污泥厌氧发酵-硫酸盐还原菌耦合体系产电性能和处理酸性矿井水的研究

为原位治理高硫煤矿区酸性矿井水,建立微生物燃料电池污泥厌氧发酵-硫酸盐还原菌耦合体系,考察了电极类型、阳极面积、极间距、离子浓度对产电性能和处理酸性矿井水中的硫酸盐效果的影响.单因素试验结果表明,碳布为阳极、极间距适中(3 cm)时,产电最佳;阳极面积越小、NaCl浓度越高,功率密度越大;硫酸根去除率的最佳条件为:碳布为阳极、极间距为5 cm、离子浓度适中,阳极面积越大,对硫酸根去除率越高.以硫酸盐去除最佳条件构建单室无膜碳片为阳极的耦合产电体系,所产生的最大功率密度为2.093 3 mW/m2,10 d后污泥的COD去除率为43%,废水SO42-的平均去除速率达194.4 mg/(L·d-1...

Full description

Saved in:
Bibliographic Details
Published in煤炭学报 Vol. 38; no. 2; pp. 453 - 459
Main Author 蔡昌凤 罗亚楠 张亚飞 黄志
Format Journal Article
LanguageChinese
Published 2013
Subjects
产电性能
微生物燃料电池
污泥
硫酸盐还原菌
耦合体系
酸性矿井水
Online AccessGet full text
ISSN0253-9993

Cover

More Information
Summary:为原位治理高硫煤矿区酸性矿井水,建立微生物燃料电池污泥厌氧发酵-硫酸盐还原菌耦合体系,考察了电极类型、阳极面积、极间距、离子浓度对产电性能和处理酸性矿井水中的硫酸盐效果的影响.单因素试验结果表明,碳布为阳极、极间距适中(3 cm)时,产电最佳;阳极面积越小、NaCl浓度越高,功率密度越大;硫酸根去除率的最佳条件为:碳布为阳极、极间距为5 cm、离子浓度适中,阳极面积越大,对硫酸根去除率越高.以硫酸盐去除最佳条件构建单室无膜碳片为阳极的耦合产电体系,所产生的最大功率密度为2.093 3 mW/m2,10 d后污泥的COD去除率为43%,废水SO42-的平均去除速率达194.4 mg/(L·d-1),最高去除率为64%,比开路时的SO42-去除率提高24%.污泥厌氧发酵-硫酸盐还原菌耦合产电体系可同时实现降解剩余污泥和处理含SO42-废水.
Bibliography:11-2190/TD
Abstract:In order to treat in-situ acid mine water from high sulphur coal mining area, a coupling system using microbial fuel cell sludge anaerobic fermentation and sulfate reducing bacteria was proposed to investigate the effects of sulfate treatment and the performance of electricity generation under the conditions of different types of electrode, anode area, pole spacing, and ion concentration. The results from a single factor experiment show that the optimal performance of electricity generation is achieved with anode of carbon cloth and moderate inter-electrode distance (3 cm) , and the power density increases with the increase in NaC1 concentration and the decrease in anode area. However, the optimal conditions for sulfate removal rate are as follows:carbon cloth is anode, inter-electrode distance is 5 cm. The larger anode area achieves a higher sulfate removal rate with a moderate ion concentration. For the constructed single room without membrane carbon piece as the anode coupling system wit
ISSN:0253-9993