Buildings.BoundaryConditions.SolarIrradiation.BaseClasses

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Buildings.BoundaryConditions.SolarIrradiation.BaseClasses

Package with base classes for Buildings.BoundaryConditions.SolarIrradiation

Information

This package contains base classes that are used to construct the models in Buildings.BoundaryConditions.SolarIrradiation.

Extends from Modelica.Icons.BasesPackage (Icon for packages containing base classes).

Package Content

Name Description

BrighteningCoefficient Circumsolar and horizon brightening coefficients

DiffuseIsotropic Diffuse solar irradiation on a tilted surface with an isotropic model

DiffusePerez Hemispherical diffuse irradiation on a tilted surface with Perez's anisotropic model

DirectTiltedSurface Direct solar irradiation on a tilted surface

RelativeAirMass Relative air mass

SkyBrightness Sky brightness

SkyClearness Sky clearness

PartialSolarIrradiation Partial model that is used to compute the direct and diffuse solar irradiation

Examples Collection of models that illustrate model use and test models

Name	Description
BrighteningCoefficient	Circumsolar and horizon brightening coefficients
DiffuseIsotropic	Diffuse solar irradiation on a tilted surface with an isotropic model
DiffusePerez	Hemispherical diffuse irradiation on a tilted surface with Perez's anisotropic model
DirectTiltedSurface	Direct solar irradiation on a tilted surface
RelativeAirMass	Relative air mass
SkyBrightness	Sky brightness
SkyClearness	Sky clearness
PartialSolarIrradiation	Partial model that is used to compute the direct and diffuse solar irradiation
Examples	Collection of models that illustrate model use and test models

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.BrighteningCoefficient

Circumsolar and horizon brightening coefficients

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.BrighteningCoefficient

Information

This component computes the circumsolar and horizon brightening coefficients.

Extends from Modelica.Blocks.Interfaces.BlockIcon (Basic graphical layout of input/output block).

Connectors

Type Name Description

input RealInput zen Zenith angle of the sun beam [rad]

input RealInput skyCle Sky clearness. skyCle=1: overcast sky; skyCle=8 clear sky

input RealInput skyBri Sky brightness [0,1]

output RealOutput F1 Circumsolar brightening coefficient

output RealOutput F2 Horizon brightening coefficient

Type	Name	Description
input RealInput	zen	Zenith angle of the sun beam [rad]
input RealInput	skyCle	Sky clearness. skyCle=1: overcast sky; skyCle=8 clear sky
input RealInput	skyBri	Sky brightness [0,1]
output RealOutput	F1	Circumsolar brightening coefficient
output RealOutput	F2	Horizon brightening coefficient

Modelica definition

block BrighteningCoefficient 
  "Circumsolar and horizon brightening coefficients"
  extends Modelica.Blocks.Interfaces.BlockIcon;
  import H = Buildings.Utilities.Math.Functions.spliceFunction;
public 
  Modelica.Blocks.Interfaces.RealInput zen(
    quantity="Angle",
    unit="rad",
    displayUnit="degree") "Zenith angle of the sun beam";
  Modelica.Blocks.Interfaces.RealInput skyCle 
    "Sky clearness. skyCle=1: overcast sky; skyCle=8 clear sky";
  Modelica.Blocks.Interfaces.RealInput skyBri "Sky brightness [0,1]";
  Modelica.Blocks.Interfaces.RealOutput F1 
    "Circumsolar brightening coefficient";
  Modelica.Blocks.Interfaces.RealOutput F2 "Horizon brightening coefficient";
protected 
  Real F11;
  Real F12;
  Real F13;
  Real F21;
  Real F22;
  Real F23;
  Real d=0.01;
  Real a1;
  Real a2;
  Real a3;
  Real a4;
  Real a5;
  Real a6;
  Real a7;
  Real a8;
  Real b1;
  Real b2;
  Real b3;
  Real b4;
  Real b5;
  Real b6;
  Real b7;
  Real b8;
equation 
  b1 = H(
    1,
    0,
    1.065 - skyCle,
    d);
  b2 = H(
    1,
    0,
    1.23 - skyCle,
    d);
  b3 = H(
    1,
    0,
    1.50 - skyCle,
    d);
  b4 = H(
    1,
    0,
    1.95 - skyCle,
    d);
  b5 = H(
    1,
    0,
    2.80 - skyCle,
    d);

  b6 = H(
    1,
    0,
    4.50 - skyCle,
    d);
  b7 = H(
    1,
    0,
    6.20 - skyCle,
    d);
  b8 = H(
    1,
    0,
    skyCle - 6.20,
    d);

  a1 = b1;
  a2 = b2 - b1;
  a3 = b3 - b2;
  a4 = b4 - b3;
  a5 = b5 - b4;
  a6 = b6 - b5;
  a7 = b7 - b6;
  a8 = b8;

