Control of trichloroethylene emissions from sparging systems by horizontal bio- and chemo- barriers
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Abstract
The scope of this study was to develop a continuous system to clean-up a trichloroethylene (TCE) contaminated gas stream, where biotic and abiotic removal mechanisms are undertaken sequentially simulating the horizontal bio- and chemo-barriers proposed for the in-situ remediation of the contaminated sites. The bio- and chemo-barriers were simulated by using glass columns packed with granular anaerobic mixed culture and Fe(0) filings, respectively. The effect of gas residence time, which is adjusted by the gas flowrate, on the TCE removal efficiency of the reactor system was investigated. TCE removal efficiency of over 90% was achieved at gas residence times above 1hr. Furthermore, the effluent of reactor system contained only ethane and ethylene, which are non-toxic by-products of TCE reduction reactions, along with trace amounts of TCE.
Description
Keywords
Biofilter, Fe(0) Packed Column, Reductive Dechlorination, Trichloroethylene, Air Pollutants, Biodegradation, Environmental, Air Pollution, Solvents, Filtration, Trichloroethylene
Fields of Science
0301 basic medicine, 0303 health sciences, 03 medical and health sciences
Citation
Tezel, U.; Demirer, G.N.; Uludag, Demirer S. (2005). "Control of trichloroethylene emissions from sparging systems by horizontal bio- and chemo- barriers", Environmental Technology, Vol.26, No.2, pp.171-178.
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26
Issue
2
Start Page
171
End Page
178
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