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Effect of Carrier Size on the Performance of a Three-Phase Circulating-Bed Biofilm Reactor for Removing Toluene in Gas Stream  

Sang, Byoung-In (Department of Civil and Environmental Engineering, Northwestern University)
Yoo, Eui-Sun (Department of Civil and Environmental Engineering, Northwestern University)
Kim, Byung-J. (Construction Engineering Research Laboratory (CERL) of the United States Army Corps of Engineers)
Rittmann, Bruce E. (Center for Environmental Biotechnology, Biodesign Institute at Arizona State University)
Publication Information
Journal of Microbiology and Biotechnology / v.18, no.6, 2008 , pp. 1121-1129 More about this Journal
Abstract
A series of steady-state and short-term experiments on a three-phase circulating-bed biofilm reactor (CBBR) for removing toluene from gas streams were conducted to investigate the effect of macroporous-carrier size (1-mm cubes versus 4-mm cubes, which have the same total surface area) on CBBR performance. Experimental conditions were identical, except for the carrier size. The CBBR with 1-mm carriers (the 1-mm CBBR) overcame the performance limitation observed with the CBBR with 4-mm carriers (the 4-mm CBBR): oxygen depletion inside the biofilm. The 1-mm CBBR consistently had the superior removal efficiencies of toluene and COD, higher than 93% for all, and the advantage was greatest for the highest toluene loading, $0.12\;M/m^2-day$. The 1-mm carriers achieved superior performance by minimizing the negative effects of oxygen depletion, because they had 4.7 to 6.8 times thinner biofilm depths. The 1-mm carriers continued to provide protection from excess biomass detachment and inhibition from toluene. Finally, the 1-mm CBBR achieved volumetric removal capacities up to 300 times greater than demonstrated by other biofilters treating toluene and related volatile hydrocarbons.
Keywords
Biofilm; circulating-bed; toluene; carrier size; inhibition; oxygen depletion;
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Times Cited By Web Of Science : 0  (Related Records In Web of Science)
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