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1.
应用覆岩空间结构学术观点对孤岛顶煤综放采场冲击矿压机制及其控制技术进行研究。根据覆岩关键层的岩性、层位、范围等因素,覆岩关键层空间结构分为覆岩空间大结构和基本顶有限矿压结构。孤岛顶煤采场冲击矿压发生机制:①孤岛顶煤综放采场 ? 型空间大结构形成过程是集中压力逐渐增加的过程,是该时间段发生冲击矿压的力源;②采场基本顶形成最下位 ? 型空间结构后,随着工作面推进,基本顶块体产生滑落失稳,造成工作面冲击矿压现象。通过对分段来压理论、基本顶结构失稳理论和坚硬顶板预断裂理论对覆岩关键层空间结构运动的控制作用研究,提出采用覆岩空间结构理论分析、分阶段降低放煤率、坚硬覆岩预爆泄压技术、覆岩坚硬岩层破裂的微地震监测技术等方式方法预防冲击矿压的发生。 相似文献
2.
Jin-quan Jiang Quan-sen Wu Quan-lin Wu Pu Wang Chen Zhang Bin Gong 《Geotechnical and Geological Engineering》2018,36(6):3451-3466
In the coal measure strata, igneous rocks are often invaded, and their occurrence, size, and distribution form play an important role in mining safety. The breakage of hard and thick igneous rocks easily induces dynamic disasters, such as rock burst, mine seismicity, gas outburst, and surface subsidence, which seriously threaten mine safety production. In view of the working face with overlying hard and thick igneous rocks, the evolution characteristics of mining stress and energy distribution under hard and thick igneous rocks were investigated. Furthermore, the influence law of different horizons and thicknesses of igneous rock on overlying strata movement law, stress distribution, and energy distribution was analyzed based on FLAC3D numerical simulation. Results show that no evident subsidence of the overlying strata exists before the igneous rock is broken. Additionally, the subsidence amount of the overburden is suddenly increased after the igneous rock is broken, thereby showing significant mutability. Before the igneous rock breaks, a high stress area is formed around the goaf, and the stress concentration gradually increases with the increase of the mining scope. After the igneous rock breaks, the coal under high stress is prone to induce dynamic disasters under the action of strong dynamic load. However, the advanced abutment pressure and stored energy rapidly decreased. The accuracy of the numerical simulation is verified by field monitoring. Results of the study are of considerable significance for safe mining of working face under similar geological conditions. 相似文献
3.
高强度开采工作面矿压显现复杂,容易发生压架、冒顶等灾害。为从理论上解释高强度开采工作面的矿压特征,分析了高强度开采工作面的一般特征及其对矿压显现的影响,以顶板初次断裂为例,运用薄板理论并结合岩石力学试验成果,推导出不同面长和不同推进速度下顶板断裂步距的计算公式,并分析了面长和推进速度对来压时支架工作阻力的影响机制。结果表明,面长影响顶板应力分布,推进速度改变顶板承载能力,而且面长越短,推进速度越快,顶板的初次断裂步距就会越大。对于高强度开采工作面,面长普遍大于200 m,面长效应影响微弱,矿压显现主要受推进速度作用,断裂步距和来压时支架工作阻力都比非高强度开采工作面大,容易发生压架和冒顶等灾害。 相似文献
4.
崩落法开采的金属矿山往往会伴随着一系列的地质灾害现象。为保证矿区安全生产,开展崩落法开采引起的岩层移动的时效性研究具有重要意义。以程潮铁矿西区下盘为研究对象,通过将地表10多年GPS监测数据的整理分析,并与现场破坏调查结果和工程地质条件相结合,进而探究不同分区下岩层移动的时效行为。研究结果表明:岩层移动的时效行为与其破坏过程有着密切的关系,不同分区下的岩层移动的时效行为是不同的,可分为初始变形、渐进变形、加速变形和残余变形共4个阶段,分别对应着稳定状态、临界状态、失稳状态以及采矿结束后的蠕变状态;初始变形阶段对应着岩体的初始蠕变过程,渐进变形阶段反映了岩体抵抗自身变形的过程,加速变形阶段与深部破坏面的形成和强烈的应力释放有关;崩落碎石在采矿作业停止后失去了流动空间,在岩体变形挤压下会对围岩提供支撑力进而限制了岩层移动的进一步发展;残余变形时间由岩体的蠕变特性和崩落碎石的压密过程所控制,倾倒滑移区因需要经历一个额外的碎石压密过程而导致残余变形时间更长。 相似文献
5.
