对于生物反应器填埋场,控制填埋场内部的水分分布是研究的关键之一。
According to bioreactor landfill, it is the key work to control the moisture distribution in landfills.
探讨了序批式生物反应器填埋场的氨氮去除率、反硝化能力以及厌氧氨氧化能力。
The removal rates of ammonia nitrogen, denitrification ability and anammox ability were investigated in three bioreactors.
生物反应器填埋场是一种新型的垃圾卫生填埋场,可以加速填埋场的稳定及甲烷的产生。
Bioreactor landfill is a new type of landfill, which can accelerate methane generation velocity and landfill stabilization.
根据垃圾的降解和稳定机理分析了生物反应器填埋场渗滤液的动态变化规律,并对其处理对策进行了探讨。
Based on the degradation mechanism of municipal solid waste in bioreactor landfill, this paper analyzes the transform trend of leachate and discusses its treatment scheme.
在对渗滤液水量和水质全面直观认识后,再对生物反应器填埋场渗滤液处理工艺进行针对性的选择和设计,并宜采用物化法处理方式。
The leachate treatment technology should be selected after overall understanding of leachate quantity and quality, and it should give priority to physicochemical m…
最后,为了遏止或减少填埋场恶臭气体污染,我们还对调节初始湿度的填埋场(R2)、渗滤液直接回灌的填埋场(R3)、生物反应器填埋场系统(R4)的主要恶臭气体成分、含量以及对主要恶臭气体的调控进行研究。
Thirdly, in order to reduce or restrain the rotten gas pollution of the landfill, it has studied the main compositions, the content and control of the rotten gas of the landfill such as R2, R3 and R4.
浓缩液回灌于垃圾填埋场,形成回灌型生物反应器。
The concentrated liquid returned to the landfill yard to form a biological recharge reactor.
浓缩液回灌于垃圾填埋场,形成回灌型生物反应器。
The concentrated liquid returned to the landfill yard to form a biological recharge reactor.
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