Resolved versus parametrized boundary-layer plumes. Part II: Continuous formulations of mixing rates for mass-flux schemes

C. Rio; F. Hourdin; F. Couvreux; A. Jam

doi:10.1007/s10546-010-9478-z

Resolved versus parametrized boundary-layer plumes. Part II: Continuous formulations of mixing rates for mass-flux schemes

C. Rio
, F. Hourdin
, F. Couvreux
, A. Jam

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

Abstract

The conditional sampling of coherent structures in large-eddy simulations of the convective boundary layer (Couvreux et al. Boundary-layer Meteorol 134:441-458, 2010) is used to propose and evaluate formulations of fractional entrainment and detrainment rates for mass-flux schemes. The proposed formulations are physically-based and continuous from the surface to the top of clouds. Entrainment is related to the updraft vertical velocity divergence, while detrainment depends on the thermal vertical velocity, on buoyancy and on the moisture contrast between the mean plume and its environment. The proposed formulations are first directly evaluated in simulations of shallow clouds. They are then tested in single-column simulations with the thermal plume model, a mass-flux representation of boundary-layer thermals.

Original language	English
Pages (from-to)	469-483
Number of pages	15
Journal	Boundary-Layer Meteorology
Volume	135
Issue number	3
DOIs	https://doi.org/10.1007/s10546-010-9478-z
Publication status	Published - 1 Jun 2010

Keywords

Boundary-layer thermals
Entrainment and detrainment
Large-eddy simulations
Mass-flux parametrization

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10.1007/s10546-010-9478-z

Cite this

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title = "Resolved versus parametrized boundary-layer plumes. Part II: Continuous formulations of mixing rates for mass-flux schemes",

abstract = "The conditional sampling of coherent structures in large-eddy simulations of the convective boundary layer (Couvreux et al. Boundary-layer Meteorol 134:441-458, 2010) is used to propose and evaluate formulations of fractional entrainment and detrainment rates for mass-flux schemes. The proposed formulations are physically-based and continuous from the surface to the top of clouds. Entrainment is related to the updraft vertical velocity divergence, while detrainment depends on the thermal vertical velocity, on buoyancy and on the moisture contrast between the mean plume and its environment. The proposed formulations are first directly evaluated in simulations of shallow clouds. They are then tested in single-column simulations with the thermal plume model, a mass-flux representation of boundary-layer thermals.",

keywords = "Boundary-layer thermals, Entrainment and detrainment, Large-eddy simulations, Mass-flux parametrization",

author = "C. Rio and F. Hourdin and F. Couvreux and A. Jam",

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doi = "10.1007/s10546-010-9478-z",

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TY - JOUR

T1 - Resolved versus parametrized boundary-layer plumes. Part II

T2 - Continuous formulations of mixing rates for mass-flux schemes

AU - Rio, C.

AU - Hourdin, F.

AU - Couvreux, F.

AU - Jam, A.

PY - 2010/6/1

Y1 - 2010/6/1

N2 - The conditional sampling of coherent structures in large-eddy simulations of the convective boundary layer (Couvreux et al. Boundary-layer Meteorol 134:441-458, 2010) is used to propose and evaluate formulations of fractional entrainment and detrainment rates for mass-flux schemes. The proposed formulations are physically-based and continuous from the surface to the top of clouds. Entrainment is related to the updraft vertical velocity divergence, while detrainment depends on the thermal vertical velocity, on buoyancy and on the moisture contrast between the mean plume and its environment. The proposed formulations are first directly evaluated in simulations of shallow clouds. They are then tested in single-column simulations with the thermal plume model, a mass-flux representation of boundary-layer thermals.

AB - The conditional sampling of coherent structures in large-eddy simulations of the convective boundary layer (Couvreux et al. Boundary-layer Meteorol 134:441-458, 2010) is used to propose and evaluate formulations of fractional entrainment and detrainment rates for mass-flux schemes. The proposed formulations are physically-based and continuous from the surface to the top of clouds. Entrainment is related to the updraft vertical velocity divergence, while detrainment depends on the thermal vertical velocity, on buoyancy and on the moisture contrast between the mean plume and its environment. The proposed formulations are first directly evaluated in simulations of shallow clouds. They are then tested in single-column simulations with the thermal plume model, a mass-flux representation of boundary-layer thermals.

KW - Boundary-layer thermals

KW - Entrainment and detrainment

KW - Large-eddy simulations

KW - Mass-flux parametrization

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DO - 10.1007/s10546-010-9478-z

M3 - Article

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JO - Boundary-Layer Meteorology

JF - Boundary-Layer Meteorology

IS - 3

ER -

Resolved versus parametrized boundary-layer plumes. Part II: Continuous formulations of mixing rates for mass-flux schemes

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Keywords

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