This paper presents an analytical model of a floor failure at a longwall coal mining face based on the multiple sliding block model. During longwall mining, stresses and displacements of strata are constantly changing. High stress concentrations at the coal face can exceed the rock strength and initiate fractures in the strata that can, under unfavourable conditions, lead to large floor displacements and disruption of mining operations. Underground observations of the rock floor and the computational modelling of the longwall face indicate that two types of fracture dominate floor failure. Extensive lateral fracturing often develops along the numerous weak bedding planes that are typically present in the sedimentary strata while sub-vertical fractures form in response to changing stress abutments ahead of the longwall coal face. The fractures that initially develop ahead of the longwall face are subject to a secondary movement when exposed ahead of the longwall supports. In response to the stress relief as the coal is mined from above, strata move towards the opening and bending of the floor occurs. If fractures in the floor exist, the floor blocks will displace in response to the floor movement and interact at the fractured surfaces. This analysis attempts to explain how the stress distribution develops within the broken floor during an active movement of floor strata leading to high stress concentrations at the floor level. The analytical formulation in this paper is supplemented by numerical modelling, and results are presented to verify that the analytical solutions are in accordance with the numerical predictions. 相似文献
6.
硬厚覆岩的破断与结构将发生显著的变化。针对汝箕沟煤矿二2煤层上覆厚层石英砂岩条件,采用现场实测、数值模拟、理论分析及现场试验等方法,研究了硬厚覆岩裂隙发育特征、破断运动、矿压显现特征及断顶控制技术,为硬厚覆岩工作面灾害防治提供了依据。研究表明,硬厚石英砂岩的微观结构致密完整,呈现大面积悬空、大步距破断运动,引起强烈的支架动载,甚至导致工作面风流逆转、沟通上部采空区隐形火区;硬厚岩层破断运移后产生明显的离层空间,并在开切眼上部和工作面上部及采空区中部形成覆岩主裂隙带,且发育高度大于经验计算数值,甚至与上方采空区沟通诱发灾害;实施开切眼深孔断顶爆破及降低工作面采高,有效缩短了硬厚岩层的初次破断步距,降低了支架动载及主裂隙带高度。 相似文献
7.
采动岩体变形与渗透特性是工作面突水防治研究的基本问题。采用理论分析和数值模拟计算方法,分析了岩石变形-渗透特征及其三维定量关系,研究了煤炭开采中回采工作面围岩应变场、渗透系数场分布及其控制因素。研究结果表明,采动岩体渗透性变化主要取决于应变状态及应变增量,且随着垂直于裂隙的张应变的增加而增加;工作面后方垮落带和煤壁边缘的剪碎带产生剧烈的采动拉伸变形,渗透系数较采前显著增大,而支承压力区和整体移动带岩层产生较大的采动压缩变形,渗透系数较采前明显减小;工作面围岩垂向渗透系数较水平渗透系数增加的幅度及增加区的范围小,但对水体下采煤工作面涌水起主导作用。加快工作面推进速度、减小工作面斜长和采高能降低采场围岩渗透系数增加幅度,并将渗透系数场变化范围局限在采区附近,能有效减小采动对原始煤岩层渗透性的影响。 相似文献
8.
Quansen Wu Jinquan Jiang Quanlin Wu Yanchao Xue Peng Kong Bin Gong 《Geotechnical and Geological Engineering》2018,36(6):3357-3373
The movement of hard and thick key stratum during underground coal extraction via longwall top coal caving differs from that of other types of overlying strata. Therefore, numerous problems such as roadway instability, rock burst and strong mining-induced mine seismicity will be encountered as a result of the fracture of a hard and thick key stratum. The key to controlling the behavior of strata is to understand the movement and fracture pattern of the hard and thick key stratum. Taking the 103up02 working face of Baodian coal mine as a case study in this study, according to the in situ measured microseismic data, the rule of fracture of overlying hard and thick sandstone caused by working face mining is studied, and the mechanism of dynamic pressure impact induced by hard and thick strata fracture is explained. Finally, the dynamic pressure control technology is put forward. The research results are of great significance for coal mining under hard and thick strata, mastering the fracture rules of hard and thick strata and predicting dynamic disasters. 相似文献
9.
