Solar reflection from a regular array of horizontally finite clouds

J. A. Weinman; Harshvardhan

doi:10.1364/AO.21.002940

Applied Optics
Vol. 21,
Issue 16,
pp. 2940-2944
(1982)
•https://doi.org/10.1364/AO.21.002940

Solar reflection from a regular array of horizontally finite clouds

J. A. Weinman and Harshvardhan

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J. A. Weinman and Harshvardhan, "Solar reflection from a regular array of horizontally finite clouds," Appl. Opt. 21, 2940-2944 (1982)

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Abstract

The reflected flux from a regular array of 2- and 3-D clouds has been computed to estimate the effect of fractional cloud cover on albedos and the solar flux available to heat the earth’s surface. The broken clouds are represented by a regular array of identical cuboids for the 3-D problem and equally spaced, infinitely long, bars for the 2-D problem. A diffusion approximation to the radiative transfer equation is used to compute the fluxes leaving each face of the cloud. Interaction between clouds is simulated by assuming diffuse exitance from the cloud faces and applying angle factors to obtain modified boundary conditions on each cloud face.

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	τ* = 100

$\tilde{ω}$ \θ₀	0°	30°	60°
0.9	0.120	0.139	0.206
0.99	0.478	0.505	0.589
0.9999	0.877	0.886	0.913

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Applied Optics