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===g-Value===
===g-Value===


[[Plus:Test]]
The g-value is a value for the pass of energy through a transparent component.
The g-value is a value for the pass of energy through a transparent component.
It is composed of direct solar radiation and heat emission by secondary absorptance to the inner space.
It is composed of direct solar radiation and heat emission by secondary absorptance to the inner space.

Version vom 30. Juni 2009, 13:41 Uhr

Glossary: WUFI-Plus

Solar Heat Gain Coefficient

  • The Solar Heat Gain Coefficient (SHGC) measures how well a window blocks heat from sunlight. The SHGC is the fraction of the heat from the sun that enters through a window, both directly transmitted, and absorbed and subsequently released inward.
  • The SHGC replaced the shading coefficient an the standard indicator of a window‘s shading ability
  • SHGC is expressed as a number between 0 and 1.
  • SHGC can be expressed in terms of the glass alone or can refer to the entire window assembly.
  • The lower a window's SHGC, the less solar heat it transmits.
  • For incident radiation that is diffuse, the hemispherical SHGC must be used.

[[1]] [[2]] ASHRAE Handbook 2005 Fundamentals

g-Value

Plus:Test The g-value is a value for the pass of energy through a transparent component. It is composed of direct solar radiation and heat emission by secondary absorptance to the inner space.

Fehler beim Parsen (SVG (MathML kann über ein Browser-Plugin aktiviert werden): Ungültige Antwort („Math extension cannot connect to Restbase.“) von Server „https://wikimedia.org/api/rest_v1/“:): {\displaystyle g = \tau_e + q_i [1]}

The radiation power \phi_e through the component can be separated as following:

transmitted part \tau_e \phi_e direct transmittance \tau_e
reflected part \rho_e\phi_e direct reflectance \rho_e
absorbed part \alpha_e \phi_e direct absorptance \alpha_e [1]

Where

Fehler beim Parsen (SVG (MathML kann über ein Browser-Plugin aktiviert werden): Ungültige Antwort („Math extension cannot connect to Restbase.“) von Server „https://wikimedia.org/api/rest_v1/“:): {\displaystyle \tau_e + \rho_e + \alpha_e = 1} [1]

For the calculation of the g-value are the direct transmittance \tau_e and the direct absorption \alpha_e needed. From the \alpha_e only the inward flowing fraction of the energy, the secondary absorptance q_i is relevant.

Direct transmittance \tau_e

Fehler beim Parsen (SVG (MathML kann über ein Browser-Plugin aktiviert werden): Ungültige Antwort („Math extension cannot connect to Restbase.“) von Server „https://wikimedia.org/api/rest_v1/“:): {\displaystyle \tau_e = \frac{\sum S_y \tau(\lamda) \Delta\lamda}{\sum S_y \Delta\lamda}} [1]

Where S_y spectral distribution of solar radiation \tau(\lamda) spectral transmittance of the glazing \Delta\lamda range of wavelength

Inward flowing fraction of energy q_i:

single glazing fenestration

Fehler beim Parsen (SVG (MathML kann über ein Browser-Plugin aktiviert werden): Ungültige Antwort („Math extension cannot connect to Restbase.“) von Server „https://wikimedia.org/api/rest_v1/“:): {\displaystyle q_i = frac{\alpha_e h_i}{h_e + h_i}} [1]

Where h_e 23 \frac{W}{(m2K)} h_i 8 \frac{W}{(m2K)} – for borosilicate- und soda-lime-glass \alpha_esolar absorptance

(h_e and h_i are mean values with arranged conditions)

g-values are dimensionless and between 0 and 1

[1] DIN EN 410:1998 Glas im Bauwesen, Bestimmung der lichttechnischen und strahlungsphysikalischen Kenngrößen von Verglasungen