Use of Compressed Air for Supercooled Fog Dispersal

Alan I. Weinstein; James R. Hicks

doi:10.1175/1520-0450(1976)015<1226:UOCAFS>2.0.CO;2

Journal of Applied Meteorology and Climatology

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EDITORIAL

Authors:

Wayne H. Schubert

Joseph B. Klemp

, and

Kenneth F. Heideman

Development and Application of a Physical Approach to Estimating Wind Gusts

Author:

O. Brasseur

Evaluation of Turbulent Surface Flux Parameterizations for the Stable Surface Layer over Halley, Antarctica

Authors:

John J. Cassano

Thomas R. Parish

, and

John C. King

A Numerical Study of an Extreme Cold-Air Outbreak over the Labrador Sea: Sea Ice, Air–Sea Interaction, and Development of Polar Lows

Authors:

Mariusz Pagowski

and

G. W. K. Moore

Objective Verification of the SAMEX ’98 Ensemble Forecasts

Authors:

Dingchen Hou

Eugenia Kalnay

, and

Kelvin K. Droegemeier

Editorial Type:: Article

Article Type:: Research Article

Use of Compressed Air for Supercooled Fog Dispersal

Alan I. Weinstein

Alan I. Weinstein Naval Environmental Prediction Facility, Monterey, Calif. 93940

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and

James R. Hicks

James R. Hicks U.S. Army Cold Regions Research & Engineering Laboratory, Hanover, N. H. 03755

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Print Publication:: 01 Nov 1976

DOI:: https://doi.org/10.1175/1520-0450(1976)015<1226:UOCAFS>2.0.CO;2

Page(s):: 1226–1231

Received:: 05 Feb 1976

Accepted:: 30 Sep 1976

Published Online:: Nov 1976

Displayed acceptance dates for articles published prior to 2023 are approximate to within a week. If needed, exact acceptance dates can be obtained by emailing amsjol@ametsoc.org.

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Abstract

Experiments have been performed under controlled and free environment conditions to determine the technical feasibility of using the cooling resulting from the adiabatic expansion of compressed air to initiate ice crystal production in a supercooled fog. These experiments have shown that for most supercooled temperatures, approximately 10³ cm³ of air when compressed to 60 psig and released through a supersonic nozzle will produce the same number of ice crystals as does the evaporation of 1 cm³ of liquid propane. It is estimated that a compressed air supercooled fog dispersal system would consume approximately 6% of the hydrocarbon fuel presently consumed by operational systems using liquid propane spray.

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Journal of Applied Meteorology and Climatology

	All Time	Past Year	Past 30 Days
Abstract Views	0	0	0
Full Text Views	134	18	2
PDF Downloads	17	5	0

EDITORIAL

Authors:

Wayne H. Schubert

Joseph B. Klemp

, and

Kenneth F. Heideman

Development and Application of a Physical Approach to Estimating Wind Gusts

Author:

O. Brasseur

Evaluation of Turbulent Surface Flux Parameterizations for the Stable Surface Layer over Halley, Antarctica

Authors:

John J. Cassano

Thomas R. Parish

, and

John C. King

A Numerical Study of an Extreme Cold-Air Outbreak over the Labrador Sea: Sea Ice, Air–Sea Interaction, and Development of Polar Lows

Authors:

Mariusz Pagowski

and

G. W. K. Moore

Objective Verification of the SAMEX ’98 Ensemble Forecasts

Authors:

Dingchen Hou

Eugenia Kalnay

, and

Kelvin K. Droegemeier

Use of Compressed Air for Supercooled Fog Dispersal

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