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Re: [EnergyPlus_Support] combined effect of shading devices on interior temperatures
I tried to rearrange my idf file according to
AirflowNetwork3zVent.idf
Until I put my own pressure coefficients, there were
no severe errors(my surface temperatures were
unlogical).After that program crashed. What do I
wrong? or what is missing?
thank you very much:)
I will attach my file;
!-Generator IDFEditor 1.27 'current version of
IDFEditor - less than 1 is a beta
!-NOTE: All comments with '!-' are ignored by the
IDFEditor and are generated automatically.
!- Use '!' comments if they need to be retained
when using the IDFEditor.
!- =========== ALL OBJECTS IN CLASS: VERSION
===========
VERSION,
1.4; !- Version Identifier
!- =========== ALL OBJECTS IN CLASS: BUILDING
===========
BUILDING,
Ofis , !- Building Name
0, !- North Axis {deg}
Suburbs, !- Terrain
0.04, !- Loads Convergence
Tolerance Value
0.4, !- Temperature
Convergence Tolerance Value {deltaC}
FullInteriorAndExteriorWithReflections, !- Solar
Distribution
30; !- Maximum Number of
Warmup Days
!- =========== ALL OBJECTS IN CLASS: TIMESTEP IN
HOUR ===========
TIMESTEP IN HOUR,
4; !- Time Step in Hour
!- =========== ALL OBJECTS IN CLASS: INSIDE
CONVECTION ALGORITHM ===========
INSIDE CONVECTION ALGORITHM,
Detailed; !- Algorithm
!- =========== ALL OBJECTS IN CLASS: OUTSIDE
CONVECTION ALGORITHM ===========
OUTSIDE CONVECTION ALGORITHM,
Detailed; !- Algorithm
!- =========== ALL OBJECTS IN CLASS: SOLUTION
ALGORITHM ===========
SOLUTION ALGORITHM,
CTF; !- SolutionAlgo
!- =========== ALL OBJECTS IN CLASS: SHADOWING
CALCULATIONS ===========
SHADOWING CALCULATIONS,
20; !-
Period_for_calculations
!- =========== ALL OBJECTS IN CLASS: ZONE VOLUME
CAPACITANCE MULTIPLIER ===========
ZONE VOLUME CAPACITANCE MULTIPLIER,
1; !- Capacitance Multiplier
!- =========== ALL OBJECTS IN CLASS: RUN CONTROL
===========
RUN CONTROL,
No, !- Do the zone sizing
calculation
No, !- Do the system sizing
calculation
No, !- Do the plant sizing
calculation
Yes, !- Do the design day
simulations
Yes; !- Do the weather file
simulation
!- =========== ALL OBJECTS IN CLASS: RUNPERIOD
===========
RunPeriod,
8, !- Begin Month
21, !- Begin Day Of Month
8, !- End Month
21, !- End Day Of Month
, !- Day Of Week For Start
Day
, !- Use WeatherFile
Holidays/Special Days
, !- Use WeatherFile
DaylightSavingPeriod
, !- Apply Weekend Holiday
Rule
, !- Use WeatherFile Rain
Indicators
, !- Use WeatherFile Snow
Indicators
1; !- Number of years of
simulation
RunPeriod,
2, !- Begin Month
21, !- Begin Day Of Month
2, !- End Month
21, !- End Day Of Month
, !- Day Of Week For Start
Day
, !- Use WeatherFile
Holidays/Special Days
, !- Use WeatherFile
DaylightSavingPeriod
, !- Apply Weekend Holiday
Rule
, !- Use WeatherFile Rain
Indicators
, !- Use WeatherFile Snow
Indicators
1; !- Number of years of
simulation
!- =========== ALL OBJECTS IN CLASS: LOCATION
===========
Location,
ISTANBUL_TUR Design_Conditions, !- LocationName
40.97, !- Latitude {deg}
28.82, !- Longitude {deg}
2.00, !- TimeZone {hr}
37.00; !- Elevation {m}
!- =========== ALL OBJECTS IN CLASS: DESIGNDAY
===========
DesignDay,
ISTANBUL Ann Clg .4% Condns DB=>MWB, !-
DesignDayName
31.5, !- Maximum Dry-Bulb
Temperature {C}
13.7, !- Daily Temperature
Range {deltaC}
22, !- Humidity Indicating
Conditions at Max Dry-Bulb
100881., !- Barometric Pressure
{Pa}
2.5, !- Wind Speed {m/s}
180, !- Wind Direction {deg}
1.00, !- Sky Clearness
0, !- Rain Indicator
0, !- Snow Indicator
21, !- Day Of Month
8, !- Month
SummerDesignDay, !- Day Type
0, !- Daylight Saving Time
Indicator
Dew-Point; !- Humidity Indicating
Type
DesignDay,
ISTANBUL Ann Htg Wind 99% Condns WS=>MCDB, !-
DesignDayName
12.2, !- Maximum Dry-Bulb
Temperature {C}
16.2, !- Daily Temperature
Range {deltaC}
-4, !- Humidity Indicating
Conditions at Max Dry-Bulb
100881., !- Barometric Pressure
{Pa}
2.5, !- Wind Speed {m/s}
180, !- Wind Direction {deg}
0.00, !- Sky Clearness
0, !- Rain Indicator
0, !- Snow Indicator
21, !- Day Of Month
2, !- Month
WinterDesignDay, !- Day Type
0, !- Daylight Saving Time
Indicator
