.Buildings.ThermalZones.EnergyPlus_9_6_0.OutputVariable

Information

Block that retrieves an output variable from EnergyPlus.

This model reads at every EnergyPlus zone time step the output variable specified by the parameters componentKey and variableName. These parameters are the values for the EnergyPlus variable key and name, which can be found in the EnergyPlus result dictionary file (.rdd file) or the EnergyPlus meter dictionary file (.mdd file).

The variable of the output y has Modelica SI units, as declared in Modelica.Units.SI. For example, temperatures will be in Kelvin, and mass flow rates will be in kg/s.

The output signal y gets updated at each EnergyPlus time step.

Usage

To use an output variable, it is best to add in the EnergyPlus idf file the entry

Output:VariableDictionary, Regular;

and then simulate the model. This will create the file eplusout.rdd that contains all output variables. The file has lines such as

Zone,Average,Zone Electric Equipment Electricity Rate [W]
Zone,Average,Site Outdoor Air Drybulb Temperature [C]

Next, instantiate the output variable in Modelica. To obtain the value of Zone,Average,Zone Electric Equipment Electricity Rate [W] for the zone LIVING ZONE, the Modelica instantiation would be

Buildings.ThermalZones.EnergyPlus_9_6_0.OutputVariable equEle(
  name="Zone Electric Equipment Electricity Rate",
  key="LIVING ZONE")
  "Block that reads output from EnergyPlus";

To obtain the value of Site Outdoor Air Drybulb Temperature [C] from EnergyPlus, the Modelica instantiation would be

Buildings.ThermalZones.EnergyPlus_9_6_0.OutputVariable TOut(
  name="Site Outdoor Air Drybulb Temperature",
  key="Environment")
  "Block that reads output from EnergyPlus";

(Note that this variable could be read directly from the Modelica weather data bus, which can be accessed from Buildings.ThermalZones.EnergyPlus_9_6_0.Building.)

By default, the Modelica log file will display the unit in the form

Output OneZoneOneOutputVariable.equEle.y has in Modelica the unit W.

For this diagnostic message, Modelica knows that the unit is Watts because EnergyPlus wrote the unit for this output when it instantiated the model. (The output signal y of this block will not have a unit attribute set because it is not possible to automatically set the unit attribute of the output y based on the information that EnergyPlus provides.)

Direct dependency of output

Some output variables directly depend on input variables, i.e., if an input variable changes, the output changes immediately. Examples are the illuminance in a room that changes instantaneously when the window blind is changed, or the output variable Zone Electric Equipment Electricity Rate which changes instantaneously when a schedule value switches it on (see Buildings.ThermalZones.EnergyPlus_9_6_0.Validation.Schedule.EquipmentScheduleOutputVariable). For such variables, users should set isDirectDependent=true. Output variables that do not depend directly on an input variable include continuous time states such as the inside temperature of a wall and variables that only depend on time such as weather data. For these variables, users should leave isDirectDependent=false.

If a user sets isDirectDependent=true, then the model enables the input connector directDependency. Users then need to connect this input to the output(s) of these instance of Buildings.ThermalZones.EnergyPlus_9_6_0.Actuator or Buildings.ThermalZones.EnergyPlus_9_6_0.Schedule on which this output directly depends on. See for example Buildings.ThermalZones.EnergyPlus_9_6_0.Validation.Schedule.EquipmentScheduleOutputVariable. If the output depends on multiple inputs, just multiply these inputs and connect their product to the connector directDependency. What the value is is irrelevant, but a Modelica code generator will then understand that first the input needs to be sent to EnergyPlus before the output is requested.

Supported output variables

The table below shows all output variables supported by Spawn. Which of these are available for a particular model depends on the EnergyPlus idf-file. To list the output variables that are available in your model, add the line

Output:VariableDictionary, IDF;

to the EnergyPlus idf-file. This will produce an EnergyPlus result data dictionary (rdd) file.

