首页|期刊导航|环境工程学报|多介质人工湿地-微生物燃料电池:不同基质组合对污染物降解协同产电机制影响

多介质人工湿地-微生物燃料电池:不同基质组合对污染物降解协同产电机制影响

陈亮华何厚柱张艳刘水明汪楚乔谈超群彭小明

环境工程学报2026，Vol.20Issue(2)：415-425,11.

环境工程学报2026，Vol.20Issue(2)：415-425,11.DOI:10.12030/j.cjee.202505102

多介质人工湿地-微生物燃料电池:不同基质组合对污染物降解协同产电机制影响

Multi-media constructed wetland-microbial fuel cell:Synergistic mechanisms of pollutant degradation and electricity generation influenced by substrate combinations

陈亮华 ¹何厚柱 ²张艳 ¹刘水明 ²汪楚乔 ²谈超群 ³彭小明²

作者信息

1. 江西中煤建设集团有限公司,南昌 330001||江西中煤城乡控股有限公司,南昌 330046
2. 华东交通大学土木建筑学院,南昌 330013
3. 东南大学土木工程学院,南京 211189
折叠

摘要

Abstract

The constructed wetland-microbial fuel cell(CW-MFC)system developed in this study utilized three types of media—gravel,pyrite,and quartz sand.These media were arranged in layered and mixed configurations to form layered substrate(CW-MFC-L)and mixed substrate(CW-MFC-M)systems.The study investigated the synergistic mechanisms of these two substrate configurations(layered and mixed)on pollutant removal and electricity generation performance in CW-MFCs.Results showed that in the multi-media CW-MFC systems with layered and mixed substrate configurations,the removal rates of total phosphorus(TP)and ammonium nitrogen(NH4+-N)both decreased with increasing influent COD concentration,while COD removal efficiency and electricity generation performance initially increased and then decreased.When the influent COD concentration was 300 mg·L-1,both CW-MFC-L and CW-MFC-M achieved their maximum power densities,at 55.91 mW·m-3 and 52.58 mW·m-3,respectively.The CW-MFC-L system outperformed the CW-MFC-M system in terms of COD and TP removal as well as electricity generation,indicating that the layered substrate configuration is superior to the mixed combination in both pollutant removal and power production.Scanning electron microscopy and microbial community analysis revealed that biofilms and Fe-S compounds formed on the surfaces of the carbon felt and pyrite significantly enriched electrochemically active bacterial communities(such as Proteobacteria and Actinobacteria),whose abundance was positively correlated with system electricity generation performance.This study elucidates the impact mechanisms of substrate configuration on CW-MFC system performance and provides a theoretical basis for enhancing efficiency through optimized substrate combinations.

关键词

多介质人工湿地/人工湿地基质/人工湿地-微生物燃料电池系统/产电性能

Key words

multi-media constructed wetland/constructed wetland substrate/constructed wetland-microbial fuel cell system/electricity generation performance

分类

资源环境

引用本文复制引用

陈亮华,何厚柱,张艳,刘水明,汪楚乔,谈超群,彭小明..多介质人工湿地-微生物燃料电池:不同基质组合对污染物降解协同产电机制影响[J].环境工程学报,2026,20(2):415-425,11.

基金项目

江西中煤建设集团有限公司科研项目(2024JXZMKJ10) （2024JXZMKJ10）

江西省自然科学基金项目(20242BAB25318) （20242BAB25318）

环境工程学报

ISSN：1673-9108

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