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J Hazard Mater

Title:		Removal of benzene under acidic conditions in a controlled Trickle Bed Air Biofilter
Author(s):		Aly Hassan A; Sorial GA;
Address:		"Environmental Engineering Program, School of Energy, Environmental, Biological and Medical Engineering, College of Engineering and Applied Science, University of Cincinnati, 701 Engineering Research Center, 2624 Clifton Ave, Cincinnati, OH 45221-0012, USA. Electronic address: hosniaa@mail.uc.edu. Environmental Engineering Program, School of Energy, Environmental, Biological and Medical Engineering, College of Engineering and Applied Science, University of Cincinnati, 701 Engineering Research Center, 2624 Clifton Ave, Cincinnati, OH 45221-0012, USA. Electronic address: george.sorial@uc.edu"
Journal Title:		J Hazard Mater
Year:		2010
Volume:		184
Issue:		1-Mar
Page Number:		345 - 349
DOI:		10.1016/j.jhazmat.2010.08.042
ISSN/ISBN:		1873-3336 (Electronic) 0304-3894 (Linking)
Abstract:		"Trickle Bed Air Biofilters (TBABs) are considered to be economical and environmental-friendly for treatment of Volatile Organic Compounds (VOCs). Hydrophilic VOCs are easily degradable while hydrophobic ones pose a great challenge for adequate treatment due to the transfer of the VOC to the liquid phase. In this study the utilization of acidic pH is proposed for the treatment of benzene vapors. The acidic pH would encourage the growth of fungi as the main consortium. A TBAB operated at pH 4 was used for the treatment of an air stream contaminated with benzene under different loading rates ranging from 37 to 76.8 g/(m(3)h). The purpose of introducing fungi was to compare the performance with traditional TBAB operating under neutral pH in order to assess the biodegradation of benzene in mixtures with other compounds favoring acidic conditions. The experimental plan was designed to assess long-term performance with emphasis based on different benzene loading rates, removal efficiency with TBAB depth, and carbon mass balance closure. At benzene loading rate of 64 g/(m(3)h), the removal efficiency was 90%. At the maximum loading rate of 77 g/(m(3)h), the removal efficiency was 75% marking the maximum elimination capacity for the TBAB at 58.8 g/(m(3)h). Operating at acidic pH successfully supported the degradation of benzene in TBAB. It is worthwhile to note that benzene appears in mixtures with n-hexane and toluene, which are reported to be better degraded under such conditions"
Keywords:		Acids Benzene/*isolation & purification Filtration/*methods Hydrogen-Ion Concentration;
Notes:		"MedlineAly Hassan, Ashraf Sorial, George A eng Research Support, U.S. Gov't, Non-P.H.S. Netherlands 2010/09/28 J Hazard Mater. 2010 Dec 15; 184(1-3):345-349. doi: 10.1016/j.jhazmat.2010.08.042"