29th Symposium of Malaysian Chemical Engineers 2016 | |
Ammonia removal via microbial fuel cell (MFC) dynamic reactor | |
Alabiad, I.^1 ; Ali, U.F.M.^1 ; Zakarya, I.A.^1 ; Ibrahim, N.^1 ; Radzi, R.W.^1 ; Zulkurnai, N.Z.^1 ; Azmi, N.H.^1 | |
School of Environmental Engineering, Universiti Malaysia Perlis, Kompleks Pusat Pengajian Jejawi 3, Perlis, Arau | |
02600, Malaysia^1 | |
关键词: High strength wastewater; Internal electrodes; Landfill leachate treatment; Landfill leachates; Microbial fuel cells (MFCs); Power production; Solid waste landfill; Suspended matters; | |
Others : https://iopscience.iop.org/article/10.1088/1757-899X/206/1/012079/pdf DOI : 10.1088/1757-899X/206/1/012079 |
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来源: IOP | |
【 摘 要 】
Landfill leachate is generally known as high-strength wastewater that is difficult to handle and contains dissolved extracts and suspended matter. Microbial fuel cells (MFCs) were designed to treat landfill leachate while continuously producing power (voltage output). Three different anodes were tested in MFC reactors: carbon black, activated carbon, and zinc electrodes. Movements in the MFC reactor during treatment were also a key factor for testing. Results showed a difference in ammonia levels in the three anodes used. The study compared the efficiency of static and dynamic modes of MFC in removing ammonia. Continual leachate movement in the reactor could increase the rate of removal of the ammonia components. The setup provided a viable condition for maximum removal because the reactor movement caused the sludge to disintegrate, which allowed ammonia to separate easily from the parent leachate. Ammonia removal also resulted from the transfer of ammonium through the membrane or from ammonia loss. Constant exchange of ionic content benefited the MFC performance by increasing power production and decreasing internal electrode material resistance. This paper presents the results of the analyses of leachate treatment from the solid waste landfill located in Padang Siding Landfill, Perlis. The performance of ammonia removal was enhanced using different types of electrodes. In both modes, activated carbon performed better than black carbon and zinc. The respective percentages of ammonia removal for activated carbon of dynamic over static were 96.6%, 66.6%, and 92.8% for activated carbon, zinc, and black carbon. The results provide further information on the possibility of using MFCs in landfill leachate treatment systems.
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Ammonia removal via microbial fuel cell (MFC) dynamic reactor | 313KB | download |