Dew-Point; !- Humidity Indicating
Type
!- =========== ALL OBJECTS IN CLASS:
MATERIAL:REGULAR ===========
MATERIAL:REGULAR,
PLASTER - CEMENT SA 3 / 8 IN, !- Name
Smooth, !- Roughness
0.002, !- Thickness {m}
0.7200000, !- Conductivity {W/m-K}
1858.140, !- Density {kg/m3}
830.0000, !- Specific Heat {J/kg-K}
0.9000000, !- Absorptance:Thermal
0.7800000, !- Absorptance:Solar
0.7800000; !- Absorptance:Visible
MATERIAL:REGULAR,
BRICK - COMMON 8 IN, !- Name
Rough, !- Roughness
0.19, !- Thickness {m}
0.7200000, !- Conductivity {W/m-K}
1922.210, !- Density {kg/m3}
830.0000, !- Specific Heat {J/kg-K}
0.9000000, !- Absorptance:Thermal
0.7000000, !- Absorptance:Solar
0.7000000; !- Absorptance:Visible
MATERIAL:REGULAR,
IN76 - 2 IN PREFORMED MINERAL BOARD, !- Name
Smooth, !- Roughness
0.060000001, !- Thickness {m}
3.9999999E-02, !- Conductivity {W/m-K}
240.2700, !- Density {kg/m3}
710.0000, !- Specific Heat {J/kg-K}
0.9000000, !- Absorptance:Thermal
0.5000000, !- Absorptance:Solar
0.5000000; !- Absorptance:Visible
MATERIAL:REGULAR,
E10 - 1 IN GYP PLASTER SAND AGG, !- Name
Smooth, !- Roughness
2.0000000E-02, !- Thickness {m}
0.8200000, !- Conductivity {W/m-K}
800.9200, !- Density {kg/m3}
830.0000, !- Specific Heat {J/kg-K}
0.9000000, !- Absorptance:Thermal
0.9200000, !- Absorptance:Solar
0.9200000; !- Absorptance:Visible
MATERIAL:REGULAR,
FINISH FLOORING - TILE 1 / 16 IN, !- Name
Smooth, !- Roughness
0.005, !- Thickness {m}
0.1700000, !- Conductivity {W/m-K}
1922.210, !- Density {kg/m3}
1250.000, !- Specific Heat {J/kg-K}
0.9000000, !- Absorptance:Thermal
0.5000000, !- Absorptance:Solar
0.5000000; !- Absorptance:Visible
MATERIAL:REGULAR,
B6 - 2 IN DENSE INSULATION, !- Name
VeryRough, !- Roughness
0.08, !- Thickness {m}
3.9999999E-02, !- Conductivity {W/m-K}
91.30000, !- Density {kg/m3}
830.0000, !- Specific Heat {J/kg-K}
0.9000000, !- Absorptance:Thermal
0.5000000, !- Absorptance:Solar
0.5000000; !- Absorptance:Visible
MATERIAL:REGULAR,
C18 - 1.25 IN LIGHT WEIGHT CONCRETE, !- Name
MediumRough, !- Roughness
0.03, !- Thickness {m}
0.1200000, !- Conductivity {W/m-K}
480.5500, !- Density {kg/m3}
830.0000, !- Specific Heat {J/kg-K}
0.9000000, !- Absorptance:Thermal
0.2000000, !- Absorptance:Solar
0.2000000; !- Absorptance:Visible
MATERIAL:REGULAR,
C14 - 4 IN LW CONCRETE, !- Name
MediumRough, !- Roughness
0.1000000, !- Thickness {m}
0.1700000, !- Conductivity {W/m-K}
640.7300, !- Density {kg/m3}
830.0000, !- Specific Heat {J/kg-K}
0.9000000, !- Absorptance:Thermal
0.6500000, !- Absorptance:Solar
0.6500000; !- Absorptance:Visible
MATERIAL:REGULAR,
C5 - 4 IN HW CONCRETE, !- Name
MediumRough, !- Roughness
0.15, !- Thickness {m}
1.720000, !- Conductivity {W/m-K}
2242.580, !- Density {kg/m3}
830.0000, !- Specific Heat {J/kg-K}
0.9000000, !- Absorptance:Thermal
0.6500000, !- Absorptance:Solar
0.6500000; !- Absorptance:Visible
MATERIAL:REGULAR,
C13 - 6 IN HW CONCRETE, !- Name
MediumRough, !- Roughness
0.1500000, !- Thickness {m}
1.720000, !- Conductivity {W/m-K}
2242.580, !- Density {kg/m3}
830.0000, !- Specific Heat {J/kg-K}
0.9000000, !- Absorptance:Thermal
0.6500000, !- Absorptance:Solar
0.6500000; !- Absorptance:Visible
!- =========== ALL OBJECTS IN CLASS:
MATERIAL:WINDOWGLASS ===========
MATERIAL:WINDOWGLASS,
GLASS - CLEAR PLATE 1 / 4 IN, !- Name
SpectralAverage, !- Optical Data Type
, !- Name of Window Glass
Spectral Data Set
6.0000001E-03, !- Thickness {m}
0.99998, !- Solar Transmittance at
Normal Incidence
0.00001, !- Solar Reflectance at
Normal Incidence: Front Side
0.00001, !- Solar Reflectance at
Normal Incidence: Back Side
0.99998, !- Visible Transmittance
at Normal Incidence
0.00001, !- Visible Reflectance at
Normal Incidence: Front Side
0.00001, !- Visible Reflectance at
Normal Incidence: Back Side
0, !- IR Transmittance at
Normal Incidence
0.8400000, !- IR Hemispherical
Emissivity: Front Side
0.8400000, !- IR Hemispherical
Emissivity: Back Side
0.9000000; !- Conductivity {W/m-K}
!- =========== ALL OBJECTS IN CLASS:
MATERIAL:WINDOWBLIND ===========
MATERIAL:WINDOWBLIND,
BLIND WITH LOW REFLECTIVITY SLATS, !- Name
HORIZONTAL, !- Slat orientation
0.38625, !- Slat width {m}