In the table below, the name in the first column must be used as the value for the parameter name in instances of Buildings.ThermalZones.EnergyPlus_9_6_0.OutputVariable.

name Unit as received in Modelica Unit used by EnergyPlus
Debug Surface Solar Shading Model DifShdgRatioHoriz 1 1
Debug Surface Solar Shading Model DifShdgRatioIsoSky 1 1
Debug Surface Solar Shading Model WithShdgIsoSky 1 1
Debug Surface Solar Shading Model WoShdgIsoSky 1 1
Electric Equipment Convective Heating Energy J J
Electric Equipment Convective Heating Rate W W
Electric Equipment Electric Energy J J
Electric Equipment Electric Power W W
Electric Equipment Latent Gain Energy J J
Electric Equipment Latent Gain Rate W W
Electric Equipment Lost Heat Energy J J
Electric Equipment Lost Heat Rate W W
Electric Equipment Radiant Heating Energy J J
Electric Equipment Radiant Heating Rate W W
Electric Equipment Total Heating Energy J J
Electric Equipment Total Heating Rate W W
Environmental Impact Electricity CH4 Emissions Mass kg kg
Environmental Impact Electricity CO Emissions Mass kg kg
Environmental Impact Electricity CO2 Emissions Mass kg kg
Environmental Impact Electricity Hg Emissions Mass kg kg
Environmental Impact Electricity N2O Emissions Mass kg kg
Environmental Impact Electricity NH3 Emissions Mass kg kg
Environmental Impact Electricity NMVOC Emissions Mass kg kg
Environmental Impact Electricity NOx Emissions Mass kg kg
Environmental Impact Electricity Nuclear High Level Waste Mass kg kg
Environmental Impact Electricity Nuclear Low Level Waste Volume m3 m3
Environmental Impact Electricity PM Emissions Mass kg kg
Environmental Impact Electricity PM10 Emissions Mass kg kg
Environmental Impact Electricity PM2.5 Emissions Mass kg kg
Environmental Impact Electricity Pb Emissions Mass kg kg
Environmental Impact Electricity SO2 Emissions Mass kg kg
Environmental Impact Electricity Source Energy J J
Environmental Impact Electricity Water Consumption Volume m3 L
Environmental Impact Natural Gas CH4 Emissions Mass kg kg
Environmental Impact Natural Gas CO Emissions Mass kg kg
Environmental Impact Natural Gas CO2 Emissions Mass kg kg
Environmental Impact Natural Gas Hg Emissions Mass kg kg
Environmental Impact Natural Gas N2O Emissions Mass kg kg
Environmental Impact Natural Gas NH3 Emissions Mass kg kg
Environmental Impact Natural Gas NMVOC Emissions Mass kg kg
Environmental Impact Natural Gas NOx Emissions Mass kg kg
Environmental Impact Natural Gas Nuclear High Level Waste Mass kg kg
Environmental Impact Natural Gas Nuclear Low Level Waste Volume m3 m3
Environmental Impact Natural Gas PM Emissions Mass kg kg
Environmental Impact Natural Gas PM10 Emissions Mass kg kg
Environmental Impact Natural Gas PM2.5 Emissions Mass kg kg
Environmental Impact Natural Gas Pb Emissions Mass kg kg
Environmental Impact Natural Gas SO2 Emissions Mass kg kg
Environmental Impact Natural Gas Source Energy J J
Environmental Impact Natural Gas Water Consumption Volume m3 L
Environmental Impact Purchased Electricity Source Energy J J
Environmental Impact Surplus Sold Electricity Source J J
Environmental Impact Total CH4 Emissions Carbon Equivalent Mass kg kg
Environmental Impact Total CO2 Emissions Carbon Equivalent Mass kg kg
Environmental Impact Total N2O Emissions Carbon Equivalent Mass kg kg
Exterior Lights Electric Energy J J
Exterior Lights Electric Power W W
Facility Cooling Setpoint Not Met Time s hr
Facility Cooling Setpoint Not Met While Occupied Time s hr
Facility Heating Setpoint Not Met Time s hr
Facility Heating Setpoint Not Met While Occupied Time s hr
Facility Thermal Comfort ASHRAE 55 Simple Model Summer Clothes Not Comfortable Time s hr
Facility Thermal Comfort ASHRAE 55 Simple Model Summer or Winter Clothes Not Comfortable Time s hr
Facility Thermal Comfort ASHRAE 55 Simple Model Winter Clothes Not Comfortable Time s hr
