UTILIZATION OF WASTEWATER FOR CORROSION PREVENTION OF CARBON STEEL PIPE USING SINGLE CHAMBER MICROBIAL FUEL CELLS

M. Suhaili, M. Samsudin
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引用次数: 6

Abstract

This study applies a concept Microbial Fuel Cells (MFCs) in a biological cathodic protection (CP) system. The biological CP uses the microbial properties of living microorganisms which are able to produce electrons and suffice the requirement for CP in corrosion prevention system. The electrons produce by the bacteria will be diffuse and transfer to the surface area of graphite which is use as anode. The objective of MFCs for CP is to achieve an optimum value of electro potential produce by bacteria inoculated in MFCs system as preventive measures against corrosion occurred in commonly used carbon steel pipeline. The purpose of the study is to identify the wastewater derived from industry, estuary and dairy farm animal that can give the nearest optimum value of -850 mV for CP. Prior to the objective, three different types of waste is choose as samples in this study which are palm oil mill effluent (POME), estuary water and goat’s feces. Wastewater such as POME and estuary water is stored in a freezer at the temperature below 4oC. Meanwhile goat’s feces is soak in distill water for 24 hours before it is place in a freezer. After the collection of wastewater, a proximity analysis such as pH, conductivity, salinity, COD and TSS is conducted to determine the quality of the wastewater. The 4 liter of wastewater is place in a rig and 40g of sodium acetate as substrate is mix so that it will act as medium for bacteria growth in a single chamber MFCs. The backfilling for the experiment is sand with sand to wastewater is 2L and 4L respectively. The anode (graphite) will undergoes treatment to remove contamination by soaking it in a 100% ethanol for 30 minutes and then soak in 1.0 M HCl for one hour. The electro potential reading is record periodically in hourly basis using electrical multi meter for each source of wastewater and correspondent current density and power density will be determined. In the experiment, three samples is used to represents the population of each type of wastewater in order to have accurate reading and more reliable results during analysis. A statistical analysis is use for the purpose of fulfilling the objective of the study. The result of study shows that wastewater from goat’s feces gives the lowest rate of corrosion which is 1.18 x 10-6 kg/h and followed by estuary water and palm oil mill effluent of 4 x 10-6 kg/h and 7.18 x 10-6 kg/h respectively. It is also found that the wastewater from goat’s feces achieved the highest mean negative potential of -578.07 mV while standard cathodic protection is -850 mV.
利用单室微生物燃料电池对废水进行碳钢管道防腐
本研究将微生物燃料电池概念应用于生物阴极保护(CP)系统。生物CP利用了活微生物产生电子的微生物特性,满足了防腐系统对CP的要求。细菌产生的电子将扩散并转移到用作阳极的石墨表面。mfc用于CP的目的是使细菌接种mfc系统产生的电势达到最佳值,以防止常用碳钢管道发生腐蚀。本研究的目的是确定来自工业、河口和奶牛场动物的废水,这些废水可以为CP提供-850 mV的最优值。在此目标之前,本研究选择了三种不同类型的废物作为样本,它们是棕榈油厂废水(POME)、河口水和山羊粪便。像POME和河口水这样的废水被储存在温度低于4摄氏度的冰柜里。同时,山羊的粪便在蒸馏水中浸泡24小时,然后放入冰箱。废水收集后,进行pH、电导率、盐度、COD、TSS等接近性分析,确定废水的水质。将4升废水置于一个钻机中,并将40克醋酸钠作为底物混合,使其作为单室mfc中细菌生长的培养基。试验回填材料为砂土,砂土对废水的回填量分别为2L和4L。将阳极(石墨)在100%乙醇中浸泡30分钟,然后在1.0 M盐酸中浸泡1小时,以去除污染。用电万用表每小时定期记录每个污水源的电势读数,并确定相应的电流密度和功率密度。在实验中,为了在分析时得到准确的读数和更可靠的结果,使用三个样本来代表每种废水的种群。统计分析是为了实现研究的目标而使用的。研究结果表明,山羊粪便废水的腐蚀速率最低,为1.18 × 10-6 kg/h,其次是河口水和棕榈油厂废水,分别为4 × 10-6 kg/h和7.18 × 10-6 kg/h。山羊粪便废水的平均负电位最高,为-578.07 mV,而标准阴极保护为-850 mV。
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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