CAJ | 학술논문

以经过混凝处理后的新鲜垃圾渗滤液为研究对象,试验研究了恒定磁场和交变磁场对电解法处理垃圾渗滤液的影响.结果表明,恒定磁场与交变磁场都能使垃圾渗滤液COD降低;使用恒定磁场和交变磁场处理垃圾渗滤液30min后再进行电解处理,相比单独用电解处理,COD去除率分别提高了约17%和12%,恒定磁场的效果优于交变磁场;在电解的同时施加0.2970T的恒定磁场和交变磁场,相比单独使用电解处理,COD去除率分别提高了约20%和25%,交变磁场的效果优于恒定磁场.
이경과혼응처리후적신선랄급삼려액위연구대상,시험연구료항정자장화교변자장대전해법처리랄급삼려액적영향.결과표명,항정자장여교변자장도능사랄급삼려액COD강저;사용항정자장화교변자장처리랄급삼려액30min후재진행전해처리,상비단독용전해처리,COD거제솔분별제고료약17%화12%,항정자장적효과우우교변자장;재전해적동시시가0.2970T적항정자장화교변자장,상비단독사용전해처리,COD거제솔분별제고료약20%화25%,교변자장적효과우우항정자장.
The impact of static magnetic field and AC magnetic field to landfill leachate treatment of electrolysis was investigated using new landfill leachate treated by coagulation. The experimental results show that, the landfill leachate COD could go down after magnetized. Compared to treated by electrolysis lonely, the removal efficiency can increase by about 17% and 12% respectively after treated by static magnetic field and the AC magnetic field. The effect of static magnetic field is better than the AC magnetic field. Compared to treated by electrolysis lonely, the removal efficiency can increase by about 20% and 25% respectively after treated by electrolysis with static magnetic field and the AC magnetic field. The effect of the treatment with AC magnetic field is better than with the static magnetic field.