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Competitive Effects of Nondisplaceable Organic Compounds on Trichloroethylene Uptake by Activated Carbon. I. Thermodynamic Predictions and Model Sensitivity Analyses
Authors: Kilduff J.E.1; Karanfil T.2; Weber W.J.3
Source: Journal of Colloid and Interface Science, Volume 205, Number 2, September 1998 , pp. 271-279(9)
Publisher: Academic Press
Abstract:
Theoretical analyses were performed to investigate potential mechanisms affecting observed reductions in uptake of trichloroethylene from the aqueous phase by activated carbon loaded with nondisplaceable organic molecules. Isotherm sensitivity analysis and thermodynamically based competitive adsorption model predictions give a clear and consistent mechanistic interpretation. At low loadings of nondisplaceable organics, the most significant effect is to reduce the number of high-energy sites available to subsequently adsorbed TCE. The loss of high-energy sites causes a significant reduction in site-energy heterogeneity and reduces TCE uptake in low-equilibrium concentration regions (parts per billion) of the isotherm. As the loading of nondisplaceable compounds increases, further reductions in TCE uptake occur; however, further changes in the site-energy heterogeneity are distributed across a wide spectrum of site energies. This suggests a lowering of the average site energy, a reduction in the total number of sites, or both. In terms of TCE isotherms, this corresponds to a roughly constant percentage reduction in uptake over a wide range of equilibrium concentrations, displacing the isotherm downward relative to the uptake axis. Copyright 1998 Academic Press.
Language: English
Document Type: Research article
Affiliations: 1: Rensselaer Polytechnic Institute, Troy, New York, 12180 2: Clemson University, Clemson, South Carolina 3: University of Michigan, Ann Arbor, Michigan
Publication date: 1998-09-01
- In this: publication
- By this: publisher
- In this Subject: Chemistry (General) , Physical & Theoretical Chemistry
- By this author: Kilduff J.E. ; Karanfil T. ; Weber W.J.
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