降解苯的微生物燃料电池产电性能研究

骆海萍; 张翠萍; 宋海红; 刘广立; 张仁铎

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降解苯的微生物燃料电池产电性能研究

研究论文 | 更新时间：2023-12-11

- 降解苯的微生物燃料电池产电性能研究
- Electricity Production of Microbial Fuel Cell with Biodegradation of Benzene
- 中山大学学报(自然科学版)(中英文) 2010年49卷第1期页码：113-118
- 作者机构：
  
  中山大学环境科学与工程学院,广东,广州,510275
- 作者简介：
- 基金信息：
- DOI：
  中图分类号：
- 纸质出版日期：2010，
  
  网络出版日期：2010-1-25，
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骆海萍, 张翠萍, 宋海红, 等. 降解苯的微生物燃料电池产电性能研究[J]. 中山大学学报(自然科学版)(中英文), 2010,49(1):113-118.

LUO Haiping, ZHANG Cuiping, SONG Haihong, et al. Electricity Production of Microbial Fuel Cell with Biodegradation of Benzene[J]. Acta Scientiarum Naturalium Universitatis SunYatseni, 2010,49(1):113-118.
骆海萍, 张翠萍, 宋海红, 等. 降解苯的微生物燃料电池产电性能研究[J]. 中山大学学报(自然科学版)(中英文), 2010,49(1):113-118. DOI：

LUO Haiping, ZHANG Cuiping, SONG Haihong, et al. Electricity Production of Microbial Fuel Cell with Biodegradation of Benzene[J]. Acta Scientiarum Naturalium Universitatis SunYatseni, 2010,49(1):113-118. DOI：

摘要

通过构建填料型微生物燃料电池（microbial fuel cell，MFC），对葡萄糖、苯为单一燃料和葡萄糖+苯混合燃料条件下MFC的产电性能及苯的降解效果进行了研究。试验结果表明，1 000 Ω外电阻条件下，以1 500 mg/L葡萄糖作为单一燃料时，MFC可获得的最高功率密度为228 mW/m2（阳极），相应的体积功率密度为205 W/m3（按阳极室有效体积计算）；以1 000 mg/L苯作为单一燃料时，最高功率密度为95 mW/m2（阳极），体积功率密度为09 W/m3；以1 000 mg/L葡萄糖+600 mg/L苯为混合燃料时，最高功率密度为288 mW/m2 (阳极)，相应的体积功率密度为259 W/m3。1 000 mg/L葡萄糖+600 mg/L苯混合燃料情况下，MFC在24 h内可将苯完全降解，产电周期结束时MFC的 COD去除率在95%以上。以1 500 mg/L葡萄糖和1 000 mg/L葡萄糖+600 mg/L苯分别作为燃料时，MFC可获得的库仑〖JP2〗效率分别为157%和23%。结果表明，MFC能够利用苯作为燃料，在实现高效降解的同时可稳定地向外输出电能，这为苯类难降解有机物的高效低耗处理提供了新的研究思路。

Abstract

A packingtype microbial fuel cell (MFC) was designed to test its capability of electricity production and simultaneous biodegradation of benzene. Different experiments were conducted with the MFC using glucose

benzene

and benzene + glucose

respectively

as the fuel. Results showed that with an external resistance of 1 000 Ω

the maximal power densities of the MFC were 228 and 9.5 mW/m2 (anode)

respectively

with 1 500 mg/L glucose and 1 000 mg/L benzene as the fuel (substrate). Correspondingly

the maximal volumetric power densities were 20.5 and 0.9 W/m3（calculated based on the valid net anode solution） for the glucose and benzene

respectively. When a mixed fuel of 1 000 mg/L glucose and 600 mg/L benzene was used

the maximal power density and the maximal volumetric power density were 288 mW/m2 (anode) and 25.9 W/m3

respectively. Benzene was completely degraded by the anodic microorganisms within 24 h when 1 000 mg/L glucose and 600 mg/L benzene were used as the fuel. Meanwhile

the COD removal was about 95% at the end of running cycles. For 1 500 mg/L glucose and glucosebenzene mixture

the Coulombic efficiencies of MFC were 15.7% and 2.3%

respectively. The results indicated that benzene could be used in the MFC for generating power while at the same time accomplishing biodegradation effectively. The MFC technology may provide a new method to offset treatment operating costs

making advanced remediation measure for difficultly degraded organic matters more affordable for practical applications.

关键词

微生物燃料电池苯降解产电特性

Keywords

MFCbenzene biodegradationelectricity production

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