固体含量对牛粪高固体厌氧消化影响的新见解：动力学和微生物群落动态

Novel insights of impacts of solid content on high solid anaerobic digestion of cow manure: Kinetics and microbial community dynamics.

作者信息

Abid Muhammad, Wu Jing, Seyedsalehi Mahdi, Hu Yu-Ying, Tian Guangliang

机构信息

State Key Joint Laboratory of Environment Simulation and Pollution Control, School of Environment, Tsinghua University, Beijing 100084, China.

出版信息

Bioresour Technol. 2021 Aug;333:125205. doi: 10.1016/j.biortech.2021.125205. Epub 2021 Apr 24.

DOI:10.1016/j.biortech.2021.125205

PMID:33932808

Abstract

High solid anaerobic digestion has become the mainstream technology for sustainable on-farm treatment of solid wastes but has not been optimized with respect to increasing solid content in cow manure (CM). In the present study, CM was batch digested at total solid (TS) of 5%, 10%, 15% and 20% and microbial communities were investigated. The process remained stable up to 15% TS. The biomethane production rate at TS of 10% and 15% was reported to be 352.2 mL g VS and 318.6 mL g VS, reaching up to 83% and 75% of TS 5% biomethane, respectively. Kinetics results disclosed that the biodegradable organics could be utilized at increasing solid content with decreasing hydrolysis rate. The abundances of hydrogenotrophic and methylotrophic methanogens increased significantly with increasing solid content. This study is of great importance for understanding and application of high solid anaerobic digestion of cow manure.

摘要

高固体厌氧消化已成为农场固体废弃物可持续处理的主流技术，但在提高牛粪（CM）固体含量方面尚未得到优化。在本研究中，对CM在总固体（TS）含量为5%、10%、15%和20%的条件下进行分批消化，并对微生物群落进行了研究。该过程在TS含量达到15%时仍保持稳定。据报道，TS含量为10%和15%时的生物甲烷产率分别为352.2 mL g VS和318.6 mL g VS，分别达到TS含量为5%时生物甲烷的83%和75%。动力学结果表明，随着固体含量的增加，可生物降解有机物的利用速率降低，水解速率也降低。随着固体含量的增加，氢营养型和甲基营养型产甲烷菌的丰度显著增加。本研究对于理解和应用牛粪的高固体厌氧消化具有重要意义。

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Novel insights of impacts of solid content on high solid anaerobic digestion of cow manure: Kinetics and microbial community dynamics.固体含量对牛粪高固体厌氧消化影响的新见解：动力学和微生物群落动态

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固体含量对牛粪高固体厌氧消化影响的新见解：动力学和微生物群落动态

Novel insights of impacts of solid content on high solid anaerobic digestion of cow manure: Kinetics and microbial community dynamics.

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