Micro-filtration membrane (1.2 μm), hyper-filtration membrane (0.45 μm) and nano-filtration membrane (1000 Dalton) were used to characterize the particle size distribution of the organic matters in effluent le...Micro-filtration membrane (1.2 μm), hyper-filtration membrane (0.45 μm) and nano-filtration membrane (1000 Dalton) were used to characterize the particle size distribution of the organic matters in effluent leachate treated by the aged-refuse-bioreactor(ARB) installed at Laogang Refuse Landfill, Shanghai. The results showed that the particle size distribution of the treated fresh and aged leachate using the ARB were quite consistent. The organic matter with particle size below 1000 Dalton accounted for about 90%, balanced with the suspended (〉1.2 μm) and colloidal (1000 Dalton-l.2μm) matters. Hence, it is proposed that coagulation, nano-filtration and electrically chemical oxidation may be not applicable for the advanced treatment for the effluents to reach the discharge standard limit value defined in Chinese national Standard for Pollution Control on the Landfill Site of Municipal Solid Wastes (GB16889-2008), CODCr〈100 mg/L. Aged refuse bioreactor combined reverse osmosis was suggested as an economically and technically feasible technology to treat sanitary landfill leachate.展开更多
基金Acknowledgments: This work was financially supported by Science and Technology Support Plan of The Ministry of Science and Technology of People's Republic of China (No. 2006BAC02A19) China National Natural Science Foundation with Grant (No. 20177014).
文摘Micro-filtration membrane (1.2 μm), hyper-filtration membrane (0.45 μm) and nano-filtration membrane (1000 Dalton) were used to characterize the particle size distribution of the organic matters in effluent leachate treated by the aged-refuse-bioreactor(ARB) installed at Laogang Refuse Landfill, Shanghai. The results showed that the particle size distribution of the treated fresh and aged leachate using the ARB were quite consistent. The organic matter with particle size below 1000 Dalton accounted for about 90%, balanced with the suspended (〉1.2 μm) and colloidal (1000 Dalton-l.2μm) matters. Hence, it is proposed that coagulation, nano-filtration and electrically chemical oxidation may be not applicable for the advanced treatment for the effluents to reach the discharge standard limit value defined in Chinese national Standard for Pollution Control on the Landfill Site of Municipal Solid Wastes (GB16889-2008), CODCr〈100 mg/L. Aged refuse bioreactor combined reverse osmosis was suggested as an economically and technically feasible technology to treat sanitary landfill leachate.
