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作 者:王井玉[1] 黄卫民[1] 王璇[1] 林海波[1,2] 陆海彦[1]
机构地区:[1]吉林大学化学学院,长春130012 [2]理论与计算化学国家重点实验室,长春130021
出 处:《高等学校化学学报》2013年第4期975-979,共5页Chemical Journal of Chinese Universities
基 金:国家'八六三'计划项目(批准号:2006AA06Z321);国家自然科学基金(批准号:20873051;20843001)资助
摘 要:以苯酚为燃料,生物膜电极为负极,Ti/SnO2-Sb2O5/PbO2电极为正极,构建了双室微生物燃料电池.利用微电流驯化法和自然驯化法分别制备了生物膜电极,研究了微生物的挂膜方法、挂膜时间和负极基底材料种类对微生物燃料电池产电能力的影响.结果表明,微电流驯化法优于自然驯化法,微电流驯化法制备的生物膜电极更利于电池的产电;微生物的挂膜时间为8 d时,电池的产电能力最高,其最大输出功率密度达到39 mW/m2;不同基底材料生物膜电极所组建的微生物燃料电池产电能力高低顺序为碳毡>石墨>钛网>泡沫钛。A dual-chamber microbial fuel cell(MFC) which used phenol as the fuel, biofilm electrode as the negative electrode, Ti/SnO2-Sb2O5/PbO2 electrode as the positive electrode was set up. The biofilm electrodes were prepared by micro-current culture and natural culture methods, respectively. Effects of the microbial cul- ture methods, biofilm formation time and substrate materials on the electricity generation ability of the MFC were investigated. The experimental results showed that the micro-current culture method was better than natu- ral culture method, the biofilm electrodes which were prepared by micro-current culture method had higher electricity generation ability than those prepared by natural culture method. When the biofilm formation time was 8 d, the MFC had the best electricity generation ability, and its maximum power density was 39 mW/m2. The order of the substrate materials of which the MFC with higher to lower electricity generation ability was carbon felt〉graphite〉titanium mesh〉foam titanium.
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