地质动力

地质动力地质动力
  1. 基于ActiveX开发地质动力区划决策支持系统

    Developing decision support system of geo-dynamic division based on ActiveX

  2. 地质动力区划与矿井动力现象区域预测

    Geo-dynamic Division method and the regional forecast on mine dynamic phenomena

  3. 地质动力区划在北票矿区的应用

    Application of designating geology dynamic field in Beipiao Coal Mine

  4. 通过地质动力区划方法确定了区域地质构造背景。

    The regional geological fault was determined by the geo-dynamic zoning method .

  5. 断裂活动与矿山地质动力灾害研究

    Research on fault action and geological dynamics hazards in mining

  6. 地质动力引起岩层移动变异及突变灾害研究

    Study on Calamity and Abnormality of Rock Strata Movement Affected by Geodynamic

  7. 地质动力区划在岩体应力预测中的应用

    The Application of Geo-Dynamic Division in Rock Stress Prediction

  8. 因此,对该井田进行了地质动力区划的研究。

    Applying geodynamic zoning method , this article has studied the mine field .

  9. 分形理论在地质动力区划方法中的应用

    Application of fractal theories in geo-dynamical division method

  10. 地质动力区划在新汶潘西矿的应用

    Application of geological dynamic division of Panxi mine

  11. 构造应力场的数值模拟是地质动力区划方法的重要组成部分。

    The numerical simulation of tectonic stress field is a important part of geologic-dynamic area distribution method .

  12. 一般说来,断裂的活动性及应力场性质不同,地质动力灾害发生的强度和频度也不同。

    Feature of stress field is different , the occurrence intensity and frequency of geo-dynamic disaster is different .

  13. 文中还讨论了矿山地质动力的作用特征、区划方法和对岩层与地表移动的影响规律。

    Division method and effect rule to strata and surface movement of mine geodynamic was described in this paper .

  14. 改造型含油气盆地是指含油气盆地原型经过内外地质动力作用使其面貌发生了重大改变的盆地。

    Reformed petroliferous basins are those that the feature of the prototype basins have changed greatly under inner and outer geological dynamics .

  15. 认为“矿震”的发生是受区域构造应力场的影响,与地下采矿活动密切相关的一种地质动力突变现象,一般发生在地质构造比较复杂、断裂新活动比较显著的地区。

    A view was presented that mine quake is a geologic dynamic phenomenon affected by regional stress activity . And it has a direct bearing on underground mining .

  16. 通过对北票矿区浅源地震的分析,认为现今构造应力场和断裂对矿震等地质动力灾害的发生起控制作用。

    According to the analysis of shallow earthquake in Beipiao mining area , the author conclude that modern tectonic stress field plays dominant role in occurrence of geo-dynamic disaster .

  17. 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 .

  18. 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 .

  19. 文章应用地理信息系统和地质动力区划方法,确定活动断裂与冲击地压的内在联系和冲击危险区域判别准则,建立冲击地压区域预测预防服务站。

    Considering the tectonic system , mining technology and occurrence of rock burst as a dynamic process the tectonic form and activity of faults may be taken as the criterion to forecast rock burst .

  20. 提出了区域应力活动是岩层移动变异和地下动力现象的力源,地下采矿活动为地质动力释放提供了空间条件的观点。

    A view that regional stress activity is a dynamic source of underground dynamic phenomenon and abnormality of rock strata movement and underground mining activity offers the condition of space for releasing geodynamic was presented .

  21. 介绍了南山矿冲击矿压和煤与瓦斯突出的危害,分析了灾害产生的因素,提出了减少或避免地质动力灾害发生造成损失的预防措施和方法。

    This paper introduces the hazards of mine pressure and coal methane eruption happened in Nanshan Coal Mine , analyzes the caus of the events , issues the measures to prevent mine geological disaster from losses .

  22. 查明矿井的煤与瓦斯突出事件以某种方式与地质动力区划查明的活动断裂相联系,煤与瓦斯突出显现与活动构造和构造应力密切相关。

    It is found out that coal and gas outburst event has related to active faults decided by geo-dynamic division . Then coal and gas outburst appearance has close relation with active structure and structural stress .

  23. 文中以地质动力区划方法查明的各级活动断裂为区域构造格架,将老虎台井田简化成由10条断裂带组成的平面弹性模型,编制了应力计算软件。

    This paper regards all active fractures found out by geodynamic division method as regional tectonic framework , and simplifies Laohutai mine field into an elastic plan model with 10 fracture zones and compiles stress calculating software .

  24. 应用地质动力区划方法,通过逐级使用地形测量图,并结合其它方法查明了大兴井田的Ⅲ-Ⅴ级活动断裂,由此展现了井田的现今构造运动结果。

    Some class ⅲ - ⅴ active faults that run through Daxing mine field are found out by means of geodynamic zoning , with topographic map and other methods . Thereout the result of tectonic movement is exposes .

  25. 用地质动力区划方法,分析了淮南煤田瓦斯赋存状态与区域地质构造的关系,认为淮南煤田处在两个相交的凹地区域,它决定了淮南煤田的含瓦斯性。

    Based on geo-dynamic zoning method , the relation between gas status of Huainan mining area and regional geology structure was analyzed , the conclusion is drawn that Huainan coal field lies between two cave region , which has dominant effect on the gas status .

  26. 地质作用动力的分类

    Classification of motive forces of geological action

  27. 应用遥感地质和水动力演变分析法,分析了洞庭湖响水坎滩险的成因。

    The origin of Xiangshuikan rapids in the Dongting Lake is analyzed by using remote sensing geological and hydrodynamic methods .

  28. 通过孔集井田A组煤底板岩溶水水文地质及水动力条件的分析,建立了水文地质概念模型。

    A hydrology geology concept model is build up through analysis of Karst water hydrology geology and its hydrodynamic condition of a set coal floor in Kongji minefield .

  29. 本文以乐清湾形成的海洋地质地貌与动力沉积环境演变为背景,通过对生物多样性的评价,剖析了在海湾开发利用中存在的生态结构成分缺损、生态结构成分变化和生态功能失调等问题。

    This paper studies geological , geomorphological and sedimentary environment of the Yueqing Bay in Zhejiang Province by biodiversity judgement and analyses the limiting factors by defective and change of composition of ecological structure and imbalance of eco function .

  30. 地质作用是在动力的作用下产生的,地质作用的动力对地质作用的过程和规律起着控制的作用。

    Motive forces can result in geological action and control its process and law .