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1.
通过对沁水盆地安泽区块煤层气地质条件和储层条件的深入分析,探讨了该区煤层气的富集规律及主要影响因素。研究发现,煤的岩石学特征、构造、顶底板岩性是影响煤层气富集的主要因素。总体上,安泽区块煤储层含气量受煤阶影响,表现为:煤的变质程度越高,吸附能力整体增强,含气量增大。局部区域,煤层气含量受煤层埋深、断层、褶皱及煤层顶底板岩性等综合因素的影响。在构造平缓带,煤层气含量随埋深增大而增大;在构造活动带,正断层上升盘含气量明显低于下降盘含气量,断层对煤层气的逸散作用明显。此外,泥岩顶底板封盖较砂岩顶底板封盖能力强。 相似文献
2.
河北唐山矿冲击地压的发生除了受开采技术条件、煤层顶底板岩石学特征等因素影响外,主要受赋存环境的影响,其中地应力条件是一个重要的影响因素。以唐山矿构造应力分布规律为背景,对不同水平构造应力条件下回采工作面煤层及其顶底板围岩的三维场进行了数值分析,系统研究了构造应力对煤层及其顶底板围岩的冲击地压的影响。结果表明,在煤矿开采过程中,高水平构造应力对采区煤层及其顶底板围岩的应力场和能量场的分布规律具有重要影响。高构造应力条件下,煤层及其顶底板围岩中的高水平应力为冲击地压的发生提供了力源条件,而在高地应力环境下所积聚的大量弹性应变能为冲击地压的发生提供了能量条件。 相似文献
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矿井层间滑动构造定量评价——以潘集一矿为例 总被引:1,自引:0,他引:1
煤层及其顶底板中滑动现象极为普遍。层滑构造是导致煤层不稳定的主要因素,常常造成煤层厚度的突然变化,甚至形成无煤区,严重影响煤炭生产。为了掌握并了解矿区层滑构造的分布规律及发育强度,采用模糊综合评判法,取煤层层滑断层密度、煤层异常指数、断层密度、断层的强度指数、构造煤的发育强度指数、岩层组合关系量化参数6个评价指标,对矿区层间滑动构造复杂程度进行评价。结果表明:采用模糊综合评判法所得评价结果与矿区揭露结果相似。结合矿区地质条件预测深部未采区层滑构造发育程度取得了良好的效果,这为矿区生产部署提供了参考依据。 相似文献
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煤矿巷道底板冲击矿压发生的原因及控制研究 总被引:7,自引:1,他引:6
巷道底板水平应力是导致底板冲击矿压发生的主要因素,根据巷道底板冲击矿压的特点,建立了底板冲击矿压发生条件与影响因素的力学模型,初步确定了底板冲击矿压危险性系数的表达式。当底板岩层泊松比一定时,底板冲击矿压危险性系数与巷道埋深、巷道宽度的平方、水平构造应力、巨厚坚硬老顶影响系数成正比,与弹性模量、巷道底板软弱层厚度的平方成反比。通过数值模拟,发现巷道开挖后底板煤层的水平应力升高和垂直应力降低的规律,底板应力极易达到煤层破坏极限,在支护不当和外界扰动下容易发生底板冲击矿压。最后确定了底板强度弱化减冲原理,在跃进煤矿25110工作面下巷采取底板爆破卸压措施后取得了良好效果。研究成果为解决类似条件底板冲击矿压防治问题提供了理论依据和借鉴。 相似文献
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俯伪斜分段密集采煤法三维有限元数值模拟研究 总被引:3,自引:0,他引:3
俯伪斜分段密集采煤法,作为一种较新的采煤方法,在我国技术上还不很成熟,因此,首次针对京煤集团木城涧矿大台井的地质条件和赋煤状况,通过简化建立三维立体有限元模型,模拟计算了该矿煤层顶底板在开采前后运动变化情况。结果表明:煤层倾角、推采距离和开采巷道数三者是影响煤层顶底板运动规律的重要因素,得到了表征顶底板运动规律的顶底板法向最大应力和法向最大位移与三影响因素关系曲线,详细阐述了三影响因素下的煤层顶底板运动规律;同时,对现场开采中支撑压力大小,特别是在三影响因素下,超前支撑压力的作用范围与应力峰值位置进行了数值计算,并总结了其影响规律;最后,指出了该数值分析方法对现场开采将具有十分重要的应用价值和指导意义。 相似文献
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矿井电穿透方法技术的研究 总被引:7,自引:2,他引:5
通过研究工作面两巷道间电穿透建场理论和方法技术,优化出单极—偶极法等6种电穿透技术,用于探测工作面顶底板内的电性变化;煤层偶极—偶极法用于探测工作面煤层内的电性变化,为分别探测工作面顶底板内和煤层内的含、导水构造提供了一套新技术。 相似文献
7.