新疆托克逊县雨田煤矿含煤地层为侏罗系下统八道湾组,3-3号煤层厚度大、结构简单,为该矿的主采煤层。由于受坚硬顶板条件的制约,一直沿用"刀柱式采煤法",不仅回采率低,同时存在重大的安全隐患。根据煤层顶板物理力学性质测定结果,结合矿井3-3号煤层的赋存条件,确定工作面的顶板管理采用"超前工作面深孔预爆破控制坚硬顶板"的方式。该技术有效的提高了回采的安全性,顶板基本随采随冒,工作面无明显冲击来压现象,支架载荷变化平缓,资源回收率大幅提高。 相似文献
10.
大柳塔煤矿12404工作面煤层埋深浅、上覆基岩薄、松散含水层厚,地表让有母河沟横过。通过对工作面不同采高条件下冒落带、裂隙带的计算及老顶破断岩块形成结构的力学分析,认为工作面涌水灾害不可避免,但岩块只发生切落溃沙;据此提出了采用疏排水与预提高支架的支护阻力来防止工作面涌水、溃沙灾害的发生.为类似条件下煤层的安全开采提供了理论指导。 相似文献
11.
X. P. Lai P. F. Shan J. T. Cao F. Cui H. Sun 《Rock Mechanics and Rock Engineering》2016,49(2):487-502
When mechanized sub-horizontal section top coal caving (SSTCC) is used as an underground mining method for exploiting extremely steep and thick coal seams (ESTCS), a large-scale surrounding rock caving may be violently created and have the potential to induce asymmetric destabilization from mine voids. In this study, a methodology for assessing the destabilization was developed to simulate the Weihuliang coal mine in the Urumchi coal field, China. Coal-rock mass and geological structure characterization were integrated with rock mechanics testing for assessment of the methodology and factors influencing asymmetric destabilization. The porous rock-like composite material ensured accuracy for building a 3D geological physical model of mechanized SSTCC by combining multi-mean timely track monitoring including acoustic emission, crack optical acquirement, roof separation observation, and close-field photogrammetry. An asymmetric 3D modeling analysis for destabilization characteristics was completed. Data from the simulated hydraulic support and buried pressure sensor provided effective information that was linked with stress–strain relationship of the working face in ESTCS. The results of the 3D physical model experiments combined with hybrid statistical methods were effective for predicting dynamic hazards in ESTCS. 相似文献
12.
The paper presents an innovative numerical approach to simulate progressive caving of strata above a longwall coal mining panel. A proposed Trigon logic is incorporated within UDEC to successfully capture the progressive caving of strata which is characterized by fracture generation and subsequent propagation. A new damage index, D, is proposed that can quantify regions of both compressive shear and tensile failure within the modelled longwall. Many features of progressive caving are reproduced in the model and found to fit reasonably well with field observations taken from a case study in the Ruhr coalfield. The modelling study reveals that compressive shear failure, rather than tensile failure, is the dominant failure mechanism in the caved strata above the mined-out area. The immediate roof beds act like beams and can collapse in beam bending when vertical stress is dominant or in beam shear fracture when horizontal stress is dominant. The proposed numerical approach can be used to guide the design of longwall panel layout and rock support mechanisms. 相似文献
13.
