阳极-隔膜-阴极的'三合一'膜电极结构能够最大程度减小阴阳极间距,提高微生物燃料电池(microbial fuel cell,MFC)的输出功率.为进一步提高MFC性能,本研究使用非贵金属材料构建了辊压'三合一'膜电极系统,其欧姆内阻降低至3~5Ω.以乙酸钠为底物,MFC的最高功率密度达到446 m W·m-2.向阳极内添加固体小球(如聚苯乙烯球和玻璃微球)可在辊压过程中增加阳极表面和内部的大孔,强化电解液向阴极的传递从而使MFC的功率密度提升10%.添加阳离子交换树脂能够进一步强化阳极内部的质子传递,提高阴极电位,从而将功率密度提升至543 m W·m-2.此外,阳极内添加阳离子交换树脂还可提高电池运行的稳定性和库仑效率.
The feasibility and performance of nitrogen removal from municipal sewage were investigated through the completely autotrophic nitrogen removal over nitrite (CANON) process in a continuous reactor. CANON process was successfully started up with the transformation of nitrogen into gas by mass-balance analysis. For the synthetic waste-water (up to 480 mg NH4+-N/(L·d)), removal rates of the ammonia nitrogen and total nitrogen (TN) were about 80% and 55%, respectively, at 1.25 h hydraulic retention time (HRT). For the secondary effluent of municipal sewage, the effluent concentrations of NH4+-N and TN were below 5 mg/L and 9 mg/L, respectively. It is in accordance with the water quality standard for scenic environment with the reuse of urban recycling water (GB/T 18921-2002).