On radiation and latent heat feedback in clouds: implications and a parameterization

A. J. Heymsfield; L. M. Miloshevich

doi:10.1175/1520-0469(1991)048<0493:ORALHF>2.0.CO;2

On radiation and latent heat feedback in clouds: implications and a parameterization

A. J. Heymsfield, L. M. Miloshevich

Dynamical and Physical Meteorology

National Center for Atmospheric Research

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Nonadiabatic changes in cloud temperature result from the opposing effects of radiation and the resulting phase change and latent heat caused by this radiative forcing. It is shown that the fraction of "realized' (net) radiative heating-cooling is strongly temperature-dependent, increasing from 33% at 20°C to 92% at -40°C. The primary implication of this study is that radiative processes can affect the thermodynamic instability of cold clouds to a much greater extent than warm clouds, given the same radiative heating-cooling rates for both clouds. -Authors

Original language	English
Pages (from-to)	493-495
Number of pages	3
Journal	Journal of the Atmospheric Sciences
Volume	48
Issue number	3
DOIs	https://doi.org/10.1175/1520-0469(1991)048<0493:ORALHF>2.0.CO;2
State	Published - 1991

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10.1175/1520-0469(1991)048<0493:ORALHF>2.0.CO;2

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AU - Heymsfield, A. J.

AU - Miloshevich, L. M.

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N2 - Nonadiabatic changes in cloud temperature result from the opposing effects of radiation and the resulting phase change and latent heat caused by this radiative forcing. It is shown that the fraction of "realized' (net) radiative heating-cooling is strongly temperature-dependent, increasing from 33% at 20°C to 92% at -40°C. The primary implication of this study is that radiative processes can affect the thermodynamic instability of cold clouds to a much greater extent than warm clouds, given the same radiative heating-cooling rates for both clouds. -Authors

AB - Nonadiabatic changes in cloud temperature result from the opposing effects of radiation and the resulting phase change and latent heat caused by this radiative forcing. It is shown that the fraction of "realized' (net) radiative heating-cooling is strongly temperature-dependent, increasing from 33% at 20°C to 92% at -40°C. The primary implication of this study is that radiative processes can affect the thermodynamic instability of cold clouds to a much greater extent than warm clouds, given the same radiative heating-cooling rates for both clouds. -Authors

UR - https://www.scopus.com/pages/publications/0026281462

U2 - 10.1175/1520-0469(1991)048<0493:ORALHF>2.0.CO;2

DO - 10.1175/1520-0469(1991)048<0493:ORALHF>2.0.CO;2

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JO - Journal of the Atmospheric Sciences

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ER -

On radiation and latent heat feedback in clouds: implications and a parameterization

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