1. Simultaneously saccharification and fermentation approach as a tool for enhanced fossil fuels biodesulfurization.
- Author
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Paixão, Susana M., Arez, Bruno F., Roseiro, José C., and Alves, Luís
- Subjects
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FOSSIL fuels , *DESULFURIZATION , *FERMENTATION , *FRUCTOSE , *ZYGOSACCHAROMYCES - Abstract
Biodesulfurization can be a complementary technology to the hydrodesulfurization, the commonly physical-chemical process used for sulfur removal from crude oil. The desulfurizing bacterium Gordonia alkanivorans strain 1B as a fructophilic microorganism requires fructose as C-source. In this context, the main goal of this work was the optimization of a simultaneous saccharification and fermentation (SSF) approach using the Zygosaccharomyces bailii strain Talf1 crude enzymes with invertase activity and sucrose as a cheaper fructose-rich commercial C-source (50% fructose) towards dibenzothiophene (DBT) desulfurization by strain 1B. The determination of optimal conditions, for both sucrose hydrolysis and DBT desulfurization was carried out through two sequential experimental uniform designs according to the Doehlert distribution for two factors: pH (5.5–7.5) and temperature (28–38 °C), with the enzyme load of 1.16 U/g/L; and enzyme load (0–4 U/g/L) and temperature (28–38 °C), with pH at 7.5. Based on 2-hydroxybiphenyl production, the analysis of the response surfaces obtained pointed out for pH 7.5, 32 °C and 1.8 U/g/L as optimal conditions. Further optimized SSF of sucrose during the DBT desulfurization process permitted to attain a 4-fold enhanced biodesulfurization. This study opens a new focus of research through the exploitation of sustainable low cost sucrose-rich feedstocks towards a more economical viable bioprocess scale-up. [ABSTRACT FROM AUTHOR]
- Published
- 2016
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