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Development of More Effective Biosurfactants for Enhanced Oil Recovery. Semi-Annual Report.

DE2003807189

Publication Date	2001
Personal Author	McInerney, M. J.; Mouttaki, H.; Folmsbee, M.; Knapp, R.; Nagle, D.
Page Count	42
Abstract	Bacillus mojavensis JF-2 (JF-2) grew and synthesized biosurfactant under anaerobic conditions in sand-pack columns in the presence of other competing organisms. The surface tension of the column effluent was 38 mN/m when the columns were injected with an inoculum size of 10 to the 8th power cells/ml. A slightly higher surface tension (44 mN/m) was obtained when the inoculum size was 10 to the 4th power cells/ml. Growth with glucose gave the fastest growth rate for Bacillus mojavensis JF-2 (JF-2) and monosaccharides in general were the preferred carbon source. The fastest growth rate occurred with a glucose concentration of 77 mM. Fructose appeared to produce the highest growth yield. The sample preparation steps used for high performance liquid chromatography (HPLC) analysis resulted in a biosurfactant recovery (from culture supernatant) of about 70%. The presence of Proteose peptone no. 2 (PP2) in the medium led to increased biosurfactant production under anaerobic conditions. The biosurfactant was present after extended incubation suggesting that production of biosurfactant was not confined to the exponential phase of growth under anaerobic conditions. Although it is not known exactly when maximum production of biosurfactant occurred, the data suggests that biosurfactant production occurred during stationary phase since maximal growth was reached by 48 hrs.
Keywords	Enhanced recovery Oil spills Biosurfactants Brine saturation Growth conditions Pressure measurements Colony hybridization Analytical measurements Crude oil Anaerobic conditions Bacteria Microorganisms Bacillus mojavensis
Source Agency	Technical Information Center Oak Ridge Tennessee
Corporate Authors	Oklahoma Univ., Norman. Dept. of Botany and Microbiology.; Department of Energy, Washington, DC.
Supplemental Notes	Sponsored by Department of Energy, Washington, DC.
Document Type	Technical Report
Title Note	Rept. for 1 Oct 00-31 Mar 01.
NTIS Issue Number	200316

Development of More Effective Biosurfactants for Enhanced Oil Recovery. Semi-Annual Report.

Development of More Effective Biosurfactants for Enhanced Oil Recovery. Semi-Annual Report.
DE2003807189

Publication Date	2001
Personal Author	McInerney, M. J.; Mouttaki, H.; Folmsbee, M.; Knapp, R.; Nagle, D.
Page Count	42
Abstract	Bacillus mojavensis JF-2 (JF-2) grew and synthesized biosurfactant under anaerobic conditions in sand-pack columns in the presence of other competing organisms. The surface tension of the column effluent was 38 mN/m when the columns were injected with an inoculum size of 10 to the 8th power cells/ml. A slightly higher surface tension (44 mN/m) was obtained when the inoculum size was 10 to the 4th power cells/ml. Growth with glucose gave the fastest growth rate for Bacillus mojavensis JF-2 (JF-2) and monosaccharides in general were the preferred carbon source. The fastest growth rate occurred with a glucose concentration of 77 mM. Fructose appeared to produce the highest growth yield. The sample preparation steps used for high performance liquid chromatography (HPLC) analysis resulted in a biosurfactant recovery (from culture supernatant) of about 70%. The presence of Proteose peptone no. 2 (PP2) in the medium led to increased biosurfactant production under anaerobic conditions. The biosurfactant was present after extended incubation suggesting that production of biosurfactant was not confined to the exponential phase of growth under anaerobic conditions. Although it is not known exactly when maximum production of biosurfactant occurred, the data suggests that biosurfactant production occurred during stationary phase since maximal growth was reached by 48 hrs.
Keywords	Enhanced recovery Oil spills Biosurfactants Brine saturation Growth conditions Pressure measurements Colony hybridization Analytical measurements Crude oil Anaerobic conditions Bacteria Microorganisms Bacillus mojavensis
Source Agency	Technical Information Center Oak Ridge Tennessee
Corporate Authors	Oklahoma Univ., Norman. Dept. of Botany and Microbiology.; Department of Energy, Washington, DC.
Supplemental Notes	Sponsored by Department of Energy, Washington, DC.
Document Type	Technical Report
Title Note	Rept. for 1 Oct 00-31 Mar 01.
NTIS Issue Number	200316