Letters. Where all the sulfur goes - Environmental Science

Letters. Where all the sulfur goes. J Poliskin. Environ. Sci. Technol. , 1971, 5 (10), pp 978–979. DOI: 10.1021/es60057a602. Publication Date: Octob...
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letters Getting oil off the beach

DEARSIR: In your story on oil spill technology (ES&T, August 1971, p 674), a caption beneath a photograph of our mobile beach cleaner describes it as “an expensive substitute for straw.” While most people set u p “strawmen” you have set up a straw beach. Straw is not the number one material for beach cleanup-it is used as an absorbent on the water and beach before the oil gets to the sand. Once the oil is on the beach, straw is not used. Whatever straw remains only complicates the cleanup process. Conventional methods of cleaning beaches consist of removing the contaminated sand and dumping it at an out-of-sight location or sprinkling the sand with detergent and letting the incoming tides wash off the oil. The latter method is all but banned and the sand dumping method will soon be barred (because of oil leaching from the sands). Meloy Laboratories’ Beach Cleaner, developed under EPA funds, is designed to save the sand and specifically to eliminate the costly process of shipping the sand to a distant site and dumping it where it will leach oil back into the environment. The dumped sand often has to be replaced with sand from a distant site. The price of dumping sand ranges from $10-$20/ton and that of new sand is about $5/ton, so that the total cost varies from $15 to $25/ton. Our mobile beach cleaner costs about $0.501’ ton to operate, in addition to doing it quicker and saving the sand. Thomas P. Meloy Meloy Laboratories Springfield, Vn. 22151 Air quality monitoring

DEARSIR: The feature article in your August issue by Hochheiser, Burmann, and Morgan (“Atmospheric surveillance: The current state of air monitoring technology,” p 678) was a welcome contribution. The overview of the methods of monitoring is useful and the emphasis which the writers put on collaborative evaluation of the methodology is both important and timely. 978 Environmental Science & Technology

It must be emphasized further, though, that not only is collaborative evaluation important but so also is the manner in which such evaluation is effected. In the past, and until the recently mounted ASTM project Threshold was conceived, collaborative evaluations amounted to “test tank” projects which d o not test under real conditions in which the method must function, whether it is manual or automatic. There is a regrettable flaw in the section of this article on economic evaluation of the automatic instruments. It stems from the failure of the writers to stress the as yet non-ideal nature of these instruments and the resulting high cost of “break-in time” (well recognized by those who use them), the cost of personnel needed for continuing calibration and maintenance, and downtime. At the more economics-conscious “operators” level, these expenditures are significant and indeed place the automatic methods in a very high cost bracket. This is especially regrettable, since both the science and technology are well enough developed to make automation the way to go. Benjamin Levadie Div. of Environmental Protection State o f Vermont Barre. V t . 05641 Where all t h e sulfur goes

DEARSIR: The feature article, “Fuels management in an environmental age” (ES&T, January 1971, p 3 0 ) , was an excellent review of this subject. However, I believe a correction is in order where the article portrays the sulfur in blast furnace coke being released as hydrogen sulfide and burned to sulfur dioxide as an air pollutant. The sulfur involved is of considerable magnitude, as the article states that half the coal consumed by industry is used to make coke. H. H. Lowry, in Znd. Eng. Chem., 41, p 502 (1949), states that examination of papers reporting thousands of analyses of blast furnace gas has failed to disclose sulfur leaving the furnace in the gas. In a typical sulfur balance for a blast furnace, Lowry shows the sulfur output from the fur-

nace to be 0.6% in the dust, 3.0% in the iron, and 96.4% in the slag, principally as calcium sulfide. Thus, practically all the sulfur in the coke ends up in a solid form rather than as an air pollutant.

J. S. Poliskin Materials Research Center Crucible Inc. Pittsburgh, Pa. 15230 Help wanted

DEARSIR: We have been looking for a company in the pollution-abatement field which could take used solvents (from the painting field), centrifuge or filter out solids, and then furnish a burner to use these solvents as a source of heat in a boiler. Alternately, the solvents could be burned to carbon dioxide and water, with the products of combustion led into a boiler to regain some of the Btu value. I have been unable to find information of this type in your 1970-71 Pollution Control Directory. Do you have any leads in your files as to whom we might discuss this problem with? Fred J. Kaim Technical Director Superior Plating, Inc. University & First Ave., N.E. Minneapolis, Minn. 55413 Would readers who can help Mr. Kaim please write ES&T? W e will see that he receives the information.-Ed. State ecology departments

DEARSIR: Dr. David Ackerman and I were pleased by the attractive and prominent treatment given to our article, “Department of Ecology: New arm of state government,” on page 506 of your June issue, However, the article as published does not contain the name of our SRI colleague, Dr. Richard Schmidt. Dr. Schmidt made significant contributions as a member of the SRI team in this organizational design project, particularly in the technical background he brought to it and in his extensive work with the Department of Ecology staff members who also participated. Howard M. Vollmer Stanford Research Institute Menlo Park, Calif. 94025

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No. 16 on Readers’ Service Card Volume 5, Number 10, October 1971 979