  F11 = -0.0083117*a1 + 0.1299457*a2 + 0.3296958*a3 + 0.5682053*a4 + 0.8730280*
    a5 + 1.1326077*a6 + 1.0601591*a7 + 0.6777470*a8;
  F12 = 0.5877285*a1 + 0.6825954*a2 + 0.4868735*a3 + 0.1874525*a4 - 0.3920403*
    a5 - 1.2367284*a6 - 1.5999137*a7 - 0.3272588*a8;
  F13 = -0.0620636*a1 - 0.1513725*a2 - 0.2210958*a3 - 0.2951290*a4 - 0.3616149*
    a5 - 0.4118494*a6 - 0.3589221*a7 - 0.2504286*a8;
  F21 = -0.0596012*a1 - 0.0189325*a2 + 0.0554140*a3 + 0.1088631*a4 + 0.2255647*
    a5 + 0.2877813*a6 + 0.2642124*a7 + 0.1561313*a8;
  F22 = 0.0721249*a1 + 0.0659650*a2 - 0.0639588*a3 - 0.1519229*a4 - 0.4620442*
    a5 - 0.8230357*a6 - 1.1272340*a7 - 1.3765031*a8;
  F23 = -0.0220216*a1 - 0.0288748*a2 - 0.0260542*a3 - 0.0139754*a4 + 0.0012448*
    a5 + 0.0558651*a6 + 0.1310694*a7 + 0.2506212*a8;
  F1 = Buildings.Utilities.Math.Functions.smoothMax(
    0,
    F11 + F12*skyBri + F13*zen,
    0.01);
  F2 = F21 + F22*skyBri + F23*zen;
end BrighteningCoefficient;

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.DiffuseIsotropic

Diffuse solar irradiation on a tilted surface with an isotropic model

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.DiffuseIsotropic

Information

This component computes the hemispherical diffuse irradiation on a tilted surface. The irradiation is composed of the diffuse horizontal solar irradiation and the irradiation that has been reflected by the ground. Both components are adjusted to take into account the tilt of the receiving surface.

References

P. Ineichen, R. Perez and R. Seals (1987). The Importance of Correct Albedo Determination for Adequately Modeling Energy Received by Tilted Surface, Solar Energy, 39(4): 301-305.

Extends from Modelica.Blocks.Interfaces.BlockIcon (Basic graphical layout of input/output block).

Parameters

Type Name Default Description

Real rho 0.2 Ground reflectance

Angle til Surface tilt angle [rad]

Type	Name	Default	Description
Real	rho	0.2	Ground reflectance
Angle	til		Surface tilt angle [rad]

Connectors

Type Name Description

input RealInput HDifHor Horizontal diffuse solar radiation [W/m2]

input RealInput HGloHor Horizontal global radiation [W/m2]

output RealOutput HDifTil Diffuse solar irradiation on a tilted surfce [W/m2]

Type	Name	Description
input RealInput	HDifHor	Horizontal diffuse solar radiation [W/m2]
input RealInput	HGloHor	Horizontal global radiation [W/m2]
output RealOutput	HDifTil	Diffuse solar irradiation on a tilted surfce [W/m2]

Modelica definition

block DiffuseIsotropic 
  "Diffuse solar irradiation on a tilted surface with an isotropic model"
  extends Modelica.Blocks.Interfaces.BlockIcon;
public 
  parameter Real rho=0.2 "Ground reflectance";
  parameter Modelica.SIunits.Angle til(displayUnit="deg") "Surface tilt angle";

  Modelica.Blocks.Interfaces.RealInput HDifHor(quantity=
        "RadiantEnergyFluenceRate", unit="W/m2") 
    "Horizontal diffuse solar radiation";
  Modelica.Blocks.Interfaces.RealInput HGloHor(quantity=
        "RadiantEnergyFluenceRate", unit="W/m2") "Horizontal global radiation";

  Modelica.Blocks.Interfaces.RealOutput HDifTil(final quantity=
        "RadiantEnergyFluenceRate", final unit="W/m2") 
    "Diffuse solar irradiation on a tilted surfce";
protected 
  Real til_c "Cosine of tilt angle";

equation 
  til_c = Modelica.Math.cos(til);
  HDifTil = 0.5*HDifHor*(1 + til_c) + 0.5*HGloHor*rho*(1 - til_c);
end DiffuseIsotropic;

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.DiffusePerez

Hemispherical diffuse irradiation on a tilted surface with Perez's anisotropic model

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.DiffusePerez

Information

This component computes the hemispherical diffuse irradiation on a tilted surface by using an anisotropic model proposed by Perez.

