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NTIS 바로가기대한환경공학회지 = Journal of Korean Society of Environmental Engineers, v.40 no.8, 2018년, pp.314 - 319
박영현 (부산대학교 사회환경시스템공학과) , 양희천 (부산대학교 사회환경시스템공학과) , 유재철 (부산대학교 사회환경시스템공학과) , 이태호 (부산대학교 사회환경시스템공학과)
Submerged-type microbial fuel cells (MFCs) have been developed to cost-effectively treat organics in wastewater. However, evaluation of nitrogen removal in MFCs is still limited to apply MFCs for domestic wastewater treatment. This study developed submerged MFC system consisting of 4 units and evalu...
Practical implementation of microbial fuel cells for bioelectrochemical wastewater treatment Jung 93 2013
Logan, Bruce E., Rabaey, Korneel. Conversion of Wastes into Bioelectricity and Chemicals by Using Microbial Electrochemical Technologies. Science, vol.337, no.6095, 686-690.
Liu, H., Ramnarayanan, R., Logan, B. E.. Production of Electricity during Wastewater Treatment Using a Single Chamber Microbial Fuel Cell. Environmental science & technology, vol.38, no.7, 2281-2285.
Electricity generation and microbial community structure variation depending on separator types and cathode characteristics in air-cathode MFC Yu 113 2010
Park, Younghyun, Park, Seonghwan, Nguyen, Van Khanh, Yu, Jaecheul, Torres, César I., Rittmann, Bruce E., Lee, Taeho. Complete nitrogen removal by simultaneous nitrification and denitrification in flat-panel air-cathode microbial fuel cells treating domestic wastewater. Chemical engineering journal, vol.316, 673-679.
Tremouli, Asimina, Martinos, Michalis, Bebelis, Symeon, Lyberatos, Gerasimos. Performance assessment of a four-air cathode single-chamber microbial fuel cell under conditions of synthetic and municipal wastewater treatments. Journal of applied electrochemistry, vol.46, no.4, 515-525.
Kim, Kyoung-Yeol, Yang, Wulin, Ye, Yaoli, LaBarge, Nicole, Logan, Bruce E.. Performance of anaerobic fluidized membrane bioreactors using effluents of microbial fuel cells treating domestic wastewater. Bioresource technology : biomass, bioenergy, biowastes, conversion technologies, biotransformations, production technologies, vol.208, 58-63.
Yu, J., Seon, J., Park, Y., Cho, S., Lee, T.. Electricity generation and microbial community in a submerged-exchangeable microbial fuel cell system for low-strength domestic wastewater treatment. Bioresource technology : biomass, bioenergy, biowastes, conversion technologies, biotransformations, production technologies, vol.117, 172-179.
Ahn, Yongtae, Logan, Bruce E.. A multi-electrode continuous flow microbial fuel cell with separator electrode assembly design. Applied microbiology and biotechnology, vol.93, no.5, 2241-2248.
Cheng, Shaoan, Liu, Hong, Logan, Bruce E.. Increased performance of single-chamber microbial fuel cells using an improved cathode structure. Electrochemistry communications, vol.8, no.3, 489-494.
Nam, Taehui, Son, Sunghoon, Kim, Eojn, Tran, Huong Viet Hoa, Koo, Bonyoung, Chai, Hyungwon, Kim, Junhyuk, Pandit, Soumya, Gurung, Anup, Oh, Sang-Eun, Kim, Eun Jung, Choi, Yonghoon, Jung, Sokhee P.. Improved structures of stainless steel current collector increase power generation of microbial fuel cells by decreasing cathodic charge transfer impedance. Environmental engineering research, vol.23, no.4, 383-389.
Ge, Zheng, Li, Jian, Xiao, Li, Tong, Yiran, He, Zhen. Recovery of Electrical Energy in Microbial Fuel Cells. Environmental science & technology letters, vol.1, no.2, 137-141.
Kim 1120 2008
Aymerich, I., Rieger, L., Sobhani, R., Rosso, D., Corominas, Ll.. The difference between energy consumption and energy cost: Modelling energy tariff structures for water resource recovery facilities. Water research, vol.81, 113-123.
Zhang, X., He, W., Ren, L., Stager, J., Evans, P.J., Logan, B.E.. COD removal characteristics in air-cathode microbial fuel cells. Bioresource technology : biomass, bioenergy, biowastes, conversion technologies, biotransformations, production technologies, vol.176, 23-31.
Suneethi, S., Joseph, Kurian. ANAMMOX process start up and stabilization with an anaerobic seed in Anaerobic Membrane Bioreactor (AnMBR). Bioresource technology : biomass, bioenergy, biowastes, conversion technologies, biotransformations, production technologies, vol.102, no.19, 8860-8867.
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