温度对有机垃圾中挥发性脂肪酸发酵增强的影响：食物和纸张成分的协同作用。

Influence of temperature on enhancement of volatile fatty acids fermentation from organic fraction of municipal solid waste: Synergism between food and paper components.

机构信息

School of Environment, Tsinghua University, Beijing 100084, China.

Department of Energy and Environment Engineering, Dawood University of Engineering and Technology, Karachi 74800, Pakistan.

出版信息

Bioresour Technol. 2020 May;304:122980. doi: 10.1016/j.biortech.2020.122980. Epub 2020 Feb 8.

DOI:10.1016/j.biortech.2020.122980

PMID:32062392

Abstract

This study explores individual contributions and synergistic effects of food and paper, main components of organic fraction of municipal solid waste (OFMSW) towards volatile fatty acids (VFA) fermentation under different temperatures (25, 37, 42 and 52 °C). Thanks to the synergism of food and paper component (FC & PC), the results revealed that OFMSW is suitable for VFA production. Maximum VFA production was noticed to be 21.5 mg/L at 42 °C, ~2.1, and 1.42 times higher than fermentation of PC and FC. Enhanced hydrolysis of PC occurred at >37 °C, increasing alkalinity in leachate to 6.7 g/L at 42 °C, thus maintaining a stable pH (5.4-5.6) during acidogenic fermentation. Additionally, 74% of COD is hydrolyzed, of which 79% is converted to VFA based on biodegradable carbon at 42 °C. It is suggested that co-existence of FC and PC can enhance VFA production of OFMSW, and targeted VFA production can be maximized through process optimization.

摘要

本研究探索了食品和纸张这两种城市固体废物有机部分（OFMSW）主要成分，在不同温度（25、37、42 和 52°C）下对挥发性脂肪酸（VFA）发酵的个体贡献和协同作用。由于食品和纸张成分（FC 和 PC）的协同作用，结果表明 OFMSW 适合 VFA 生产。在 42°C 时，VFA 的最大产量为 21.5mg/L，比 PC 和 FC 的发酵分别高出约 2.1 倍和 1.42 倍。PC 的水解作用在 >37°C 时增强，使浸出液中的碱度提高到 42°C 时的 6.7g/L，从而在产酸发酵过程中保持稳定的 pH 值（5.4-5.6）。此外，74%的 COD 被水解，其中 79%基于 42°C 时的可生物降解碳转化为 VFA。因此，建议 FC 和 PC 的共存可以提高 OFMSW 的 VFA 产量，并且可以通过工艺优化来最大化目标 VFA 产量。

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温度对有机垃圾中挥发性脂肪酸发酵增强的影响：食物和纸张成分的协同作用。

Influence of temperature on enhancement of volatile fatty acids fermentation from organic fraction of municipal solid waste: Synergism between food and paper components.

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