Journal of Microbiology

The Microbiological Society of Korea (한국미생물학회)
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Selection of Suitable Packing Material for Biofiltration of Toluene, m- and p-Xylene Vapors

  • Published : 2000.03.01
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Abstract

A suitable packing material for biofiltration of monoaromatic solvent vapors was selected among various types of packing materials such as peat, bark chips, vermiculite, and Hydroballs. A previously isolated strain, Pseudomonas pseudoalcaligenes BTXO2, which could utilize toluene, m-and p-xylene as carbon and energy sources was used as a biofilter inoculum. Four glass biofilters (6 cm dia. x 60 cm) were individually packed with each of the packing materials and solvent vapors were passed through the columns. During three weeks of peat biofilter operation, average removal efficiencies of toluene, m-and p-xylene were 90.4%, 95.3%, and 82.1%, respectively. With the other packings, the efficiencies were in the range of 10.1 to 58.6% which were significantly lower than those of the peat biofilter. The peat biofilter was continually operated for approximately nine months and the biofilter sustained its degradation activity during the operation period with minimal maintenance. At steady state, average removal rates of toluene, m- and p-xylene vapors were estimated as 14.2, 5.5, and 8.1 g m$\^$-3/ packing h$\^$-1/, respectively.

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References

  1. Biodegradation and bioremediation Alexander, M.
  2. Proc. of Envirocon 89: 1st International Conf. on Environ. Issues for Converters Biofilter- A unique method to reduce and/or eliminate VOCs Beerli, M.;A. Rotman
  3. Abstr. 84th Annu. Meet. Air & Waste Manage. Assoc. Biofiltration: A lean emissions abatement technology. Abstr. 91-103.2 Dharmavaram, S.
  4. Umwelt v.19 Biofilter in der Ablufreinigung Eitner, D.
  5. J. Air & Waste Manage. Assoc. v.41 Biofiltration: An innovative air pollution control technology for VOC emissions Leson, G.;A.M. Winer
  6. Biological Degradation of Wasters Peat as an agent in biological degradation: Peat biofilters Martin, A.M.(ed.)
  7. Ph. D. thesis. Rutgers- The State University of New Jersey Oh, Y.-S.
  8. J. Microbiol. 35 Characterization of BTX-degrading bacteria and identification of substrate interactions during their degradation Oh, Y.-S.;S.-C. Choi
  9. Exhaust gas purification Ottengraf, S.P.P.;H.J. Rehm(ed.);G. Reed(ed.)
  10. Pertroleum Contaminated Soils Fingerprinting petroleum products: Unleaded Gasolines Potter, T.L.;P.T. Kostecki(ed.);E.J. Calabrese(ed.)
  11. Experimental Soil Microbiology. Burgess Pramer, D.;E.L. Schmidt
  12. J. Air Pollut. Contr. Assoc. v.35 Soil bed system for control of rendering plant odors Prokop, W.H.;H.L. Bohn
  13. Chem. Eng. News v.70 Top 50 chemicals production stagnated last year Reisch, M.S.
  14. J. Gen. Microbiol. v.43 The aerobic pseudomonads: a taxonomic study Stanier, R.Y.;N.J. Palleroni;M. Doudoroff
  15. Wat. Res. v.20 Elimination of hydrogen sulfide from odorous air by a wood bark biofilter Van Langenhove, H.;E. Wuyts;N. Schamp
  16. J. Environ. Sci. Health v.32 Biofiltration: A promising and cost-effective control technology for odors, VOCs and air toxics Wani, A.H.;R.M.R. Branion;A.K. Lau
  17. J. Bacteriol. v.124 Metabolism of toluene and xylenes by Pseudomonas putida (arvilla) mt-2: Evidence for a new function of the TOL plasmid Worsey, M.J.;P.A. Williams
  18. Biological Unit Processes for Hazardous Waste Treatment Economics of biofiltration for remediation projects Yudelson, J.M.;P.D. Tihari.;R.E. Hinchee(ed.);R.S. Skeen(ed.);G.D. Sayles(ed.)