Enhancement of the Efficiency of Bioethanol Production by Saccharomyces cerevisiae via Gradually Batch-Wise and Fed-Batch Increasing the Glucose Concentration

High initial glucose concentrations may inhibit glucose utilization and decrease ethanol fermentation efficiency. To minimize substrate inhibition, the effects of feeding yeast with different glucose concentrations on the ethanol production by batch and fed-batch cultures in a 5-L fermentor were inv...

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Published in	Fermentation (Basel) Vol. 4; no. 2; p. 45
Main Authors	Chang, Yi-Huang, Chang, Ku-Shang, Chen, Chien-Yu, Hsu, Chuan-Liang, Chang, Tsan-Chang, Jang, Hung-Der
Format	Journal Article
Language	English
Published	Basel MDPI AG 13.06.2018
Subjects	Batch culture bioethanol Biofuels Biomass Cell culture Culture Enzymes Ethanol Fed-batch culture Fermentation fermentor Food science Genetic engineering Glucose glucose inhibition Glucose metabolism Growth rate Medical technology Metabolism Saccharomyces cerevisiae Yeast Taiwan
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Abstract	High initial glucose concentrations may inhibit glucose utilization and decrease ethanol fermentation efficiency. To minimize substrate inhibition, the effects of feeding yeast with different glucose concentrations on the ethanol production by batch and fed-batch cultures in a 5-L fermentor were investigated. When a batch culture system with Saccharomyces cerevisiae was used for ethanol fermentation with glucose concentrations ranging 10–260 g/L, as a result, 0.2–7.0 g/L biomass and 5.1–115.0 g/L ethanol were obtained. However, substrate inhibition was observed with the initial glucose concentrations greater than 200 g/L in the fermentative media. When a fed-batch culture system (an initial glucose concentration of 180 g/L and total glucose concentration of 260 g/L) was performed, the maximum ethanol concentrations and ethanol yield were significantly higher than those of the batch cultures. The cell biomass, maximum ethanol concentration, and ethanol yields for the fed-batch fermentation cultures were 8.3 g/L, 130.1 g/L and 51% (100% of the theoretical value), respectively. The results indicated that high ethanol concentration and ethanol yield could be achieved by the fed-batch cultures with total glucose concentrations up to 260 g/L.
AbstractList	High initial glucose concentrations may inhibit glucose utilization and decrease ethanol fermentation efficiency. To minimize substrate inhibition, the effects of feeding yeast with different glucose concentrations on the ethanol production by batch and fed-batch cultures in a 5-L fermentor were investigated. When a batch culture system with Saccharomyces cerevisiae was used for ethanol fermentation with glucose concentrations ranging 10–260 g/L, as a result, 0.2–7.0 g/L biomass and 5.1–115.0 g/L ethanol were obtained. However, substrate inhibition was observed with the initial glucose concentrations greater than 200 g/L in the fermentative media. When a fed-batch culture system (an initial glucose concentration of 180 g/L and total glucose concentration of 260 g/L) was performed, the maximum ethanol concentrations and ethanol yield were significantly higher than those of the batch cultures. The cell biomass, maximum ethanol concentration, and ethanol yields for the fed-batch fermentation cultures were 8.3 g/L, 130.1 g/L and 51% (100% of the theoretical value), respectively. The results indicated that high ethanol concentration and ethanol yield could be achieved by the fed-batch cultures with total glucose concentrations up to 260 g/L.
Author	Hsu, Chuan-Liang Chang, Yi-Huang Chen, Chien-Yu Chang, Tsan-Chang Chang, Ku-Shang Jang, Hung-Der
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SubjectTerms	Batch culture bioethanol Biofuels Biomass Cell culture Culture Enzymes Ethanol Fed-batch culture Fermentation fermentor Food science Genetic engineering Glucose glucose inhibition Glucose metabolism Growth rate Medical technology Metabolism Saccharomyces cerevisiae Yeast
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Title	Enhancement of the Efficiency of Bioethanol Production by Saccharomyces cerevisiae via Gradually Batch-Wise and Fed-Batch Increasing the Glucose Concentration
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