序批式厌氧消化器中逐渐提高有机负荷率实现鸡粪和小麦秸秆共消化的启动：甲烷生成和微生物群落分析。

Start-up of co-digestion of poultry litter and wheat straw in anaerobic sequencing batch reactor by gradually increasing organic loading rate: Methane production and microbial community analysis.

机构信息

Department of Biological and Agricultural Engineering, University of Arkansas, Fayetteville, AR 72701, USA.

Institute for Global Food Security, School of Biological Sciences, Queen's University Belfast, Belfast BT9 5DL, UK.

出版信息

Bioresour Technol. 2022 Jun;354:127232. doi: 10.1016/j.biortech.2022.127232. Epub 2022 Apr 26.

DOI:10.1016/j.biortech.2022.127232

PMID:35483532

Abstract

Anaerobic co-digestion (ACoD) of poultry litter (PL) and wheat straw (WS) in an anaerobic sequencing batch reactor (ASBR) for continuous bio-energy generation was started up for the first time by gradually increasing the organic loading rate (OLR). A steady-state was reached with a daily biogas production of (13.06 ± 0.21) L and methane content of (54.38 ± 0.53) %. The subsequent regular operation achieved a daily methane yield of (100.41-188.65) mL CH/g VS added and a total chemical oxygen demand (tCOD) removal rate of (70.3-85.9) % in the effluent under different operating parameters. The overall microbial community became more uniform, and the dominant aceticlastic methanogen of Methanosaeta was enriched after the start-up. While the microbial community was largely stable in the overall structure since the regular operation. Therefore, the start-up of the ACoD of PL and WS was successful with stable and continuous methane production.

摘要

首次采用序批式厌氧反应器（ASBR），通过逐渐提高有机负荷率（OLR），实现了家禽粪便（PL）和小麦秸秆（WS）的厌氧共消化（ACoD），用于连续生物能源的产生。在稳定状态下，每天的沼气产量为（13.06±0.21）L，甲烷含量为（54.38±0.53）%。随后，在不同的运行参数下，常规运行实现了每天每克挥发性固体（VS）添加量的甲烷产量为（100.41-188.65）mL CH/g 和出水中总化学需氧量（tCOD）去除率为（70.3-85.9）%。启动后，整体微生物群落变得更加均匀，优势产乙酸甲烷菌 Methanosaeta 得到了富集。而在常规运行后，微生物群落的整体结构基本稳定。因此，PL 和 WS 的 ACoD 启动成功，实现了稳定、连续的甲烷生产。

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序批式厌氧消化器中逐渐提高有机负荷率实现鸡粪和小麦秸秆共消化的启动：甲烷生成和微生物群落分析。

Start-up of co-digestion of poultry litter and wheat straw in anaerobic sequencing batch reactor by gradually increasing organic loading rate: Methane production and microbial community analysis.

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