have a low air flow rate per watt of cooling capacity. Check inputs. 3) is used as part of a HX assisted cooling coil which uses a high sensible effectiveness. Check inputs."
]
},
"ReportDaylightFactors": {
"Warning Count": 7,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" CalcDoe2DXCoil: Coil:Cooling:DX:SingleSpeed=\"VAV_3_COOLC DXCOIL\" - Air volume flow rate per watt of rated total cooling capacity is out of range at 2.284E-005 m3/s/W. Environment=CHICAGO ANN CLG .4% CONDNS WB=>MDB, at Simulation time=07/21 00:14 - 00:16 Expected range for VolumeFlowPerRatedTotalCapacity=[2.684E-005--6.713E-005] Possible causes include inconsistent air flow rates in system components, or variable air volume [VAV] system using incorrect coil type.",
" CalcDoe2DXCoil: Coil:Cooling:DX:SingleSpeed=\"VAV_2_COOLC DXCOIL\" - Air volume flow rate per watt of rated total cooling capacity is out of range at 2.255E-005 m3/s/W. Environment=CHICAGO ANN CLG .4% CONDNS WB=>MDB, at Simulation time=07/21 00:16 - 00:18 Expected range for VolumeFlowPerRatedTotalCapacity=[2.684E-005--6.713E-005] Possible causes include inconsistent air flow rates in system components, or variable air volume [VAV] system using incorrect coil type.",
" CalcDoe2DXCoil: Coil:Cooling:DX:SingleSpeed \"VAV_2_COOLC DXCOIL\" - Full load outlet air dry-bulb temperature < 2C. This indicates the possibility of coil frost/freeze. Outlet temperature = -0.92 C. ...Occurrence info = CHICAGO ANN CLG .4% CONDNS WB=>MDB, 07/21 00:16 - 00:18 ... Possible reasons for low outlet air dry-bulb temperatures are: This DX coil 1) may have a low inlet air dry-bulb temperature. Inlet air temperature = 26.496 C. 2) may have a low air flow rate per watt of cooling capacity. Check inputs. 3) is used as part of a HX assisted cooling coil which uses a high sensible effectiveness. Check inputs.",
" CalcDoe2DXCoil: Coil:Cooling:DX:SingleSpeed \"VAV_3_COOLC DXCOIL\" - Full load outlet air dry-bulb temperature < 2C. This indicates the possibility of coil frost/freeze. Outlet temperature = -7.86 C. ...Occurrence info = CHICAGO ANN CLG .4% CONDNS WB=>MDB, 07/21 00:16 - 00:18 ... Possible reasons for low outlet air dry-bulb temperatures are: This DX coil 1) may have a low inlet air dry-bulb temperature. Inlet air temperature = 26.616 C. 2) may have a low air flow rate per watt of cooling capacity. Check inputs. 3) is used as part of a HX assisted cooling coil which uses a high sensible effectiveness. Check inputs.",
" CalcDoe2DXCoil: Coil:Cooling:DX:SingleSpeed=\"VAV_1_COOLC DXCOIL\" - Air volume flow rate per watt of rated total cooling capacity is out of range at 1.443E-005 m3/s/W. Environment=CHICAGO ANN CLG .4% CONDNS WB=>MDB, at Simulation time=07/21 00:30 - 00:40 Expected range for VolumeFlowPerRatedTotalCapacity=[2.684E-005--6.713E-005] Possible causes include inconsistent air flow rates in system components, or variable air volume [VAV] system using incorrect coil type.",
" CalcDoe2DXCoil: Coil:Cooling:DX:SingleSpeed \"VAV_1_COOLC DXCOIL\" - Full load outlet air dry-bulb temperature < 2C. This indicates the possibility of coil frost/freeze. Outlet temperature = -10.05 C. ...Occurrence info = CHICAGO ANN CLG .4% CONDNS WB=>MDB, 07/21 00:30 - 00:32 ... Possible reasons for low outlet air dry-bulb temperatures are: This DX coil 1) may have a low inlet air dry-bulb temperature. Inlet air temperature = 26.098 C. 2) may have a low air flow rate per watt of cooling capacity. Check inputs. 3) is used as part of a HX assisted cooling coil which uses a high sensible effectiveness. Check inputs."
