« Previous AbstractMedfly (Diptera: Tephritidae) genetic sexing: large-scale field comparison of males-only and bisexual sterile fly releases in Guatemala    Next AbstractEffects of concentration and gas flow rate on the removal of gas-phase toluene and xylene mixture in a compost biofilter »

N Biotechnol

Title:		Biotreatment of a gas-phase volatile mixture from fibreglass and composite manufacturing industries
Author(s):		Rene ER; Montes M; Veiga MC; Kennes C;
Address:		"Chemical Engineering Laboratory, Faculty of Sciences, University of La Coruna, Rua da Fraga 10, E-15008 La Coruna, Spain"
Journal Title:		N Biotechnol
Year:		2011
Volume:		20110903
Issue:		1
Page Number:		46 - 55
DOI:		10.1016/j.nbt.2011.08.004
ISSN/ISBN:		1876-4347 (Electronic) 1871-6784 (Linking)
Abstract:		"Acetone, toluene and styrene (ATS) are representative air pollutants emanating during the production process in fibreglass and composite manufacturing industries. In this study, the performance of a steady-state biofilter inoculated with the fungus Sporothrix variecibatus was tested at different empty bed residence times (EBRTs), and at different inlet concentrations of ATS, corresponding to total pollutant loading rates ranging from 30 to 490 gm(-3)hour(-1). Styrene was somewhat better removed (47-100%) in the biofilter than acetone (34-100%) and toluene (42-100%), with maximum elimination capacities (EC(max)) of 108, 72 and 144 gm(-3)hour(-1), for ATS, respectively. Besides, it was observed that, although increasing the concentration of ATS decreased their removal, the presence of toluene also decreased the EC(max) of both acetone and toluene in the ternary mixture. During transient operations, the biofilter was subjected to intermittent shutdown and re-start operations where the gas-phase pollutant flow was stopped for either 5 or 16d. It was observed that, for longer shutdown periods (16d), the biofilter required nearly 8-10d to reach similar removal patterns to those observed before the shutdown phase. Batch biodegradation tests were conducted, using Sporothrix-like microorganisms present in the leachate of the biofilter, with a mixture of ATS as the sole carbon source. Complete removal of ATS was observed within the test period of 168 hours. Styrene was degraded faster, with a specific substrate utilization rate of 0.9 mg styrenemg biomass(-1)hour(-1), followed by toluene (0.6) and acetone (0.44). The effectiveness of the biofilter to reach high total EC (321.3 gm(-3)hour(-1)), and withstand transient operations shows the robustness of this fungal-bioreactor and its suitability to handle emissions from a fibreglass and composite manufacturing industry"
Keywords:		"Acetone/metabolism Air Pollutants/chemistry/*metabolism Biodegradation, Environmental Gases/chemistry/*metabolism Glass/*chemistry *Industrial Waste Solvents/metabolism Sporothrix/metabolism/ultrastructure Styrene/metabolism Toluene/metabolism Volatile Or;"
Notes:		"MedlineRene, Eldon R Montes, Maria Veiga, Maria C Kennes, Christian eng Research Support, Non-U.S. Gov't Netherlands 2011/09/14 N Biotechnol. 2011 Dec 15; 29(1):46-55. doi: 10.1016/j.nbt.2011.08.004. Epub 2011 Sep 3"