A model of sulphate production in a cap cloud and subsequent turbulent deposition onto the hill surface

T. A. Hill; T. W. Choularton; S. A. Penkett

doi:10.1016/0004-6981(86)90125-3

A model of sulphate production in a cap cloud and subsequent turbulent deposition onto the hill surface

T. A. Hill^*, T. W. Choularton, S. A. Penkett

^*Corresponding author for this work

University of East Anglia

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

Abstract

A model has been constructed of the dynamics and microphysics of a hill cap cloud. This has been used to investigate the aqueous phase oxidation of SO₂ in the cloud droplets and the subsequent turbulent deposition of chemical species onto the hill surface. It is suggested that the dominant oxidant is H₂O₂ in these clouds and that therefore the process is likely to be oxidant limited. The amount of sulphate produced is comparable to that found in cloud condensation nuclei typically found over the U.K. and elsewhere away from strong local sources of sulphate aerosol. Ammonia concentrations are very important as they alter the cloud water pH and hence the solubility of SO₂. Turbulent or 'occult' deposition is very sensitive to wind speed, the stability profile of the atmosphere and to the surface roughness. In a supercritical flow regime the occult deposition is a maximum just on the lee of the hill.

Original language	English
Pages (from-to)	1763-1771
Number of pages	9
Journal	Atmospheric Environment (1967)
Volume	20
Issue number	9
DOIs	https://doi.org/10.1016/0004-6981(86)90125-3
Publication status	Published - 1 Jan 1986

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title = "A model of sulphate production in a cap cloud and subsequent turbulent deposition onto the hill surface",

abstract = "A model has been constructed of the dynamics and microphysics of a hill cap cloud. This has been used to investigate the aqueous phase oxidation of SO2 in the cloud droplets and the subsequent turbulent deposition of chemical species onto the hill surface. It is suggested that the dominant oxidant is H2O2 in these clouds and that therefore the process is likely to be oxidant limited. The amount of sulphate produced is comparable to that found in cloud condensation nuclei typically found over the U.K. and elsewhere away from strong local sources of sulphate aerosol. Ammonia concentrations are very important as they alter the cloud water pH and hence the solubility of SO2. Turbulent or 'occult' deposition is very sensitive to wind speed, the stability profile of the atmosphere and to the surface roughness. In a supercritical flow regime the occult deposition is a maximum just on the lee of the hill.",

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T1 - A model of sulphate production in a cap cloud and subsequent turbulent deposition onto the hill surface

AU - Hill, T. A.

AU - Choularton, T. W.

AU - Penkett, S. A.

PY - 1986/1/1

Y1 - 1986/1/1

N2 - A model has been constructed of the dynamics and microphysics of a hill cap cloud. This has been used to investigate the aqueous phase oxidation of SO2 in the cloud droplets and the subsequent turbulent deposition of chemical species onto the hill surface. It is suggested that the dominant oxidant is H2O2 in these clouds and that therefore the process is likely to be oxidant limited. The amount of sulphate produced is comparable to that found in cloud condensation nuclei typically found over the U.K. and elsewhere away from strong local sources of sulphate aerosol. Ammonia concentrations are very important as they alter the cloud water pH and hence the solubility of SO2. Turbulent or 'occult' deposition is very sensitive to wind speed, the stability profile of the atmosphere and to the surface roughness. In a supercritical flow regime the occult deposition is a maximum just on the lee of the hill.

AB - A model has been constructed of the dynamics and microphysics of a hill cap cloud. This has been used to investigate the aqueous phase oxidation of SO2 in the cloud droplets and the subsequent turbulent deposition of chemical species onto the hill surface. It is suggested that the dominant oxidant is H2O2 in these clouds and that therefore the process is likely to be oxidant limited. The amount of sulphate produced is comparable to that found in cloud condensation nuclei typically found over the U.K. and elsewhere away from strong local sources of sulphate aerosol. Ammonia concentrations are very important as they alter the cloud water pH and hence the solubility of SO2. Turbulent or 'occult' deposition is very sensitive to wind speed, the stability profile of the atmosphere and to the surface roughness. In a supercritical flow regime the occult deposition is a maximum just on the lee of the hill.

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A model of sulphate production in a cap cloud and subsequent turbulent deposition onto the hill surface

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