Prediction of Rock Burst with Deep Mining Excavation in Linglong Gold Mine

To predict rock burst in deep mining excavation in Linglong gold mine, systematical laboratory tests of mechanical properties of rock, in situ stress measurement and 3-D FEM analysis on energy distribution in rock mass surrounding deep mining rooms were carried out. According to various prediction criteria of rock burst, it is concluded that rock burst is liable to occur during deep mining excavation in the mine.

Prediction and control of rock burst of coal seam contacting gas in deep mining

By analyzing the characteristics and the production mechanism of rock burstthat goes with abnormal gas emission in deep coal seams,the essential method of eliminatingabnormal gas emission by eliminating the occurrence of rock burst or depressingthe magnitude of rock burst was considered.The No.237 working face was selected asthe typical working face contacting gas in deep mining;aimed at this working face,a systemof rock burst prediction and control for coal seam contacting gas in deep mining wasestablished.This system includes three parts:① regional prediction of rock burst hazardbefore mining,② local prediction of rock burst hazard during mining,and ③ rock burstcontrol.

Rock burst laws in deep mines based on combined model of membership function and dominance-based rough set

Rock bursts are spontaneous, violent fracture of rock that can occur in deep mines, and the likelihood of rock bursts occurring increases as depth of the mine increases. Rock bursts are also affected by the compressive strength, tensile strength, tangential strength, elastic energy index, etc. of rock, and the relationship between these factors and rock bursts in deep mines is difficult to analyze from quantitative point. Typical rock burst instances as a sample set were collected, and membership function was introduced to process the discrete values of these factors with the discrete factors as condition attributes and rock burst situations as decision attributes. Dominance-based rough set theory was used to generate preference rules of rock burst, and eventually rock burst laws analysis in deep mines with preference relation was taken. The results show that this model for rock burst laws analysis in deep mines is more reasonable and feasible, and the prediction results are more scientific.

Heterogeneous information phase space reconstruction and stability prediction of filling body–surrounding rock combination

Traditional research believes that the filling body can effectively control stress concentration while ignoring the problems of unknown stability and the complex and changeable stress distribution of the filling body–surrounding rock combination under high-stress conditions.Current monitoring data processing methods cannot fully consider the complexity of monitoring objects,the diversity of monitoring methods,and the dynamics of monitoring data.To solve this problem,this paper proposes a phase space reconstruction and stability prediction method to process heterogeneous information of backfill–surrounding rock combinations.The three-dimensional monitoring system of a large-area filling body–surrounding rock combination in Longshou Mine was constructed by using drilling stress,multipoint displacement meter,and inclinometer.Varied information,such as the stress and displacement of the filling body–surrounding rock combination,was continuously obtained.Combined with the average mutual information method and the false nearest neighbor point method,the phase space of the heterogeneous information of the filling body–surrounding rock combination was then constructed.In this paper,the distance between the phase point and its nearest point was used as the index evaluation distance to evaluate the stability of the filling body–surrounding rock combination.The evaluated distances(ED)revealed a high sensitivity to the stability of the filling body–surrounding rock combination.The new method was then applied to calculate the time series of historically ED for 12 measuring points located at Longshou Mine.The moments of mutation in these time series were at least 3 months ahead of the roadway return dates.In the ED prediction experiments,the autoregressive integrated moving average model showed a higher prediction accuracy than the deep learning models(long short-term memory and Transformer).Furthermore,the root-mean-square error distribution of the prediction results peaked at 0.26,thus outperforming the no-prediction method in 70%of the cases.

