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Biohydrogen production by deep eutectic solvent delignification-driven enzymatic hydrolysis and photo-fermentation: Effect of liquid–solid ratio

Yanyan Jing, Fang Li, Yameng Li, Danping Jiang, Chaoyang Lu, Zhiping Zhang, Quanguo Zhang, Quanguo Zhang

2022Bioresource Technology61 citationsDOIOpen Access PDF

Abstract

Deep eutectic solvent (DES), a new green solvent, was used to pretreat corncob to enhance biohydrogen production. As a result of the pretreatment, lignin was effectively removed, and the maximum delignification efficiency of 83.12% was achieved. Moreover, the contents of cellulose in the pretreated corncob significantly increased. DES pretreatment effect improved with increasing liquid-solid ratio. The pretreated corncob's enzymatic saccharification activity and hydrogen production were promoted due to the lower content of lignin. The best result was observed at a ratio of 25:1 (DES:corncob, g/g), in which the reducing sugar concentration (53.91 g/L) and the hydrogen yield (151 mL/g) was 6.8 and 3.1 times than that of untreated corncob, respectively. In addition, the lag time of hydrogen production was obviously shortened to 16.53 h due to the utilization of abundant available fermentable sugars, which accelerated hydrogen production.

Topics & Concepts

BiohydrogenCorncobDeep eutectic solventChemistryHydrogen productionLigninFermentationFermentative hydrogen productionHydrolysisEnzymatic hydrolysisHemicelluloseDark fermentationReducing sugarSolventCellulaseCelluloseNuclear chemistryFood scienceBiochemistryHydrogenEutectic systemSugarOrganic chemistryRaw materialAlloyBiofuel production and bioconversionCatalysis for Biomass ConversionMicrobial Metabolic Engineering and Bioproduction
Biohydrogen production by deep eutectic solvent delignification-driven enzymatic hydrolysis and photo-fermentation: Effect of liquid–solid ratio | Litcius