在微生物燃料电池处理乳品废水过程中比较生物电能产生的阳极代谢。

Comparison of anodic metabolisms in bioelectricity production during treatment of dairy wastewater in Microbial Fuel Cell.

机构信息

Department of Chemical Engineering, National Institute of Technology, Tiruchirappalli 620 015, Tamil Nadu, India.

出版信息

Bioresour Technol. 2013 May;136:407-12. doi: 10.1016/j.biortech.2013.02.113. Epub 2013 Mar 7.

DOI:10.1016/j.biortech.2013.02.113

Abstract

Energy generation from dairy industry wastewater was investigated using a dual chambered Microbial Fuel Cell by aerobic and anaerobic anodic metabolism, operating with initial COD concentration of 1600 mg/L and anolyte pH of 7 produced highest power density of 192, 161 mW/m(2) and volumetric power of 3.2, 2.7 W/m(3) with COD removal efficiency of 91% and 90%, respectively. The columbic efficiency was 3.7-folds lower for aerobic metabolism compared to anaerobic metabolism with 17.17%. Effect of operating parameters such as anolyte pH and COD concentration on MFC performance was also evaluated. Anaerobic metabolism operated with COD concentration of 1600 mg/L and anolyte pH 7 showed best performances. Biofilm formation by inherent microbes of wastewater on anode was visualized by instrumental techniques. Milk processing operation runs almost through the year, hence MFC utilizing dairy industry wastewater would be a sustainable and reliable source of bio-energy generation.

摘要

采用有氧和厌氧阳极代谢的双室微生物燃料电池，以初始 COD 浓度为 1600mg/L 和阳极电解液 pH 值为 7 的方式处理乳制品工业废水，研究了其发电情况。该方法可实现最高的功率密度 192、161mW/m(2)和体积功率 3.2、2.7W/m(3)，COD 去除效率分别为 91%和 90%。与厌氧代谢相比，有氧代谢的库仑效率低 3.7 倍，为 17.17%。还评估了阳极电解液 pH 值和 COD 浓度等操作参数对 MFC 性能的影响。在 COD 浓度为 1600mg/L 和阳极电解液 pH 值为 7 的条件下进行厌氧代谢时，MFC 表现出最佳性能。通过仪器技术可以观察到废水中固有微生物在阳极上形成的生物膜。牛奶加工操作几乎全年都在进行，因此利用乳制品工业废水的 MFC 将是生物能源产生的可持续和可靠来源。

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在微生物燃料电池处理乳品废水过程中比较生物电能产生的阳极代谢。

Comparison of anodic metabolisms in bioelectricity production during treatment of dairy wastewater in Microbial Fuel Cell.

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