一些酵母菌分离株用于甘蔗糖蜜发电的潜力

Egyptian Sugar Journal Pub Date : 2018-12-01 DOI:10.21608/esugj.2018.228116

A. Zohri, S. Hassan, Rehab M. F. Kassim

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引用次数: 1

摘要

微生物燃料电池(mfc)被认为是污水处理和发电领域中简单而强大的技术。中期应用可按市场价值价格预测。这项技术可能被证明是一项有前途的有机废物转化为电能的新技术。本研究从20份甘蔗糖蜜样品中分离到40株酵母菌。研究了21株酵母菌从甘蔗糖蜜中发电的潜力。所有的分离株都有发电的能力。其中4株(分离株数:my9、MY10、MY18和MY19)为高产菌株。它们的功率密度分别为59.858、61.25、52.8125和47.432 mW/ m2。甘蔗糖蜜酵母分离物MY10表现出最高功率密度(P) (61.25 mW/ m2)、最高电流(I) (0.175mA/ m2)和最高电压(V) (350mV/ m2)。该分离物经18S rRNA序列鉴定为吉列蒙氏沼菌，并存入基因库核苷酸序列数据库，登录号为KY624417。

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Potentiality of Some Yeast Isolates for Electricity Generation from Sugarcane Molasses

Microbial fuel cells (MFCs) are considered simple and robust technology in the field of wastewater treatment as well as electricity generation. The middle-term application can be foreseen at market value prices. This technology might become certified as a prospective new technology for the conversion of organic wastes to electricity. In the current study, a total of 40 yeast isolates were collected from 20 samples of sugarcane molasses. Twenty-one yeast isolates were examined for their potential to produce electricity from sugarcane molasses. All isolates had the ability to produce electricity. Four of them (isolates number: MY 9, MY10, MY18 and MY19 were considered as high producers. They yielded power densities of 59.858, 61.25, 52.8125 and 47.432 mW/m 2 , respectively. Yeast isolate MY10 from sugarcane molasses showed the highest power density (P) (61.25 mW/m 2 ), highest current (I) (0.175mA/m 2 ) and highest voltage (V) (350mV/m 2 ). This isolate was identified based on 18S rRNA sequences as Meyerozyma guilliermondii and deposited in the Gene bank nucleotide sequence database under accession numbers KY624417.

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Egyptian Sugar Journal

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