0.386, !- Slat separation {m}
0.00025, !- Slat thickness {m}
90, !- Slat angle {deg}
221, !- Slat conductivity
{W/m-K}
0.0, !- Slat beam solar
transmittance
0.2, !- Slat beam solar
reflectance, front side
0.2, !- Slat beam solar
reflectance, back side
0.0, !- Slat diffuse solar
transmittance
0.2, !- Slat diffuse solar
reflectance, front side
0.2, !- Slat diffuse solar
reflectance, back side
0.0, !- Slat beam visible
transmittance
0.2, !- Slat beam visible
reflectance, front side
0.2, !- Slat beam visible
reflectance, back side
0.0, !- Slat diffuse visible
transmittance
0.2, !- Slat diffuse visible
reflectance, front side
0.2, !- Slat diffuse visible
reflectance, back side
0.0, !- Slat IR (thermal)
hemispherical transmittance
0.9, !- Slat IR (thermal)
hemispherical emissivity, front side
0.9, !- Slat IR (thermal)
hemispherical emissivity, back side
0.327953, !- Blind-to-glass
distance {m}
0.5, !- Blind top opening
multiplier
0.5, !- Blind bottom opening
multiplier
0.5, !- Blind left-side
opening multiplier
0.5, !- Blind right-side
opening multiplier
0, !- Minimum Slat Angle
{deg}
90; !- Maximum Slat Angle
{deg}
!- =========== ALL OBJECTS IN CLASS: CONSTRUCTION
===========
CONSTRUCTION,
DUVAR, !- Name
PLASTER - CEMENT SA 3 / 8 IN, !- Outside Layer
IN76 - 2 IN PREFORMED MINERAL BOARD, !- Layer #2
BRICK - COMMON 8 IN, !- Layer #3
E10 - 1 IN GYP PLASTER SAND AGG; !- Layer #4
CONSTRUCTION,
ZEMÝN DOSEME, !- Name
C5 - 4 IN HW CONCRETE, !- Outside Layer
C14 - 4 IN LW CONCRETE, !- Layer #2
C18 - 1.25 IN LIGHT WEIGHT CONCRETE, !- Layer #3
B6 - 2 IN DENSE INSULATION, !- Layer #4
C18 - 1.25 IN LIGHT WEIGHT CONCRETE, !- Layer #5
FINISH FLOORING - TILE 1 / 16 IN; !- Layer #6
CONSTRUCTION,
CATI, !- Name
B6 - 2 IN DENSE INSULATION, !- Outside Layer
C13 - 6 IN HW CONCRETE, !- Layer #2
E10 - 1 IN GYP PLASTER SAND AGG; !- Layer #3
CONSTRUCTION,
ARA KAT TAVAN, !- Name
FINISH FLOORING - TILE 1 / 16 IN, !- Outside
Layer
C13 - 6 IN HW CONCRETE, !- Layer #2
E10 - 1 IN GYP PLASTER SAND AGG; !- Layer #3
CONSTRUCTION,
ARA KAT DOSEME, !- Name
E10 - 1 IN GYP PLASTER SAND AGG, !- Outside Layer
C13 - 6 IN HW CONCRETE, !- Layer #2
FINISH FLOORING - TILE 1 / 16 IN; !- Layer #3
CONSTRUCTION,
DUVAR2, !- Name
E10 - 1 IN GYP PLASTER SAND AGG, !- Outside Layer
BRICK - COMMON 8 IN, !- Layer #2
E10 - 1 IN GYP PLASTER SAND AGG; !- Layer #3
CONSTRUCTION,
WIN-CON-SINGLEPANE, !- Name
GLASS - CLEAR PLATE 1 / 4 IN; !- Outside Layer
CONSTRUCTION,
WIN-CON-SINGLEPANE WITH EXTERIOR BLIND, !- Name
BLIND WITH LOW REFLECTIVITY SLATS, !- Outside
Layer
GLASS - CLEAR PLATE 1 / 4 IN; !- Layer #2
!- =========== ALL OBJECTS IN CLASS: ZONE
===========
ZONE,
ofis-zone1, !- Zone Name
0, !- Relative North (to
building) {deg}
0, !- X Origin {m}
0, !- Y Origin {m}
0, !- Z Origin {m}
1, !- Type
1, !- Multiplier
0, !- Ceiling Height {m}
0; !- Volume {m3}
!- =========== ALL OBJECTS IN CLASS:
SURFACEGEOMETRY ===========
SurfaceGeometry,
LowerLeftCorner, !-
SurfaceStartingPosition
CW, !- VertexEntry
WorldCoordinateSystem; !- CoordinateSystem
!- =========== ALL OBJECTS IN CLASS:
SURFACE:HEATTRANSFER ===========
Surface:HeatTransfer,
ARKA DUVAR, !- User Supplied Surface
Name
WALL, !- Surface Type
DUVAR2, !- Construction Name of
the Surface
ofis-zone1, !- InsideFaceEnvironment
OtherZoneSurface, !- OutsideFaceEnvironment
ARKA DUVAR, !- OutsideFaceEnvironment
Object
NoSun, !- Sun Exposure
NoWind, !- Wind Exposure
0.5, !- View Factor to Ground
4, !- Number of Surface
Vertex Groups -- Number of (X,Y,Z) groups in this
surface
4.56, !- Vertex 1 X-coordinate
{m}
5.05, !- Vertex 1 Y-coordinate
{m}
0, !- Vertex 1 Z-coordinate
{m}
4.56, !- Vertex 2 X-coordinate
{m}
5.05, !- Vertex 2 Y-coordinate
{m}
4.05, !- Vertex 2 Z-coordinate
{m}
0, !- Vertex 3 X-coordinate
{m}
5.05, !- Vertex 3 Y-coordinate
{m}
4.05, !- Vertex 3 Z-coordinate
{m}
0, !- Vertex 4 X-coordinate
{m}
5.05, !- Vertex 4 Y-coordinate
{m}
0; !- Vertex 4 Z-coordinate
{m}
Surface:HeatTransfer,
SOL YAN DUVAR, !- User Supplied Surface
Name
WALL, !- Surface Type
DUVAR2, !- Construction Name of
the Surface
ofis-zone1, !- InsideFaceEnvironment