]
},
"RetailPackagedTESCoil": {
"Warning Count": 2,
"Warning": [
" Calculated design cooling load for zone=FRONT_ENTRY is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=SWHSYS1 PUMP"
]
},
"SeriesActiveBranch": {
"Warning Count": 3,
"Warning": [
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" Plant Loop: CHILLED WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CHILLED WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"ShopWithPVandBattery": {
"Warning Count": 4,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=OKLAHOMA_CITY_OK_USA TMY2-13967 ..Weather File Location=Denver-Stapleton CO USA TMY--23062 WMO#=724690 ..due to location differences, Latitude difference=[4.36] degrees, Longitude difference=[7.26] degrees. ..Time Zone difference=[1.0] hour(s), Elevation difference=[305.79] percent, [1214.00] meters.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=96646 differs by more than 10% from Standard Barometric Pressure=83411. ...occurs in DesignDay=OKLAHOMA_CITY_OK_USA HEATING 99.6% CONDITIONS, Standard Pressure (based on elevation) will be used.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=96646 differs by more than 10% from Standard Barometric Pressure=83411. ...occurs in DesignDay=OKLAHOMA_CITY_OK_USA COOLING .4% CONDITIONS WB=>MDB, Standard Pressure (based on elevation) will be used.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"ShopWithPVandStorage": {
"Warning Count": 4,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=OKLAHOMA_CITY_OK_USA TMY2-13967 ..Weather File Location=Denver-Stapleton CO USA TMY--23062 WMO#=724690 ..due to location differences, Latitude difference=[4.36] degrees, Longitude difference=[7.26] degrees. ..Time Zone difference=[1.0] hour(s), Elevation difference=[305.79] percent, [1214.00] meters.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=96646 differs by more than 10% from Standard Barometric Pressure=83411. ...occurs in DesignDay=OKLAHOMA_CITY_OK_USA HEATING 99.6% CONDITIONS, Standard Pressure (based on elevation) will be used.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=96646 differs by more than 10% from Standard Barometric Pressure=83411. ...occurs in DesignDay=OKLAHOMA_CITY_OK_USA COOLING .4% CONDITIONS WB=>MDB, Standard Pressure (based on elevation) will be used.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"ShopWithSimplePVT": {
"Warning Count": 5,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=OKLAHOMA_CITY_OK_USA TMY2-13967 ..Weather File Location=Denver-Stapleton CO USA TMY--23062 WMO#=724690 ..due to location differences, Latitude difference=[4.36] degrees, Longitude difference=[7.26] degrees. ..Time Zone difference=[1.0] hour(s), Elevation difference=[305.79] percent, [1214.00] meters.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=96646 differs by more than 10% from Standard Barometric Pressure=83411. ...occurs in DesignDay=OKLAHOMA_CITY_OK_USA HEATING 99.6% CONDITIONS, Standard Pressure (based on elevation) will be used.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=96646 differs by more than 10% from Standard Barometric Pressure=83411. ...occurs in DesignDay=OKLAHOMA_CITY_OK_USA COOLING .4% CONDITIONS WB=>MDB, Standard Pressure (based on elevation) will be used.",
" Water heater = SHWSYS1 WATER HEATER: Recovery Efficiency and Energy Factor could not be calculated during the test for standard ratings Setpoint was never recovered and/or heater never turned on",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"SingleFamilyHouse_TwoSpeed_ZoneAirBalance": {
"Warning Count": 2,
"Warning": [
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance."
]
},
"SolarCollectorFlatPlateWater": {
"Warning Count": 4,
"Warning": [
" GetSpecificHeatGlycol: Temperature is out of range (too low) for fluid [WATER] specific heat supplied values ** ..Called From:UpdateSolarCollector,Temperature=[-17.30], supplied data range=[0.00,125.00] Environment=CHICAGO ANN HTG 99% CONDNS DB, at Simulation time=01/21 00:00 - 00:15",
" GetDensityGlycol: Temperature is out of range (too low) for fluid [WATER] density ** ..Called From:NodeReportingCalc:COLLECTOR 1 OUTLET NODE,Temperature=[-17.30], supplied data range=[0.00,100.00] Environment=CHICAGO ANN HTG 99% CONDNS DB, at Simulation time=01/21 00:00 - 00:15",
" GetDensityGlycol: Temperature is out of range (too high) for fluid [WATER] density ** ..Called From:NodeReportingCalc:COLLECTOR 1 OUTLET NODE,Temperature=[103.55], supplied data range=[0.00,100.00] Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 08:00 - 08:15",
" GetSpecificHeatGlycol: Temperature is out of range (too high) for fluid [WATER] specific heat ** ..Called From:UpdateSolarCollector,Temperature=[134.81], supplied data range=[0.00,125.00] Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 08:45 - 09:00"
]
},
"StackedZonesWithInterzoneIRTLayers": {
"Warning Count": 9,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=URBANA ..Weather File Location=Chicago Ohare Intl Ap IL USA TMY3 WMO#=725300 ..due to location differences, Latitude difference=[1.98] degrees, Longitude difference=[8.00E-002] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[20069.52] percent, [200.70] meters.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"ELECTRICITY:FACILITY\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"ELECTRICITY:BUILDING\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GENERALLIGHTS:ELECTRICITY\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"ELECTRICITY:HVAC\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"ELECTRICITY:PLANT\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:FACILITY\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GENERALLIGHTS:ELECTRICITY\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:FACILITY\" - not found."
