DEGRADATION OF AZO DYE AND ELECTRICITY GENERATION USING YEAST MEDIATED MICROBIAL FUEL CELL

Fungal Territory Pub Date : 2018-08-09 DOI:10.36547/FT.2018.1.1.1-4

S. Yadav, M. Ragavan, Sanjeeb Kumar Mandal, N. Das

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引用次数: 1

Abstract

In the present study, the efficiency of yeast mediated microbial fuel cell (MFC) was investigated towards degradation of Trypan blue (azo dye) and electricity generation. Five yeast strains viz. SC1, SC2, SCD1, SCD2, and SCD3 were isolated from different sources. The internal resistance of yeast isolates was tested using ferric oxide reduction method. To maximize the power density of MFC, NaCl was added to the medium and NaCl tolerance of yeast strains was tested. Among the five isolates, SC1 and SCD2 showed maximum ferric oxide reduction and NaCl tolerance. Initially, 5 % of SC1 and SCD2 yeast culture were inoculated in wastewater containing azo dye (100 µg/ml) in a H-type MFC chamber and 250 ml conical flask used as a control. Increased growth of yeast strain in MFC chamber was noted compared to conical flask culture. The data of electricity generation was taken for 15 days and electricity generation was measured using the multimeter. Maximum electricity generation was noted in SC1 (950mV) followed by SCD2 (750mV). In addition, SC1 could degrade azo dye more efficiently than SCD2. Therefore, it may be concluded thatSC1 yeast mediated MFC can be used as a potential technology for electricity generation and degradation of azo dye in wastewater.

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偶氮染料的降解及酵母介导的微生物燃料电池发电

本研究研究了酵母介导的微生物燃料电池(MFC)在降解台盼蓝(偶氮染料)和发电方面的效率。从不同来源分离到5株酵母菌，分别为SC1、SC2、SCD1、SCD2和SCD3。采用氧化铁还原法测定了酵母菌分离株的内阻。为了使MFC的功率密度最大化，在培养基中加入NaCl，并对酵母菌的耐盐性进行了测试。在5个菌株中，SC1和SCD2表现出最大的氧化铁还原能力和耐NaCl能力。最初，将5%的SC1和SCD2酵母培养物接种于含偶氮染料(100µg/ml)的废水中，在h型MFC室和250 ml锥形烧瓶中作为对照。与锥形瓶培养相比，MFC室中酵母菌株的生长有所增加。采集15天的发电量数据，用万用表测量发电量。SC1的最大发电量为950mV，其次是SCD2 (750mV)。此外，SC1对偶氮染料的降解效率高于SCD2。因此，可以得出结论，sc1酵母介导的MFC可以作为一种潜在的发电和降解废水中偶氮染料的技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fungal Territory

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