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Microbial electrochemical technology (MET) has recently been studied to improve the efficiency of a traditional anaerobic digestion (AD). The purpose of this study was to investigate the impact of MET in the system when MET was combined with traditional AD (i.e., AD-MET). Electrodes used in the MET were Cu coated graphite electrodes. They were supplied with a voltage of 0.3 V. AD started to generate methane in 80 days. But AD-MET started to generate methane from the initial operation after the system started. It was observed that AD-MET reached steady state faster and produced higher methane yield than AD. During the steady state, the average daily methane productions in AD and AD-MET were 2.3L/d and 4.9L/d, respectively. Methane yields were 0.07-CH<sub>4</sub>/g?CODre in AD and 0.25L-CH<sub>4</sub>/g?CODre in AD-MET. In AD-MET, the production rates of total volatile fatty acids (TVFAs) and soluble chemical oxygen demand (SCOD) were 0.12 mg TVFAs/mg VS?d and 0.35 mg SCOD/mg VS?d, respectively. They were significantly (p < 0.05) higher than those in AD. However, the concentrations of residual TVFAs in both systems were not significantly (p > 0.05) different from each other, confirming that methane conversion in AD-MET was greater than that in AD.
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참고문헌 (23)
참고문헌 신청
Ahring, B. K. / 1995 / Volatile Fatty Acids as Indicators of Process Imbalance in Anaerobic Digestors / Applied Microbiology Biotechnology 43(3):559~565
Bo, T. / 2014 / A New Upgraded Biogas Production Process: Coupling Microbialelectrolysis Cell and Anaerobic Digestion in Single-Chamber, Barrel-Shape Stainless Steel Reactor / Electrochemistry Communications 45:67~70
Bougrier, C. / 2006 / Combination of Thermal Treatments and Anaerobic Digestion to Reduce Sewage Sludge Quantity and Improve Biogas Yield / Process Safety and Environmental Protection 84(B4):280~284
Braguglia, C. M. / 2015 / The Impact of Sludge Pre-Treatments on Mesophilic and Thernophilic Anaerobic Digestion Efficiency : Role of the Organic Load / Chemical Engineering Journal 270:362~271
Cheng, S. / 2009 / Direct Biological Conversion of Electrical Current into Methane by Electromethanogenesis / Environment Science Technology 43(10):3953~3958
Bo, T. / 2014 / A New Upgraded Biogas Production Process: Coupling Microbialelectrolysis Cell and Anaerobic Digestion in Single-Chamber, Barrel-Shape Stainless Steel Reactor / Electrochemistry Communications 45:67~70
Bougrier, C. / 2006 / Combination of Thermal Treatments and Anaerobic Digestion to Reduce Sewage Sludge Quantity and Improve Biogas Yield / Process Safety and Environmental Protection 84(B4):280~284
Braguglia, C. M. / 2015 / The Impact of Sludge Pre-Treatments on Mesophilic and Thernophilic Anaerobic Digestion Efficiency : Role of the Organic Load / Chemical Engineering Journal 270:362~271
Cheng, S. / 2009 / Direct Biological Conversion of Electrical Current into Methane by Electromethanogenesis / Environment Science Technology 43(10):3953~3958
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