首页|期刊导航|化工进展|初始pH调控对MEC脱硫性能的影响及其微生物作用机制

初始pH调控对MEC脱硫性能的影响及其微生物作用机制

郭萌郭美欣魏思佳赵玉娇贾璇

化工进展2024，Vol.43Issue(4)：2219-2225,7.

化工进展2024，Vol.43Issue(4)：2219-2225,7.DOI:10.16085/j.issn.1000-6613.2023-0686

初始pH调控对MEC脱硫性能的影响及其微生物作用机制

Effect of pH on MEC desulfurization performance and microbial mechanism of action

郭萌 ¹郭美欣 ¹魏思佳 ¹赵玉娇 ¹贾璇¹

作者信息

1. 北京工商大学国家环境保护食品链污染防治重点实验室,北京 100048||北京工商大学中国轻工业清洁生产和资源综合利用重点实验室,北京 100048
折叠

摘要

Abstract

The use of microbial electrolysis cells(MEC)technology,in conjunction with the cooperative action of electroactive microorganisms on the anode,achieves the removal of sulfides.This is a new process for biogas desulfurization and a research hotspot.For long-term operation of the desulfurization MEC process,non-specific cation competition causes proton transfer from the anode to the cathode to be impeded,resulting in low desulfurization efficiency and unstable operation.In this study,different initial pH values were used to regulate the proton balance in the desulfurization MEC.Through analysis of desulfurization performance,electrochemical performance,and microbial kinetics,the influence of pH regulation on the desulfurization performance of the MEC and the microbial mechanism were elucidated.The findings demonstrated that highly effective and stable anode biofilms capable of removing sulfides could be established at initial pH between 7 and 9,with comparable maximum current densities,sulfide removal efficiencies exceeding 95％,and COD removal rates over 80％.In comparison to initial pH of 8 and 9,pH fluctuation during the desulfurization process was minimized at an initial pH of 7,contributing to greater MEC stability and S2-removal rates reaching up to 100％.The oxidation-reduction peak of the anode biofilm was pronounced,with accelerated proton and electron transfer rates.Thiomonas and Desulfovibrio microorganisms were dominant,exhibiting higher abundance and primarily involved in the oxidation removal of sulfides.These results underscored the importance of regulating the initial pH of the MEC anode chamber to improve MEC desulfurization efficiency and operational stability while providing valuable technical support for microbial electrochemical biogas desulfurization applications.

关键词

微生物电解池/脱硫/初始pH/传质/生物膜

Key words

microbial electrolysis cells(MEC)/desulfurization/initial pH/mass transfer/biofilm

分类

资源环境

引用本文复制引用

郭萌,郭美欣,魏思佳,赵玉娇,贾璇..初始pH调控对MEC脱硫性能的影响及其微生物作用机制[J].化工进展,2024,43(4):2219-2225,7.

基金项目

国家重点研发计划(2019YFD1100304). （2019YFD1100304）

化工进展

OA北大核心CSTPCD

ISSN：1000-6613

访问量0

下载量0

段落导航