4.5 Article

Asphaltene biotransformation for heavy oil upgradation

Journal

AMB EXPRESS
Volume 11, Issue 1, Pages -

Publisher

SPRINGER
DOI: 10.1186/s13568-021-01285-7

Keywords

Asphaltene; Viscosity; Bacterial consortium; Heavy coil; Reactor

Funding

  1. DBT

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A 9-membered microbial consortium was isolated in this study, showing high efficiency in asphaltene biotransformation and upgrading of heavy crude oil. Experimental results from Maya crude oil demonstrated that the use of this microbial consortium can significantly reduce the viscosity of the oil.
Globally, the reserves of heavy crude oil are seven times more abundant than that of light crude, and yet, they are underutilized because of their high viscosity and density, which is largely due to the presence of large amounts of asphaltenes. Biotransformation of heavy oil asphaltenes into smaller metabolites can be used for reducing their viscosity. Several microorganisms capable of asphaltene biodegradation have been reported but only few have been characterized for its biotransformation. In the present study, a 9-membered microbial consortium was isolated from an oil contaminated soil. About 72% and 75% asphaltene biotransformation was achieved by growing cells at shake flask level and in a 1.5 l bioreactor, respectively. A representative structure of asphaltene was constructed based on LC-MS, H-1-NMR, C-13-NMR, FT-IR, ICPMS and elemental analysis (CHNS) of n-heptane purified asphaltene from Maya crude oil. Biotransformation of asphaltene, as analyzed by performing H-1-NMR, FT-IR and elemental analysis, resulted in 80% decrease in S and N when compared to the control along with incorporation of oxygen in the structure of asphaltene. About 91% decrease in the viscosity of the Maya crude oil was observed after two weeks when oil: aqueous phase ratio was 1:9. The results suggest that the isolated microbial consortium can be used for biological upgradation of heavy crude oil. To our knowledge, this is the first report where a microbial consortium resulted in such high asphaltene biotransformation.

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