This study investigates the flow and caving characteristics of top coal and roof rock, as well as top coal loss pattern in the fully mechanized top coal caving mining of extra thick coal seams. The two dimensional discrete element numerical simulation software program, particle flow code (PFC), is used for the simulation of top coal caving and the inversion analysis. The original locations, distribution, and migration pattern of caved top coal and lost coal were obtained. The analysis shows that in the initial site of caving, the caved bodies are in the form of arc shaped strips in front of the working face. During the caving, caved bodies of different heights move towards the lower rear of the face at different speeds. The lost coal and caved roof rock are originally located at the interface between coal seam and roof, the lost coal is mainly distributed in the goaf on the floor. Behind the support, the caved top coal bodies originally are arc shaped strips, with the highest points located at the midline of the caving opening. The strips are more curved near the goaf than those near the support. During top coal caving, the strips successively cave, with the adjacent outer strip replacing the caved one. The variations of top coal loss and waste rock ratio with time reflect the different phases of top coal caving. In order to improve coal recovery and limit the amount of caved roof rock, the waste rock ratio should be controlled below 10 %. When the waste rock ratio reaches this value, the caving opening should be closed. This paper provides theoretical bases for the improvement of top coal recovery in the fully mechanized top coal caving mining of extra thick coal seams. 相似文献
14.
Guibin Zhang Wenquan Zhang Changhao Wang Guangli Zhu Bo Li 《Geotechnical and Geological Engineering》2016,34(5):1553-1563
In underground coal mines, the failure of overlying strata can have disastrous effects where the working face is overlain by thin bedrock covered with thick alluvium. Roof failure under these conditions can cause a massive water and sand inrush. This paper presents a case study for a design to prevent such disasters in the Baodian mine, China. First, the engineering geological and hydrogeological conditions of the overlying lithified strata and the alluvium were obtained from field and laboratory studies. Numerical models were then built with different bedrock thicknesses using distinct-element modelling software. The deformation, failure, and subsidence of the overlying strata during simulated coal mining were studied using these computer models. Finally, the results of the model studies were combined with the geological data to design a reasonable layout for the longwall panel to be mined in the Baodian mine. Initial results showed that the alluvium was somewhat impervious and water-poor. The models showed that the first caving and weighting intervals of the roof decreased with decreasing bedrock thickness, and decreasing bedrock thickness also increased maximum subsidence of the alluvium. The maximum height of the caving zone and the minimum height of the sand-prevention coal and rock pillars were 34 m and 46 m, respectively. Knowing this allowed a somewhat shorter (204 m) but safe working face to be designed. This research provides a good background for the design of safe mines under similar conditions. 相似文献
15.
打通一煤矿西区开采对地表影响程度研究 总被引:1,自引:0,他引:1
从分析矿井西区的地形地貌、地质构造、地层、水文地质条件和开采技术条件入手,对W2701工作面开采后的地表裂缝、地表水体和地面塌陷进行了调查,推算煤层开采后的冒落带和裂隙带的高度分别为40.90m和140.22m,而该区煤层埋深为450-600m,说明在正常开采下,不会对地表产生影响。但随着开采强度的增大,煤系地层上覆岩层中一些未探明隐伏裂隙的存在,可能会间接影响到地表。据此提出了设立岩移观测站、建立预警系统、留设安全煤柱等预防措施。 相似文献
16.
De-zhong Kong Wei Jiang Yi Chen Zheng-yang Song Zhenqian Ma 《Arabian Journal of Geosciences》2017,10(8):185
Low recovery of longwall top coal caving (LTCC) remains one of the most difficult engineering problems in this mining method and impedes its application. The top coal left in the gob at face end accounts for a large portion of the total coal loss, and the instability of the leftover triangle coal at face end has long been a threat to the safety of miners and the mining equipment. In this paper, based on the engineering background of Ruilong mine, we explore the stability of the roof at the end of the face by using theoretical analysis, numerical simulation, and field measurement. Results reveal that in the inclined longwall top coal caving face, the immediate roof forms an “arch” structure, and the basic roof forms a “masonry beam” structure after the roof collapses; working resistance of the support calculated by the method of ultimate bearing capacity was adequate to meet the requirement of roof load; roof load of coal pillar was related to the length of key block and fracture position; and increasing the size of coal pillar could ensure the stability of both coal pillar and roof. 相似文献
17.
断层对顶板稳定性影响相似模拟试验研究 总被引:13,自引:1,他引:12
通过相似模拟试验方法分析了不同倾向高角度正断层, 在采动影响下顶板岩体变形破坏和矿压分布规律。结果表明, 在采动影响下断层“活化”,断层带及其影响范围内的岩体破碎, 表现为周期断裂步距小, 冒落带高, 尤其是断层下盘, 顶板稳定性差; 当工作面开采到离断层面22.5~ 30 m时, 直到断层位置的前方煤体中支承压力增大, 煤体被压碎, 且随着距断层面距离的缩小, 支承压力的峰值位置向工作面前方转移; 通过断层后, 顶板岩体中支承压力减小, 比无断层存在的情况要低。 相似文献
18.
