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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
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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
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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
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导水裂隙带发育高度是矿井水害预测的重要技术参数之一。以彬长矿区文家坡煤矿4103工作面为研究对象,利用井-地联合微震监测技术对顶板导水裂隙带发育特征进行研究。研究结果表明:深埋煤层开采时,微震事件超前工作面回采位置发育,超前影响角最大为35°,最小为28°;断层的存在降低了覆岩稳定性,相较于正常基岩,更易在回采影响下发生应力集中和破坏;断层加大了微震事件发生的超前距,而采空区则使微震事件的高密度区向其所在部位发生偏移,加剧覆岩破坏程度,增大导水裂隙带发育高度;垂向上,4103工作面监测区内的微震事件高密度区域主要集中在高程+400~+520 m,结合微震事件数量和能量分布特征,判定4103工作面垮落带发育高度为50 m,垮采比13.16,导水裂隙带发育高度为117 m,裂采比为30.79。该成果可为彬长矿区类似煤矿深埋煤层顶板导水裂隙带发育高度研究及顶板水防治提供重要依据。移动阅读 相似文献
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针对软弱厚煤层综放开采沿空留巷动压显现明显,顶板易出现不均匀切顶下沉等问题。通过现场调研、理论分析和数值模拟,阐明了软弱厚煤层综放开采沿空留巷动压显现特征和变形机制,提出了软弱厚煤层沿煤层顶板布置沿空留巷变形协同支护体系。研究结果表明:综放开采采出厚度大,沿煤层底板留巷时沿空留巷煤层顶板承载能力差,“底板−巷旁支护体−顶板”支护体系载能力不协调,是造成软弱厚煤层沿空留巷产生大变形的主要原因;沿煤层顶板留巷变形协同支护体系的提出提高了沿空留巷帮部、顶底板及巷旁支护体的协同承载能力,可有效地保证软弱厚煤层沿空留巷的围岩稳定。研究成果在古城煤矿的成功应用,证明了该支护体系在软弱厚煤层综放沿空留巷中的可行性。 相似文献
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倾斜煤层沿空半煤岩巷由于围岩结构的非对称性和非均质性,受采掘扰动影响,巷道围岩呈现更严重的变形破坏。为揭示不同基本顶断裂形式对倾斜煤层沿空半煤岩巷围岩稳定性的影响规律,采用数值模拟方法针对该类巷道4种基本顶断裂形式下巷道围岩变形特征进行了研究。结果表明:基本顶断裂线位置对该类巷道围岩稳定性的影响程度由小到大依次为:采空区侧、煤柱上方、实体煤侧、巷道上方;基本顶断裂线位于采空区侧时,煤柱轴向、横向应力增速均小于其他情况,垂直位移也最小,煤柱变形在允许范围内,可保持后期对顶板的支承能力,对巷道维护最有利。在此基础上,以贵州某矿1511工作面回风巷为工程背景进行了工业试验,通过理论计算和现场钻孔探测综合分析得出,为避免基本顶断裂线位于煤柱上方靠巷道侧,下一步掘进时煤柱宽度应由3 m改为5 m。掘采期间断面检测结果显示,断面最大收缩率为23.3%,最大非对称变形率为5.2%,巷道整体均匀协调变形,进一步验证了研究成果的可靠性。 相似文献
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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
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深部厚顶煤巷道围岩变形破坏机制模型试验研究 总被引:2,自引:0,他引:2
为研究深部厚顶煤巷道围岩变形破坏特性及其机制,以赵楼煤矿千米深井厚顶煤巷道为工程背景,开展了大比尺地质力学模型试验,对让压型锚索箱梁支护系统作用下的巷道围岩位移、应力演化规律进行的研究表明:巷道顶底板围岩竖向应力释放较两帮剧烈,水平应力释放反之,巷道顶板中部围岩是顶板竖向应力释放的主要部位。通过与现场试验结果对比验证,总结出深部厚顶煤巷道围岩变形破坏的3个主要特征:顶板变形破坏较两帮和底板严重、顶板围岩变形破坏主要发生在煤岩交界面以下的煤体中、巷中是顶板变形破坏的关键部位,并进一步分析了相应机制:顶板煤岩松软破碎、自承能力差、顶板及其巷中竖向应力释放相对更为剧烈、矩形巷道顶板受力状态差等因素,导致顶煤所受径向应力低,碎胀变形剧烈,且弯曲变形、离层严重,顶板受力结构恶化,最终导致顶板控制困难。 相似文献
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Yanchun Yin Jianchao Zou Yubao Zhang Yue Qiu Kai Fang Dongmei Huang 《Arabian Journal of Geosciences》2018,11(12):318
For the coal mining with flexible shield supports which is used widely in the exploitation of steeply inclined coal seams, a method with which to backfill enough gangues efficiently in goaf is the key to meet the control requirements for the roof. In order to research the movement of gangues in goaf and the factors influencing backfilling effects, an experimental device for the movement of gangues for backfilling the goaf in steeply inclined coal seams was designed. The movement trajectory of gangues was monitored and was divided into three stages. Gangue movement characteristic under different engineering condition was studied, which showed that the backfilling rate of gangues in the goaf of steeply inclined coal seams is positively correlated to the dip angle of the coal seam and the mining thickness, while being negatively correlated to the grain size of the gangues and the deformation of the roof. 相似文献
