Record Display for the EPA National Library Catalog

RECORD NUMBER: 5 OF 5

OLS Field Name OLS Field Data
Main Title Sampling and Identification of Pollutant Oils in Industrial Watercourses.
Author Baier, Robert E. ; Gasiecki, Edward A. ; Leonard, Richard P. ; Mack., Eugene J. ;
CORP Author Calspan Corp., Buffalo, N.Y.;Industrial Environmental Research Lab., Cincinnati, Ohio.
Year Published 1976
Report Number EPA-WPRD-263-01-68; EPA-11020-DJG; EPA/600/2-76/031;
Stock Number PB-249 362
Additional Subjects Chemical analysis ; Oil pollution ; Industrial waters ; Sampling ; Solvent extraction ; Chloroform ; Gas chromatography ; Water analysis ; Buffalo River ; Monitoring ; Sewers ; Concentration(Composition) ; Comparison ; Samplers ; Design criteria ; Infrared spectra ; Sediments ; Siphons(Sewage) ; Niagara River ; Water pollution ; Rivers ; New York ; Oil pollution detection ; Oil spills ; Buffalo(New York)
Holdings
Library Call Number Additional Info Location Last
Modified
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Status
NTIS  PB-249 362 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 06/23/1988
Collation 255p
Abstract
A thoroughly documented discussion of methods for sampling and identifying pollutant oils in industrial watercourses is presented. Simple, yet quantitative, methods for retrieval of oil slick specimens are described which are usable on all types of pollutant layers, ranging from near-zero thickness to inches in thickness, irrespective of their degree of weathering, emulsification, or admixture with debris. Techniques which fail in such situations are also described. An analytical scheme for the determination of organic pollutants in industrial waters by chloroform extraction (below pH 8) and carbon tetrachloride extraction (above pH 8) is demonstrated to be superior to more generally used hexane extraction techniques. Numerous examples illustrating the use of gas chromatography and infrared spectroscopy for pollution analysis are presented. Applications of the various analytical methods considered are discussed with specific reference to the correlation of oil slick components with pollutants in industrial outfalls; the evaluation of an inverted siphon sewer as an oil trap; the evaluation of an air barrier as a slick container; the evaluation of surface oil skimmers; and the identification of spilled oils for enforcement actions. The burden of oily pollutants entering and exiting the Buffalo River, and deposited along its shoreline and in its sediments, is estimated for the 1968-1970 period and compared with available data on the river water quality as early as 1964.