Record Display for the EPA National Library Catalog
RECORD NUMBER: 1 OF 93
|OLS Field Name||OLS Field Data|
|Main Title||Bench-scale testing of sorbent additives for trace metal capture and retention /|
|Author||Venkatesh, Shyam. ; Carroll, G. J. ; Waterland, L. R.|
|CORP Author||Acurex Corp., Jefferson, AR. Incineration Research Facility.;Environmental Protection Agency, Cincinnati, OH. Risk Reduction Engineering Lab.|
|Publisher||[U.S. Environmental Protection Agency],|
|Report Number||EPA/600/A-95/082; EPA-68-C4-0044|
|Subjects||Sorbents--Testing. ; Metals--Absorption and adsorption--Testing.|
|Additional Subjects||Incinerators ; Metals ; Trace amounts ; Minerals ; Sorbents ; Meetings ; Waste disposal ; Hazardous materials ; Vaporizing ; Extraction ; Flue gases ; Air pollution control ; Leaching ; Performance evaluation ; Lead(Metal) ; Cadmium ; Nickel ; Chromium ; Arsenic ; Silicon dioxide ; Bauxite ; Aluminates ; Silicates ; Attapulgite ; Fullers earth ; Aluminum oxide ; Kaolin ; Reprints ; TCLP(Toxicity characteristic leachate procedure) ; Metal vaporization|
|Collation||15 pages : illustrations ; 28 cm|
The suitability of six minerals; silica, diatomaceous earth, kaolin, bauxite, alumina and attapulgite clay, as potential sorbents for the capture and immobilization of trace metals was evaluated. The behavior of five trace metals; arsenic, cadmium, chromium, lead and nickel was tested. The objective of the test program was to evaluate the candidate sorbents for their ability to limit vaporization by retaining the trace metals in the mineral matrix, and the degree to which they retain the trace metals as measured by TCLP extraction. Bench-scale tests were conducted in the IRF's thermal treatability unit. The test results indicate that under specific conditions, varying for each mineral, all of the minerals limit metal vaporization, and/or TCLP leachability.
Caption title. Distributed to depository libraries in microfiche. Shipping list no.: 95-0701-M. Includes bibliographical references (page 5). "EPA/600/A-95/082." Microfiche.