]
},
"StormWindow": {
"Warning Count": 1,
"Warning": [
" CheckUsedConstructions: There are 1 nominally unused constructions in input. For explicit details on each unused construction, use Output:Diagnostics,DisplayExtraWarnings;"
]
},
"Supermarket": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"SuperMarketDetailed_DesuperHeatingCoil": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"SupermarketSecondary": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"SupermarketSubCoolersVariableSuction": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"SupermarketTranscriticalCO2": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"SupermarketTwoStageFlashIntercooler": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"SupermarketTwoStageShellCoilIntercooler": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"Supermarket_CascadeCond": {
"Warning Count": 2,
"Warning": [
" Refrigeration:System=\"CASCADELOWTEMPSYSTEM\", You may wish to check the system sizing. Total nominal cooling capacity is 18472W. Condenser capacity is 20000W. Nominal compressor capacity is 27725W.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"SuperMarket_DesuperHeatingCoil": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"Supermarket_Detailed": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"SuperMarket_DetailedEvapCondenser": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"SuperMarket_DetailedWaterCondenser": {
"Warning Count": 3,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" CalcDoe2DXCoil: Coil:Cooling:DX:SingleSpeed \"ACDXCOIL 1\" - Air-cooled condenser inlet dry-bulb temperature below 0 C. Outdoor dry-bulb temperature = -16.60 ... Occurrence info = CHICAGO OHARE INTL AP ANN HTG 99% CONDNS DB, 01/21 20:00 - 20:10 ... Operation at low ambient temperatures may require special performance curves.",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"SuperMarket_EvapCondenser": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"Supermarket_SharedAirCondenser": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"SuperMarket_SharedEvapCondenser": {
"Warning Count": 2,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"SuperMarket_WaterCondenser": {
"Warning Count": 3,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" CalcDoe2DXCoil: Coil:Cooling:DX:SingleSpeed \"ACDXCOIL 1\" - Air-cooled condenser inlet dry-bulb temperature below 0 C. Outdoor dry-bulb temperature = -16.60 ... Occurrence info = CHICAGO OHARE INTL AP ANN HTG 99% CONDNS DB, 01/21 20:00 - 20:10 ... Operation at low ambient temperatures may require special performance curves.",
" The following lines are \"Unused Objects\". These objects are in the idf file but are never obtained by the simulation and therefore are NOT used. Each unused object is shown. See InputOutputReference document for more details. Object=OUTPUT:TABLE:MONTHLY=BUILDING LOADS - HEATING"
]
},
"SurfaceGroundHeatExchanger": {
"Warning Count": 2,
"Warning": [
" ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.",
" In calculating the design coil UA for Coil:Cooling:Water MAIN COOLING COIL 1 no apparatus dew-point can be found for the initial entering and leaving conditions; The initial design conditions are: Tair,in = 26.6670 Wair,in = 1.670000E-002 Twater,in = 7.2220 Tair,out = 14.3890 Wair,out = 9.900000E-003"
]
},
"SurfaceTest_SurfZoneMicroclimate": {
"Warning Count": 1,
"Warning": [
" ProcessScheduleInput: Schedule:File=\"OUTDOORAIRNODEWINDDIR:0001\" 1 records had errors - these values are set to 0. Use Output:Diagnostics,DisplayExtraWarnings; to see individual records in error."
]
},
"ThermalChimneyTest": {
"Warning Count": 1,
"Warning": [
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs."
]
},
"ThermochromicWindow": {
"Warning Count": 4,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=LAS_VEGAS_NV_USA TMY2-23169 ..Weather File Location=Cedar City Municipal Ap UT USA TMY3 WMO#=724755 ..due to location differences, Latitude difference=[1.62] degrees, Longitude difference=[2.07] degrees. ..Time Zone difference=[1.0] hour(s), Elevation difference=[156.48] percent, [1039.00] meters.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=93598 differs by more than 10% from Standard Barometric Pressure=82471. ...occurs in DesignDay=LAS_VEGAS ANN HTG 99.6% CONDNS DB, Standard Pressure (based on elevation) will be used.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=93598 differs by more than 10% from Standard Barometric Pressure=82471. ...occurs in DesignDay=LAS_VEGAS ANN CLG .4% CONDNS DB=>MWB, Standard Pressure (based on elevation) will be used.",
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=SHWSYS1 PUMP"
]
},
"TranspiredCollectors": {
"Warning Count": 17,
"Warning": [
" SetUpZoneSizingArrays: Sizing for Zone=\"ZN11_SHOP_1\" will use Sizing:Zone specifications listed for Zone=\"ZN1_S_SPACE_1\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"ZN12_SHOP_1\" will use Sizing:Zone specifications listed for Zone=\"ZN1_S_SPACE_1\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"ZN13_SHOP_1\" will use Sizing:Zone specifications listed for Zone=\"ZN1_S_SPACE_1\".",
" SetUpZoneSizingArrays: Sizing for Zone=\"ZN14_SHOP_1\" will use Sizing:Zone specifications listed for Zone=\"ZN1_S_SPACE_1\".",
" Calculated design heating load for zone=ZN11_SHOP_1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=ZN12_SHOP_1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=ZN13_SHOP_1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Calculated design heating load for zone=ZN14_SHOP_1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" GetAirPathData: AirLoopHVAC=\"DIRECT HEATING AIR LOOP ZN11\" has no Controllers.",
" GetAirPathData: AirLoopHVAC=\"DIRECT HEATING AIR LOOP ZN12\" has no Controllers.",
" GetAirPathData: AirLoopHVAC=\"DIRECT HEATING AIR LOOP ZN13\" has no Controllers.",
" GetAirPathData: AirLoopHVAC=\"DIRECT HEATING AIR LOOP ZN14\" has no Controllers.",
" SetUpSysSizingArrays: Sizing for System (HVACAirLoop)=\"DIRECT HEATING AIR LOOP ZN11\" will use Sizing:System specifications listed for System=\"DIRECT DX AIR LOOP ZN1\".",
" SetUpSysSizingArrays: Sizing for System (HVACAirLoop)=\"DIRECT HEATING AIR LOOP ZN12\" will use Sizing:System specifications listed for System=\"DIRECT DX AIR LOOP ZN1\".",
" SetUpSysSizingArrays: Sizing for System (HVACAirLoop)=\"DIRECT HEATING AIR LOOP ZN13\" will use Sizing:System specifications listed for System=\"DIRECT DX AIR LOOP ZN1\".",
" SetUpSysSizingArrays: Sizing for System (HVACAirLoop)=\"DIRECT HEATING AIR LOOP ZN14\" will use Sizing:System specifications listed for System=\"DIRECT DX AIR LOOP ZN1\".",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"TRHEvapCoolerOAStaged": {
"Warning Count": 1,
"Warning": [
" GetAirPathData: AirLoopHVAC=\"TYPICAL TERMINAL REHEAT 1\" has no Controllers."