OtherZoneSurface, !- OutsideFaceEnvironment
SOL YAN DUVAR, !- OutsideFaceEnvironment
Object
NoSun, !- Sun Exposure
NoWind, !- Wind Exposure
0.5, !- View Factor to Ground
4, !- Number of Surface
Vertex Groups -- Number of (X,Y,Z) groups in this
surface
0, !- Vertex 1 X-coordinate
{m}
5.05, !- Vertex 1 Y-coordinate
{m}
0, !- Vertex 1 Z-coordinate
{m}
0, !- Vertex 2 X-coordinate
{m}
5.05, !- Vertex 2 Y-coordinate
{m}
4.05, !- Vertex 2 Z-coordinate
{m}
0, !- Vertex 3 X-coordinate
{m}
0, !- Vertex 3 Y-coordinate
{m}
4.05, !- Vertex 3 Z-coordinate
{m}
0, !- Vertex 4 X-coordinate
{m}
0, !- Vertex 4 Y-coordinate
{m}
0; !- Vertex 4 Z-coordinate
{m}
Surface:HeatTransfer,
SAG YAN DUVAR, !- User Supplied Surface
Name
WALL, !- Surface Type
DUVAR2, !- Construction Name of
the Surface
ofis-zone1, !- InsideFaceEnvironment
OtherZoneSurface, !- OutsideFaceEnvironment
SAG YAN DUVAR, !- OutsideFaceEnvironment
Object
NoSun, !- Sun Exposure
NoWind, !- Wind Exposure
0.5, !- View Factor to Ground
4, !- Number of Surface
Vertex Groups -- Number of (X,Y,Z) groups in this
surface
4.56, !- Vertex 1 X-coordinate
{m}
0, !- Vertex 1 Y-coordinate
{m}
0, !- Vertex 1 Z-coordinate
{m}
4.56, !- Vertex 2 X-coordinate
{m}
0, !- Vertex 2 Y-coordinate
{m}
4.05, !- Vertex 2 Z-coordinate
{m}
4.56, !- Vertex 3 X-coordinate
{m}
5.05, !- Vertex 3 Y-coordinate
{m}
4.05, !- Vertex 3 Z-coordinate
{m}
4.56, !- Vertex 4 X-coordinate
{m}
5.05, !- Vertex 4 Y-coordinate
{m}
0; !- Vertex 4 Z-coordinate
{m}
Surface:HeatTransfer,
ON DUVAR, !- User Supplied Surface
Name
WALL, !- Surface Type
DUVAR, !- Construction Name of
the Surface
ofis-zone1, !- InsideFaceEnvironment
ExteriorEnvironment, !- OutsideFaceEnvironment
ON DUVAR DIS YUZEY, !- OutsideFaceEnvironment
Object
SunExposed, !- Sun Exposure
WindExposed, !- Wind Exposure
0.5, !- View Factor to Ground
4, !- Number of Surface
Vertex Groups -- Number of (X,Y,Z) groups in this
surface
0, !- Vertex 1 X-coordinate
{m}
0, !- Vertex 1 Y-coordinate
{m}
0, !- Vertex 1 Z-coordinate
{m}
0, !- Vertex 2 X-coordinate
{m}
0, !- Vertex 2 Y-coordinate
{m}
4.05, !- Vertex 2 Z-coordinate
{m}
4.56, !- Vertex 3 X-coordinate
{m}
0, !- Vertex 3 Y-coordinate
{m}
4.05, !- Vertex 3 Z-coordinate
{m}
4.56, !- Vertex 4 X-coordinate
{m}
0, !- Vertex 4 Y-coordinate
{m}
0; !- Vertex 4 Z-coordinate
{m}
Surface:HeatTransfer,
DOSEME, !- User Supplied Surface
Name
FLOOR, !- Surface Type
ARA KAT DOSEME, !- Construction Name of
the Surface
ofis-zone1, !- InsideFaceEnvironment
OtherZoneSurface, !- OutsideFaceEnvironment
DOSEME, !- OutsideFaceEnvironment
Object
NoSun, !- Sun Exposure
NoWind, !- Wind Exposure
1, !- View Factor to Ground
4, !- Number of Surface
Vertex Groups -- Number of (X,Y,Z) groups in this
surface
0, !- Vertex 1 X-coordinate
{m}
5.05, !- Vertex 1 Y-coordinate
{m}
0.0, !- Vertex 1 Z-coordinate
{m}
0.000000, !- Vertex 2 X-coordinate
{m}
0, !- Vertex 2 Y-coordinate
{m}
0.0, !- Vertex 2 Z-coordinate
{m}
4.56, !- Vertex 3 X-coordinate
{m}
0, !- Vertex 3 Y-coordinate
{m}
0.0, !- Vertex 3 Z-coordinate
{m}
4.56, !- Vertex 4 X-coordinate
{m}
5.05, !- Vertex 4 Y-coordinate
{m}
0.0; !- Vertex 4 Z-coordinate
{m}
Surface:HeatTransfer,
TAVAN, !- User Supplied Surface
Name
CEILING, !- Surface Type
ARA KAT TAVAN, !- Construction Name of
the Surface
ofis-zone1, !- InsideFaceEnvironment
OtherZoneSurface, !- OutsideFaceEnvironment
TAVAN, !- OutsideFaceEnvironment
Object
NoSun, !- Sun Exposure
NoWind, !- Wind Exposure
0, !- View Factor to Ground
4, !- Number of Surface
Vertex Groups -- Number of (X,Y,Z) groups in this
surface
0.000000, !- Vertex 1 X-coordinate
{m}
0, !- Vertex 1 Y-coordinate
{m}
4.05, !- Vertex 1 Z-coordinate
{m}
0.000000, !- Vertex 2 X-coordinate
{m}
5.05, !- Vertex 2 Y-coordinate
{m}
4.05, !- Vertex 2 Z-coordinate
{m}
4.56, !- Vertex 3 X-coordinate
{m}
5.05, !- Vertex 3 Y-coordinate
{m}
4.05, !- Vertex 3 Z-coordinate
{m}
4.56, !- Vertex 4 X-coordinate
{m}
0, !- Vertex 4 Y-coordinate
{m}
4.05; !- Vertex 4 Z-coordinate
{m}
!- =========== ALL OBJECTS IN CLASS:
SURFACE:HEATTRANSFER:SUB ===========
Surface:HeatTransfer:Sub,
Zn001:Arkaduvar-pencere, !- User Supplied Surface
Name
WINDOW, !- Surface Type
