Thermophilic biodesulfurization of hydrodesulfurized light gas oils by Mycobacterium phlei WU-F1.

Recalcitrant organosulfur compounds such as dibenzothiophene (DBT) derivatives in light gas oil (LGO) cannot be removed by conventional hydrodesulfurization (HDS) treatment using metallic catalysts. The thermophilic DBT-desulfurizing bacterium Mycobacterium phlei WU-F1 grew in a medium with hydrodesulfurized LGO as the sole source of sulfur, and exhibited high desulfurizing ability toward LGO between 30 and 50 degrees C. When WU-F1 was cultivated at 45 degrees C with B-LGO (390 ppm S), F-LGO (120 ppm S) or X-LGO (34 ppm S) as the sole source of sulfur, biodesulfurization resulted in around 60-70% reduction of sulfur content for all three types of hydrodesulfurized LGOs. In addition, when resting cells were incubated at 45 degrees C with hydrodesulfurized LGOs in the reaction mixtures containing 50% (v/v) oils, biodesulfurization reduced the sulfur content from 390 to 100 ppm S (B-LGO), from 120 to 42 ppm S (F-LGO) and from 34 to 15 ppm S (X-LGO). Gas chromatography analysis with an atomic emission detector revealed that the peaks of alkylated DBTs including 4-methyl-DBT, 4,6-dimethyl-DBT and 3,4,6-trimethyl-DBT significantly decreased after biodesulfurization. Therefore, thermophilic M. phlei WU-F1, which could effectively desulfurize HDS-treated LGOs over a wide temperature range up to 50 degrees C, may be a promising biocatalyst for practical biodesulfurization of diesel oil.