煤矿中煤层断层与层间滑动构造(简称层滑构造)发育普遍,可出现不同形式的组合。进行煤层断层与层滑构造及其组合型式的研究,对分析区域构造变形史、查明和预测煤层赋存规律、研究煤的耗散流变、煤层气的开发以及预防煤与瓦斯突出都具有重要作用。本文以淮北矿区海孜煤矿为例,在现场观测的基础上,分析总结了7、8、9和10煤层的断层与层滑构造的组合型式,并探讨了其形成机制。由于7、8、9和10煤层及顶、底板岩层组合的差异,不同煤层构造变形有较大区别。由于海孜煤矿岩层和煤层经历了多次构造活动,断层和层滑构造间产生了不同的空间组合,具体表现为3种型式:断层与层滑构造的同期扩展、断层与层滑构造组成块体及断层与层滑构造间的相互切割和限制。煤层的构造组合型式在很大程度上取决于构造应力作用、含煤地层的岩石力学性质和应变环境等。 相似文献
8.
华亭煤矿井田煤系中发育有顺层滑动构造,具体表现为煤层顶、底板中的挤压破碎带,煤层中伴生有劈理、擦痕、拖拉褶皱等构造。顺层滑动构造系煤田主体为斜构造的次级构造,由于顺层滑构造的存在,对矿井生产技术带来不利因素。 相似文献
9.
巷道空间对矿井电测曲线影响的模型实验研究 总被引:6,自引:0,他引:6
在物理模型实验的基础上,以巷道顶、底板电测深法和矿井高密度电阻率法为例,对巷道影响规律进行了研究,确定了表征巷道空间对矿井电测结果影响的经验公式。 相似文献
10.
煤岩层对比工作贯穿于整个煤炭地质勘查与矿井生产阶段的全过程,针对近距离、多煤层且构造复杂的矿井生产阶段煤岩层对比困难的问题,以贵州盘县煤田火烧铺煤矿为研究对象,通过对地质勘查资料的分析,结合地面瓦斯勘查钻孔、井下地质调查、瓦斯参数测试工程从地质勘查阶段已经建立的煤岩层对比标志层中提取适应于矿井生产阶段的标志层;结合矿井生产过程中井筒、巷道、工作面及其两巷道、切眼等井巷工程生产揭露资料的宏/微观煤岩、煤质化验、煤层顶底板岩石力学、煤层的光学特征等资料,提炼矿井生产过程中基于开采技术条件的煤岩层对比的标志;综合地质勘查与矿井生产阶段重新构建矿井生产阶段煤岩层综合对比标准体系。研究表明:地质勘查阶段构建的煤岩层对比标志层在矿井生产阶段岩性组合、地球物理测井曲线,高位标志性岩层以及古生物化石层基本上失去了指导意义,而煤层结构、伪顶或低位直接顶板古生物化石层、岩性标志层仍具有指导意义,可以指导实践生产;矿井生产阶段大量的地层倾角数据、宏/微观煤岩组分特征、煤层夹矸岩性,尤其是可见光、热红外等光学特征,煤层瓦斯含量、压力参数,煤层顶底板岩石力学参数等是煤岩层对比的良好标志层;构建的煤岩层综合对比技术体系可以有效地指导煤矿巷道高效掘进、工作面快速回采并识别断层发育特征。研究成果不仅可以指导煤矿井下生产工作而且可以为构造复杂区的煤矿井下工作面智能化开采提供基础地质资料,为煤矿安全、高效、智能化开采提供地质保障技术。 相似文献
11.