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根据大断面厚顶煤巷道顶板的破坏特性,考虑了顶板围岩应力水平与支护荷载的影响,利用Hoek-Brown强度准则及其相关联的流动法则,构造出厚顶煤巷道顶板的冒落破坏机构。基于塑性力学中的上限分析方法,结合变分原理,推导得到了大跨度厚顶煤巷道顶板的冒落破坏机制,并以赵楼煤矿某巷道现场实践为例,分析了不同计算参数对顶板冒落破坏机制的影响。计算研究表明:随着岩体经验参数A、抗拉强度、抗压强度及支护荷载的增加,冒落体尺寸随之增大,而当岩体经验参数B、围岩应力及岩体重度增加时,冒落体尺寸则随之减小;冒落体尺寸代表了巷道顶板安全性能的大小,其尺寸越大,表明使巷道顶板发生冒落破坏所需外力功越多,顶板安全性能也越高;岩体经验参数B、围岩应力水平与支护荷载对顶板围岩破裂机制影响较为显著,参数B决定了冒落体的破裂形状,随着参数B的增加,冒落破裂迹线的曲率不断减小;增大支护阻力是提高顶板稳定性的有效途径,其研究结果可为大断面厚顶煤巷道支护设计提供一定的理论依据。 相似文献
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鄂尔多斯盆地准格尔东部煤田石炭?二叠系 6 煤层为巨厚煤层,煤层底板面临奥陶纪灰岩含水层威胁尤为突出,由于采动效应的影响会形成底板采动破坏带,可能会形成新的导水通道引起突水灾害。针对底板采动破坏带测试问题,提出采用动源动接收的孔中瞬变电磁法,在采前和采后工作面底板钻孔中获取岩层电阻率特征数据的方法。首先通过数值模拟对比孔中瞬变电磁法在完整和二层岩层模型中呈现的电阻率差异性,验证该方法对二层岩层模型具有较好分辨率;然后在准格尔煤田酸刺沟煤矿6119巨厚煤层综放工作面进行试验,通过探查底板电性差异层得到底板破坏深度,经过验证结果准确可靠。研究表明:孔中瞬变电磁法探测技术与测试钻孔相结合,通过对比采前与采后结果获取了较为准确底板破坏深度,对类似条件下的工作面破坏深度测试提供了一种新的方法。 相似文献
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鉴于岩石碎胀特性对于煤矿地下水库储水能力及地表沉陷的重要影响,选取神东矿区某矿22615面为工程背景,利用相似材料模型试验探究采空区垮落岩体应力及碎胀系数分布规律,明确垮落岩体应力-碎胀系数关系,并通过岩石压实试验进行验证,揭示饱水岩石压实特性。研究结果表明:沿采空区走向,边界附近老顶悬臂梁结构限制覆岩下沉,垮落岩体应力最低仅为0.32 MPa,碎胀系数最大达1.48;中间区域老顶结构失稳覆岩完全下沉,垮落岩体应力趋于1.5 MPa,碎胀系数降至1.09。沿采空区垂向,垮落岩体应力随高度负相关改变,而碎胀系数成正相关变化。无论沿采空区走向或垂向,垮落岩体碎胀系数与应力均满足负对数关系。与自然岩石相比,受载饱水岩石碎胀系数减幅更为明显,两者相差8.514%,为煤矿地下水库储水量和地表沉降量预测提供了基础理论依据。 相似文献
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Monitoring of strata control parameters and behaviour of a powered support was carried out during an experimental trial of a mechanized longwall sublevel caving face for exploitation of a 7.5m thick coal seam. Field observations indicated that the requirement of support density for underwinning of top coal by sublevel caving under intact strata is different from that for underwinning under broken and fractured rock mass. Analysis of the leg closure observations and support resistance variations during different mining cycles showed rapid increase of the setting load density of the support in relation to the yield load density. This resulted in a large amount of leg closure during mining cycles of the sub level caving face under broken rock strata. Due to operational constraints, the field observations could not provide enough information to visualize the behaviour of the overlying rock strata. Simulation of the field conditions was therefore performed on a physical model to bridge this gap of information. Results of laboratory investigations on the physical model are combined with those of the field to explain the critical behaviour of the support system during sublevel caving under broken rock strata. 相似文献
16.