WIN-CON-SINGLEPANE, !- Construction Name of
the Surface
ARKA DUVAR, !- Base Surface Name
, !- OutsideFaceEnvironment
Object
0.5, !- View Factor to Ground
, !- Name of shading
control
, !- WindowFrameAndDivider
Name
1, !- Multiplier
4, !- Number of Surface
Vertex Groups -- Number of (X,Y,Z) groups in this
surface
4.32999, !- Vertex 1 X-coordinate
{m}
5.05, !- Vertex 1 Y-coordinate
{m}
2.175, !- Vertex 1 Z-coordinate
{m}
4.32999, !- Vertex 2 X-coordinate
{m}
5.05, !- Vertex 2 Y-coordinate
{m}
2.675, !- Vertex 2 Z-coordinate
{m}
0.23001, !- Vertex 3 X-coordinate
{m}
5.05, !- Vertex 3 Y-coordinate
{m}
2.675, !- Vertex 3 Z-coordinate
{m}
0.23001, !- Vertex 4 X-coordinate
{m}
5.05, !- Vertex 4 Y-coordinate
{m}
2.175; !- Vertex 4 Z-coordinate
{m}
Surface:HeatTransfer:Sub,
Zn001:Onduvarpencere, !- User Supplied Surface
Name
WINDOW, !- Surface Type
WIN-CON-SINGLEPANE, !- Construction Name of
the Surface
ON DUVAR, !- Base Surface Name
, !- OutsideFaceEnvironment
Object
0.5000000, !- View Factor to Ground
INCIDENT SOLAR ON BLIND, !- Name of shading
control
, !- WindowFrameAndDivider
Name
1.0, !- Multiplier
4, !- Number of Surface
Vertex Groups -- Number of (X,Y,Z) groups in this
surface
0.23001, !- Vertex 1 X-coordinate
{m}
0, !- Vertex 1 Y-coordinate
{m}
1.655, !- Vertex 1 Z-coordinate
{m}
0.23001, !- Vertex 2 X-coordinate
{m}
0, !- Vertex 2 Y-coordinate
{m}
3.465, !- Vertex 2 Z-coordinate
{m}
4.32999, !- Vertex 3 X-coordinate
{m}
0, !- Vertex 3 Y-coordinate
{m}
3.465, !- Vertex 3 Z-coordinate
{m}
4.32999, !- Vertex 4 X-coordinate
{m}
0, !- Vertex 4 Y-coordinate
{m}
1.655; !- Vertex 4 Z-coordinate
{m}
!- =========== ALL OBJECTS IN CLASS:
WINDOWSHADINGCONTROL ===========
WindowShadingControl,
INCIDENT SOLAR ON BLIND, !- User Supplied Shading
Control Name
ExteriorBlind, !- Shading Type
WIN-CON-SINGLEPANE WITH EXTERIOR BLIND, !- Name
of construction with shading
AlwaysOn, !- Shading Control Type
ShadeTransSch, !- Schedule Name
20, !- SetPoint {W/m2, W or
deg C}
Yes, !- Shading Control Is
Scheduled
NO, !- Glare Control Is
Active
, !- Material Name of
Shading Device
ScheduledSlatAngle, !- Type of Slat Angle
Control for Blinds
90; !- Slat Angle Schedule
Name
!- =========== ALL OBJECTS IN CLASS: SCHEDULETYPE
===========
ScheduleType,
Control Type, !- ScheduleType Name
0:4, !- range
DISCRETE; !- Numeric Type
ScheduleType,
On/Off, !- ScheduleType Name
0:1, !- range
DISCRETE; !- Numeric Type
ScheduleType,
FlowRate, !- ScheduleType Name
0.0:10, !- range
CONTINUOUS; !- Numeric Type
ScheduleType,
Any Number; !- ScheduleType Name
ScheduleType,
Fraction, !- ScheduleType Name
0.0 : 1.0, !- range
CONTINUOUS; !- Numeric Type
ScheduleType,
Temperature, !- ScheduleType Name
-60:200, !- range
CONTINUOUS; !- Numeric Type
ScheduleType,
Real, !- ScheduleType Name
, !- range
CONTINUOUS; !- Numeric Type
!- =========== ALL OBJECTS IN CLASS:
SCHEDULE:COMPACT ===========
SCHEDULE:COMPACT,
ShadeTransSch, !- Name
Fraction, !- ScheduleType
Through: 12/31, !- Complex Field #1
For: AllDays, !- Complex Field #2
Until: 24:00, !- Complex Field #3
0.0; !- Complex Field #4
SCHEDULE:COMPACT,
WindowVentSched, !- Name
Any Number, !- ScheduleType
Through: 3/31, !- Complex Field #1
For: AllDays, !- Complex Field #2
Until: 24:00, !- Complex Field #3
25.55, !- Complex Field #4
Through: 9/30, !- Complex Field #5
For: AllDays, !- Complex Field #6
Until: 24:00, !- Complex Field #7
21.11, !- Complex Field #8
Through: 12/31, !- Complex Field #9
For: AllDays, !- Complex Field #10
Until: 24:00, !- Complex Field #11
25.55; !- Complex Field #12
SCHEDULE:COMPACT,
OFF, !- Name
Fraction, !- ScheduleType
Through: 12/31, !- Complex Field #1
For: AllDays, !- Complex Field #2
Until: 24:00, !- Complex Field #3
0.0; !- Complex Field #4
SCHEDULE:COMPACT,
ON, !- Name
Fraction, !- ScheduleType
Through: 12/31, !- Complex Field #1
For: AllDays, !- Complex Field #2
Until: 24:00, !- Complex Field #3
1; !- Complex Field #4
SCHEDULE:COMPACT,
ShadingTransmittance:0001, !- Name
Fraction, !- ScheduleType
Through: 12/31, !- Complex Field #1
For: AllDays, !- Complex Field #2
Until: 24:00, !- Complex Field #3
0.0; !- Complex Field #4
