OPTIMIZATION PERFORMANCE OF BIOLOGICAL CATHODIC PROTECTION SYSTEM USING ORGANIC WASTE

E. Masri, M. Samsudin
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引用次数: 4

Abstract

In this study, the concept of Microbial Fuel Cells (MFCs) is applied in the biological cathodic protection (CP) system. MFCs are a promising technology for electricity production from a variety of materials. Impressed current cathodic protection (ICCP) was the tradition method used in corrosion control method. Biological CP uses the microbiological presence in wastewater to generate the electrons. The focus of this study is on the effect of organic waste towards the biological CP system. The selected organic wastes are orange peel and pineapple peel. The presence of starch and sugar in the organic waste are promote the microbial growth and increase the performance of biological CP system. The method used to prepare the substrate was based on the previous studies and the CP system was a single chamber system. Current and power density was calculated from the experimental data of the specific weight of substrates and the results was discussed in this study. The weight of substrate are manipulated for each experiment. The statistical analysis was done on the voltage potential output for the selected optimum substrate’s weight and the result was varies for each of organic waste used. The highest voltage potential output by the CP system was 920 mV (20 grams of orange peel) and 1046 mV (40 grams of pineapple peel).
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利用有机废物的生物阴极保护系统性能优化
本研究将微生物燃料电池(mfc)的概念应用于生物阴极保护(CP)系统。mfc是一种很有前途的技术,可以从各种材料中生产电力。外加电流阴极保护(ICCP)是传统的腐蚀控制方法。生物CP利用废水中的微生物产生电子。本研究的重点是有机废物对生物CP系统的影响。选择的有机废物是橘子皮和菠萝皮。有机废物中淀粉和糖的存在促进了微生物的生长,提高了生物CP系统的性能。制备底物的方法基于前人的研究,CP体系为单室体系。根据衬底比重的实验数据计算了电流密度和功率密度,并对结果进行了讨论。每次实验都要调整基质的重量。统计分析了所选择的最佳衬底重量的电压电位输出,结果因使用的每种有机废物而异。CP系统输出的最高电压电位为920 mV(20克橘子皮)和1046 mV(40克菠萝皮)。
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