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Citation: Zhang Jiafeng, Wang Li, Sun Yang. Synthesis of Methanol by Microbial Fucl Cell Reverses Reduction of CO₂[J]. Chemistry, ;2016, 79(10): 958-962. shu

Synthesis of Methanol by Microbial Fucl Cell Reverses Reduction of CO₂

1.
College of Natural Resource and Environment Engineering, Wuhan University of Science and Technology, Wuhan 430081

Corresponding author: Wang Li,
Received Date: 20 April 2016
Available Online: 18 May 2016
Fund Project:

Microbial fuel cell (MFC) reactor makes use of hydrogen-producing microorganisms that attached to the anode to absorb the CO₂ Gas, at the same time reversibly turn it into high value biofuels. Fusiform spore fungus Clostridium sp. separated from cow dung was chose as the bacteria for synthesizing biofuels. Cyclic voltammetry test was proceed in MFC reactor by accessing to electrochemical workstation. When reduction reaction occured, the reduction peak appeared at -0.5 V. While using constant voltage DC electrolysis, the synthetic biofuel is methanol. The methanol cumulants come to the maximum of 3.13 mmol/L at 24 h; when CO₂ gas proportion is 15%, the maximum methanol cumulants is 2.98 mmol/L. When bacterial inoculum is 1mL, the methanol cumulants reaches the maximum of 2.76 mmol/L. Under the optimum conditions, the CO₂ conversion rate is 7.5%.
- Microbial fuel cell,
- Inverse transform,
- Electrochemical reaction,
- Methanol
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Synthesis of Methanol by Microbial Fucl Cell Reverses Reduction of CO₂