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Article Type:
Research Article

FOG-82: A Cooperative Field Study of Radiation Fog

Michael B. MeyerAtmospheric Sciences Research Center, State University of New York at Albany, Albany, NY 12222

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G. Garland LalaAtmospheric Sciences Research Center, State University of New York at Albany, Albany, NY 12222

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James E. JiustoAtmospheric Sciences Research Center, State University of New York at Albany, Albany, NY 12222

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Online Publication:
01 Jul 1986
Print Publication:
01 Jul 1986
DOI:
https://doi.org/10.1175/1520-0477(1986)067<0825:FACFSO>2.0.CO;2
Page(s):
825–832
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The Cloud Physics Section of the Atmospheric Sciences Research Center-State University of New York at Albany conducted a cooperative field study (FOG-82) during the autumn of 1982 as part of an ongoing radiation-fog research program. A computer-controlled data-acquisition system consisting of sophisticated soil, surface, and boundary-layer sensors, as well as contemporary aerosol and droplet probes was developed. These data are being used to address a variety of critical problems related to radiation-fog evolution.

Scientists from 10 universities and research laboratories participated in portions of FOG-82. Research objectives included studies of fog mesoscale meteorology, radiation studies, low-level water budget, vertical fog structure, fog supersaturation, condensation nuclei, and fog-water chemistry, as well as radiation-fog life cycles. A comprehensive description of the FOG-82 program and objectives is presented.

1 This paper is dedicated to the memory of Dr. James E. Jiusto who passed away 5 October 1983.

The Cloud Physics Section of the Atmospheric Sciences Research Center-State University of New York at Albany conducted a cooperative field study (FOG-82) during the autumn of 1982 as part of an ongoing radiation-fog research program. A computer-controlled data-acquisition system consisting of sophisticated soil, surface, and boundary-layer sensors, as well as contemporary aerosol and droplet probes was developed. These data are being used to address a variety of critical problems related to radiation-fog evolution.

Scientists from 10 universities and research laboratories participated in portions of FOG-82. Research objectives included studies of fog mesoscale meteorology, radiation studies, low-level water budget, vertical fog structure, fog supersaturation, condensation nuclei, and fog-water chemistry, as well as radiation-fog life cycles. A comprehensive description of the FOG-82 program and objectives is presented.

1 This paper is dedicated to the memory of Dr. James E. Jiusto who passed away 5 October 1983.

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