SCHEDULE:COMPACT,
ShadingTransmittance:0002, !- Name
Fraction, !- ScheduleType
Through: 12/31, !- Complex Field #1
For: AllDays, !- Complex Field #2
Until: 24:00, !- Complex Field #3
0.2; !- Complex Field #4
!- =========== ALL OBJECTS IN CLASS: LIGHTS
===========
LIGHTS,
ofis-isik 1, !- Name
ofis-zone1, !- Zone Name
ON, !- SCHEDULE Name
5000, !- Design Level {W}
, !- Return Air Fraction
0.5, !- Fraction Radiant
, !- Fraction Visible
; !- Fraction Replaceable
!- =========== ALL OBJECTS IN CLASS: ELECTRIC
EQUIPMENT ===========
ELECTRIC EQUIPMENT,
ofis- ElecEq 1, !- Name
ofis-zone1, !- Zone Name
ON, !- SCHEDULE Name
3000, !- Design Level {W}
0.0, !- Fraction Latent
0.0, !- Fraction Radiant
0.0; !- Fraction Lost
!- =========== ALL OBJECTS IN CLASS: AIRFLOWNETWORK
SIMULATION ===========
AIRFLOWNETWORK SIMULATION,
HAVALANDIRMA, !- AirflowNetwork
Simulation Name
MULTIZONE WITHOUT DISTRIBUTION, !- AirflowNetwork
Control
INPUT, !- Wind Pressure
Coefficient Type
basinc-array-ön, !- AirflowNetwork Wind
Pressure Coefficient Array Name
, !- Building Type
500, !- Maximum number of
iterations {dimensionless}
Zero Node Pressures, !- Initialization Type
1, !- Relative airflow
convergence tolerance {dimensionless}
1, !- Absolute airflow
convergence tolerance {kg/s}
-.5, !- Convergence
acceleration limit {dimensionless}
10.0, !- Reference height for
recorded wind data {m}
0.14, !- Wind velocity profile
exponent {dimensionless}
0, !- Azimuth Angle of Long
Axis of Building {deg}
; !- Ratio of Building
Width Along Short Axis to Width Along Long Axis
!- =========== ALL OBJECTS IN CLASS:
AIRFLOWNETWORK:MULTIZONE:ZONE ===========
AIRFLOWNETWORK:MULTIZONE:ZONE,
ofis-zone1, !- Name of Associated
Thermal Zone
TEMPERATURE, !- Ventilation Control
Mode
WindowVentSched, !- Vent Temperature
Schedule Name
0.3, !- Limit Value on
Multiplier for Modulating Venting Open Factor
{dimensionless}
5, !- Lower Value on
Inside/Outside Temperature Difference for Modulating
the Venting Open Factor {deltaC}
100.0, !- Upper Value on
Inside/Outside Temperature Difference for Modulating
the Venting Open Factor {deltaC}
0.0, !- Lower Value on
Inside/Outside Enthalpy Difference for Modulating the
Venting Open Factor {J/kg}
300000.0; !- Upper Value on
Inside/Outside Enthalpy Difference for Modulating the
Venting Open Factor {J/kg}
!- =========== ALL OBJECTS IN CLASS:
AIRFLOWNETWORK:MULTIZONE:SURFACE ===========
AIRFLOWNETWORK:MULTIZONE:SURFACE,
Zn001:Arkaduvar-pencere, !- Name of Associated
Heat Transfer Surface
simple2, !- Leakage Component Name
NoExt2, !- External Node Name
1.0; !- Window/Door Opening
Factor, or Crack Factor {dimensionless}
AIRFLOWNETWORK:MULTIZONE:SURFACE,
Zn001:Onduvarpencere, !- Name of Associated
Heat Transfer Surface
simple, !- Leakage Component Name
NoExt1, !- External Node Name
1.0; !- Window/Door Opening
Factor, or Crack Factor {dimensionless}
!- =========== ALL OBJECTS IN CLASS:
AIRFLOWNETWORK:MULTIZONE:COMPONENT SIMPLE OPENING
===========
AIRFLOWNETWORK:MULTIZONE:COMPONENT SIMPLE OPENING,
simple, !- Simple Opening Name
1, !- Air Mass Flow
Coefficient When Opening is Closed {kg/s-m}
1, !- Air Mass Flow Exponent
When Opening is Closed {dimensionless}
0.1, !- Minimum density
difference for two-way flow {kg/m3}
0.88; !- Discharge coefficient
{dimensionless}
AIRFLOWNETWORK:MULTIZONE:COMPONENT SIMPLE OPENING,
simple2, !- Simple Opening Name
1, !- Air Mass Flow
Coefficient When Opening is Closed {kg/s-m}
1, !- Air Mass Flow Exponent
When Opening is Closed {dimensionless}
0.1, !- Minimum density
difference for two-way flow {kg/m3}
0.65; !- Discharge coefficient
{dimensionless}
!- =========== ALL OBJECTS IN CLASS:
AIRFLOWNETWORK:MULTIZONE:SITE WIND CONDITIONS
===========
AIRFLOWNETWORK:MULTIZONE:SITE WIND CONDITIONS,
180, !- Wind Direction {deg}
0.18; !- Exponent of Wind
Velocity Profile {dimensionless}
!- =========== ALL OBJECTS IN CLASS:
AIRFLOWNETWORK:MULTIZONE:EXTERNAL NODE ===========
AIRFLOWNETWORK:MULTIZONE:EXTERNAL NODE,
NoExt1, !- Name of External Node
1.524; !- External Node Height
{m}
AIRFLOWNETWORK:MULTIZONE:EXTERNAL NODE,
NoExt2, !- Name of External Node
