瓦斯地质规律研究是瓦斯预测、治理的基础。
The research on gas geological regularity is the base of gas prediction and control.
该方法也适用于其他具有相似特征的瓦斯地质变量分析。
This method is also applicable to the analysis of other gas and geology variables with similar characteristics.
同时,该方法也适用于其它具有相似特征的瓦斯地质变量分析。
The method can be used in analysing other gas and geology variables that have the similar occurrence character.
考察了主要瓦斯地质指标的应用价值,评价了其预测效果和应用前景。
Applicability of gas geological indice for evaluation have also been presented and their limits and effects discussed.
本文简要叙述了丰城矿区B4煤层瓦斯地质特征,分析了瓦斯赋存规律相关因素。
The article has introduced the gas geologic features in B4 Coal Seam in Fengcheng Colliery and analyzed the correlation factors of gas occurrence regularity.
这一研究成果对我国东部滑动构造区的矿井瓦斯地质灾害防治具有一定的示范意义。
The result has certain demonstration significance in gas geological hazard controlling in eastern China gliding tectonics areas.
该方法的成功应用可为瓦斯地质单元的划分和瓦斯突出的区域预测提供定量化依据。
The successful application of this method can provide quantitative basis for the division of gas geological unit and the regional prediction of gas outburst.
利用瓦斯地质数学模型法建立了工作面瓦斯涌出量数学模型,预测了未采区工作面瓦斯涌出量。
The math model of the gas emission quantity is established by the method of gas geology math model. The gas emission quantity of the working face of the unmining area is predicted by the model.
系统以煤矿瓦斯地质空间信息和属性信息为主要管理内容,能够为煤矿瓦斯治理提供辅助决策依据。
This system makes space and attributes information of mine gas geology as main management contents and it can provide aided decision base for mine gas prevention and control.
系统以煤矿瓦斯地质空间信息和属性信息为主要管理内容,能够为煤矿瓦斯治理提供辅助决策依据。
Study on Assistant Decision-making System about Railway Safety Management in Production of Railway Engineering Department in Railway Bureau;
通过对芦岭井田煤层瓦斯地质因素定性定量分析认为,区域地质构造是控制矿井煤层瓦斯的关键地质因素;
Through the qualitative and quantitative analysis of gas geological factors in Luling coal mine, the regional geological structure is the key geological factors of mine coal gas control.
首次运用瓦斯地质理论研究低瓦斯矿井瓦斯异常涌出问题,形成了系统的低瓦斯矿井瓦斯地质规律的研究思路和方法。
The theory of gas geology is applied to study the problem of gas unusual gush at first, and set-ting up systematic research thinking and method of gas geology in the low gas mines.
回顾了我国煤矿瓦斯地质编图的过程,总结了边缘交叉学科瓦斯地质研究所取得的成就及其在指导煤矿安全生产和工程中的应用。
The processes of mining gas-geologic map in China was reviewed, the research achievement in gas-geology and its application in engineering and production have been summarized.
本文收集、整理该区大量瓦斯地质资料,分析研究了该区煤层瓦斯的赋存特征和分布规律,阐述了影响煤层瓦斯形成和赋存的主要因素。
The author collected and arranged a quantity of gas data studied coal bed gas hosting and distributing patterns found out major factors affecting the forming and hosting of coal bed gas.
在瓦斯防治实践中,应根据不同地质单元、不同埋藏深度分别制定相应的防治措施。
Practice in the gas control should be based on different geological units, different burial depth to develop appropriate control measures.
本文详细描述了家竹箐隧道的地质条件、煤层瓦斯情况、地应力特征和状态以及地应力的测量方法。
The paper describes in details the geological condition, gas and coal layer, ground stress character as well as the measurement method of ground stress.
各自然地质单元瓦斯赋存情况受其围岩力学性质、断层分布、煤层厚度等地质因素控制。
The presence of geological units of gas under control of rock mechanical properties, fault distribution, seam thickness.
主要分析了在火成岩地质构造下,瓦斯与冲击矿压的关系及火成岩型冲击矿压的发生机理。
The relationship of gas and rock-burst and the mechanism of igneous rock-burst in the condition of igneous geological structure are analyzed in this paper.
结果表明,封闭性李庄断层、煤层分岔、砂岩顶板是该矿瓦斯突出的敏感地质指标。
The result indicated that close Lizhuang fault, coal fork, and sandstone top board was sensitive geology factor influencing gas outburst of the mine.
隧道穿越不良地质有:高压力水、煤层、采空区、瓦斯、岩溶、断层等。
The poor geological conditions that the tunnel confronts include high-pressure water, coal seam, goaf, gas, Karst and fault.
煤与瓦斯突出是发生在煤矿生产中的一种极其复杂的地质动力现象,是煤矿生产中最严重的灾害之一。
The coal and gas outburst is an extremely complex geological power phenomenon that occurs in the coal mine production, is one of most serious disasters in the coal mine production.
系统地分析了影响海孜煤矿瓦斯赋存的主要地质因素,对煤矿瓦斯涌、突出预测有一定的指导意义。
The main geologic factors which influence gas hosting in Haizi coal mine are systematically analyzed in this paper, leading to forecasting of coal mine gas gushing and outbrusting.
对十二矿影响煤与瓦斯突出的井田地质构造、煤体结构、煤厚及其变化、煤层围岩等地质因素进行了分析。
The geologic factors which have effected on the well geologic structure, coal structure, coal thickness and its changes, coal seam surrounding rock and some other factors have been analysed.
由于各种地质因素的影响,低煤级煤煤层将有可能出现煤层瓦斯富集而发生瓦斯灾害的危险。
Affected by different geologic factors, coal bed gas may be enriched and burst out in the low-rank coals.
文中通过地质动力区划方法确定区域地质构造背景,采用多因素模式识别概率预测方法完成煤与瓦斯突出危险性的区域预测。
In this paper, geo-dynamic zoning method was used to research regional geology structure, multi-factor pattern recognition method was applied to predict regional coal and gas outburst danger.
搞好矿井地质工作,是实现煤矿安全生产的基本保障,对预防水、火、瓦斯、顶板等主要灾害有着极为重要的意义。
Making pit geology work well is the basic security of realizing coal mine safety. It's very important to prevent from main calamities such as water fire gas and roof.
瓦斯是地质作用的产物,瓦斯生成、运移、保存条件受着综合地质作用的控制。
The gas is a product of geological processes, gas generation, migration and preservation conditions are controlled by comprehensive geology.
瓦斯赋存和运移与地质构造有着密不可分的关系,用地质的观点来分析瓦斯赋存和运移的规律,可以更好地指导和服务生产。
The gas storage and conveying has inseparable relation with geological structure We can analyze the gas storage and conveying regulation with geological view.
未开采煤层瓦斯含量及影响因素研究,是煤矿安全生产的重要基础研究工作,以铁法盆地晓南矿未开采的14#煤层为例,系统分析了影响瓦斯含量的地质因素。
We take the 14# coal seam of Xiaonan coal mine of Tiefa basin as an example and analyse the geologic agent systematically which influences the gas content.
未开采煤层瓦斯含量及影响因素研究,是煤矿安全生产的重要基础研究工作,以铁法盆地晓南矿未开采的14#煤层为例,系统分析了影响瓦斯含量的地质因素。
We take the 14# coal seam of Xiaonan coal mine of Tiefa basin as an example and analyse the geologic agent systematically which influences the gas content.
应用推荐