Abstract
Previous studies have shown that pretreatment of corn slurries using ultrasound improves starch release and ethanol yield during biofuel production. However, studies on its effects on the mass transfer of substrates and products during fermentation have shown that it can have both beneficial and inhibitory effects. In this study, the effects of ultrasound on mass transfer limitations during fermentation were examined. Calculation of the external and intraparticle observable moduli under a range of conditions indicate that no external or intraparticle mass transfer limitations should exist for the mass transfer of glucose, ethanol, or carbon dioxide. Fermentations of glucose to ethanol using Saccharomyces cerevisiae were conducted at different ultrasound intensities to examine its effects on glucose uptake, ethanol production, and yeast population and viability. Four treatments were compared: direct ultrasound at intensities of 23 and 32 W/L, indirect ultrasound (1.4 W/L), and no-ultrasound. Direct and indirect ultrasound had negative effects on yeast performance and viability, and reduced the rates of glucose uptake and ethanol production. These results indicate that ultrasound during fermentation, at the levels applied, is inhibitory and not expected to improve mass transfer limitations.
Highlights
Ethanol is the principal biofuel used in the United States, with 15,800 million gallons produced in2017
Glucose moves from the bulk liquid to the boundary layer, where the where the concentration begins to decrease due to cell uptake, to thethrough cell surface, through the concentration begins to decrease due to cell uptake, to the cell surface, the cell wall, and cell wall, and the theand cell.carbon
Direct and indirect ultrasound were applied to a medium during ethanol fermentation and its effect on glucose uptake, ethanol production, and yeast viability were investigated
Summary
Ethanol is the principal biofuel used in the United States, with 15,800 million gallons produced in2017. Various methods to improve biofuel ethanol production have been studied These include genetic enhancements to increase the range of utilizable substrates [4]; as well as pretreatments, such as hydrodynamic cavitation to improve starch release [5,6] and enzyme additions to hydrolyze cellulose [6]. Another potential method to enhance ethanol production is ultrasound treatment, which could improve the mass transfer of substrates to, and products away from, yeast cells during fermentation
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