1.524; !- External Node Height
{m}
!- =========== ALL OBJECTS IN CLASS:
AIRFLOWNETWORK:MULTIZONE:WIND PRESSURE COEFFICIENT
ARRAY ===========
AIRFLOWNETWORK:MULTIZONE:WIND PRESSURE COEFFICIENT
ARRAY,
basinc-array-ön, !- WPC Array Name
10, !- Reference Height for
WPC Data {m}
180, !- Wind Direction #1
{deg}
180, !- Wind Direction #2
{deg}
180, !- Wind Direction #3
{deg}
180, !- Wind Direction #4
{deg}
180, !- Wind Direction #5
{deg}
180, !- Wind Direction #6
{deg}
180, !- Wind Direction #7
{deg}
180, !- Wind Direction #8
{deg}
180, !- Wind Direction #9
{deg}
180, !- Wind Direction #10
{deg}
180, !- Wind Direction #11
{deg}
180, !- Wind Direction #12
{deg}
180, !- Wind Direction #13
{deg}
180, !- Wind Direction #14
{deg}
180; !- Wind Direction #15
{deg}
!- =========== ALL OBJECTS IN CLASS:
AIRFLOWNETWORK:MULTIZONE:WIND PRESSURE COEFFICIENT
VALUES ===========
AIRFLOWNETWORK:MULTIZONE:WIND PRESSURE COEFFICIENT
VALUES,
basinc-array-ön, !- AirflowNetwork WPC
Array Name
NoExt1, !- External Node Name
0.936, !- WPC Value #1
{dimensionless}
0.888, !- WPC Value #2
{dimensionless}
0.984, !- WPC Value #3
{dimensionless}
0.911, !- WPC Value #4
{dimensionless}
0.619, !- WPC Value #5
{dimensionless}
0.671, !- WPC Value #6
{dimensionless}
0.943, !- WPC Value #7
{dimensionless}
0.935, !- WPC Value #8
{dimensionless}
0.953, !- WPC Value #9
{dimensionless}
0.904, !- WPC Value #10
{dimensionless}
0.903, !- WPC Value #11
{dimensionless}
0.781, !- WPC Value #12
{dimensionless}
0.658, !- WPC Value #13
{dimensionless}
0.297, !- WPC Value #14
{dimensionless}
-.613; !- WPC Value #15
{dimensionless}
AIRFLOWNETWORK:MULTIZONE:WIND PRESSURE COEFFICIENT
VALUES,
basinc-array-ön, !- AirflowNetwork WPC
Array Name
NoExt2, !- External Node Name
-.655, !- WPC Value #1
{dimensionless}
-.608, !- WPC Value #2
{dimensionless}
-.62, !- WPC Value #3
{dimensionless}
-.553, !- WPC Value #4
{dimensionless}
-.653, !- WPC Value #5
{dimensionless}
-.651, !- WPC Value #6
{dimensionless}
-.673, !- WPC Value #7
{dimensionless}
-.669, !- WPC Value #8
{dimensionless}
-.675, !- WPC Value #9
{dimensionless}
-.645, !- WPC Value #10
{dimensionless}
-.651, !- WPC Value #11
{dimensionless}
-.584, !- WPC Value #12
{dimensionless}
-.506, !- WPC Value #13
{dimensionless}
-.585, !- WPC Value #14
{dimensionless}
-.557; !- WPC Value #15
{dimensionless}
!- =========== ALL OBJECTS IN CLASS: REPORT
VARIABLE ===========
Report Variable,
*, !- Key_Value
Wind Speed, !- Variable_Name
timestep; !- Reporting_Frequency
Report Variable,
*, !- Key_Value
Wind Direction, !- Variable_Name
timestep; !- Reporting_Frequency
Report Variable,
*, !- Key_Value
Zone Mean Air Temperature, !- Variable_Name
timestep; !- Reporting_Frequency
Report Variable,
*, !- Key_Value
Outdoor Dry Bulb, !- Variable_Name
timestep; !- Reporting_Frequency
Report Variable,
*, !- Key_Value
Window Blind Slat Angle, !- Variable_Name
timestep; !- Reporting_Frequency
Report Variable,
*, !- Key_Value
AirflowNetwork Volume Flow Rate from Node 1 to 2,
!- Variable_Name
timestep; !- Reporting_Frequency
Report Variable,
*, !- Key_Value
Surface Inside Temperature, !- Variable_Name
daily; !- Reporting_Frequency
Report Variable,
*, !- Key_Value
Surface Outside Temperature, !- Variable_Name
daily; !- Reporting_Frequency
Report Variable,
*, !- Key_Value
Direct Solar, !- Variable_Name
Hourly; !- Reporting_Frequency
Report Variable,
*, !- Key_Value
Diffuse Solar, !- Variable_Name
Hourly; !- Reporting_Frequency
!- =========== ALL OBJECTS IN CLASS: REPORT
===========
Report,
Variable Dictionary, !- Type_of_Report
VRML; !- Name_of_Report
Report,
surfaces, !- Type_of_Report
dxf; !- Name_of_Report
Report,
construction; !- Type_of_Report
--- "Michael J. Witte" <mjwitte@xxxxxxxx> wrote:
> 1-5. I would suggest studying the
> airflownetwork:multizone example files and
> reading the Engineering Document description of the
> models. The relevant
> example files are AirflowNetwork3zVent,
> AirflowNetwork3zVentAutoWPC, and
> CrossVent_1Zone_AirflowNetwork. I am not an expert
> in airflow modeling, and I
> am not sure how to find the relevant coefficients
> for various window openings.
