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(Created page with "k(T) all layers k(T) = A+B*T+C*T^2+D*T^3 NOTE: Not just 2 domains/layers, but All ---- Cp(T) all layers Cp(T) = A+B*T+C*T^2+D*T^3 NOTE: Not just 2 domains/layers, but All ...") |
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k(T) all layers | k(T) all layers | ||
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k(T) = A+B*T+C*T^2+D*T^3 | k(T) = A+B*T+C*T^2+D*T^3 | ||
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NOTE: Not just 2 domains/layers, but All | NOTE: Not just 2 domains/layers, but All | ||
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---- | ---- | ||
Cp(T) all layers | Cp(T) all layers | ||
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Cp(T) = A+B*T+C*T^2+D*T^3 | Cp(T) = A+B*T+C*T^2+D*T^3 | ||
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NOTE: Not just 2 domains/layers, but All | NOTE: Not just 2 domains/layers, but All | ||
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---- | ---- | ||
Surface/Atmosphere Sensible heat exchange Q | Surface/Atmosphere Sensible heat exchange Q | ||
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Q = h × (Tsurf - Tatm) | Q = h × (Tsurf - Tatm) | ||
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NOTE: Tsurf is the kinetic surface Temperature; Tatm is the air temperature near the surface; Q is an additional heat flux term at the surface; h is a convective heat transfert coefficient. | NOTE: Tsurf is the kinetic surface Temperature; Tatm is the air temperature near the surface; Q is an additional heat flux term at the surface; h is a convective heat transfert coefficient. | ||
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---- | ---- | ||
Temperature-dependent Emissivity ε(T) | Temperature-dependent Emissivity ε(T) | ||
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ε(T) = A + BxT + CxT^2 + DxT^3 | ε(T) = A + BxT + CxT^2 + DxT^3 | ||
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NOTE: Keihm 1984 + Birkebak 1974 | NOTE: Keihm 1984 + Birkebak 1974 | ||
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See below an analysis looking at the impact of ε(T) as a function of spectral properties, and temperature | See below an analysis looking at the impact of ε(T) as a function of spectral properties, and temperature | ||
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Analysis HERE | Analysis HERE | ||
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Revision as of 14:17, 11 January 2019
k(T) all layers
k(T) = A+B*T+C*T^2+D*T^3
NOTE: Not just 2 domains/layers, but All
Cp(T) all layers
Cp(T) = A+B*T+C*T^2+D*T^3
NOTE: Not just 2 domains/layers, but All
Surface/Atmosphere Sensible heat exchange Q
Q = h × (Tsurf - Tatm)
NOTE: Tsurf is the kinetic surface Temperature; Tatm is the air temperature near the surface; Q is an additional heat flux term at the surface; h is a convective heat transfert coefficient.
Temperature-dependent Emissivity ε(T)
ε(T) = A + BxT + CxT^2 + DxT^3
NOTE: Keihm 1984 + Birkebak 1974
See below an analysis looking at the impact of ε(T) as a function of spectral properties, and temperature
Analysis HERE
