Chemical Oxygen Demand Sensor Based on Microbial Fuel Cell Using Low-Cost Electrodes Fabricated from Waste Rice Husks

Proceeding of Science and Technology Pub Date : 2023-09-30 DOI:10.21625/resourceedings.v3i2.979

Soichiro Hirose, Trang Nakamoto, Kozo Taguchi

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Abstract

Environmental pollution is one of the problems that humankind must solve for a sustainable future. Monitoring of Chemical Oxygen Demand (COD) is an important indicator for monitoring the status of organic pollution in water. However, conventional methods for monitoring COD face high costs and complicated design issues. In this study, the use of microbial fuel cells (MFC) composed of low-cost and easy-to-fabricate electrodes using smoked charcoal from rice husks and Japanese ink was investigated for use in COD sensors. Rice husks are an industrial waste product. Therefore, they can be used at a low cost, and using them can help solve the waste problem, which is one of the causes of environmental pollution. With these materials, the electrodes were fabricated for the cost of $0.022/cm3. In addition, floating MFC was used for the sake of sensing COD in rivers, waterways, and lakes. The high physical stability of the block-shaped electrode used in this study allowed a biofilm to form on the anode surface by inserting the anode into the soil. The block-shaped electrodes were physically stable in solution. The results showed that there was a correlation between COD concentration (30~150 mg/L) and MFC voltage for more than four months. Block-shaped electrodes fabricated with rice husk smoked charcoal and Japanese ink would be a promising electrode for MFC to monitor COD in solution in real-time.

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基于低成本废稻壳电极微生物燃料电池的化学需氧量传感器

环境污染是人类为了可持续发展的未来必须解决的问题之一。化学需氧量(COD)监测是监测水体有机污染状况的重要指标。然而，传统的COD监测方法存在成本高、设计复杂等问题。在这项研究中，研究了微生物燃料电池(MFC)在COD传感器中的应用，该电池由低成本和易于制造的电极组成，电极由稻壳和日本墨水熏制的木炭制成。稻壳是一种工业废料。因此，它们可以以低成本使用，并且使用它们可以帮助解决废物问题，这是造成环境污染的原因之一。使用这些材料，电极的制造成本为0.022美元/立方厘米。此外，漂浮MFC还被用于河流、水道和湖泊中COD的检测。本研究中使用的块状电极具有很高的物理稳定性，通过将阳极插入土壤中，可以在阳极表面形成生物膜。块状电极在溶液中物理稳定。结果表明，COD浓度(30~ 150mg /L)与MFC电压存在4个月以上的相关性。以稻壳、烟熏木炭和日本油墨为原料制备的块状电极有望成为MFC实时监测溶液中COD的电极。

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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Proceeding of Science and Technology

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