References

P. Ineichen, R. Perez and R. Seals (1987). The Importance of Correct Albedo Determination for Adequately Modeling Energy Received by Tilted Surface, Solar Energy, 39(4): 301-305.
R. Perez, R. Seals, P. Ineichen, R. Stewart and D. Menicucci (1987). A New Simplified Version of the Perez Diffuse Irradiance Model for Tilted Surface, Solar Energy, 39(3): 221-231.
R. Perez, P. Ineichen, R. Seals, J. Michalsky and R. Stewart (1990). Modeling Dyalight Availability and Irradiance Componets From Direct and Global Irradiance, Solar Energy, 44(5):271-289.

Extends from Modelica.Blocks.Interfaces.BlockIcon (Basic graphical layout of input/output block).

Parameters

Type Name Default Description

Real rho 0.2 Ground reflectance

Angle til Surface tilt angle [rad]

Type	Name	Default	Description
Real	rho	0.2	Ground reflectance
Angle	til		Surface tilt angle [rad]

Connectors

Type Name Description

input RealInput briCof1 Brightening Coeffcient F1

input RealInput briCof2 Brightening Coeffcient F2

input RealInput HDifHor Diffuse horizontal solar radiation [W/m2]

input RealInput HGloHor Global horizontal radiation [W/m2]

output RealOutput HDifTil Hemispherical diffuse solar irradiation on a tilted surfce [W/m2]

input RealInput zen Zenith angle of the sun beam [rad]

input RealInput incAng Solar incidence angle on the surface [rad]

Type	Name	Description
input RealInput	briCof1	Brightening Coeffcient F1
input RealInput	briCof2	Brightening Coeffcient F2
input RealInput	HDifHor	Diffuse horizontal solar radiation [W/m2]
input RealInput	HGloHor	Global horizontal radiation [W/m2]
output RealOutput	HDifTil	Hemispherical diffuse solar irradiation on a tilted surfce [W/m2]
input RealInput	zen	Zenith angle of the sun beam [rad]
input RealInput	incAng	Solar incidence angle on the surface [rad]

Modelica definition

block DiffusePerez 
  "Hemispherical diffuse irradiation on a tilted surface with Perez's anisotropic model"
  extends Modelica.Blocks.Interfaces.BlockIcon;
public 
  parameter Real rho=0.2 "Ground reflectance";
  parameter Modelica.SIunits.Angle til(displayUnit="deg") "Surface tilt angle";
  Modelica.Blocks.Interfaces.RealInput briCof1 "Brightening Coeffcient F1";
  Modelica.Blocks.Interfaces.RealInput briCof2 "Brightening Coeffcient F2";
  Modelica.Blocks.Interfaces.RealInput HDifHor(quantity=
        "RadiantEnergyFluenceRate", unit="W/m2") 
    "Diffuse horizontal solar radiation";
  Modelica.Blocks.Interfaces.RealInput HGloHor(quantity=
        "RadiantEnergyFluenceRate", unit="W/m2") "Global horizontal radiation";
  Modelica.Blocks.Interfaces.RealOutput HDifTil(final quantity=
        "RadiantEnergyFluenceRate", final unit="W/m2") 
    "Hemispherical diffuse solar irradiation on a tilted surfce";
  Modelica.Blocks.Interfaces.RealInput zen(
    quantity="Angle",
    unit="rad",
    displayUnit="degree") "Zenith angle of the sun beam";
  Modelica.Blocks.Interfaces.RealInput incAng(
    quantity="Angle",
    unit="rad",
    displayUnit="degree") "Solar incidence angle on the surface";
protected 
  Real a;
  Real b;
  constant Real bMin=Modelica.Math.cos(Modelica.Constants.pi*85/180) 
    "Lower bound for b";
equation 
  a = Buildings.Utilities.Math.Functions.smoothMax(
    0,
    Modelica.Math.cos(incAng),
    0.01);
  b = Buildings.Utilities.Math.Functions.smoothMax(
    bMin,
    Modelica.Math.cos(zen),
    0.01);
  HDifTil = HDifHor*(0.5*(1 - briCof1)*(1 + Modelica.Math.cos(til)) +
    briCof1*a/b + briCof2*Modelica.Math.sin(til)) + HGloHor*0.5*rho*(1 -
    Modelica.Math.cos(til));

end DiffusePerez;

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.DirectTiltedSurface

Direct solar irradiation on a tilted surface

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.DirectTiltedSurface

Information

This component computes the direct solar irradiation on a tilted surface.

