Glossary:Glossary-Plus: Unterschied zwischen den Versionen
Tes (Diskussion | Beiträge) Keine Bearbeitungszusammenfassung |
Keine Bearbeitungszusammenfassung |
||
Zeile 16: | Zeile 16: | ||
===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