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光合产氢-微生物燃料电池耦合系统的能量回收与废水处理特性 被引量:2

Behavior of Photosynthetic Hydrogen Production-Microbial Fuel Cell Coupled System for Energy Recovery and Wastewater Treatment
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摘要 本文构建了由生物膜光合产氢反应器和单室无膜空气阴极微生物燃料电池组成的耦合系统,以葡萄糖溶液为底物(模拟废水)对上述系统的能量回收和污水处理持性进行了考察。实验发现,由于耦合系统各组成部分最佳性能时所要求的底物流量不同,使系统的能量回收与废水处理效率随运行工况的变化而体现出不同的特性。当底物流量为10 mL·h^(-1)时,耦合系统能量回收效率最大,为11.2%;而当底物流量为40 mL·h^(-1)时,耦合系统的COD去除效率和功率密度达到最佳,分别为76.4%和5.97×10~5 J·m^(-3)·h^(-1)。 In this study,a coupled system combined with a biophotoreactor and an air cathode single chamber membrane-less MFC was developed and its performance in terms of energy recovery and wastewater treatment was investigated.The results showed that the energy recovery and wastewater treatment efficiency of the system exhibited different trends as the operating conditions varied.This phenomenon can be attributed to the different requirements of the biophotoreactor and MFC for the peak performance.The system exhibited the highest energy recovery rate of 11.2%at the flow rate of 10 mL·h^(-1).The maximum COD removal efficiency and power density of the system were achieved at 76.4%and 5.97×10~5 J·m^(-3)·h^(-1) at the flow rate of 40 mL·h^(-1),respectively.
作者 李俊 徐众 朱恂 叶丁丁 廖强
机构地区 重庆大学低品位能源利用技术及系统教育部重点实验室
出处 《工程热物理学报》 EI CAS CSCD 北大核心 2012年第6期1043-1046,共4页 Journal of Engineering Thermophysics
基金 国家自然科学基金(No.50806087) 国家杰出青年基金(No.50825002) 重庆市自然科学基金(No.CSTC 2008BB6176) 重庆大学"211工程"三期建设项目(No.S-09101)
关键词 耦合系统 光合产氢 微生物燃料电池 废水处理 coupled Hy.stern photosynthetic hydrogen production microbial fuel cell wastewater treatment
分类号 TK123 [动力工程及工程热物理—工程热物理]
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参考文献6

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  • 2Min Sun,Guo-Ping Sheng,Lei Zheng,Chang-Rong Xia,Zhe-Xuan Mu,Xian-Wei Liu,Hua-Lin Wang,Han-Qing Yu,Rong Qi,Tao Yu,Min Yang.An MEC-MFC-Coupled SystemforBiohydrogen Production from Acetate.[].Environmental Science and Technology.2008
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同被引文献42

  • 1祝学远,冯雅丽,李少华,李浩然,杜竹玮,罗小兵.单室直接微生物燃料电池的阴极制作及构建[J].过程工程学报,2007,7(3):594-597. 被引量:10
  • 2Shen L, Liu L T, Yao Z J, et al. [J]. Environmental Manage ment,2010,46(4) :539-554.
  • 3Panepinto D, Genon G. [J]. Waste and Biomass Valorization, 2012,3(2):197-206.
  • 4Lidija Cucek, Jiri Jaromir Klemes, Zdravko Kravanja. [J]. Clean Technologies and Environmental Policy, 2012,14 (3) : 389-397.
  • 5Kering M K,Biermacher J T,Butler T J,et al.[J]. BioEnergy Research, 2012,5 ( 1 ) : 71-78.
  • 6David Bransby. [J]. BioEnergy Research, 2012,5(3) : 636.
  • 7Deborah Panepinto, Giuseppe Genon. [J]. Waste and Biomass Valorization, 2012,3 (2): 197-206.
  • 8Ren H, Lee H S, Chae J. Miniaturizing microbial fuel cells for poten tial portable power sources: promises and challenges [J/OL]. http://www, springerlink, com/content/536nh8748t255142/, 2012-02-08/2012-05-05.
  • 9中国科学院广州能源研究所.一种垃圾渗滤液的高效处理新方法[P].CN201210005430.3,2012-07-18.
  • 10Nasirahmadi S, Safekordi A A. [J]. International Journal of En vironmental Science and Technology, 2012,9 (3): 473-478.

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二级引证文献4

工程热物理学报
2012年 第6期

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