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Re: [EnergyPlus_Support] combined effect of shading devices on interior temperatures



Neslihan:

Please upload the input file. I am going to take a look.

Lixing
----- Original Message ----- 
From: "neslihan turkmenoglu" <neslihanturkmenoglu@xxxxxxxxx>
To: <EnergyPlus_Support@xxxxxxxxxxxxxxx>
Sent: Friday, January 04, 2008 7:36 PM
Subject: 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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> know-it-all with Yahoo! Mobile.  Try it now. 
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>
>
>
> 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
>
>
>
> 



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.
 
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