Lights Convective Heating Energy J J
Lights Convective Heating Rate W W
Lights Electric Energy J J
Lights Electric Power W W
Lights Radiant Heating Energy J J
Lights Radiant Heating Rate W W
Lights Return Air Heating Energy J J
Lights Return Air Heating Rate W W
Lights Total Heating Energy J J
Lights Total Heating Rate W W
Lights Visible Radiation Heating Energy J J
Lights Visible Radiation Heating Rate W W
People Air Relative Humidity 1 %
People Air Temperature K degC
People Convective Heating Energy J J
People Convective Heating Rate W W
People Latent Gain Energy J J
People Latent Gain Rate W W
People Occupant Count 1 1
People Radiant Heating Energy J J
People Radiant Heating Rate W W
People Sensible Heating Energy J J
People Sensible Heating Rate W W
People Total Heating Energy J J
People Total Heating Rate W W
Schedule Value 1 1
Site Beam Solar Radiation Luminous Efficacy lm/W lm/W
Site Day Type Index 1 1
Site Daylight Saving Time Status 1 1
Site Daylighting Model Sky Brightness 1 1
Site Daylighting Model Sky Clearness 1 1
Site Deep Ground Temperature K degC
Site Diffuse Solar Radiation Rate per Area W/m2 W/m2
Site Direct Solar Radiation Rate per Area W/m2 W/m2
Site Exterior Beam Normal Illuminance lm/m2 lux
Site Exterior Horizontal Beam Illuminance lm/m2 lux
Site Exterior Horizontal Sky Illuminance lm/m2 lux
Site Ground Reflected Solar Radiation Rate per Area W/m2 W/m2
Site Ground Temperature K degC
Site Horizontal Infrared Radiation Rate per Area W/m2 W/m2
Site Mains Water Temperature K degC
Site Outdoor Air Barometric Pressure Pa Pa
Site Outdoor Air Density kg/m3 kg/m3
Site Outdoor Air Dewpoint Temperature K degC
Site Outdoor Air Drybulb Temperature K degC
Site Outdoor Air Enthalpy J/kg J/kg
Site Outdoor Air Humidity Ratio 1 kgWater/kgDryAir
Site Outdoor Air Relative Humidity 1 %
Site Outdoor Air Wetbulb Temperature K degC
Site Precipitation Depth m m
Site Rain Status 1 1
Site Simple Factor Model Ground Temperature K degC
Site Sky Diffuse Solar Radiation Luminous Efficacy lm/W lm/W
Site Sky Temperature K degC
Site Snow on Ground Status 1 1
Site Solar Altitude Angle rad deg
Site Solar Azimuth Angle rad deg
Site Solar Hour Angle rad deg
Site Surface Ground Temperature K degC
Site Total Surface Heat Emission to Air J J
Site Total Zone Exfiltration Heat Loss J J
Site Total Zone Exhaust Air Heat Loss J J
Site Wind Direction rad deg
Site Wind Speed m/s m/s
Surface Anisotropic Sky Multiplier 1 1
Surface Average Face Conduction Heat Gain Rate W W
Surface Average Face Conduction Heat Loss Rate W W
Surface Average Face Conduction Heat Transfer Energy J J
Surface Average Face Conduction Heat Transfer Rate W W
Surface Average Face Conduction Heat Transfer Rate per Area W/m2 W/m2
Surface Heat Storage Energy J J
Surface Heat Storage Gain Rate W W
Surface Heat Storage Loss Rate W W
Surface Heat Storage Rate W W
Surface Heat Storage Rate per Area W/m2 W/m2
Surface Inside Face Absorbed Shortwave Radiation Rate W W
Surface Inside Face Adjacent Air Temperature K degC
Surface Inside Face Beam Solar Radiation Heat Gain Rate W W
Surface Inside Face Conduction Heat Gain Rate W W
Surface Inside Face Conduction Heat Loss Rate W W
Surface Inside Face Conduction Heat Transfer Energy J J
Surface Inside Face Conduction Heat Transfer Rate W W
Surface Inside Face Conduction Heat Transfer Rate per Area W/m2 W/m2
Surface Inside Face Convection Classification Index 1 1
Surface Inside Face Convection Heat Gain Energy J J
Surface Inside Face Convection Heat Gain Rate W W
Surface Inside Face Convection Heat Gain Rate per Area W/m2 W/m2
Surface Inside Face Convection Heat Transfer Coefficient W/m2.K W/m2.K
Surface Inside Face Convection Model Equation Index 1 1
Surface Inside Face Convection Reference Air Index 1 1
Surface Inside Face Exterior Windows Incident Beam Solar Radiation Energy J J