]
},
"TRHEvapCoolerOAStagedWetCoil": {
"Warning Count": 1,
"Warning": [
" GetAirPathData: AirLoopHVAC=\"TYPICAL TERMINAL REHEAT 1\" has no Controllers."
]
},
"UnitarySystem_MultiSpeedCoils_SingleMode": {
"Warning Count": 4,
"Warning": [
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 2 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 2 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 2 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 2 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance."
]
},
"UnitarySystem_VSHeatPumpWaterToAirEquationFit": {
"Warning Count": 2,
"Warning": [
" Plant Loop: WATER SOURCE HEAT PUMP CONDENSER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: WATER SOURCE HEAT PUMP CONDENSER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"UnitVent5Zone": {
"Warning Count": 6,
"Warning": [
" In calculating the design coil UA for Coil:Cooling:Water ZONE4UNITVENTCOOLINGCOIL no apparatus dew-point can be found for the initial entering and leaving conditions; the coil outlet design conditions will be changed to correct the problem. The initial design conditions are: Tair,in = 27.0000 Wair,in = 1.400000E-002 Twater,in = 6.6700 Tair,out = 12.0000 Wair,out = 8.000000E-003 The revised design conditions are: Tair,out = 11.9586 Wair,out = 8.016749E-003",
" For zone=SPACE1-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system.",
" For zone=SPACE2-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system.",
" For zone=SPACE3-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system.",
" For zone=SPACE4-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system.",
" For zone=SPACE5-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system."
]
},
"UnitVent5ZoneAuto": {
"Warning Count": 6,
"Warning": [
" ProcessScheduleInput: Schedule:Constant=\"ALWAYS_1\", Blank Schedule Type Limits Name input -- will not be validated.",
" For zone=SPACE1-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system.",
" For zone=SPACE2-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system.",
" For zone=SPACE3-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system.",
" For zone=SPACE4-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system.",
" For zone=SPACE5-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system."
]
},
"UnitVent5ZoneFixedOANoCoilOpt": {
"Warning Count": 5,
"Warning": [
" For zone=SPACE1-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system.",
" For zone=SPACE2-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system.",
" For zone=SPACE3-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system.",
" For zone=SPACE4-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system.",
" For zone=SPACE5-1 return air heat gain from lights will be applied to the zone air. This zone has no return air or is served by an on/off HVAC system."
]
},
"UserDefinedRoomAirPatterns": {
"Warning Count": 2,
"Warning": [
" CalculateZoneVolume: 1 zone is not fully enclosed. For more details use: Output:Diagnostics,DisplayExtrawarnings;",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"UserInputViewFactorFile-LshapedZone": {
"Warning Count": 2,
"Warning": [
" Timestep: Requested number (2) is less than the suggested minimum of 4. Please see entry for Timestep in Input/Output Reference for discussion of considerations.",
" CalculateZoneVolume: 2 zones are not fully enclosed. For more details use: Output:Diagnostics,DisplayExtrawarnings;"
]
},
"VariableRefrigerantFlow_5Zone": {
"Warning Count": 6,
"Warning": [
" GetVRFInput: AirConditioner:VariableRefrigerantFlow=\"VRF HEAT PUMP\" curve values ... Cooling Capacity Ratio Modifier Function of Low Temperature Curve Name = VRFCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"TU1 VRF DX COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = VRFTUCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"TU2 VRF DX COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = VRFTUCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"TU3 VRF DX COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = VRFTUCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"TU4 VRF DX COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = VRFTUCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136",
" GetDXCoils: Coil:Cooling:DX:VariableRefrigerantFlow=\"TU5 VRF DX COOLING COIL\" curve values ... Cooling Capacity Ratio Modifier Function of Temperature Curve Name = VRFTUCOOLCAPFT output is not equal to 1.0 (+ or - 10%) at rated conditions. ... Curve output at rated conditions = 1.136"
]
},
"VariableRefrigerantFlow_FluidTCtrl_HR_5Zone": {
"Warning Count": 2,
"Warning": [
" Calculated design heating load for zone=SPACE5-1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" AirConditioner:VariableRefrigerantFlow \"VRF HEAT PUMP\". ...InitVRF: VRF Heat Pump Min/Max Outdoor Temperature in Heat Recovery Mode Limits have been exceeded and VRF heat recovery is disabled. ... Outdoor Dry-Bulb Temperature = 27.605 ... Heat Recovery Minimum Outdoor Dry-Bulb Temperature = -20.000 ... Heat Recovery Maximum Outdoor Dry-Bulb Temperature = 26.000 ... Check VRF Heat Pump Min/Max Outdoor Temperature in Heat Recovery Mode limits. During Warmup, Environment=MIAMI INTL AP ANN CLG .4% CONDNS DB=>MWB, at Simulation time=07/21 00:00 - 00:15 ...the system will operate in heat pump mode when applicable."
