Ultrasonic induced mechanoacoustic effect on delignification of rice straw for cost effective biopretreatment and biomethane recovery

文献信息

发布日期 2021-02-11
DOI 10.1039/D0SE01814G
影响因子 6.367
作者

Yukesh Kannah R., Kavitha S., Sivashanmugam P., Gopalakrishnan Kumar, Rajesh Banu J.


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摘要

The mass transfer limitation of biopretreatment (BAC) of rice straw biomass can be improved by a delignification process prior to BAC for energy efficient biomethane recovery. In the present study, rice straw biomass was subjected to delignification by ultrasonic homogenization. As a result, a higher lignin removal efficiency of 70.28% was achieved at an optimal biomass to water medium ratio of 0.02 (w/v) and a specific energy input of 450 kJ per kg TS. Delignification can increase the accessibility of cellulose present in the rice straw to biopretreatment. The delignified and biopretreated rice straw (Delign-BAC) sample was more efficient with a chemical oxygen demand (COD) solubilization of 35% than BAC with 21% solubilization and the control (untreated sample) with 3.2% solubilization. The lignin content of the Delign-BAC sample was 0.3 g Lāˆ’1 and it did not lead to the inhibition of methanogenesis with a specific methane production of 165.5 mL per g VS. Economic analysis exposed that Delign-BAC gained a profitable net profit (68.62 USD per ton) with a cost benefit ratio (1.23) higher than that of BAC (āˆ’22.912 USD ton and 0.62).

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