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Title: Pretreatment of woody biomass for biofuel production: energy efficiency, technologies, and recalcitrance
Author: Zhu, J.Y.; Pan, Xuejun; Zalesny, Ronald S. Jr. Jr.;
Source: Applied Microbiology and Biotechnology. 87: 847-857.
Publication Series: Scientific Journal (JRNL)
Description: This mini review discusses several key technical issues associated with cellulosic ethanol production from woody biomass: energy consumption for woody biomass pretreatment, pretreatment energy efficiency, woody biomass pretreatment technologies, and quantification of woody biomass recalcitrance. Both total sugar yield and pretreatment energy efficiency, defined as the total sugar recovery divided by total energy consumption for pretreatment, should be used to evaluate the performance of a pretreatment process. A post-chemical pretreatment wood size-reduction approach was proposed to significantly reduce energy consumption. The review also emphasizes using a low liquid-to-wood ratio (L/W) to reduce thermal energy consumption for any thermochemical/physical pretreatment in addition to reducing pretreatment temperature.
Keywords: recalcitrance, cellulosic ethanol, woody/forest biomass, SPORL, enzymatic hydrolysis/saccharification, pretreatment
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Zhu, J.Y.; Pan, Xuejun; Zalesny, Ronald S. Jr. 2010. Pretreatment of woody biomass for biofuel production: energy efficiency, technologies, and recalcitrance. Applied Microbiology and Biotechnology. 87: 847-857.
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