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垃圾填埋场渗滤液处理方法及其分析 总被引:14,自引:5,他引:9
垃圾渗滤液的处理是垃圾填埋场设计、运行和管理中非赏关键而又难以解决的问题。本文结合国内外大量的工程实例,介绍了各种渗滤液处理方法,分析了各方法的特点和应用范围,指出了渗滤液处理研究的方向。 相似文献
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垃圾填埋场在填埋垃圾以后,会产生高浓度的有机废水,即渗滤液。渗滤液的特点是成分复杂、有机物含量高,垃圾填埋以后渗滤液会连续多年持续产生。因此,为防止对环境的污染,垃圾填埋场必须对渗滤液进行处理,达标后方可排放。 相似文献
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《四川环境》2019,(5)
研究利用矿化垃圾床在准好氧工况下处理不同埋龄垃圾渗滤液,对渗滤液水质如COD、BOD、氨氮和总氮等几项指标进行了监测,分析了矿化垃圾床对两种渗滤液的处理效果。结果表明,矿化垃圾床对老龄和年轻垃圾渗滤液的COD处理率分别达70.21%和88.09%,但两者出水的B/C值均0.04。同时,在对三维荧光和紫外可见光谱的分析中得出,年轻垃圾渗滤液的出水中几乎不含小分子色氨酸类有机物。并且分子量分布结果表明两体系内的小分子类有机物占比均有所提高,表明了准好氧矿化垃圾床优先降解渗滤液中的大分子有机物,使得小分子有机物占比提高。因此,准好氧矿化垃圾床可应用于不同填埋龄垃圾渗滤液的前处理中,且效果良好。 相似文献
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城市垃圾渗滤液处理技术发展现状 总被引:3,自引:0,他引:3
介绍了城市垃圾渗滤液的来源和特点,根据近些年的工程实际和实验研究结果,主要论述了垃圾渗滤液的处理方案和处理技术,包括回灌法、土地处理法、物理化学法、生物法等。对这些处理方法进行了比较,在此基础上提出了相应的建议。 相似文献
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韩静 《中国环境管理干部学院学报》2012,22(2):52-54
垃圾填埋场渗滤液属于高浓度氨氮废水,其水量、水质特性变化大,成分复杂,因此较难处理。反渗透分离技术能有效截留垃圾渗滤液中溶解态的有机和无机污染物。采用三级反渗透处理垃圾渗滤液工艺处理后的出水水质,能够满足《生活垃圾填埋污染控制标准》(DB16889-2008)要求,并把渗滤液浓缩液回灌于填埋场。 相似文献
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The results of a field survey and laboratory study indicated that nitrogenous landfill leachate treatment can be a significant potential source of N2O emission. Nil (raw leachate) to 58.8ngmL(-1)h(-1) (sequential batch reactor) N2O emission was detected at five treatment plants in South China. The production and emission of N2O was especially high soon after the raw leachate was aerated. The emission was positively correlated with the dissolved N2O content in leachate; detected dissolved N2O ranged from 0 to 1309ngmL(-1). All leachate treatment plants studied were effective in NH4+-N removal (>95%); however, the highest N2O emission was estimated to be 0.25g N2Ocapita(-l)year(-1), comparable with the rate of N2O emission in conventional sewage treatment process. 相似文献
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Evaluation of leachate recirculation on nitrous oxide production in the Likang Landfill,China 总被引:1,自引:0,他引:1
Landfill leachate recirculation is efficient in reducing the leachate quantity handled by a leachate treatment plant. However, after land application of leachate, nitrification and denitrification of the ammoniacal N becomes possible and the greenhouse gas nitrous oxide (N2O) is produced. Lack of information on the effects of leachate recirculation on N2O production led to a field study being conducted in the Likang Landfill (Guangzhou, China) where leachate recirculation had been practiced for 8 yr. Monthly productions and fluxes of N2O from leachate and soil were studied from June to November 2000. Environmental and chemical factors regulating N2O production were also accessed. An impermeable top liner was not used at this site; municipal solid waste was simply covered by inert soil and compacted by bulldozers. A high N2O emission rate (113 mg m-2 h-1) was detected from a leachate pond purposely formed on topsoil within the landfill boundary after leachate irrigation. A high N2O level (1.09 micrograms L-1) was detected in a gas sample emitted from topsoil 1 m from the leachate pond. Nitrous oxide production from denitrification in leachate-contaminated soil was at least 20 times higher than that from nitrification based on laboratory incubation studies. The N2O levels emitted from leachate ponds were compared with figures reported for different ecosystems and showed that the results of the present study were 68.7 to 88.6 times higher. Leachate recirculation can be a cost-effective operation in reducing the volume of leachate to be treated in landfill. However, to reduce N2O flux, leachate should be applied to underground soil rather than being irrigated and allowed to flow on topsoil. 相似文献
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随着生活垃圾焚烧处理方式的不断推广,焚烧飞灰的产生量也不断增加。按照我国固体废物分类方法,焚烧飞灰属于危险废物,必须进一步处置才能进入填埋场或资源化利用。本文分析了飞灰物理化学特性,论述了常规处置技术(水泥固化、化学药剂稳定化、酸溶剂提取和熔融固化等)存在的问题。将原始飞灰直接应用于水泥、混凝土或路基材料,飞灰中高含量的重金属和盐类会产生新的环境问题。飞灰水洗可以高效去除其中的可溶性盐类,水洗飞灰在焙烧后重金属的浸出浓度远低于原始飞灰烧结后的相应浓度,飞灰水洗-焙烧技术具有很好的应用前景。 相似文献