Failure mechanism and coupled static-dynamic loading theory in deep hard rock mining: A review

Rock failure phenomena,such as rockburst,slabbing(or spalling) and zonal disintegration,related to deep underground excavation of hard rocks are frequently reported and pose a great threat to deep mining.Currently,the explanation for these failure phenomena using existing dynamic or static rock mechanics theory is not straightforward.In this study,new theory and testing method for deep underground rock mass under coupled static-dynamic loading are introduced.Two types of coupled loading modes,i.e.'critical static stress + slight disturbance' and 'elastic static stress + impact disturbance',are proposed,and associated test devices are developed.Rockburst phenomena of hard rocks under coupled static-dynamic loading are successfully reproduced in the laboratory,and the rockburst mechanism and related criteria are demonstrated.The results of true triaxial unloading compression tests on granite and red sandstone indicate that the unloading can induce slabbing when the confining pressure exceeds a certain threshold,and the slabbing failure strength is lower than the shear failure strength according to the conventional Mohr-Column criterion.Numerical results indicate that the rock unloading failure response under different in situ stresses and unloading rates can be characterized by an equivalent strain energy density.In addition,we present a new microseismic source location method without premeasuring the sound wave velocity in rock mass,which can efficiently and accurately locate the rock failure in hard rock mines.Also,a new idea for deep hard rock mining using a non-explosive continuous mining method is briefly introduced.

鄂西磷矿岩爆现状及治理措施研究

针对鄂西磷矿,在深入调查苏家坡磷矿、麻坪磷矿、桃郁溪磷矿等矿山地质特征及岩爆现象的基础上,分析了鄂西磷矿岩爆灾害主要发生部位、埋深及岩性等影响因素,提出了适合鄂西磷矿岩爆的治理措施:对鄂西地下磷矿进行地应力测试,根据地应力测试结果,优化回采顺序,减少应力集中区域,并在局部区域开展卸压和支护措施,保障井下安全开采。

深部近距离煤层群下分层巷道分区支护技术

为实现深部近距离煤层群下分层巷道安全,以张双楼煤矿21916工作面为工程背景,分析了工作面冲击地压影响因素,划分了21916工作面掘进期间巷道冲击危险区域;建立了煤层合并区域下分层回采巷道数值模型,研究了9煤层21916工作面巷道内错7煤采空区不同距离时应力和位移分布规律,确定了下分层巷道合理位置;基于冲击危险区域划分结果,提出了分区支护技术,并设计了支护参数。现场实测表明,下分层巷道最大两帮移近量为164 mm,最大顶底板移近量为84 mm,顶板深部和浅部的离层量不大于3 mm,帮部锚杆和顶部的锚索受力变化较小,顶锚杆受力从8 kN增加到12 kN后趋于稳定,表明21916工作面巷道布置合理,分区防冲支护技术合理,支护质量与效果显著。研究结果可为类似条件工作面防冲支护提供借鉴。

我国深部冲击地压防控工程技术难题及发展方向

随着煤矿开采深度不断加大,我国深部冲击地压发生及其防治变得常态化,为了提高深部冲击地压防控技术成效,从深部冲击地压防控现场工程技术难题出发,结合灾害防治工程实践数据统计,分析了我国深部冲击地压防控因自身地质赋存地应力高,人为开采扰动范围大,灾害防治过程围岩卸压后应力恢复快,冲击地压防治成效低下原因归结于防冲卸压工程实施与浅部开采相比,面临“三高一低”防控技术新要求,包括高强度的大尺寸钻孔卸压,以解决厚硬煤层不容易塌孔问题;小间距高密度施工钻孔,以解决钻孔卸压范围不联通问题;多轮反复高频度施工,以解决深部煤层卸压后应力恢复快问题;采掘工作面进尺低速度推进,以解决开采扰动强度大问题。针对深部冲击地压“三高一低”防控新要求模式,为了进一步提高冲击地压防控安全可靠性,以常规源头防控冲击地压采用优化开拓开采部署的局限性为背景,提出了深部冲击地压上覆岩层结构与载荷主动调控区域防控冲击地压技术,并提出了进一步需要解决的科学问题;以近年来几起典型的冲击地压事故存在防治方案“漏靶”问题为背景,开发了深部冲击地压采掘空间局部靶向防控技术,并指出了下一步还需要解决的科学难题;以煤矿冲击地压防治措施实施后,难以评判安全性问题为背景,提出了深部冲击地压防治卸压达标评判技术,并指出了下一步还需要解决的科学难题;以煤炭行业大力推广开采智能化,治灾仍需靠人工,人员处于高危环境作业问题,探索了深部冲击地压防治过程智慧智能化新兴研究方向及其面临的科学难题。最后,客观的指出,冲击地压防控绝不纯粹是理论与技术问题,人类对专业问题的认知也是酿成事故的重要原因之一,结合现场工程实践,讨论了冲击地压概念、冲击地压机理是否清楚、冲击地压能否预测、冲击地压能否防治以及冲击地压矿井怎么办等行业焦点专业问题,指出冲击地压工程难题是人类与自然界作斗争,需要从业人员客观认知,客观接受并深入研究,成效是显著的。