Surface Inside Face Exterior Windows Incident Beam Solar Radiation Rate W W
Surface Inside Face Exterior Windows Incident Beam Solar Radiation Rate per Area W/m2 W/m2
Surface Inside Face Heat Source Gain Rate per Area W/m2 W/m2
Surface Inside Face Initial Transmitted Diffuse Absorbed Solar Radiation Rate W W
Surface Inside Face Initial Transmitted Diffuse Transmitted Out Window Solar Radiation Rate W W
Surface Inside Face Interior Movable Insulation Temperature K degC
Surface Inside Face Interior Windows Incident Beam Solar Radiation Energy J J
Surface Inside Face Interior Windows Incident Beam Solar Radiation Rate W W
Surface Inside Face Interior Windows Incident Beam Solar Radiation Rate per Area W/m2 W/m2
Surface Inside Face Internal Gains Radiation Heat Gain Energy J J
Surface Inside Face Internal Gains Radiation Heat Gain Rate W W
Surface Inside Face Internal Gains Radiation Heat Gain Rate per Area W/m2 W/m2
Surface Inside Face Lights Radiation Heat Gain Energy J J
Surface Inside Face Lights Radiation Heat Gain Rate W W
Surface Inside Face Lights Radiation Heat Gain Rate per Area W/m2 W/m2
Surface Inside Face Net Surface Thermal Radiation Heat Gain Energy J J
Surface Inside Face Net Surface Thermal Radiation Heat Gain Rate W W
Surface Inside Face Net Surface Thermal Radiation Heat Gain Rate per Area W/m2 W/m2
Surface Inside Face Solar Radiation Heat Gain Energy J J
Surface Inside Face Solar Radiation Heat Gain Rate W W
Surface Inside Face Solar Radiation Heat Gain Rate per Area W/m2 W/m2
Surface Inside Face System Radiation Heat Gain Energy J J
Surface Inside Face System Radiation Heat Gain Rate W W
Surface Inside Face System Radiation Heat Gain Rate per Area W/m2 W/m2
Surface Inside Face Temperature K degC
Surface Outside Face Beam Solar Incident Angle Cosine Value 1 1
Surface Outside Face Conduction Heat Gain Rate W W
Surface Outside Face Conduction Heat Loss Rate W W
Surface Outside Face Conduction Heat Transfer Energy J J
Surface Outside Face Conduction Heat Transfer Rate W W
Surface Outside Face Conduction Heat Transfer Rate per Area W/m2 W/m2
Surface Outside Face Convection Classification Index 1 1
Surface Outside Face Convection Heat Gain Energy J J
Surface Outside Face Convection Heat Gain Rate W W
Surface Outside Face Convection Heat Gain Rate per Area W/m2 W/m2
Surface Outside Face Convection Heat Transfer Coefficient W/m2.K W/m2.K
Surface Outside Face Forced Convection Model Equation Index 1 1
Surface Outside Face Heat Emission to Air Rate W W
Surface Outside Face Heat Source Gain Rate per Area W/m2 W/m2
Surface Outside Face Incident Beam Solar Radiation Rate per Area W/m2 W/m2
Surface Outside Face Incident Beam To Beam Surface Reflected Solar Radiation Rate per Area W/m2 W/m2
Surface Outside Face Incident Beam To Diffuse Ground Reflected Solar Radiation Rate per Area W/m2 W/m2
Surface Outside Face Incident Beam To Diffuse Surface Reflected Solar Radiation Rate per Area W/m2 W/m2
Surface Outside Face Incident Ground Diffuse Solar Radiation Rate per Area W/m2 W/m2
Surface Outside Face Incident Sky Diffuse Ground Reflected Solar Radiation Rate per Area W/m2 W/m2
Surface Outside Face Incident Sky Diffuse Solar Radiation Rate per Area W/m2 W/m2
Surface Outside Face Incident Sky Diffuse Surface Reflected Solar Radiation Rate per Area W/m2 W/m2
Surface Outside Face Incident Solar Radiation Rate per Area W/m2 W/m2
Surface Outside Face Natural Convection Model Equation Index 1 1
Surface Outside Face Net Thermal Radiation Heat Gain Energy J J
Surface Outside Face Net Thermal Radiation Heat Gain Rate W W
Surface Outside Face Net Thermal Radiation Heat Gain Rate per Area W/m2 W/m2
Surface Outside Face Outdoor Air Drybulb Temperature K degC
Surface Outside Face Outdoor Air Wetbulb Temperature K degC
Surface Outside Face Outdoor Air Wind Direction rad deg
Surface Outside Face Outdoor Air Wind Speed m/s m/s