Extends from Modelica.Blocks.Interfaces.BlockIcon (Basic graphical layout of input/output block).

Connectors

Type Name Description

input RealInput incAng Incidence angle of the sun beam on a tilted surface [rad]

input RealInput HDirNor Direct normal radiation [W/m2]

output RealOutput HDirTil Direct solar irradiation on a tilted surfce [W/m2]

Type	Name	Description
input RealInput	incAng	Incidence angle of the sun beam on a tilted surface [rad]
input RealInput	HDirNor	Direct normal radiation [W/m2]
output RealOutput	HDirTil	Direct solar irradiation on a tilted surfce [W/m2]

Modelica definition

block DirectTiltedSurface 
  "Direct solar irradiation on a tilted surface"
  extends Modelica.Blocks.Interfaces.BlockIcon;
  Modelica.Blocks.Interfaces.RealInput incAng(
    quantity="Angle",
    unit="rad",
    displayUnit="degree") "Incidence angle of the sun beam on a tilted surface";
  Modelica.Blocks.Interfaces.RealInput HDirNor(quantity=
        "RadiantEnergyFluenceRate", unit="W/m2") "Direct normal radiation";
  Modelica.Blocks.Interfaces.RealOutput HDirTil(final quantity=
        "RadiantEnergyFluenceRate", final unit="W/m2") 
    "Direct solar irradiation on a tilted surfce";

algorithm 
  HDirTil := max(0, Modelica.Math.cos(incAng)*HDirNor);
end DirectTiltedSurface;

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.RelativeAirMass

Relative air mass

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.RelativeAirMass

Information

This component computes the relative air mass for sky brightness.

References

R. Perez (1999). Fortran Function irrpz.f, Emailed by R. Perez to F.C. Winkelmann on May 21, 1999.

Extends from Modelica.Blocks.Interfaces.BlockIcon (Basic graphical layout of input/output block).

Connectors

Type Name Description

input RealInput zen Zenith angle of the sun beam [rad]

output RealOutput relAirMas Relative air mass

Type	Name	Description
input RealInput	zen	Zenith angle of the sun beam [rad]
output RealOutput	relAirMas	Relative air mass

Modelica definition

block RelativeAirMass "Relative air mass"
  extends Modelica.Blocks.Interfaces.BlockIcon;
public 
  Modelica.Blocks.Interfaces.RealInput zen(
    quantity="Angle",
    unit="rad",
    displayUnit="degree") "Zenith angle of the sun beam";
  Modelica.Blocks.Interfaces.RealOutput relAirMas "Relative air mass";
protected 
  Real zenLim;
  Real zenDeg;
equation 
  zenLim = Buildings.Utilities.Math.Functions.smoothMin(
    zen,
    Modelica.Constants.pi/2,
    0.01);
  zenDeg = zenLim*180/Modelica.Constants.pi;
  relAirMas = 1/(Modelica.Math.cos(zenLim) + 0.15*(93.9 - zenDeg)^(-1.253));
end RelativeAirMass;

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.SkyBrightness

Sky brightness

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.SkyBrightness

Information

This component computes the sky brightness.

References

R. Perez, P. Ineichen, R. Seals, J. Michalsky and R. Stewart (1990). Modeling Dyalight Availability and Irradiance Componets From Direct and Global Irradiance, Solar Energy, 44(5):271-289.

Extends from Modelica.Blocks.Interfaces.BlockIcon (Basic graphical layout of input/output block).