]
},
"VAVSingleDuctReheat_DualMax": {
"Warning Count": 1,
"Warning": [
" Since Zone Minimum Air Flow Input Method = FIXEDFLOWRATE, input for Constant Minimum Air Flow Fraction will be ignored. Occurs in AirTerminal:SingleDuct:VAV:Reheat = ZONE 2 VAV SYSTEM"
]
},
"VentilatedSlab": {
"Warning Count": 1,
"Warning": [
" ZoneHVAC:VentilatedSlab [ZONE1VENTSLAB] Surface [C1-1] temperature below dew-point temperature--potential for condensation exists Flow to the ventilated slab system will be shut-off to avoid condensation Predicted radiant system surface temperature = 24.08 Zone dew-point temperature + safety factor delta= 24.09 Environment=CHICAGO_IL_USA ANNUAL COOLING 1% DESIGN CONDITIONS DB/MCWB, at Simulation time=07/21 01:00 - 01:10 Note that there is a 1.0000E-003 C safety built-in to the shut-off criteria Note also that this affects all surfaces that are part of this system"
]
},
"VentilatedSlab_SeriesSlabs": {
"Warning Count": 1,
"Warning": [
" GetDensityGlycol: Temperature is out of range (too high) for fluid [WATER] density ** ..Called From:PlantPumps:CalcPumps: ,Temperature=[115.55], supplied data range=[0.00,100.00] Environment=CHICAGO_IL_USA ANNUAL HEATING 99% DESIGN CONDITIONS DB, at Simulation time=01/21 00:00 - 00:10"
]
},
"VentilationSimpleTest": {
"Warning Count": 2,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=HILO_HI_USA TMY2-21504 ..Weather File Location=San Francisco Intl Ap CA USA TMY3 WMO#=724940 ..due to location differences, Latitude difference=[17.90] degrees, Longitude difference=[32.67] degrees. ..Time Zone difference=[2.0] hour(s), Elevation difference=[81.82] percent, [9.00] meters.",
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs."
]
},
"VSHeatPumpWaterHeater": {
"Warning Count": 2,
"Warning": [
" Plant Loop: CONDENSER WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSER WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"VSHeatPumpWaterToAirEquationFit": {
"Warning Count": 2,
"Warning": [
" Plant Loop: WATER SOURCE HEAT PUMP CONDENSER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: WATER SOURCE HEAT PUMP CONDENSER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"VSWaterHeaterHeatPumpStratifiedTank": {
"Warning Count": 1,
"Warning": [
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=DHW PUMP"
]
},
"WaterHeaterDHWPlantLoop": {
"Warning Count": 3,
"Warning": [
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=DHW PUMP",
" Plant Loop: DHW LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: DHW LOOP Supply Side is storing excess heat the majority of the time."
]
},
"WaterHeaterHeatPumpStratifiedTank": {
"Warning Count": 4,
"Warning": [
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=DHW PUMP",
" WaterHeater:HeatPump:PumpedCondenser \"PLANTHEATPUMPWATERHEATER\" Heat pump water heater compressor part-load ratio calculation failed: PLR limits of 0 to 1 exceeded. Part-load ratio used = 7.591E-003 Please send this information to the EnergyPlus support group. This error occurred in float mode. Environment=CHICAGO ANN CLG 1% CONDNS DB=>MWB, at Simulation time=07/21 03:50 - 04:00",
" Plant Loop: DHW LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: DHW LOOP Supply Side is storing excess heat the majority of the time."
]
},
"WaterHeaterHeatPumpWrappedCondenser": {
"Warning Count": 4,
"Warning": [
" Water heater = WATER HEATER TANK: Recovery Efficiency and Energy Factor could not be calculated during the test for standard ratings Setpoint was never recovered and/or heater never turned on",
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=DHW PUMP",
" Plant Loop: DHW LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: DHW LOOP Supply Side is storing excess heat the majority of the time."
]
},
"WaterSideEconomizer_NonIntegrated": {
"Warning Count": 2,
"Warning": [
" Plant Loop: CONDENSER WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: CONDENSER WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"WeatherTimeBins": {
"Warning Count": 1,
"Warning": [
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated"
]
},
"WindowTests": {
"Warning Count": 1,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"WindowTestsSimple": {
"Warning Count": 1,
"Warning": [
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
},
"WWHPSimpleAuto": {
"Warning Count": 2,
"Warning": [
" Plant Loop: HOT WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: HOT WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"ZoneCoupledKivaRefBldgMediumOffice": {
"Warning Count": 4,
"Warning": [
" Calculated design heating load for zone=CORE_BOTTOM is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" The following Report Variables were requested but not generated -- check.rdd file Either the IDF did not contain these elements, the variable name is misspelled, or the requested variable is an advanced output which requires Output : Diagnostics, DisplayAdvancedReportVariables;"
]
},
"ZoneCoupledKivaWalkoutBasement": {
"Warning Count": 1,
"Warning": [
" CalcSurfaceCentroid: 10 Surfaces have the Z coordinate < 0. ...in any calculations, Wind Speed will be 0.0 for these surfaces. ...in any calculations, Outside temperatures will be the outside temperature + 9.750E-003 for these surfaces. ...that is, these surfaces will have conditions as though at ground level."
]
},
"ZoneSysAvailManager": {
"Warning Count": 3,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=DENVER CENTENNIAL CO USA WMO=724666 ..Weather File Location=Denver-Stapleton CO USA TMY--23062 WMO#=724690 ..due to location differences, Latitude difference=[0.19] degrees, Longitude difference=[1.00E-002] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[10.15] percent, [182.00] meters.",
" Calculated design cooling load for zone=SPACE1-1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" GetAirPathData: AirLoopHVAC=\"DEDICATED OUTDOOR AIR SYSTEM\" has no Controllers."
