中文摘要：

采用微生物燃料电池（Microbial fuelcell，MFC）处理模拟含硫废水，硫化物能全部被氧化成单质硫或硫酸盐。MFC的最大功率密度达到（20±1）w·m^-3，库仑效率为（20±2）％。阳极中有机质的氧化与硫化物的氧化存在一定竞争关系，进水碳硫比是影响单质硫生成率的关键因素。试验中，进水碳磷质量比大于12．50：1，S^2-质量浓度为50mg·L^-1时，硫化物氧化成单质硫的转化率可达61％-77%。此外，阳极表面单质硫的积累很可能是造成MFC电极失效或运行不稳定的原因之一。

英文摘要：

A microbial fuel cell （MFC） was used to treat sulfide-bearing wastewater, which showed that sulfide could be oxidized to elemental sulfur or sulfate in the anode. The MFC generated electricity with maximum power density of（20＋1） W·m^-3 and coulombic yield of （20±2）%. C/S of influent played an important role in elemental sulfur production because of competition between acetate oxidation and element sulfur oxidation in anode. The elemental sulfur production rates of 61%-77% were achieved by sulfide oxidation when C/S was higher than 12.50：1 and sulfide concentration was 50 mg·L^-1. Accumulation of elemental sulfur on anodic electrode would be a possible reason resulting in electrodes invalidity and operational instability in MFC.