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Factorial Design and Response Surface Optimization for Enhancing a Biodesulfurization Process

PETROLEUM SCIENCE AND TECHNOLOGY (2014)

Journal

PETROLEUM SCIENCE AND TECHNOLOGY

Volume 32, Issue 14, Pages 1669-1679

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TAYLOR & FRANCIS INC

DOI: 10.1080/10916466.2014.892988

Keywords

factorial design; response surface methodology; biodesulfurization; dibenzothiophene

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Abstract

Based on five levels of full factorial design, response surface methodology was used for modeling, optimization, and studying the interactive effects of two variables, nitrogen source and carbon co-substrate, in a batch process for dibenzothiophene biodesulfurization, using a new Gram-positive bacterial isolate R. erythropolis HN2 (accession no. KF018282). The optimum operating conditions were found to be 0.35g/L yeast extract and 0.09M glycerol.

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Factorial Design and Response Surface Optimization for Enhancing a Biodesulfurization Process

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PETROLEUM SCIENCE AND TECHNOLOGY

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TAYLOR & FRANCIS INC

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Factorial Design and Response Surface Optimization for Enhancing a Biodesulfurization Process

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PETROLEUM SCIENCE AND TECHNOLOGY

Publisher

TAYLOR & FRANCIS INC

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