利用不同pH值的木瓜废弃物发电

Q3 Environmental Science

Environmental Research, Engineering and Management Pub Date : 2022-12-12 DOI:10.5755/j01.erem.78.4.31912

S. Rojas-Flores, M. De La Cruz –Noriega, Santiago M. Benites, D. Delfín-Narciso, L. Angelats-Silva, Felix Díaz, L. Cabanillas-Chirinos

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引用次数: 2

摘要

由于缺乏足够的储存，大量的水果浪费正在成为一个巨大的环境和社会问题。其中最丰富的废物是木瓜，由于其在各种品种的高消费量。这些废弃物可以通过有机废弃物产生生物电，是pH的重要参数。本研究制作了实验室规模的低成本微生物燃料电池，以木瓜废弃物为燃料，在不同的pH(4、5.73、7和9)下获得最佳的工作pH。在pH为7的电池中，可以观察到第16和14天的最大电流和电压分别为17.97 mA和1.02 V;pH值最低的是带pH值的细胞。电导率从第一天开始升高，pH为7的细胞电导率峰值为172.50 mS/cm。然而，内阻值较低，pH为4时最大(234.61±34 Ω)， pH为7时最小(46.543±3.6 Ω)。同样，当pH值为7时，电池的最大功率密度约为645.74±33.64 mW/cm2，电流密度为5.42 a /cm2。

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Generation of Electricity Through Papaya Waste at Different pH

A large amount of fruit waste is being a great environmental and social problem due to a lack of adequate storage. Among the most abundant waste is papaya, due to its high consumption in various varieties. These wastes can generate bioelectricity through organic waste, being an important parameter the pH. In this research, low-cost laboratory-scale microbial fuel cells were fabricated, using papaya waste as fuel at different pH (4, 5.73, 7, and 9) to obtain the optimum operating pH. It was possible to observe the maximum values of electric current and voltage of 17.97 mA and 1.02 V on days 16 and 14, in the cell with pH 7; while the cell with pH was the one that showed the lowest values. The electrical conductivity values increased from the first day, observing a maximum peak of 172.50 mS/cm for the cell with pH 7. However, the internal resistance values were low, the maximum value being for the cell with pH 4 (234.61 ± 34 Ω) and the minimum for the cell with pH 7 (46.543 ± 3.6 Ω). In the same way, the maximum power density was for the cell with pH 7 of approximately 645.74 ± 33.64 mW/cm2 and a current density of 5.42 A/cm2.

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来源期刊

Environmental Research, Engineering and Management Environmental Science-Environmental Engineering

CiteScore

2.40

自引率

0.00%

发文量

期刊介绍： First published in 1995, the journal Environmental Research, Engineering and Management (EREM) is an international multidisciplinary journal designed to serve as a roadmap for understanding complex issues and debates of sustainable development. EREM publishes peer-reviewed scientific papers which cover research in the fields of environmental science, engineering (pollution prevention, resource efficiency), management, energy (renewables), agricultural and biological sciences, and social sciences. EREM’s topics of interest include, but are not limited to, the following: environmental research, ecological monitoring, and climate change; environmental pollution – impact assessment, mitigation, and prevention; environmental engineering, sustainable production, and eco innovations; environmental management, strategy, standards, social responsibility; environmental economics, policy, and law; sustainable consumption and education.