| Title | Degradation of Gaseous BTX by Biofiltration with Phanerochaete chrysosporium |
|---|---|
| Author | Oh, Young Sook¹ · Choi, Sung Chan¹ · Kim, Yeong Kwan * |
| Address | ¹Department of Environmental Science, Hallym University; Division of Environmental and Biological Engineering, Kangwon National University |
| Bibliography | Journal of Microbiology, 36(1),34-38, 1998, |
| DOI | |
| Key Words | Biodegradation, biofiltration, BTX, Phanerochaete chrysosporium |
| Abstract | Biodegradation of benzene, toluene, and o-, m-, p-xylenes(BTX) by the white rot fungus, Phanerochaete chrysosporium was studied in a biofilter. P. chrysosporium was cultured under shaking conditions on YMG growth medium and homogenized pre-grown cells were transferred to biofilter. A preliminary batch culture experiment showed that all BTX components were degraded simultaneously without any observable substrate interactions, while the rate constant was the highest for p-xylene and lowest for benzene. For the biofiltration of the BTX, the BTX compounds were individually vaporized from 3 glass bottles containing benzene, toluene, and xylenes, respectively, by applying air flow. The vaporized fluxes of the compounds were immediately taken by the air current to the biofilter through the horizontal tube at the rim of the source other than the pollutants themselves. The effect of air flow rate (0.026~0.450 l/h) on the degradation of the compounds was evaluated in the biofilter packed with glass beads. A substantially higher degradation of all the BTX compounds was observed at higher flow rates, suggesting that mass transfer is a limiting factor in the degradation process. At a flow rate of 0.026l/h, there was no substantial difference in the extent of degradation between the two support media. |
| Download PDF | Eng_360106_34-38p.pdf |