揭示食物垃圾中关键成分在厌氧消化过程中的产甲烷途径：性能、微生物群落及影响。

Revealing the methanogenic pathways for anaerobic digestion of key components in food waste: Performance, microbial community, and implications.

机构信息

School of Environmental Science and Engineering, Key Laboratory of Water & Wastewater Treatment (HUST), MOHURD and Hubei Provincial Engineering Research Center for Water Quality Safety and Pollution Control, Huazhong University of Science and Technology, Wuhan, China.

Research Institute of Tsinghua University in Shenzhen, Shenzhen, China.

出版信息

Bioresour Technol. 2022 Mar;347:126340. doi: 10.1016/j.biortech.2021.126340. Epub 2021 Nov 12.

DOI:10.1016/j.biortech.2021.126340

PMID:34780907

Abstract

Anaerobic digestion (AD) process is widely considered the most sustainable technology for food waste (FW) disposal due to its advantage of biomethane recovery and beneficial environmental consequences. However, the effects of key components in FW (i.e. starchy food, vegetables, fruits, and meats) on AD process and their methanogenic pathways remain unclear. In this study, the biochemical methane potential (BMP) of cooked rice, cabbage, banana peel, pork and local FW was 288, 283, 254, 630, and 476 NmL CH/g VS, with t (time required for 80% methane produced) of 3, 9, 3, 11 and 11 days, respectively. Kinetic analysis suggested diverse hydrolysis rates (0.104-0.679 d) and specific methane yields (39-119 NmL CH/g VS/d). The relative abundances of key methanogens in the reactors were diverse, leading to the variation in acetoclastic and hydrogenotrophic methanogenic pathways. This study provides fundamental information for the operation of AD systems with different FW compositions.

摘要

厌氧消化（AD）工艺因其生物甲烷回收和有益的环境后果而被广泛认为是处理食物垃圾（FW）的最可持续技术。然而，FW 中的关键成分（即淀粉类食物、蔬菜、水果和肉类）对 AD 工艺及其产甲烷途径的影响尚不清楚。在本研究中，蒸煮米饭、白菜、香蕉皮、猪肉和本地 FW 的生物化学甲烷潜力（BMP）分别为 288、283、254、630 和 476 NmL CH/g VS，甲烷生成的 t（80%甲烷产生所需的时间）分别为 3、9、3、11 和 11 天。动力学分析表明水解速率（0.104-0.679 d）和特定甲烷产率（39-119 NmL CH/g VS/d）存在差异。反应器中关键产甲烷菌的相对丰度不同，导致乙酰化和氢营养型产甲烷途径的变化。本研究为具有不同 FW 成分的 AD 系统的运行提供了基础信息。

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揭示食物垃圾中关键成分在厌氧消化过程中的产甲烷途径：性能、微生物群落及影响。

Revealing the methanogenic pathways for anaerobic digestion of key components in food waste: Performance, microbial community, and implications.

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