拉拉铜矿落凼矿区深部地应力场特征及岩爆预测分析

拉拉铜矿位于川滇应力区中部,浅部资源接近开采结束,逐步由露天开采全面转为地下开采,由于其深部开采地质条件复杂,落凼深部矿区将面对开采过程中的地应力问题。以拉拉铜矿落凼矿区深部地应力场特征为研究对象,开展了10个钻孔的应力解除法地应力测试、22组围岩室内物理力学测试,结合国标法、Barton法及陶振宇法3种应力判据完成了深部开采区域的岩爆预测分析。结果表明:地应力值浅部离散分布,深部线性增长;最大主应力方向整体离散;岩爆程度随深度逐渐增大,浅部离散分布,深部逐渐集中,东区1 780 m标高可能出现强烈岩爆的现象;结合矿区断层及测试点分布特征,指出矿区断层及地层对地应力测试结果的影响,为该类金属矿山深部灾害预防及安全开采提供有益的参考。

深部金属矿山卸压开采关键技术探析

随着矿山开采工作逐步向纵深方向发展,对采矿技术提出更高的要求。在一些存在岩爆倾向性的深部金属矿山中,可将卸压开采作为主要方案,以此来确保作业的安全性。基于此,以某矿区作为研究对象,分析论述了深部金属矿山卸压开采关键技术,期望能够对促进金属矿山开采技术水平的提升有所帮助。

深部煤巷围岩三向应力差异梯度致冲机理

以深部煤巷围岩为研究对象,针对冲击地压灾害严重、致冲机理研究尚不完善、防冲工程缺少更具针对性指导依据等问题,采用室内试验、数值模拟、理论分析等方法,从三向应力差异角度揭示深部煤巷围岩冲击致灾机理。基于采掘活动扰乱煤岩体三向等压状态导致围岩破坏的特点,通过PFC模拟试验和理论推导研究了不同应力路径下的煤体单元体响应特征,得到单元体失稳的应力差异判据,进一步提出煤巷围岩应力差异梯度D_(g)和应力差异梯度变化率D_(gc)的概念,基于Drucker-Prager准则分析了巷道围岩D_(g)演化特征,进而得到巷帮煤体D_(g)集中致冲的作用机理,并结合冲击地压事故案例进行分析验证。结果表明:煤体的应力差异承受能力随着应力路径的不同而存在显著差异;围岩应力演化的目标是D_(g)峰值降至极小值,围岩的破坏和屈服是D_(g)驱动作用的结果;围岩内应力差异梯度D_(g)随埋深增大和煤层冲击倾向性等级升高而增长,体现出明显的“上升—跌落—下降”梯度性质;D_(gc)表征围岩内D_(g)集中程度,D_(g)升高区煤体在应力扰动作用下,满足D_(gc)0<D'gc<k1D_(gc)0时发生较稳定的变形、位移,满足k1D_(gc)0≤D'gc<[D_(gc)]时发生较稳定的整体失稳,满足D'gc≥[D_(gc)]时发生冲击地压;巷帮煤体冲击是围岩变形、破坏的一种极端演化形式;防冲机制应以弱化围岩D_(g)水平为核心,以D_(gc)控制为主要着力点。

