芒果废弃物和微藻螺旋藻在生物发电中的潜在应用

Q3 Environmental Science
M. De La Cruz –Noriega, S. Rojas-Flores, R. Nazario-Naveda, Santiago M. Benites, D. Delfín-Narciso, W. Rojas-Villacorta, Felix Díaz
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引用次数: 5

摘要

有机废物和微藻的潜在利用可以产生生物电,从而减少对环境的有害影响。这些残留物之所以被利用,是因为它们含有大量能产生电子的微生物。然而,到目前为止,它们还没有同时使用。因此,本研究利用双室微生物燃料电池中的芒果废弃物和微藻螺旋藻产生生物电。在实验室规模下,采用锌和铜电极制备电池,最大电流和电压分别为7.5948±0.3109 mA和0.84546±0.314 V,衬底的最大电导率为157.712±4.56 mS/cm,最佳工作pH为5.016±0.086。在电流密度为4.484 a /cm2时,电池的内阻约为205.056±25 Ω,最大功率密度为657.958±21.114 mW/cm2。这项研究为芒果种植者和进出口公司提供了一个极好的机会,因为当这个原型大规模推广时,他们可以利用自己的废物来降低电力成本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Potential Use of Mango Waste and Microalgae Spirulina sp. for Bioelectricity Generation
Potential use of organic waste and microalgae generates bioelectricity and thereby reduces harmful effects on the environment. These residues are used due to their high content of electron-generating microorganisms. However, so far, they have not been used simultaneously. Therefore, this research uses mango waste and microalgae Spirulina sp. in double-chamber microbial fuel cells to generate bioelectricity. The cells were made at a laboratory scale using zinc and copper electrodes, achieving a maximum current and voltage of 7.5948 ± 0.3109 mA and 0.84546 ± 0.314 V, with maximum electrical conductivity of the substrate being 157.712 ± 4.56 mS/cm and an optimum operating pH being 5.016 ± 0.086. The cells showed a low internal resistance of approximately 205.056 ± 25 Ω, and a maximum power density of 657.958 ± 21.114 mW/cm2 at a current density of 4.484 A/cm2. This research provides an excellent opportunity for mango farmers and exporting and importing companies because they can use their own waste to reduce their electricity costs when this prototype is brought to a large scale.
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来源期刊
Environmental Research, Engineering and Management
Environmental Research, Engineering and Management Environmental Science-Environmental Engineering
CiteScore
2.40
自引率
0.00%
发文量
32
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.
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