Biofiltration of xylene using wood charcoal as the biofilter media under transient and high loading conditions

•The present studies effective removal of xylene under transient and high loading conditions.•More than 90% RE was obtained up to inlet loading rate of 350gm−3h−1.•The maximum EC of 405.7gm−3h−1 was observed at an inlet loading of 538.8gm−3h−1.•The Ottengraf’s model was found to be applicable in all...

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Bibliographic Details
Published in:Bioresource technology 2017-10, Vol.242, p.351-358
Main Authors: Singh, Kiran, Giri, B.S., Sahi, Amrita, Geed, S.R., Kureel, M.K., Singh, Sanjay, Dubey, S.K., Rai, B.N., Kumar, Surendra, Upadhyay, S.N., Singh, R.S.
Format: Article
Language:English
Subjects:
Bacillus (bacteria)
Bacillus sp
Biodegradation, Environmental
biofilm
biofilters
Biofiltration
carbon dioxide
Charcoal
Filtration
Kinetics
microbial culture
temperature
Wood
Wood charcoal
Xylene
Xylenes
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Summary:•The present studies effective removal of xylene under transient and high loading conditions.•More than 90% RE was obtained up to inlet loading rate of 350gm−3h−1.•The maximum EC of 405.7gm−3h−1 was observed at an inlet loading of 538.8gm−3h−1.•The Ottengraf’s model was found to be applicable in all phases of biofilter operation.•Bacillus sp. was found the dominating group in the biofilm. The main objective of this study was to evaluate the performance of wood charcoal as biofilter media under transient and high loading condition. Biofiltration of xylene was investigated for 150days in a laboratory scale unit packed with wood charcoal and inoculated with mixed microbial culture at the xylene loading rates ranged from 12 to 553gm−3h−1. The kinetic analysis of the xylene revealed absence of substrate inhibition and possibility of achieving higher elimination under optimum condition. The pH, temperature, pressure drop and CO2 production rate were regularly monitored during the experiments. Throughout experimental period, the removal efficiency (RE) was found to be in the range of 65–98.7% and the maximum elimination capacity (EC) was 405.7gm−3h−1. Molecular characterization results show Bacillus sp. as dominating microbial group in the biofilm.
ISSN:0960-8524
1873-2976
DOI:10.1016/j.biortech.2017.02.085