]
},
"ZoneVSWSHP_wDOAS": {
"Warning Count": 3,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=DENVER CENTENNIAL CO USA WMO=724666 ..Weather File Location=Denver-Stapleton CO USA TMY--23062 WMO#=724690 ..due to location differences, Latitude difference=[0.19] degrees, Longitude difference=[1.00E-002] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[10.15] percent, [182.00] meters.",
" Calculated design cooling load for zone=SPACE1-1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" GetAirPathData: AirLoopHVAC=\"DEDICATED OUTDOOR AIR SYSTEM\" has no Controllers."
]
},
"ZoneWSHP_wDOAS": {
"Warning Count": 3,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=DENVER CENTENNIAL CO USA WMO=724666 ..Weather File Location=Denver-Stapleton CO USA TMY--23062 WMO#=724690 ..due to location differences, Latitude difference=[0.19] degrees, Longitude difference=[1.00E-002] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[10.15] percent, [182.00] meters.",
" Calculated design cooling load for zone=SPACE1-1 is zero. Check Sizing:Zone and ZoneControl:Thermostat inputs.",
" GetAirPathData: AirLoopHVAC=\"DEDICATED OUTDOOR AIR SYSTEM\" has no Controllers."
]
},
"_1a-Long0.0": {
"Warning Count": 5,
"Warning": [
" Site:GroundTemperature:BuildingSurface: Some values fall outside the range of 15-25C. These values may be inappropriate. Please consult the Input Output Reference for more details.",
" No floor exists in Zone=\"ZONE TWO\", zone floor area is zero. All values for this zone that are entered per floor area will be zero.",
" CalculateZoneVolume: 1 zone is not fully enclosed. For more details use: Output:Diagnostics,DisplayExtrawarnings;",
" Zone areas*inside surface emissivities are summing to zero, for Zone=\"ZONE ONE\" As a result, MRT will be set to MAT for that zone",
" Zone areas*inside surface emissivities are summing to zero, for Zone=\"ZONE TWO\" As a result, MRT will be set to MAT for that zone"
]
},
"_1ZoneUncontrolled_SineOSC": {
"Warning Count": 1,
"Warning": [
" Weather file location will be used rather than entered (IDF) Location object. ..Location object=DENVER CENTENNIAL CO USA WMO=724666 ..Weather File Location=Denver-Stapleton CO USA TMY--23062 WMO#=724690 ..due to location differences, Latitude difference=[0.19] degrees, Longitude difference=[1.00E-002] degrees. ..Time Zone difference=[0.0] hour(s), Elevation difference=[10.15] percent, [182.00] meters."
]
},
"_1Zone_Heavy_AdiabaticX2": {
"Warning Count": 4,
"Warning": [
" Site:GroundTemperature:BuildingSurface: Some values fall outside the range of 15-25C. These values may be inappropriate. Please consult the Input Output Reference for more details.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=83411 differs by more than 10% from Standard Barometric Pressure=100344. ...occurs in DesignDay=DENVER STAPLETON INTL ARPT ANN HTG 99% CONDNS DB, Standard Pressure (based on elevation) will be used.",
" CalculateZoneVolume: 1 zone is not fully enclosed. For more details use: Output:Diagnostics,DisplayExtrawarnings;",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=83411 differs by more than 10% from Standard Barometric Pressure=100344. ...occurs in DesignDay=DENVER STAPLETON INTL ARPT ANN CLG 1% CONDNS DB=>MWB, Standard Pressure (based on elevation) will be used."
]
},
"_1Zone_Heavy_MassX2": {
"Warning Count": 3,
"Warning": [
" Site:GroundTemperature:BuildingSurface: Some values fall outside the range of 15-25C. These values may be inappropriate. Please consult the Input Output Reference for more details.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=83411 differs by more than 10% from Standard Barometric Pressure=100344. ...occurs in DesignDay=DENVER STAPLETON INTL ARPT ANN HTG 99% CONDNS DB, Standard Pressure (based on elevation) will be used.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=83411 differs by more than 10% from Standard Barometric Pressure=100344. ...occurs in DesignDay=DENVER STAPLETON INTL ARPT ANN CLG 1% CONDNS DB=>MWB, Standard Pressure (based on elevation) will be used."
]
},
"_1Zone_Heavy_SelfRef": {
"Warning Count": 5,
"Warning": [
" Site:GroundTemperature:BuildingSurface: Some values fall outside the range of 15-25C. These values may be inappropriate. Please consult the Input Output Reference for more details.",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=83411 differs by more than 10% from Standard Barometric Pressure=100344. ...occurs in DesignDay=DENVER STAPLETON INTL ARPT ANN HTG 99% CONDNS DB, Standard Pressure (based on elevation) will be used.",
" GetSurfaceData: CAUTION -- Interzone surfaces are occuring in the same zone(s). ...use Output:Diagnostics,DisplayExtraWarnings; to show more details on individual occurrences.",
" CalculateZoneVolume: 1 zone is not fully enclosed. For more details use: Output:Diagnostics,DisplayExtrawarnings;",
" SetUpDesignDay: Entered DesignDay Barometric Pressure=83411 differs by more than 10% from Standard Barometric Pressure=100344. ...occurs in DesignDay=DENVER STAPLETON INTL ARPT ANN CLG 1% CONDNS DB=>MWB, Standard Pressure (based on elevation) will be used."