> 6. No, you do not need a mechanical system.
> EnergyPlus can calculate the
> temperatures in unconditioned zones. See example
> file 1ZoneUncontrolled.
>
> 7. That is not completely true. In the BUILDING
> object, is you use one of the
> FullInterior solar distribution options, then
> EnergyPlus will project direct
> sunlight through windows onto the appropriate
> interior surface and compute the
> temperatures accordingly. But EnergyPlus does not
> alter the window properties
> when a window is open vs. closed. The solar gains
> are as thought the window is
> always closed. You say the window is always open
> for your simulation. In that
> case, defined the window with a single pane of glass
> with near-zero reflectance
> and near-perfect transmittance (0.9999).
>
> 8. There are many REPORT VARIABLES related to
> incident solar. Add "report,
> variable dictionary, IDF;" to your input, run a
> simulation, and review the RDD
> output file for available report variables.
>
> Mike
>
>
> On 3 Jan 2008 at 12:39, neslihanturkmenoglu wrote:
>
> > hi
> >
> > I am simulating a cross ventilated zone having an
> always open window
> > with shading device on the front and another
> opening always open at
> > the back wall.I want to get interior surface
> temperature changes
> > according to shading device changes(concerning
> shading device effects
> > on airflow and solar radiation penetration to zone
> ).
> >
> > I know that program doesn't consider shading
> devices when modelling
> > airflows so I thought that if I calculate interior
> surface convection
> > coefficients with measured velocity coefficients
> and discharge
> > coefficients with air mass flow for front
> opening for all
> > situations of shading device alternatives and
> measured front and back
> > outside surface pressure coefficients, shading
> devices effects on
> > airflow would be considered.My questios are:
> >
> > 1- Which variables above should be entered as
> input to program? or
> > the program already calculates some of them?Ýs my
> discharge,
> > calculated with Q and pressure differences, same
> with the discharge
> > wanted in airflow network- simple or detailed
> opening object?Which
> > expression does EP use for calculating surface
> convection
> > coefficients?
> >
> > 2-To fill the air mass flow coefficient object in
> opening
> > definition, How will I find out n(airflow
> exponent) and CT =
> > reference condition temperature correction factor
> (dimensionless).
> >
> > 3-For this simulation will I use UCSD (Cross
> Ventilation ) room air
> > models or airflow network or both of them?
> > 4-Should I enter to program, the measured airflow
> velocities in wind
> > tunnel effecting my model,where?
> >
> > 4-Should I put nodes ? Where should I put nodes?
> >
> > 5-Do I need to use any schedules for airflow and
> solar radiation
> > simulation.
> >
> > 6-Natural ventilation effect the zone. There is no
> mechanical system,
> > no occupation, no lighting,etc.
> > Do I need to define any mechanical system to run
> the program?
> >
> >
> > 7-As I understand program is not able to give
> interior surface
> > temperatures of shaded and unshaded surfaces when
> solar radiation
> > enters through open window. Is it possible to
> define, for example-
> > west interior wall as east outside wall and get
> interior surface
> > temperature or is there another way to consider
> solar radiation on
> > interior surfaces( I found the shaded anad unshade
> areas of interior
> > surfaces).If it is possible, will I first run the
> program with
> > airflow network simulation and get interior
> surface and interior mean
> > air temperature after that run the program for
> solar radiation
> > effects on surfaces(by defining cross walls as
> exterior walls) and
> > get surface temperatures and interior mean air
> temperature? and so
> > how will I find the the combined effect of shading
> devices on
> > interior surface and air temperatures according to
> airflow and solar
> > radiation penetration to interior?
> >
> > 8-How will I get the solar radiation intensities
> effecting ground or
> > side walls?
> >
> > I am not an engineer and it is most of time hard
> to understand
> > manuels. Thank you very much for your help.
> > Happy new year to all:)
> >
> >
> >
> > The primary EnergyPlus web site is found at:
> > http://www.energyplus.gov
> >
> > The group web site is:
> > http://groups.yahoo.com/group/EnergyPlus_Support/
> >
> > Attachments are not allowed -- please post any
> files to the appropriate folder
> > in the Files area of the Support Web Site.
> >
> > EnergyPlus Documentation is searchable. Open
> EPlusMainMenu.pdf under the
> > Documentation link and press the "search" button.
> >
> > Yahoo! Groups Links
> >
> >
> >
> >
> >
>
>
>
========================================================
> Michael J. Witte, GARD Analytics, Inc.
> EnergyPlus Testing and Support
> EnergyPlus-Support@xxxxxxxx
>
>
>
>
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