Bioethanol production from alkali-pretreated rice straw: effects on fermentation yield, structural characterization, and ethanol analysis

Ningthoujam, Reema; Jangid, Pankaj; Yadav, Virendra Kumar; Sahoo, Dipak Kumar; Patel, Ashish; Dhingra, Harish Kumar

doi:10.3389/fbioe.2023.1243856

Cited by 8 publications

(1 citation statement)

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“…Several studies on the production of bioethanol from lignocellulose have been reported. For instance, bioethanol (214.5 g•L −1 ) was produced from alkali-pretreated rice straw within seven days [158], while 25.3 g•L −1 of ethanol was produced from rice straw [159]. Table 3 presents several studies on the concentrations, yield, and productivity of bioethanol from lignocellulose.…”

Section: Alcoholsmentioning

confidence: 99%

An Overview of Lignocellulose and Its Biotechnological Importance in High-Value Product Production

Ojo

2023

Fermentation

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Lignocellulose consists of cellulose, hemicellulose, and lignin and is a sustainable feedstock for a biorefinery to generate marketable biomaterials like biofuels and platform chemicals. Enormous tons of lignocellulose are obtained from agricultural waste, but a few tons are utilized due to a lack of awareness of the biotechnological importance of lignocellulose. Underutilizing lignocellulose could also be linked to the incomplete use of cellulose and hemicellulose in biotransformation into new products. Utilizing lignocellulose in producing value-added products alleviates agricultural waste disposal management challenges. It also reduces the emission of toxic substances into the environment, which promotes a sustainable development goal and contributes to circular economy development and economic growth. This review broadly focused on lignocellulose in the production of high-value products. The aspects that were discussed included: (i) sources of lignocellulosic biomass; (ii) conversion of lignocellulosic biomass into value-added products; and (iii) various bio-based products obtained from lignocellulose. Additionally, several challenges in upcycling lignocellulose and alleviation strategies were discussed. This review also suggested prospects using lignocellulose to replace polystyrene packaging with lignin-based packaging products, the production of crafts and interior decorations using lignin, nanolignin in producing environmental biosensors and biomimetic sensors, and processing cellulose and hemicellulose with the addition of nutritional supplements to meet dietary requirements in animal feeding.

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Section: Alcoholsmentioning

confidence: 99%