![]() Gu, T., Wang, B., Zhang, Z., Wang, Z., Chong, G., Ma, C., Tang, Y. Chemo-enzymatic synthesis of furfuralcohol from chestnut shell hydrolysate by a sequential acid-catalyzed dehydration under microwave and Escherichia coli CCZU-Y10 whole-cells conversion. Technology development for the production of biobased products from biorefinery carbohydrates-The US department of energy’s “top 10” revisited. Progress in Energy and Combustion Science, 34, 551–573.īozell, J. Advance in Biotechnology, 2, 1–68.īalat, M., Balat, H., & Öz, C. Principles and development of Lignocellulosic biomass pretreatment for biofuels. Chemoenzymatic conversion of corncob to furfurylamine via tandem catalysis with tin-based solid acid and transaminase biocatalyst. Applied Biochemistry and Biotechnology, 183, 1336–1350. Microbial lipid production from enzymatic hydrolysate of Pecan nutshell pretreated by combined pretreatment. Journal of the American Oil Chemists, 88, 1831–1838. Detoxification of rapeseed meals by steam explosion. ![]() Biotechnology and Bioengineering, 86, 88–98. Effect of xylan and lignin removal by batch and flowthrough pretreatment on the enzymatic digestibility of corn stover cellulose. Toward lower cost cellulosic biofuel production using ammonia based pretreatment technologies. X., Sarks, C., Gunawan, C., Balan, V., & Dale, B. In addition, microbial lipid production from lignocellulosic biomass pretreated by effective pretreatment is discussed. In this chapter, the progress of pretreatment for enhancing the enzymatic digestion of lignocellulosic material is introduced. Over the past years, various biomass pretreatment techniques have been developed to disrupt the plant cell-wall structure of lignocellulosic biomass, facilitate subsequent enzymatic hydrolysis and microbial lipid fermentation, and successfully employed to improve biomass-to-lipid technology. Although green technologies for microbial production are advancing, the productivity and yield from these techniques are low. Pretreatment of biomass is a critical process in the conversion due to the nature and structure of the biomass cell wall that is complex. However, biomass is highly recalcitrant due to its complex structure with cellulose, hemicellulose, and lignin. Recently, the conversion of lignocellulosic biomass into microbial lipid has received significant attention replacing fossil fuels. ![]() Lipids are one kind of value-added energy-rich compounds, which can produce by oleaginous microorganisms using biomass and/or biomass-hydrolysates. To date, much attention has been paid on developing new strategies for the valorization of abundant, inexpensive, and renewable lignocellulosic biomass into liquid biofuels and chemicals.
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