Jin-wang Zhang Jia-chen Wang Wei-jie Wei Yi Chen Zheng-yang Song 《Arabian Journal of Geosciences》2018,11(5):96
Steep coal seam mining activities will frequently occur during the next few decades in China. In this study, both experimental and numerical methods are employed to investigate the coal drawing from thick steep seam with longwall top coal caving mining. A series of analyses is performed to investigate the features of the drawing body, the distribution of top coal recovery ratio and the shape of the rock flow under steep conditions. The results indicate that the drawing body of top coal develops prior to upper side of the panel face obviously, and the top coal in the central part of the panel has a higher recovery ratio than that in the lower and upper parts in steep coal seam with caving mining method. The flow paths of the fragmented top coal are nearly straight lines moving towards the drawing window, and the fastest path maintains a constant angle with the plumb line. The spatial shape of the rock flow indicates “bidirectional asymmetry,” which results from the presence of the shield beam and dip angle of the coal seam; thus, this is the root cause of the appearance of the drawing body’s prior development towards the upper side of the panel. The field observation data indicates the same distribution of top coal recovery as that in the physical experiment and numerical simulation. Furthermore, suggested measurements are proposed to improve top coal recovery in steep seam mining based on the engineering practice of Dayuan coal mine. 相似文献
19.
为了防止类似淮南顾北矿1202(3)上提工作面再次发生突水压架事故,根据上提工作面覆岩破断特征,建立了自然拱覆岩结构力学模型,推导出低冒拱和高冒拱的拱高计算式,研究了工作面顶板断裂位置对支架载荷的影响,分别计算出松散含水层在自然拱内、拱外两种条件下的覆岩载荷,确定了滑落失稳和挤压变形失稳的压架判据。研究表明,上提工作面受到松散含水层内水的影响时,易形成高冒拱结构,拱内松散层重度增加,铰接岩块之间的接触力减小,承载关键层受到松散含水层内的水压影响,造成支架上的载荷急剧增大,导致上提工作面易发生突水压架事故。然而影响工作面突水压架既有地质因素,又有开采技术因素,盲目地增加支架工作阻力未必能降低工作面压架风险,支护成本必然急剧增加。基于此,定义了无量纲的压架敏感度指标,分析了压架因素的敏感性,并针对压架敏感性较高的因素,提出了“适当控制采高,开切眼顶板强制放顶,防止直接顶悬顶,采前疏水降压,加固工作面煤壁,提高支架支撑力,合理的设备选型,保证合理的工作面推进速度”等防压架对策,为类似条件下上提工作面安全开采提供一些理论指导。 相似文献
20.
The movement and failure of overlying strata induced by underground coal mining cause “three zones,” including the caving zone, the water-conductive fractured zone, and the sagging zone from the bottom up. For knowledge about the height of the water-conductive fractured zone, there has been no empirical or theoretical formulae for thick coal seam using fully mechanized longwall mining with sublevel caving. This paper presents a methodology of determining the height of the water-conductive fractured zone based on the radial basis function neural networks (RBFNN) model in MATLAB software. Before modeling, the relationship between the height of the water-conductive fractured zone and mining thickness, the lithologic character of the overburden and its composite structures, and workface parameters was studied. After that, 32 and 7 measured data were used as training and testing samples, respectively. It has been found that the average relative error is 6% and the maximum relative error is 10% for 7 test samples by comparing actual results with predicted results. The model was applied to the no. 31503 workface in the Gaozhuang coal mine for safety evaluation. The predicted value is 59.6 m, and the measured value is 55.9 m. The RBF-based model shows much better performance than empirical formulae in the Regulations for Coal Mining and Coal Pillar Design under Buildings, Water-bodies, Railways and Main Shafts for the prediction of the height of the water-conductive fractured zone for fully mechanized mining with sublevel caving. 相似文献