Differences in the regional distribution of landfill gas were caused by the temperature.
温度的差异是造成填埋场不同部位填埋气分布差异的重要原因。
Biogas include marsh gas, landfill gas, digester gas. They distinguish by the producing location.
生物气包括沼气、堆填气体、胃肠气,由产生的地点来区分类别。
More than half of the landfill gas is methane, which warms the planet 20 times faster than carbon dioxide.
垃圾填埋厂释放的大半气体都是甲烷,它使地球变暖的速度是二氧化碳的20倍。
A mathematical model of landfill gas migration was established under presumption of the effect of gas slippage.
考虑气体滑脱效应条件下,建立了垃圾填埋场气体渗流的数学模型。
Engineers were sent to seek solutions abroad and came back with the idea of processing the landfill gas into clean energy.
工程师们被送往国外寻求解决方案,回来以后带回了新想法,把填埋气体变成清洁能源。
It analyzes to a few main paths that landfill gas has been made use of, generating electricity engineering especially.
分析了填埋气体资源化利用的几种主要途径,特别是发电工程。
In this paper one theoretical and experimental method assessing the probability of explosion of landfill gas in building is propsed.
提出了一种评价建筑物内发生填埋气体爆炸事故概率的理论与试验方法。
Last year, the company decided to expand the capacity of its landfill gas power plant, aiming to tap into the increasing amounts of trash.
去年,该公司决定为垃圾填埋气体发电厂扩容,决定处理更多的垃圾。
This paper describes the use of Landfill Gas at home and abroad, and explains the foreground on the resource utilization of landfill gas.
本文主要论述了城市污泥的特性,处理和处置方法,并介绍了一些目前国内外污泥资源化利用的技术。
Sanitary landfill is a filling method that can control percolating and filtrating liquid and landfill gas, and universally adopted by developed countries.
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。
The technology of recovery and utilization of landfill gas (LFG) from municipal solid waste (MSW) landfill sites is cost effective and environment friendly.
垃圾填埋沼气的回收利用是一项经济可行且对环境有益的技术。
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。
Furthermore, the data of gas production and generation rate were acquired through experiment and landfill gas models fit for domestic MSW were advanced in this paper.
并通过实验室的现场实验,得到了垃圾产气量和产气速率的数据,建立了适合我国垃圾自身特点的产气模型。
A tracer monitoring for the landfill gas concentration variation on the condition of leachate recycling as compared with that of the un-recycling in semi-aerobic landfill.
对准好氧填埋结构渗滤液回流情况下填埋气产气过程做了跟踪监测。定期测定填埋气中的组分浓度变化,结合填埋场渗滤液水质变化进行分析。
Pierce says that because this active landfill is still growing, production at the 20 year old Puente Hills landfill gas plant has not yet peaked, and averages about 50 megawatts.
Pierce说,由于这个垃圾填埋场仍在不断扩大,电厂已经运营了20年但发电量还在继续增长,平均是50兆瓦左右。
Waste decomposition and landfill gas generation process under different composition and temperature conditions was investigated by a landfill lysimeter of municipal solid waste.
通过城市生活垃圾的填埋降解模拟实验,研究了不同温度、不同垃圾成份对垃圾降解及填埋气产生过程的影响。
It provides basis for designing landfill gas control system and evaluation of environment, finds a new way for study of underground seepage problem such as mine gas and oil contamination.
这为填埋气控制系统的设计以及环境影响预测和评价提供了理论依据,为研究煤层气、石油污染等地下渗流问题开辟了一条新的途径。
Everyday, the decaying trash releases large quantities of a climate-harming gas cocktail. More than half of the landfill gas is methane, which warms the planet 20 times faster than carbon dioxide.
每天腐烂的垃圾释放出大量的对气候有害的混合气体,而多半都是甲烷,它使地球变暖的速度是二氧化碳的20倍。
Everyday, the decaying trash releases large quantities of a climate-harming gas cocktail.More than half of the landfill gas is methane, which warms the planet 20 times faster than carbon dioxide.
每天,腐烂中的垃圾都释放出大量对气候有害的混合气体,其中超过一半均为与二氧化碳相比能使气候变暖速度加快20倍的沼气。
In many countries power from landfill gas or waste-to-energy plants (like the one at Spittelau, outside Vienna, illustrated above) attracts subsidies of one kind or another because it saves emissions.
在许多国家,从或废物填埋场产生的气体和废物发电厂中获得的能源(例如在维也纳郊区Spittelau的那个电厂,如上图)获得各式各样的补贴,因为它减少了排放量。
Closure cover system is one of important parts of landfill site construction, it includes landfill gas discharge guiding layer, geotechnical film, drainage layer and plant cover surface soil layer.
封场覆盖系统是垃圾卫生填埋场建设的重要组成部分,覆盖系统包括气体导排层、土工膜、排水层、植被表土层。
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.
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。
Instead of letting this gas escape and pollute the air, some waste management companies are employing a capture and purification system that allows them to convert the landfill gas (LFG) into energy.
取代允许这种气体自由挥发并污染空气的是,一些废物处理公司采用收集净化系统,使得他们可以把这种气体(LFG)转化成能量。
Landfill projects that capture methane (a potent greenhouse gas) and improve often dangerous working conditions for young workers at landfills, would otherwise not be economically viable.
如果没有碳市场,捕获甲烷(一种有效的温室气体)并可以改善垃圾填埋场年轻工人的危险工作环境的项目就不可能具有经济上的可行性。
When the gas is cooled, any hazardous elements in the waste end up sealed in a glassy slag that is safe to put into landfill.
当气体冷却,任何有毒的物质会被封在玻璃状的熔渣中,被安全的填埋。
When the gas is cooled, any hazardous elements in the waste end up sealed in a glassy slag that is safe to put into landfill.
当气体冷却,任何有毒的物质会被封在玻璃状的熔渣中,被安全的填埋。
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