Surface Outside Face Solar Radiation Heat Gain Energy J J
Surface Outside Face Solar Radiation Heat Gain Rate W W
Surface Outside Face Solar Radiation Heat Gain Rate per Area W/m2 W/m2
Surface Outside Face Sunlit Area m2 m2
Surface Outside Face Sunlit Fraction 1 1
Surface Outside Face Temperature K degC
Surface Outside Face Thermal Radiation to Air Heat Transfer Coefficient W/m2.K W/m2.K
Surface Outside Face Thermal Radiation to Air Heat Transfer Rate W W
Surface Outside Face Thermal Radiation to Ground Heat Transfer Coefficient W/m2.K W/m2.K
Surface Outside Face Thermal Radiation to Sky Heat Transfer Coefficient W/m2.K W/m2.K
Surface Outside Normal Azimuth Angle rad deg
Surface Shading Device Is On Time Fraction 1 1
Surface Storm Window On Off Status 1 1
Surface Window BSDF Beam Direction Number 1 1
Surface Window BSDF Beam Phi Angle rad rad
Surface Window BSDF Beam Theta Angle rad rad
Surface Window Back Face Temperature Layer 1 K degC
Surface Window Blind Slat Angle rad deg
Surface Window Front Face Temperature Layer 1 K degC
Surface Window Gap Convective Heat Transfer Energy J J
Surface Window Gap Convective Heat Transfer Rate W W
Surface Window Glazing Beam to Beam Solar Transmittance 1 1
Surface Window Glazing Beam to Diffuse Solar Transmittance 1 1
Surface Window Glazing Diffuse to Diffuse Solar Transmittance 1 1
Surface Window Heat Gain Energy J J
Surface Window Heat Gain Rate W W
Surface Window Heat Loss Energy J J
Surface Window Heat Loss Rate W W
Surface Window Inside Face Divider Condensation Status 1 1
Surface Window Inside Face Frame Condensation Status 1 1
Surface Window Inside Face Glazing Condensation Status 1 1
Surface Window Model Solver Iteration Count 1 1
Surface Window Net Heat Transfer Energy J J
Surface Window Net Heat Transfer Rate W W
Surface Window Outside Reveal Reflected Beam Solar Radiation Energy J J
Surface Window Outside Reveal Reflected Beam Solar Radiation Rate W W
Surface Window Shading Device Absorbed Solar Radiation Energy J J
Surface Window Shading Device Absorbed Solar Radiation Rate W W
Surface Window Solar Horizontal Profile Angle rad deg
Surface Window Solar Vertical Profile Angle rad deg
Surface Window System Solar Absorptance 1 1
Surface Window System Solar Reflectance 1 1
Surface Window System Solar Transmittance 1 1
Surface Window Total Glazing Layers Absorbed Shortwave Radiation Rate W W
Surface Window Total Glazing Layers Absorbed Solar Radiation Energy J J
Surface Window Total Glazing Layers Absorbed Solar Radiation Rate W W
Surface Window Transmitted Beam Solar Radiation Energy J J
Surface Window Transmitted Beam Solar Radiation Rate W W
Surface Window Transmitted Beam To Beam Solar Radiation Energy J J
Surface Window Transmitted Beam To Beam Solar Radiation Rate W W
Surface Window Transmitted Beam To Diffuse Solar Radiation Energy J J
Surface Window Transmitted Beam To Diffuse Solar Radiation Rate W W
Surface Window Transmitted Diffuse Solar Radiation Energy J J
Surface Window Transmitted Diffuse Solar Radiation Rate W W
Surface Window Transmitted Solar Radiation Energy J J
Surface Window Transmitted Solar Radiation Rate W W
Zone Air Heat Balance Air Energy Storage Rate W W
Zone Air Heat Balance Internal Convective Heat Gain Rate W W
Zone Air Heat Balance Interzone Air Transfer Rate W W
Zone Air Heat Balance Outdoor Air Transfer Rate W W
Zone Air Heat Balance Surface Convection Rate W W
Zone Air Heat Balance System Air Transfer Rate W W
Zone Air Heat Balance System Convective Heat Gain Rate W W
Zone Cooling Setpoint Not Met Time s hr
Zone Cooling Setpoint Not Met While Occupied Time s hr
Zone Electric Equipment Convective Heating Energy J J
Zone Electric Equipment Convective Heating Rate W W
Zone Electric Equipment Electric Energy J J
Zone Electric Equipment Electric Power W W
Zone Electric Equipment Latent Gain Energy J J
