The effects of biofilm and selective mixed culture on the electricity outputs and wastewater quality of tempe liquid waste based microbial fuel cell

T. S. Utami, R. Arbianti, M. Mariana, Nathania Dwi Karina, Vifki Leondo
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引用次数: 1

Abstract

Microbial Fuel Cell (MFC) technology is highly prospective to be developed because it could be utilized as the alternative electricity sources and simultaneously as the wastewater treatment unit using microorganism as catalyst. Industrial Tempe wastewater has the potential to be used as MFC substrate since it still contains high nutrition for microbe and could pollute the environment if it disposed before being processed first. This study focused on investigating the effect of selective mixed culture addition and biofilm formation on the electricity production and the wastewater treatment aspects with tubular single chamber membranless reactor and industrial Tempe wastewater substrate. The result showed that, with the addition of selective mixed culture, the optimum electricity production obtained with addition of 1 ml gram-negative bacteria with increase in electricity production up to 92.14% and average voltage of 17.91 mV, while the optimum decreased levels of COD and BOD obtained with addition of 5 ml gram-negative bacteria which are 29.32% and 51.32%. On the biofilm formation experiment, optimum electricity production obtained from biofilm formation time for 14 days with increase in electricity production up to 10-folds and average voltage of 30.52 mV, while the optimum decreased levels of COD and BOD obtained from biofilm formation time for 7 days which are 18.2% and 35.9%.Keywords : biofilm, Microbial Fuel Cell, selective mixed culture, Tempe wastewater, tubular reactor
生物膜和选择性混合培养对tempe废液基微生物燃料电池发电量和废水水质的影响
微生物燃料电池(MFC)技术既可以作为替代电源,又可以作为以微生物为催化剂的废水处理装置,具有广阔的发展前景。坦佩工业废水具有作为MFC基质的潜力,因为它仍然含有较高的微生物营养,如果在处理前处理可能会污染环境。采用管式单室无膜反应器和工业Tempe废水基质,研究了选择性混合培养和生物膜形成对电力生产和废水处理的影响。结果表明,在选择性混合培养条件下,添加1 ml革兰氏阴性菌的最佳产电量可达92.14%,平均电压为17.91 mV;添加5 ml革兰氏阴性菌的最佳COD和BOD降低水平分别为29.32%和51.32%。在生物膜形成实验中,生物膜形成时间为14 d的最佳产电量,产电量增加10倍,平均电压为30.52 mV,而生物膜形成时间为7 d的COD和BOD的最佳下降水平分别为18.2%和35.9%。关键词:生物膜,微生物燃料电池,选择性混合培养,坦佩废水,管式反应器
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