Connectors

Type Name Description

input RealInput relAirMas Relative Air Mass

input RealInput HDifHor Horizontal diffuse solar radiation [W/m2]

output RealOutput skyBri Sky Brightness

Type	Name	Description
input RealInput	relAirMas	Relative Air Mass
input RealInput	HDifHor	Horizontal diffuse solar radiation [W/m2]
output RealOutput	skyBri	Sky Brightness

Modelica definition

block SkyBrightness "Sky brightness"
  extends Modelica.Blocks.Interfaces.BlockIcon;
public 
  Modelica.Blocks.Interfaces.RealInput relAirMas "Relative Air Mass";
  Modelica.Blocks.Interfaces.RealInput HDifHor(quantity=
        "RadiantEnergyFluenceRate", unit="W/m2") 
    "Horizontal diffuse solar radiation";
  Modelica.Blocks.Interfaces.RealOutput skyBri "Sky Brightness";
equation 
  skyBri = Buildings.Utilities.Math.Functions.smoothMin(
    HDifHor*relAirMas/1367,
    1,
    0.025);
end SkyBrightness;

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.SkyClearness

Sky clearness

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.SkyClearness

Information

This component computes the sky clearness.

Extends from Modelica.Blocks.Interfaces.BlockIcon (Basic graphical layout of input/output block).

Connectors

Type Name Description

input RealInput zen Zenith angle of the sun beam [rad]

input RealInput HDifHor Horizontal diffuse solar radiation [W/m2]

input RealInput HGloHor Horizontal global solar radiation [W/m2]

output RealOutput skyCle Sky clearness. skyCle=1: overast sky; skyCle=8: clear sky

Type	Name	Description
input RealInput	zen	Zenith angle of the sun beam [rad]
input RealInput	HDifHor	Horizontal diffuse solar radiation [W/m2]
input RealInput	HGloHor	Horizontal global solar radiation [W/m2]
output RealOutput	skyCle	Sky clearness. skyCle=1: overast sky; skyCle=8: clear sky

Modelica definition

block SkyClearness "Sky clearness"
  extends Modelica.Blocks.Interfaces.BlockIcon;
public 
  Modelica.Blocks.Interfaces.RealInput zen(
    quantity="Angle",
    unit="rad",
    displayUnit="degreeC") "Zenith angle of the sun beam";
  Modelica.Blocks.Interfaces.RealInput HDifHor(quantity=
        "RadiantEnergyFluenceRate", unit="W/m2") 
    "Horizontal diffuse solar radiation";
  Modelica.Blocks.Interfaces.RealInput HGloHor(quantity=
        "RadiantEnergyFluenceRate", unit="W/m2") 
    "Horizontal global solar radiation";
  Modelica.Blocks.Interfaces.RealOutput skyCle 
    "Sky clearness. skyCle=1: overast sky; skyCle=8: clear sky";
protected 
  Real tmp1;
algorithm 
  tmp1 := 5.534e-6*(zen*180/Modelica.Constants.pi)^3;

  skyCle := smooth(1, if (HGloHor < Modelica.Constants.small) then 1 else 
    Buildings.Utilities.Math.Functions.smoothLimit(
    (HGloHor/Buildings.Utilities.Math.Functions.smoothMax(
      HDifHor,
      1e-4,
      1e-5) + tmp1)/(1 + tmp1),
    1,
    8,
    0.1));
end SkyClearness;

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.PartialSolarIrradiation

Partial model that is used to compute the direct and diffuse solar irradiation

Buildings.BoundaryConditions.SolarIrradiation.BaseClasses.PartialSolarIrradiation

Information

This is a partial model that is used to implement the direct and diffuse irradiation.

Extends from Modelica.Blocks.Interfaces.BlockIcon (Basic graphical layout of input/output block).

Parameters

Type Name Default Description

Angle til Surface tilt [rad]

Type	Name	Default	Description
Angle	til		Surface tilt [rad]

Connectors

Type Name Description

output RealOutput H Radiation per unit area [W/m2]

Bus weaBus Bus with weather data

Type	Name	Description
output RealOutput	H	Radiation per unit area [W/m2]
Bus	weaBus	Bus with weather data

Modelica definition

partial block PartialSolarIrradiation 
  "Partial model that is used to compute the direct and diffuse solar irradiation"
  extends Modelica.Blocks.Interfaces.BlockIcon;
  parameter Modelica.SIunits.Angle til(displayUnit="deg") "Surface tilt";
  Modelica.Blocks.Interfaces.RealOutput H(
     final quantity="RadiantEnergyFluenceRate",
     final unit="W/m2") "Radiation per unit area";

  WeatherData.Bus weaBus "Bus with weather data";

end PartialSolarIrradiation;

Automatically generated Wed Feb 22 15:21:07 2012.