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Biotechnol Bioeng

Title:		Treatment of MEK and toluene mixtures in biofilters: effect of operating strategy an performance during transient loading
Author(s):		Atoche JC; Moe WM;
Address:		"3418G CEBA Building, Department of Civil and Environmental Engineering, Louisiana State University, Baton Rouge, Louisiana 70803, USA"
Journal Title:		Biotechnol Bioeng
Year:		2004
Volume:		86
Issue:		4
Page Number:		468 - 481
DOI:		10.1002/bit.20064
ISSN/ISBN:		0006-3592 (Print) 0006-3592 (Linking)
Abstract:		"In recent years, biofiltration has been increasingly applied as an air pollution control technology to minimize or eliminate emissions of volatile organic compounds from industrial sources and environmental remediation activities. Although the ability of this technology to maintain high removal efficiency during relatively steady loading conditions has been well established for many waste streams, relatively little research has focused on development of operating strategies that could improve treatment performance during transient loading conditions typical of industrial operations. In the research described herein, two operating strategies were evaluated over a period of 295 days in biofilters treating a model waste gas stream containing a two-component mixture of methyl ethyl ketone (MEK) and toluene. One biofilter was operated as a sequencing batch biofilter (SBB), and the other was operated as a conventional continuous-flow biofilter (CFB). During 'normal' steady loading conditions, the model waste stream contained MEK concentrations ranging from 80 to 89 ppmv and toluene concentrations ranging from 28 to 30 ppmv. Both biofilter operating strategies resulted in stable long-term performance with greater than 99% contaminant removal during these normal loading conditions. On a regular basis, the influent MEK and toluene concentrations were temporarily increased to five times the normal influent concentration for the duration of 1 h to test performance during transient 'shock loading' conditions. Biofilter performance during the model shock loading conditions demonstrate that SBB operating strategies can result in superior treatment in two important areas: (1) overall mass of contaminants removed and (2) minimum instantaneous removal efficiency"
Keywords:		Air Pollutants/chemistry Biomass Butanones/*chemistry Carbon/chemistry Filtration/*instrumentation/methods Sanitary Engineering/*instrumentation/methods Toluene/*chemistry;
Notes:		"MedlineAtoche, Jorge C Moe, William M eng Research Support, Non-U.S. Gov't 2004/04/28 Biotechnol Bioeng. 2004 May 20; 86(4):468-81. doi: 10.1002/bit.20064"