化工进展 ›› 2020, Vol. 39 ›› Issue (12): 5203-5210.DOI: 10.16085/j.issn.1000-6613.2020-0295

• 生物与医药化工 • 上一篇    下一篇

微氧EGSBBR产甲烷系统快速启动与微生物群落特性

葛大令1,2(), 周鑫1,2(), RONELRudy Koubode1,2, 阴泽阳1,2, 张伟1,2   

  1. 1.太原理工大学环境科学与工程学院,山西 晋中 030600
    2.山西省市政工程研究生教育创新中心,山西 晋中 030600
  • 出版日期:2020-12-05 发布日期:2020-12-02
  • 通讯作者: 周鑫
  • 作者简介:葛大令(1995—),男,硕士研究生,研究方向为高浓度有机废水处理。E-mail:835848380@qq.com
  • 基金资助:
    国家自然科学基金(21607111);山西省重点研发计划(2016JD16);山西省高等学校科技成果转化培育项目;山西省研究生教育创新项目(RC1900001671)

Rapid start-up and microbial community characteristics of a micro-aerobic methane-producing EGSBBR system

Daling GE1,2(), Xin ZHOU1,2(), Rudy Koubode RONEL1,2, Zeyang YIN1,2, Wei ZHANG1,2   

  1. 1.College of Environmental Science and Engineering, Taiyuan University of Technology, Jingzhong 030600, Shanxi, China
    2.Innovation Center for Postgraduate Education in Municipal Engineering of Shanxi, Jingzhong 030600, Shanxi, China
  • Online:2020-12-05 Published:2020-12-02
  • Contact: Xin ZHOU

摘要:

为实现高有机废水产甲烷快速启动,本文采用微氧膨胀颗粒污泥床生物膜反应器(EGSBBR)处理2000mg/L化学需氧量(COD)有机废水,通过逐步缩短水力停留时间和增大反应区上升流速的方式,经过34天运行系统产甲烷成功启动,COD去除率从67.5%升高至94.2%,有机负荷达1.0kgCOD/(m3·d),此时系统最大甲烷产量为582mL/d。产气量与出水pH和出水VFA浓度变化具有相关性,且污泥胞外聚合物(EPS)中的多糖、蛋白质浓度显著增加。高通量测序结果证实Methanothrix为系统产甲烷主要优势菌属,表明微氧条件甲烷产生主要通过乙酸脱羧途径形成。该研究为高浓度有机废水处理实现快速产甲烷提供了一种可借鉴的新工艺。

关键词: 微氧膨胀颗粒污泥床生物膜反应器, 启动, 产甲烷, 胞外聚合物, 微生物群落

Abstract:

To achieve rapid start-up of methanogenesis of high-concentration organic wastewater, an EGSBBR system was used to treat influent COD concentration of 2000mg/L. Methanation start-up was realized after 34 days operation through gradually shortening hydraulic retention time and increasing ascending flow velocity of the reaction zone, and the corresponding COD removal efficiency increased from 67.5% to 94.2% with the influent organic loading rate up to 1.0kgCOD/(m3·d) and the maximum methane yield of the system being 582mL/d. The methane production was correlated with the change of effluent pH and VFA concentration, and the concentrations of polysaccharide and protein in sludge EPS increased significantly. High-throughput sequencing revealed that Methanothrix was the main abundant genus, indicating that methane was mainly formed by the decarboxylation of acetic acid under microaerobic conditions. This study offers a novel reference process for rapidly achieving methanogenesis of high-strength organic wastewater treatment.

Key words: expanded granular sludge blanket biofilm reactor (EGSBBR), start-up, methanogenesis, EPS, microbial community

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