酵母微生物燃料电池运行中各种基质对发电的影响

M. Christwardana, J. Joelianingsih, Linda Aliffia Yoshi
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引用次数: 0

摘要

为了提高单室微生物燃料电池(MFC)的效率,研究了几种碳底物,包括商品葡萄糖、原分析葡萄糖、商品糖和酵母提取物-蛋白胨- d葡萄糖(YPD)培养基。以酿酒酵母为原料,研究了不同电子供体的产能。电压和功率密度的产生被用来建立衬底的使用模式。此外,还对阳极生物膜进行了电化学分析。结果表明,鸢尾花通过阳极呼吸消耗YPD培养基的功率密度最高,为18.40±1.98 mW/m2,其次是前分析葡萄糖(9.41±1.15 mW/m2)、商品葡萄糖(1.30±0.10 mW/m2)和商品糖(0.04±0.01 mW/m2)。此外,在功率密度、发电速率和输出电压之间建立了明确的关系。在MFC中,YPD培养基、前分析葡萄糖、商品葡萄糖和商品糖产生的电压分别为0.16±0.02 V、0.13±0.03 V、0.03±0.01 V、0.01±0.00 V。生物膜的重量表明,酵母附着在YPD培养基中比在其他mfc操作的培养基中更常见。本研究发现,阳极室的底物类型调控着阳极生物膜的形成。
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The influence of various substrates on power generation in the operation of yeast microbial fuel cells
Several carbon substrates were tried, including glucose commercial, pro analysis glucose, commercial sugar, and yeast extract - peptone - d glucose (YPD) medium to improve the efficiency of the single chamber microbial fuel cell (MFC). The power production of various electron donors was investigated using baker yeast Saccharomyces cerevisiae. Voltage and power density generation were used to establish the pattern of substrate use. In addition, electrochemical analysis of the anodic biofilm was performed. S. cervisiae was shown to successfully consume YPD medium by anode respiration with a higher power density of 18.40±1.98 mW/m2, followed by pro analysis glucose (9.41±1.15 mW/m2), commercial glucose (1.30±0.10 mW/m2), and commercial sugar (0.04±0.01 mW/m2). Furthermore, a clear relationship was established between power density generating rate and voltage output. Voltages produced were 0.16±0.02 V, 0.13±0.03 V, 0.03±0.01 V, 0.01±0.00 V for YPD medium, pro analysis glucose, commercial glucose, and commercial sugar, respectively in MFC. The weight of biofilm indicated that yeast attachment was significantly more common in YPD medium than in other MFC-operated media. This study discovered that the substrate type in the anodic compartment regulates the formation of anodic biofilm.
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