]
},
"_ConvCoefftest": {
"Warning Count": 2,
"Warning": [
" ComputeIntSWAbsorbFactors: Sum of area times inside solar absorption for all surfaces is zero in Zone: ZONE ONE",
" Zone areas*inside surface emissivities are summing to zero, for Zone=\"ZONE ONE\" As a result, MRT will be set to MAT for that zone"
]
},
"_CTFTestsPart2": {
"Warning Count": 1,
"Warning": [
" GetPollutionFactorInput: Requested reporting for Carbon Equivalent Pollution, but insufficient information is entered. Both \"FuelFactors\" and \"EnvironmentalImpactFactors\" must be entered or the displayed carbon pollution will all be zero."
]
},
"_ExternalInterface-functionalmockupunit-to-actuator": {
"Warning Count": 1,
"Warning": [
" ExternalInterface/CalcExternalInterfaceFMUImport: ExternalInterface does not exchange data during design days."
]
},
"_ExternalInterface-functionalmockupunit-to-schedule": {
"Warning Count": 2,
"Warning": [
" GetSurfaceData: CAUTION -- Interzone surfaces are occuring in the same zone(s). ...use Output:Diagnostics,DisplayExtraWarnings; to show more details on individual occurrences.",
" ExternalInterface/CalcExternalInterfaceFMUImport: ExternalInterface does not exchange data during design days."
]
},
"_ExternalInterface-functionalmockupunit-to-variable": {
"Warning Count": 1,
"Warning": [
" ExternalInterface/CalcExternalInterfaceFMUImport: ExternalInterface does not exchange data during design days."
]
},
"_FuelCellTest200": {
"Warning Count": 7,
"Warning": [
" No floor exists in Zone=\"GARAGE ZONE\", zone floor area is zero. All values for this zone that are entered per floor area will be zero.",
" CalculateZoneVolume: 1 zone is not fully enclosed. For more details use: Output:Diagnostics,DisplayExtrawarnings;",
" GetPlantLoopData/GetPlantAvailabilityManager: AvailabilityManagerAssignmentList=ALWAYS_ON not found in lists. No availability will be used.",
" GetPumpInput: Pump:ConstantSpeed=\"HEAT RECOVERY CIRC PUMP\", Invalid Pump Flow Rate Schedule Name Schedule named =[ANNEX 42 ICE_SE TEST 400 FLOW SCHEDULE]. was not found and will not be used.",
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=HEAT RECOVERY CIRC PUMP",
" Plant Loop: HEAT RECOVERY WATER LOOP Demand Side is storing excess heat the majority of the time.",
" Plant Loop: HEAT RECOVERY WATER LOOP Supply Side is storing excess heat the majority of the time."
]
},
"_MaterialTest": {
"Warning Count": 1,
"Warning": [
" GetPollutionFactorInput: Requested reporting for Carbon Equivalent Pollution, but insufficient information is entered. Both \"FuelFactors\" and \"EnvironmentalImpactFactors\" must be entered or the displayed carbon pollution will all be zero."
]
},
"_MicroCHPTest301": {
"Warning Count": 3,
"Warning": [
" No floor exists in Zone=\"GARAGE ZONE\", zone floor area is zero. All values for this zone that are entered per floor area will be zero.",
" CalculateZoneVolume: 1 zone is not fully enclosed. For more details use: Output:Diagnostics,DisplayExtrawarnings;",
" Check input. Pump nominal power or motor efficiency is set to 0, for pump=HEAT RECOVERY CIRC PUMP"
]
},
"_MultiSpeedACElecFurnace": {
"Warning Count": 4,
"Warning": [
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance.",
" The Standard Ratings is calculated for Coil:Cooling:DX:MultiSpeed = HEAT PUMP ACDXCOIL 1 but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance."
]
},
"_PurchAirWindowBlind2": {
"Warning Count": 3,
"Warning": [
" ProcessScheduleInput: Schedule:Compact=\"REPORTSCH\", Schedule Type Limits Name=\"ON/OFF\" not found -- will not be validated",
" WindowMaterial:Blind=\"BLIND\", Illegal value combination. Minimum Slat Angle=[0.0] is less than the smallest allowed by slat dimensions and spacing, min=[2.9] deg. Minimum Slat Angle will be set to 2.9 deg.",
" WindowMaterial:Blind=\"BLIND\", Illegal value combination. Maximum Slat Angle=[180.0] is greater than the largest allowed by slat dimensions and spacing, [177.1] deg. Maximum Slat Angle will be set to 177.1 deg."
]
},
"_PurchAirWindowBlind3": {
"Warning Count": 3,
"Warning": [
" ProcessScheduleInput: Schedule:Compact=\"REPORTSCH\", Schedule Type Limits Name=\"ON/OFF\" not found -- will not be validated",
" WindowMaterial:Blind=\"BLIND\", Illegal value combination. Minimum Slat Angle=[0.0] is less than the smallest allowed by slat dimensions and spacing, min=[2.9] deg. Minimum Slat Angle will be set to 2.9 deg.",
" WindowMaterial:Blind=\"BLIND\", Illegal value combination. Maximum Slat Angle=[180.0] is greater than the largest allowed by slat dimensions and spacing, [177.1] deg. Maximum Slat Angle will be set to 177.1 deg."