Zone Electric Equipment Latent Gain Rate W W
Zone Electric Equipment Lost Heat Energy J J
Zone Electric Equipment Lost Heat Rate W W
Zone Electric Equipment Radiant Heating Energy J J
Zone Electric Equipment Radiant Heating Rate W W
Zone Electric Equipment Total Heating Energy J J
Zone Electric Equipment Total Heating Rate W W
Zone Exfiltration Heat Transfer Rate W W
Zone Exfiltration Latent Heat Transfer Rate W W
Zone Exfiltration Sensible Heat Transfer Rate W W
Zone Exhaust Air Heat Transfer Rate W W
Zone Exhaust Air Latent Heat Transfer Rate W W
Zone Exhaust Air Sensible Heat Transfer Rate W W
Zone Exterior Windows Total Transmitted Beam Solar Radiation Energy J J
Zone Exterior Windows Total Transmitted Beam Solar Radiation Rate W W
Zone Exterior Windows Total Transmitted Diffuse Solar Radiation Energy J J
Zone Exterior Windows Total Transmitted Diffuse Solar Radiation Rate W W
Zone Heating Setpoint Not Met Time s hr
Zone Heating Setpoint Not Met While Occupied Time s hr
Zone Interior Windows Total Transmitted Beam Solar Radiation Energy J J
Zone Interior Windows Total Transmitted Beam Solar Radiation Rate W W
Zone Interior Windows Total Transmitted Diffuse Solar Radiation Energy J J
Zone Interior Windows Total Transmitted Diffuse Solar Radiation Rate W W
Zone Lights Convective Heating Energy J J
Zone Lights Convective Heating Rate W W
Zone Lights Electric Energy J J
Zone Lights Electric Power W W
Zone Lights Radiant Heating Energy J J
Zone Lights Radiant Heating Rate W W
Zone Lights Return Air Heating Energy J J
Zone Lights Return Air Heating Rate W W
Zone Lights Total Heating Energy J J
Zone Lights Total Heating Rate W W
Zone Lights Visible Radiation Heating Energy J J
Zone Lights Visible Radiation Heating Rate W W
Zone Mean Air Dewpoint Temperature K degC
Zone Mean Air Humidity Ratio 1 kgWater/kgDryAir
Zone Mean Air Temperature K degC
Zone Mean Radiant Temperature K degC
Zone Operative Temperature K degC
Zone Outdoor Air Drybulb Temperature K degC
Zone Outdoor Air Wetbulb Temperature K degC
Zone Outdoor Air Wind Direction rad deg
Zone Outdoor Air Wind Speed m/s m/s
Zone People Convective Heating Energy J J
Zone People Convective Heating Rate W W
Zone People Latent Gain Energy J J
Zone People Latent Gain Rate W W
Zone People Occupant Count 1 1
Zone People Radiant Heating Energy J J
Zone People Radiant Heating Rate W W
Zone People Sensible Heating Energy J J
Zone People Sensible Heating Rate W W
Zone People Total Heating Energy J J
Zone People Total Heating Rate W W
Zone Thermal Comfort ASHRAE 55 Simple Model Summer Clothes Not Comfortable Time s hr
Zone Thermal Comfort ASHRAE 55 Simple Model Summer or Winter Clothes Not Comfortable Time s hr
Zone Thermal Comfort ASHRAE 55 Simple Model Winter Clothes Not Comfortable Time s hr
Zone Thermal Comfort Clothing Surface Temperature K degC
Zone Thermal Comfort Fanger Model PMV 1 1
Zone Thermal Comfort Fanger Model PPD 1 %
Zone Thermal Comfort Mean Radiant Temperature K degC
Zone Thermal Comfort Operative Temperature K degC
Zone Total Internal Convective Heating Energy J J
Zone Total Internal Convective Heating Rate W W
Zone Total Internal Latent Gain Energy J J
Zone Total Internal Latent Gain Rate W W
Zone Total Internal Radiant Heating Energy J J
Zone Total Internal Radiant Heating Rate W W
Zone Total Internal Total Heating Energy J J
Zone Total Internal Total Heating Rate W W
Zone Total Internal Visible Radiation Heating Energy J J
Zone Total Internal Visible Radiation Heating Rate W W
Zone Windows Total Heat Gain Energy J J
Zone Windows Total Heat Gain Rate W W
Zone Windows Total Heat Loss Energy J J
Zone Windows Total Heat Loss Rate W W
Zone Windows Total Transmitted Solar Radiation Energy J J
Zone Windows Total Transmitted Solar Radiation Rate W W

Revisions


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