垃圾卫生填埋是能对渗滤液和填埋气体进行控制的填埋方式,被广大发达国家普遍采用。
Sanitary landfill is a filling method that can control percolating and filtrating liquid and landfill gas, and universally adopted by developed countries.
以上海市生活垃圾组成为依据,通过填埋模拟柱实验研究了不同渗滤液循环方式对新鲜垃圾填埋层填埋气体(LFG)产生的影响。
Based on the typical MSW composition in Shanghai, lab-scale simulated landfill columns were used to study the effects of different leachate recirculation operations on landfill gas (LFG) production.
目前地球物理方法在探测垃圾结构、垃圾填埋范围和垃圾渗滤液等方面得到广泛应用。
At present, geophysical methods have been widely applied in detecting garbage structure, landfill scope and landfill leachate, etc.
城市垃圾填埋场渗滤液是城市垃圾在进行卫生填埋处理时,垃圾腐化产生的内源水和一些外来水分形成的液体。
Landfill leachate is composed of liquid coming from putrefaction of municipal solid waste and some external water. It has great potential threat to environments.
在污水和固体垃圾废弃物填埋的渗滤液中,氮源是一个非常重要的污染源,而氨氮又是氮源里面最主要的污染物。
The nitrogen compounds were very important pollutant in the wastewater and landfill leachate, of which ammonia was the major pollutant.
根据垃圾填埋场的设计经验和清淤污泥的特性,工程采用提供侧限的堤坝式填埋方式,并且设置了雨水分流系统、渗滤液收集系统、封场处理和填埋气体导排系统。
According to the design for the refuse landfill and the property of dredged sediment, the lateral restraint dike will be adopted for the sediment landfill, and the rainwater diversion system.
垃圾在进行填埋之后,会产生对环境造成二次污染的垃圾渗滤液。
After conducting waste landfill, leachate may produce secondary pollution on the environment.
垃圾填埋场稳定化过程中不断释放出渗滤液与填埋气体(LFG),能够产生一系列的资源与环境问题。
Leachate and landfill gas (LFG) are released continually in the process of landfill stabilization, which causes a series of resources and environment problems.
垃圾填埋场稳定化过程中不断释放出渗滤液与填埋气体(LFG),能够产生一系列的资源与环境问题。
Leachate and landfill gas (LFG) are released continually in the process of landfill stabilization, which causes a series of resources and environment problems.
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