Record Display for the EPA National Library Catalog

RECORD NUMBER: 30 OF 165

Main Title Competitive Adsorption of VOCs and BOM: The Role of Molecular Oxygen.
Author Sorial, G. A. ; Cerminara, P. ; Papadimas, S. P. ; Suidan, M. T. ; Speth, T. F. ;
CORP Author Cincinnati Univ., OH. Dept. of Civil and Environmental Engineering.;Environmental Protection Agency, Cincinnati, OH. Risk Reduction Engineering Lab.
Publisher cMar 94
Year Published 1994
Report Number EPA-R816700; EPA/600/J-94/314;
Stock Number PB94-198025
Additional Subjects Water purification ; Adsorption ; Activated carbon treatment ; Organic compounds ; Reprints ; Organic matter ; Adsorption isotherms ; Chloroform ; Chlorobenzenes ; Halohydrocarbons ; Models ; Chemical removal(Water treatment) ; Drinking water ; BOM(Background organic matter) ; Background organic matter ; VOCs(Volatile organic compounds) ; Propane/dibromochloro ; IAST(Ideal adsorbed solution theory) ; Oxic condition ; Anoxic condition
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NTIS  PB94-198025 Some EPA libraries have a fiche copy filed under the call number shown. 07/26/2022
Collation 13p
Abstract
The impact of molecular oxygen on the adsorptive capacity of activated carbon for volatile organic compounds (VOCs) was evaluated in the study. Investigations involved VOC solutions in Milli-Q water supplemented with background organic matter (BOM). It was determined that adsorption isotherms for chloroform, chlorobenzene, and dibromo-chloropropane (DBCP) conducted in autoclaved Milli-Q water showed no difference in their adsorption behavior when oxygen was present (oxic condition) or absent (anoxic condition) from the test environment. The presence of BOM reduced the adsoptive capacity of carbon for these compounds. The adsorptive capacity of carbon for the target VOC was further reduced under oxic conditions. The IAST was found to accurately describe anoxic adsorption isotherms for VOCs in BOM. This approach failed to predict this competition for data collected under oxic conditions.