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Title:	Ice fog suppression using reinforced thin chemical films
Authors:	United States. Environmental Protection Agency Corvallis Environmental Research Laboratory. Arctic Environmental Research Station McFadden, Terry T. Collins, Charles M.
Keywords:	Cooling ponds Ice fog Ethylene glycol monobutyl ether Suppression Fog Heat dissipation Hexadecanol Fort Wainwright (Alaska)
Publisher:	Cold Regions Research and Engineering Laboratory (U.S.) Engineer Research and Development Center (U.S.)
Series/Report no.:	CRREL report ; 78-26.
Description:	CRREL Report Abstract: Ice fog suppression experiments on the Fort Wainwright Power Plant cooling pond were conducted during the winters of 1974-76. Baseline information studies occupied a sizable portion of the available ice fog weather in 1974-75. Then hexadecanol was added to the pond and dramatically improved visibility by reducing fog generated from water vapor released by the pond at -14°C. Although this temperature was not low enough to create ice fog, the cold vapor fog created was equally as devastating to visibility in the vicinity of the pond. During the winter of 1975-76, suppression tests were continued using films of hexadecanol, mixes of hexadecanol and octadecanol, and ethylene glycol monobutyl ether (EGME). Suppression effectiveness at colder temperatures was studied and limits to the techniques were probed. A reinforcing grid was constructed that prevented breakup of the film by wind and water currents. Lifetime tests indicated that EGME degrades much more slowly than either hexadecanol or the hexadecanol-octadecanol mix. The films were found to be very effective fog reducers at warmer temperatures but still allowed 20% to 40% of normal evaporation to occur. The vapor thus produced was sufficient to create some ice fog at lower temperatures, but this ice fog occurred less frequently and was more quickly dispersed than the thick fog that was present before application of the films.
Rights:	Approved for public release; distribution is unlimited.
URI:	http://hdl.handle.net/11681/9456
Appears in Collections:	CRREL Report