]
},
"_PurchAirWindowBlind4": {
"Warning Count": 1,
"Warning": [
" ProcessScheduleInput: Schedule:Compact=\"REPORTSCH\", Schedule Type Limits Name=\"ON/OFF\" not found -- will not be validated"
]
},
"_SmallOffice_Dulles": {
"Warning Count": 5,
"Warning": [
" GetSurfaceData: World Coordinate System selected. Any non-zero Building/Zone North Axes or non-zero Zone Origins are ignored. These may be used in daylighting reference point coordinate calculations but not in normal geometry inputs.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated",
" Output:Table:TimeBins requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:TimeBins will not be generated",
" CalcDoe2DXCoil: Coil:Cooling:DX:SingleSpeed \"DXCOOLINGCOIL_SOUTHZONE_2NDFLOOR\" - Full load outlet air dry-bulb temperature < 2C. This indicates the possibility of coil frost/freeze. Outlet temperature = -2.83 C. ...Occurrence info = WASHINGTON DC DULLES INTL AR ANN HTG WIND 99.6% CONDNS WS=>MCDB, 01/21 06:01 - 06:02 ... Possible reasons for low outlet air dry-bulb temperatures are: This DX coil 1) may have a low inlet air dry-bulb temperature. Inlet air temperature = 10.606 C. 2) may have a low air flow rate per watt of cooling capacity. Check inputs. 3) is used as part of a HX assisted cooling coil which uses a high sensible effectiveness. Check inputs.",
" CalcDoe2DXCoil: Coil:Cooling:DX:SingleSpeed \"DXCOOLINGCOIL_NORTHZONE_2NDFLOOR\" - Full load outlet air dry-bulb temperature < 2C. This indicates the possibility of coil frost/freeze. Outlet temperature = -2.84 C. ...Occurrence info = WASHINGTON DC DULLES INTL AR ANN HTG WIND 99.6% CONDNS WS=>MCDB, 01/21 06:01 - 06:02 ... Possible reasons for low outlet air dry-bulb temperatures are: This DX coil 1) may have a low inlet air dry-bulb temperature. Inlet air temperature = 10.569 C. 2) may have a low air flow rate per watt of cooling capacity. Check inputs. 3) is used as part of a HX assisted cooling coil which uses a high sensible effectiveness. Check inputs."
]
},
"ExerciseOutput1": {
"Warning Count": 1,
"Warning": [
" The Standard Ratings is calculated for Coil:Cooling:DX:SingleSpeed = AHU 1 COOLING COIL but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance."
]
},
"ExerciseOutput1A-Solution": {
"Warning Count": 1,
"Warning": [
" The Standard Ratings is calculated for Coil:Cooling:DX:SingleSpeed = AHU 1 COOLING COIL but not at the AHRI test condition due to curve out of bound. Review the Standard Ratings calculations in the Engineering Reference for this coil type. Also, use Output:Diagnostics, DisplayExtraWarnings for further guidance."
]
},
"AdultEducationCenter": {
"Warning Count": 1,
"Warning": [
" CalculateZoneVolume: 1 zone is not fully enclosed. For more details use: Output:Diagnostics,DisplayExtrawarnings;"
]
},
"Exercise2": {
"Warning Count": 10,
"Warning": [
" Output:Meter:MeterFileOnly: invalid Key Name=\"ELECTRICITY:HVAC\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"ELECTRICITY:PLANT\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"ELECTRICITY:HVAC\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"ELECTRICITY:PLANT\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:FACILITY\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:HVAC\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:PLANT\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:FACILITY\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:HVAC\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:PLANT\" - not found."
]
},
"Exercise2A-Solution": {
"Warning Count": 3,
"Warning": [
" ManageSizing: For a plant sizing run, there must be at least 1 Sizing:Plant object input. SimulationControl Plant Sizing option ignored.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:PLANT\" - not found.",
" Output:Meter:MeterFileOnly: invalid Key Name=\"GAS:PLANT\" - not found."
]
},
"Exercise2B-Solution": {
"Warning Count": 2,
"Warning": [
" Output:PreprocessorMessage=\"ExpandObjects\" has the following Warning conditions: Warning: In HVACTemplate:System:VAV \"VAV with Reheat\" the Heating Coil Design Setpoint is greater than the Preheat Coil Design Setpoint but Heating Coil Type=None. Using Preheat Coil Design Setpoint for the Sizing:System Central Heating Design Supply Air Temperature.",
" Output:PreprocessorMessage=\"ExpandObjects\" has the following Warning conditions: Warning: In HVACTemplate:System:VAV \"VAV with Reheat\" there is no Heating Coil and no Preheat Coil. The Preheat Coil Design Setpoint will be used for the Sizing:System Central Heating Design Supply Air Temperature. This will be the inlet air temperature for sizing reheat coils."
]
},
"Exercise2C-Solution": {
"Warning Count": 3,
"Warning": [
" Output:PreprocessorMessage=\"ExpandObjects\" has the following Warning conditions: Warning: In HVACTemplate:System:VAV \"VAV with Reheat\" the Heating Coil Design Setpoint is greater than the Preheat Coil Design Setpoint but Heating Coil Type=None. Using Preheat Coil Design Setpoint for the Sizing:System Central Heating Design Supply Air Temperature.",
" Output:PreprocessorMessage=\"ExpandObjects\" has the following Warning conditions: Warning: In HVACTemplate:System:VAV \"VAV with Reheat\" there is no Heating Coil and no Preheat Coil. The Preheat Coil Design Setpoint will be used for the Sizing:System Central Heating Design Supply Air Temperature. This will be the inlet air temperature for sizing reheat coils.",
" Output:Table:Monthly requested with SimulationControl Run Simulation for Weather File Run Periods set to No so Output:Table:Monthly will not be generated"
]
}
}
}
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