CAJ | 학술논문

酸性矿井水因 pH 值低、重金属离子含量高,难以直接采用硫酸盐还原菌生化处理．试验构建了空气阴极微生物燃料电池系统来处理酸性矿井水,有效处理废水 H ＋和重金属离子,同时还能产电．构建的空气阴极微生物燃料电池系统(污泥量40 mL,硫酸盐还原菌30 mL,阳极材料为碳布,室温)的最大功率密度达到82．24 mW/m2,最大电压为332．2 mV；硫酸根的最大去除率达到41．6,对 Zn2＋、Cu2＋、Cd2＋和 Fe2＋的去除率分别达到83．7％、77．4％、84．2％和66．8％,化学需氧量的最大去除率达到60．9％．分析认为,空气阴极微生物燃料电池有效处理废水 H ＋,弱化了 H 2 S 的生物抑制作用,强化了硫酸盐还原菌还原产生的 S2-与重金属离子生成硫化物,并经能谱分析加以验证．
산성광정수인 pH 치저、중금속리자함량고,난이직접채용류산염환원균생화처리．시험구건료공기음겁미생물연료전지계통래처리산성광정수,유효처리폐수 H ＋화중금속리자,동시환능산전．구건적공기음겁미생물연료전지계통(오니량40 mL,류산염환원균30 mL,양겁재료위탄포,실온)적최대공솔밀도체도82．24 mW/m2,최대전압위332．2 mV；류산근적최대거제솔체도41．6,대 Zn2＋、Cu2＋、Cd2＋화 Fe2＋적거제솔분별체도83．7％、77．4％、84．2％화66．8％,화학수양량적최대거제솔체도60．9％．분석인위,공기음겁미생물연료전지유효처리폐수 H ＋,약화료 H 2 S 적생물억제작용,강화료류산염환원균환원산생적 S2-여중금속리자생성류화물,병경능보분석가이험증．
Acid mine drainage (AMD)with low pH and high metal ions is difficult and costly to treat by sulfate reducing bacteria .Air cathode microbial fuel cell (MFC)is constructed to treat AMD and re-move H + .It can treat wastewater while producing electricity.The maximum power density was 82.24 mW/m2 ,maximum voltage was 332.2 mV;maximum removal of sulfate was 41.6%,Zn2 + , Cu2 + ,Cd2 + and Fe2 + removal rates were 83.7%,77.4%,84.2% and 66.8% respectively and maximum percent removal of chemical oxygen demand (COD)60.9% are obtained in MFC (activated sludge 40 mL,SRB 30 mL,carbon cloth as anode material,room temperature).It is conclnded that air cathode microbial fuel cell can effectively remove H + ,weaken the inhabitation of H 2 S on the bacteria and strengthen the forming of sulfide using metal ions,which are tested and proved by Energy Dispersive Spectrometer (EDS).