Kinerja Microbial Fuel Cells pada Pengolahan Limbah Cair Pemindangan dengan Membran Separator Campuran Polimer Kitosan/PVA

Journal of Agroindustrial Technology Pub Date : 2017-12-01 DOI:10.24961/J.TEK.IND.PERT.2017.27.3.235

Fajar Syahreza

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Abstract

Separator attched to MFC system can reduce the distance between cathode and anode and limit oxygen penetration to anode chamber. The use of Chitosan/polyvinyl alcohol (PVA) mixture polymer as membrane separator was expected to have ability to increase electron recovery from the substrate. The objectives of this research were to increase the standard quality of wastewater of salted boiled fish processing and to increase bioelectricity generation, through the membrane separator adding to MFC system. Separator polymer was made by blending 2% chitosan and 5% PVA solution, in different ratio of chitosan (K) and PVA (P) at 2:3 (K 2 P 3 ), 1:1 (K 1 P 1 ), 3:2 (K 3 P 2 ), and without separator. The study was carried out to measure electricity generated and to analyse of BOD, COD and TAN of the wastewater. The K 2 P 3 treatment showed the highest electricity generation with average voltage of 0.50±0.06 V, maximum current density 0,29 mA/cm 2 , and maximum power density 15.40 mW/cm 2 . The reduction of COD showed insignificantly different among treatments, but the reduction of BOD and TAN values showed significantly different. The BOD value reduced to56.54% in K 2 P 3 treatment and the TAN value reduced to 92.73% in K 1 P 1 treatment. Keywords : chitosan, microbial fuel cell, polyvinil alcohol, separator

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在MFC系统上安装隔膜可以减小阴极与阳极之间的距离，限制氧气进入阳极腔。壳聚糖/聚乙烯醇(PVA)混合聚合物作为膜分离器具有提高电子从底物中回收的能力。本研究的目的是通过在MFC系统中添加膜分离器来提高盐煮鱼加工废水的标准质量，并增加生物发电量。将2%壳聚糖与5% PVA溶液在壳聚糖(K)与PVA (P)的比例为2:3 (k2p3)、1:1 (k1p1)、3:2 (k3p2)的情况下共混制备分离聚合物。研究测量了废水的发电量，分析了废水的BOD、COD和TAN。钾磷处理的平均电压为0.50±0.06 V，最大电流密度为0.29 mA/ cm2，最大功率密度为15.40 mW/ cm2。不同处理间COD的降低量差异不显著，但BOD和TAN的降低量差异显著。钾磷处理的BOD值降至56.54%，钾磷处理的TAN值降至92.73%。关键词:壳聚糖;微生物燃料电池;聚乙烯醇

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Journal of Agroindustrial Technology

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