基于煤层巷道开挖卸荷效应的底板冲击孕育过程研究 总被引:1,自引:0,他引:1
采用相似模拟和数值模拟研究了河南义马煤田跃进矿采掘影响下巷道底板的应力及变形规律,揭示底板冲击矿压发生前的孕育过程。研究表明,巷道底板冲击受煤层埋深、顶板条件、巷道施工布置方式等多因素影响。在巨厚坚硬上覆砾岩影响下,工作面开采增加了相邻工作面的应力水平。在厚煤层中巷道沿顶板布置留底煤,巷道开挖后,一定范围的煤层底板中的水平应力升高,垂直应力降低,增加了煤层失稳破坏的可能性。巷道开挖卸荷过程中,底板由于没有支护,垂直位移增加,底板的塑性区范围大于两帮,并产生了明显的拉伸破坏,容易使底板成为冲击破坏突破口。 相似文献
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13.
This paper uses two-dimensional boundary element method (BEM) numerical modeling to analyze the deformation and failure behavior of a coal seam and to understand the nature of gas flow into a roadway entering the Barapukuria coal mine in Bangladesh. The Barapukuria basin contains Permian-aged Gondwana coals with high volatile B bituminous rank. Three models (A, B, and C) are presented here. Model A assumes horseshoe-shaped geometry, model B assumes trapezoid-shaped geometry, and model C assumes horseshoe-shaped geometry coupled with a roof fall-induced cave generated by the break-up of rock materials along the vertical dimension of an igneous dyke. The simulation results show that there is little difference in strata deformation between models A and B. In model A, there is no horizontal tensional stress and the overall horizontal stress patterns are compressive, while the distribution and magnitude of vertical stress show higher tensional stresses on the immediate rib sides and floor. In model B, both horizontal and vertical stress distributions indicate low to medium tensional stresses on the immediate roof, floor, and rib sides, but compressive stresses are prominent toward the interior of the coal seam. Deformation vectors indicate that failure extends laterally to about 7.5 m around the excavation geometry.On the contrary, for model C, the distributions and magnitudes of horizontal and vertical stress show higher tensional stresses in both rib sides of the roof fall zone. The deformation around the dyke-induced perturbation zone affects a large volume of coal. The deformation vectors with high magnitudes are nearly horizontal and propagate laterally up to 30 m; whereas, low-magnitude deformation vectors extend about 25 m toward the roof and 20 m toward the floor. The vertical tensional displacement, which is concentrated in the floor and the left and right hand sides of the roof, propagates about 30 m on both sides and about 22 m in the floor. From these simulation results, it is thought that the extension of the dyke-induced perturbation zone toward the roof, floor, and rib sides of the entry roadway initially creates small tensional cracks that gradually grow into large-scale tensional features. These features could also be responsible for high concentrations of gas, which are emitted into the mine from fractured coals due to insufficient mine ventilation and low atmospheric pressure. 相似文献
14.