Weibing Zhu Shengchao Yu Dayang Xuan Zhenjun Shan Jialin Xu 《Arabian Journal of Geosciences》2018,11(18):554
Strip mining was the major method to control surface subsidence when mining under buildings in China; however, its coal recovery ratio was only 30 to 50%, resulting in a large amount of coal resource waste due to the retained strip coal pillars. As such, it is of important significance to recover the retained pillars while guarantee the safety of the buildings at surface. In order to address this issue, excavating strip coal pillars using caving zone backfill technology was proposed in this study. The process of this technology was to grouting backfill the original strip caving zones using high-water content material at first, creating a combined backfill body of caved gangue and high-water content material, the backfill body acted as the temporary support. Then the retained pillars were excavated and the newly produced caving zones were backfilled with one interval, which effectively prevented the movement and deformation of the strata. The backfilling system and technology were designed and trailed to excavate the retained pillars at mining area 911 in Bucun colliery. It was found that the backfilling rate reached 96.8 to 98.7% in the original caving zones, the backfilling body in caving zones was highly compacted, and the maximum surface subsidence was only increased to 67 mm with no growth in the failure depth of floor. The retained coal pillars in three of the mining areas were safely excavated and the safety of buildings on the ground was preserved. 相似文献
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针对大倾角厚软煤层下分层安全综采问题,结合淮南矿区潘北煤矿1212(3)大倾角厚软煤层分层综采下分层工作面地质与工程条件,综合运用基于数字散斑、声发射监测与分布式光纤传感技术的物理模拟试验、基于煤系地层赋存禀赋建模技术的数值模拟试验相结合的研究手段,开展了下分层开采再生顶板破断倾向分区演化、再生岩体变形声发射能量与光纤应变响应规律及应力分布特征研究。结果表明:再生顶板破断由其破断岩块滑移、低中位悬臂梁和高位铰接岩梁断裂组成,双梁破断是引起下分层支架失稳的关键所在。下分层中上部双梁破断声发射能量呈高度聚集且持续时间短,光纤感知低位悬臂梁破断且中上部光纤应变峰值高,下分层中上部是支架与再生顶板稳定性控制的重点区域。下分层下部再生顶板破断岩块充填密实且粒径小,是架间与架前岩块漏冒多发区域。下分层再生顶板中形成高应力组成的应力拱,距采空区高度约30 m,双梁破断主要发生在拱内,拱中岩体破断对支架具有一定的冲垮作用。 相似文献
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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
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多煤层开采条件下煤层覆岩破坏具有独特的特征,影响矿井生产布置。以陕北某矿为例,以该矿地质采矿条件为基础,采用相似材料模拟实验与数值模拟相结合的方法,通过建立模拟模型,开展了双煤层开采对覆岩的破坏影响研究。结果显示:留设不同宽度的煤柱,采用相似材料模拟和数值模拟2种方法得到的煤层覆岩垮落带高度、裂隙带高度都基本一致;在双煤层开采时,留设的煤柱宽度越大,两个煤层的叠置区域就越小,煤层开采对覆岩的破坏程度就越小。在工作面布置时,建议增大两个煤层的开采距离,并尽量增加煤柱宽度,以减缓覆岩移动破坏范围和破坏程度。研究成果为类似双煤层开采工作面的设计及覆岩破坏控制提供技术支撑。 相似文献