Development of More Effective Biosurfactants for Enhanced Oil Recovery | Zendy

J.J. McInerney | Zendy; Sung Ok Han | Zendy; Saikrishna Maudgalya | Zendy; Housna Mouttaki | Zendy; Martha Folmsbee | Zendy; Roy Knapp | Zendy; David F. Nagle | Zendy; B.E. Jackson | Zendy; M. Stuadt | Zendy; W. Frey | Zendy

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Development of More Effective Biosurfactants for Enhanced Oil Recovery

Author(s) -

J.J. McInerney,

Sung Ok Han,

Saikrishna Maudgalya,

Housna Mouttaki,

Martha Folmsbee,

Roy Knapp,

David F. Nagle,

B.E. Jackson,

M. Stuadt,

W. Frey

Publication year - 2003

Publication title -

osti oai (u.s. department of energy office of scientific and technical information)

Language(s) - English

Resource type - Reports

DOI - 10.2172/806980

Subject(s) - microbial enhanced oil recovery , bacillus licheniformis , residual oil , enhanced oil recovery , pulmonary surfactant , brine , microorganism , oil production , chemistry , food science , bacteria , pulp and paper industry , petroleum engineering , environmental science , biology , biochemistry , engineering , bacillus subtilis , organic chemistry , genetics

The objectives of this were two fold. First, core displacement studies were done to determine whether microbial processes could recover residual oil at elevated pressures. Second, the importance of biosurfactant production for the recovery of residual oil was studies. In these studies, a biosurfactant-producing, microorganisms called Bacillus licheniformis strain JF-2 was used. This bacterium produces a cyclic peptide biosurfactant that significantly reduces the interfacial tension between oil and brine (7). The use of a mutant deficient in surfactant production and a mathematical MEOR simulator were used to determine the major mechanisms of oil recovery by these two strains

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