Ethanol production in a continuous fermentation membrane pervaporation system

The productivity of ethanol fermentation processes, predominantly based on batch operation in the U.S. fuel ethanol industry, could be improved by adoption of continuous processing technology. In this study, a conventional yeast fermentation was coupled to a flat-plate membrane pervaporation unit to recover continuously an enriched ethanol stream from the fermentation broth. The process employed a concentrated dextrose feed stream controlled by the flow rate of permeate from the pervaporation unit via liquid-level control in the fermenter. The pervaporation module contained 0.1 m(2) commercially available polydimethylsiloxane membrane and consistently produced a permeate of 20%-23% (w/w) ethanol while maintaining a level of 4%-6% ethanol in a stirred-tank fermenter. The system exhibited excellent operational stability. During continuous operation with cell densities of 15-23 g/l, ethanol productivities of 4.9-7.8 gl(-1) h(-1) were achieved utilizing feed streams of 269-619 g/l glucose. Pervaporation flux and ethanol selectivities were 0.31-0.79 lm(-2) h(-1) and 1.8-6.5 respectively.