Biodesulfurization of water‐soluble coal‐derived material by Rhodococcus rhodochrous IGTS8

Rhodococcus rhodochrous IGTS8 was previously isolated because of its ability to use coal as its sole source of sulfur for growth. Subsequent growth studies have revealed that IGTS8 is capable of using a variety of organosulfur compounds as sources of sulfur but not carbon. In this article, the ability of IGTS8 to selectively remove organic sulfur from water‐soluble coal‐derived material is investigated. The microbial removal of organic sulfur from coal requires microorganisms capable of cleaving carbon‐sulfur bonds and the accessibility of these bonds to microorganisms. The use of water‐soluble coal‐derived material effectively overcomes the problem of accessibility and allows the ability of microorganisms to cleave carbon‐sulfur bonds present in coal‐derived material to be assessed directly. Three coals, two coal solubilization procedures, and two methods of biodesulfurization were examined. The results of these experiments reveal that the microbial removal of significant amounts of organic sulfur from water‐soluble coal‐derived material with treatment times as brief as 24 h is possible. Moreover, the carbon content and calorific value of biotreated products are largely unaffected. Biotreatment does result, however, in an increased hydrogen and nitrogen content and a decreased oxygen content of the coal‐derived material. The aqueous supernatant obtained from biodesulfurization experiments does not contain sulfate, sulfite, or other forms of soluble sulfur at increased concentrations in comparison with control samples. Sulfur removed from water‐soluble coal‐derived material appears to be incorporated into biomass. © 1992 John Wiley & Sons, Inc.