武汉市陈家冲垃圾填埋场4种渗沥液处理工艺稳定性综合评价
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摘要
采用模糊层次评价法对陈家冲4种不同渗沥液处理工艺的稳定性进行综合评价,选用处理效率、控制参数、运行管理3个方面作为评价层,构建COD处理效率、氨氮处理效率、回收率、食微比(F/M)、吨药剂投加量等16个指标层参数。评价结果表明:处理效率、控制参数、运行管理稳定性等方面各工艺均有优劣,其中MBR-NF-RO-蒸发工艺综合评价最为稳定,BBR+两级Fenton-BAF次之,但具有无浓缩液产生、低碳氮比要求、抗高温等特点。
The stability of four different leachate treatment processes in Wuhan Chenjiachong was evaluated comprehensively by using FCE-AHP method. Processing efficiency,control parameters and operation management were selected as evaluation layer,and sixteen index layer parameters including COD treatment efficiency,ammonia nitrogen treatment efficiency,recovery rate,F/M,dosage per ton of agent were constructed. The result showed that each process had advantages and disadvantages in terms of efficiency,control parameters and operation management stability,and MBR-NF-RO-evaporation process was the most stable,followed by BBR-two-stage Fenton-BAF process,but it had the characteristics of no concentrated liquid production,low carbon and nitrogen ratio requirements,and resistance to high temperature.
The stability of four different leachate treatment processes in Wuhan Chenjiachong was evaluated comprehensively by using FCE-AHP method. Processing efficiency,control parameters and operation management were selected as evaluation layer,and sixteen index layer parameters including COD treatment efficiency,ammonia nitrogen treatment efficiency,recovery rate,F/M,dosage per ton of agent were constructed. The result showed that each process had advantages and disadvantages in terms of efficiency,control parameters and operation management stability,and MBR-NF-RO-evaporation process was the most stable,followed by BBR-two-stage Fenton-BAF process,but it had the characteristics of no concentrated liquid production,low carbon and nitrogen ratio requirements,and resistance to high temperature.
引文
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[2]马丽丽,刘晓超.垃圾填埋场渗沥液处理技术综述[J].环境卫生工程,2006,14(1):32-35.
[3]Xu P,Valette F,Brissaud F,et al. Technical-economic modelling of integrated water management:Wastewater reuse in a French island[J]. Water Sci Technol,2001,43(10):67-74.
[4]Saaty T L. Multi-criteria descision making[M]. Pittsburgh:RWS Publications,1996.
[5]Chen M S,Wang S W. Fuzzy sets and fuzzy logic[M]. New Jersey:Prentice Hall,1995.
[6]Simon D. Sum normal optimization of fuzzy membership functions[J]. Int J Uncertain,Fuzz,2002,10(4):363-384.
[7]李佑智,檀炎,孙志涛,等.垃圾填埋场稳定化评价理论方法研究[J].环境卫生工程,2013,21(4):62-64.
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