预应力锚索技术广泛运用于公路、铁路、水电站、矿山井巷、隧道工程、地质灾害等永久性边坡加固,施工技术日趋完善。
The prestressing force anchored cable technique has been widely used in permanence slop strengthening in highway, railway, hydropower station, mine workings, tunnel workings, and geologic hazard.
文章基于地球动力区划的理论和方法,以北票台吉矿的实际研究资料为例,对地质动力引起的矿山灾害及矿震的发生规律进行了研究。
Based on the theory and method of geodynamic section division, by taking the practical data of Beipiao mine for example, geological hazard and mine quake affected by geodynamic were studied.
采矿不仅破坏了自然景观和矿山生态环境,也造成滑波、崩塌和地面塌陷等地质灾害。
Mining activities in the district affect the natural landscape and eco-environment of the mines, lead to geological disasters like landslide, collapse and land subsidence.
本文提出的评价方法在类似矿山不稳定边坡地质灾害危险性评估中具有参考和借鉴价值。
The evaluation method can be used for reference in the assessment of geological hazards in similar cases.
阐述了我国铀矿山环境地质灾害,废水、废气、废渣等污染及其治理,提出了相应的治理对策。
This paper deals with geological hazards, environmental pollution by waste gas, waste water and waste residue and control countermeasures of environmental pollution.
矿山沉陷灾害科学是地质学、生态学、采矿学、岩土力学、信息科学、管理科学和社会学之间的交叉边缘学科。
The mine subsidence disaster discipline is the frontier crossing branch of science among geology, ecology, mining, rock soil mechanics, information science, management science and sociology.
因此,需加强对开采扰动所带来矿山地质灾害的预测与防治。
So the mine geological disaster prediction and Prevention which caused by mining disturbance should be strengthen.
采空区治理在预防矿山地质灾害中具有非常重要的地位。
The treatment of mined-out areas plays an important role in prevention of mine geological disasters.
文章以河南某地石灰岩矿山为例,着重介绍矿山分项工程地质灾害危险性预测评估的基本思路、分析方法及防治对策。
Taking a limestone mine in Henan Province as an example, this paper mainly introduces basic consideration devaluation ways of thinking, analysis methods and preventional countermeasures.
阐述石灰石矿开采对地质环境造成的影响及应采取的防治措施,为石灰石矿山开采地质灾害防治提供依据。
This paper summarizes the effect and measure of limestone mining on geological environment so as to provide better environmental protection in the process of mining.
浙江省塔山石煤矿山自燃地质灾害治理,是国土资源部2002年矿山环境治理工作的重点项目。
The hazards treatment in Tashan stone coal mine is a Key Item of '2002 Mine Environmental Treatment of The Ministry of Land and Resources.
分析了矿山地质灾害的主要类型,并着重提出矿山采空区的勘查方法,对可能产生的地质灾害提出防治方法。
The main types of mine geological disasters were analyzed with a focus on the observation method in the mined out area and the harnessing methods for the possible geological disasters were proposed.
介绍了大同市矿山地质灾害的现状,探讨了各种类型地质灾害的防治对策。
This paper introduces the present situation of mine geological disaster in Datong City, and probes into the countermeasures for preventing different types of geological disasters.
矿山地质灾害类型与矿山规模、开采方式、矿产类型及所处地域相关等特点。
The type of mine geology hazard relate to mine scale, way of exploitation, mineral type and the area.
矿山冒落型地震是一种破坏性最为严重的地质灾害之一。
The mine earthquake caused by falling is a serious geological disaster.
矿山的开采为国家带来了很多资源和经济效益,但同时也引发了很多地质灾害,如何减少和避免灾害的发生是一件至关重要的事。
The exploitation of mines brings resources and economic benefits, but it also causes geological hazards. How to reduce and avoid hazards has become a matter of great importance.
矿山沉陷灾害是由矿物开采引发的人为与自然因素相结合的地质灾害。
Mine subsidence disaster caused by mineral exploiting is regarded as a geological disaster combined with natural and human factor.
对地质灾害的发生进行预警需要获取在采矿过程中矿山的地质和环境的实时变化情况。
The disaster prediction requires real-time information of geological and environmental variation during the process of mining.
矿山地质灾害较其它地质灾害相比有其独特性。
Mine geological hazards are more distinctive than those of their other kinds.
以北京市房山区史家营煤矿为研究对象建立了矿山地质灾害高分辨率遥感监测方法与技术流程。
Shijiaying Mine in Fangshan, Beijing was taken as an example, and the high resolution remote sensing monitor method and technical procedures were established.
以北京市房山区史家营煤矿为研究对象建立了矿山地质灾害高分辨率遥感监测方法与技术流程。
Shijiaying Mine in Fangshan, Beijing was taken as an example, and the high resolution remote sensing monitor method and technical procedures were established.
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