Al-Amri Abdullah M. Abdelrahman Kamal Mellors Robert Harris David 《Arabian Journal of Geosciences》2020,13(8):1-11
Influenced by mining activities in adjacent coal seams, stresses on rocks surrounding roadway were redistributed, and the roadways in lower coal seam were subjected to the asymmetrical roof falling and roof sagging. Considering stresses effect on the plastic zone around the roadway, numerical models were carried out by FLAC to investigate plastic zone with respect to stress ratio and direction of stresses. The relationship between the properties of surrounding rock and plastic zone boundary was also investigated by another numerical model and analytical study, whereby the tailgate stability of panel 30,501 in Tashan coal mine was implemented. It is shown that the rocks surrounding a roadway in the lower coal seam were subjected to unequal stresses, and the principal stress direction was deflected from the original direction. High stresses and big stress ratio can produce butterfly-shaped or X-shaped plastic zone. The direction of stresses was deflected, causing the plastic zone around the roadway to be transferred from the shoulder to the roof of the roadway. Consequently, asymmetrical stresses produce asymmetrical plastic zone. On this basis, the tailgate should be assigned conditions of the stresses and stress ratio at a low level. In this way, the tailgate was arranged at the position where the horizontal distance from the roadway in the lower seam to the centre line of the coal pillar in the upper seam (x) is 52.5 m, and was stable relatively. 相似文献
15.
煤体结构是煤与瓦斯突出的主要因素之一。利用钻孔测井曲线特征并结合矿井地质构造成果,对淮南潘一矿8煤层煤体结构特征及其构造煤发育规律进行了研究。研究表明该矿区8煤层构造煤发育,其厚度大于该煤层厚度20%的点数占一半以上,因其顶、底板围岩封闭性良好,有利于瓦斯聚集,易在采动条件下发生煤与瓦斯突出,确认为该区煤与瓦斯突出的重点煤层。依据瓦斯始突深度、构造煤分层厚度大于0.5m的分布范围、大中型断层位置及矿井突出资料,在F4断层组的两侧分别圈出了煤与瓦斯突出的危险区和威胁区。 相似文献
16.
在贫煤地区,煤炭资源赋存差异较大,纳入资源量计算的煤层厚度也较低,个别地区甚至降到0.30m。目前煤层定厚解释常用视电阻率曲线和伽马伽马曲线。煤层顶底板在视电阻率曲线的解释点是"根部拐点",因此人为误差较小;而伽马伽马曲线的解释点是煤层密度和煤层顶底板密度的二维函数,变化较大。根据伽马伽马测井曲线的对称性原理,提出利用平均密度法确定煤层定厚点,即用煤层伽马伽马曲线幅值分别与顶、底板围岩的伽马伽马曲线幅值相乘后再开方的方法获得煤层定厚顶、底板解释点的伽马伽马幅值。该方法既提高了伽马伽马曲线煤层定厚解释精度,又将复杂问题简单化,在实际工作中具有较强的可操作性和使用性。 相似文献
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Gas outburst disasters and the mining technology of key protective seam in coal seam group in the Huainan coalfield 总被引:2,自引:1,他引:1
Coal and gas outburst disasters in coal seams are becoming more serious as coal mines extend deeper underground in China. To aid gas control in high-gas outburst coal seam group, this study performed research based on the geological conditions of the Xinzhuangzi coal mine in the Huainan coalfield. The laws of gas occurrence, the strength of the coal outburst, and the regional partition were studied. Simultaneously, we introduced the key protective seam mining technology and confirmed the mining sequence of coal seam groups. The results indicate that (1) each seam absorbs gas well, and the currently measured gas content is up to 15.0 m3/t. (2) Although some differences about coal seams outburst intensity remain, the differences in the same group are very small. (3) The coal seam B10 was chosen as the key protective seam and was mined first; then adjacent seams were mined from bottom to top by layer within the roof of B10 and from top-to-bottom within the floor of B10 to guarantee each adjacent coal seam received the good effects of pressure-relief and increasing permeability. (4) The main methods of gas extraction in each protected seam are surface boreholes and net-like penetrating boreholes in the floor roadway, and related technical parameters were determined according to the degree of pressure-relief in coal seam. This in situ experiment indicates a method aiding the gas control problem and guaranteeing safe and highly efficient exploitation of high-gas outburst seams. 相似文献