深部仰采孤岛工作面初采期间冲击地压防治

以霄云煤矿1310工作面为工程背景,通过计算判断悬顶初次破断失稳位置,分析坚硬顶板破断时释放的大量弯曲应变能,并利用FLAC3D数值模拟分析深部仰采孤岛工作面初采阶段的采动应力变化;基于悬顶破断释放的能量和初采期间应力集中系数超过发生冲击地压的临界值,判断深部孤岛工作面初采期间发生冲击地压的可能性较大;通过采取大直径钻孔卸压结合顶板深孔预裂爆破等综合卸压措施对初采阶段冲击危险性进行防治。结果表明:卸压钻孔形成的弱化带破坏了煤体承载结构,使靠近巷道的浅部煤体应力明显下降,且应力峰值向煤体深部转移;爆破对顶板进行损伤破坏,提前释放或转移了坚硬顶板积聚的弹性能,从而降低孤岛工作面初采阶段发生冲击地压的可能性。

深部矿山巷道岩爆应急管理能力评估

为了降低深部矿山巷道岩爆事故中的人员伤亡与财产损失,提高岩爆事故中的应急管理能力,提出改进组合赋权云模型相结合的深部矿山巷道岩爆应急管理能力评估方法。首先,根据PPRR(Prevention,Preparation,Response,Recovery)应急管理理论,构建包括应急预防能力、应急准备能力、应急响应能力和应急恢复能力4个一级指标的深部矿山巷道岩爆应急管理能力评估指标体系,该体系共包含18个二级指标;其次,引入指数函数改进层次分析(Analytic Hierarchy Process,AHP)法,利用改进的AHP法和熵权法分别确定评估指标的主客观权重,将各权重进行融合以获得最优权重,并结合云理论建立改进组合赋权云模型的应急管理能力综合评估模型;最后,以河南某深部矿山巷道为例,运用综合评估模型对深部矿山岩爆应急管理能力进行评估。结果显示:深部矿山岩爆应急管理能力等级为Ⅱ,且综合评价云的超熵为0.21(小于4.65/3)。评估结果与实际应急管理能力水平相符,综合评估模型可快速准确地确定深部矿山巷道岩爆应急管理水平。

陕蒙深部矿区基于防冲的区段煤柱宽度研究

以陕蒙深部矿区纳林河二号井双巷快速掘进条件下首个临空工作面开采为背景,采用理论分析、数值模拟和现场监测等方法,研究了不同宽度区段煤柱应力分布规律,揭示了宽区段煤柱应力叠加诱冲机理,并在此基础上指出下阶段基于防冲的窄区段煤柱宽度设计方法。研究结果表明:宽区段煤柱受采空区侧向支承压力、走向支承压力和上覆厚硬岩层破断产生的动载应力等多个因素影响,当形成的叠加应力达到冲击发生的临界应力时,将使冲击显现;下阶段纳林河二号井留设区段煤柱宽度为5~7 m较为合理。陕蒙深部矿区其他类似条件矿井可在此基础上积极探索窄煤柱留设方式,以期降低临空巷道发生冲击地压灾害的可能性。

不同能级矿震波对深部盘区大巷围岩扰动效应

进入深部开采,巷道围岩承受高静载,在局部复杂地质构造区域高水平应力的加持下,微小的动载产生的扰动效应即可诱发巷道冲击地压,不同能级矿震波对巷道产生不同的扰动效应,可以诱发巷道围岩不同位置的不同程度破坏。针对彬长矿区某煤矿一盘区大巷频繁发生冲击地压的问题,在分析巷道冲击微震监测能量特征的基础上,进行了数值模拟研究,通过应力、能量、位移表征了不同能级矿震矿震波对巷道围岩的扰动效应。结果表明:冲击地压发生前,微震监测偶有大能量事件出现,但是其余时间总频次和总能量处于较低水平,总能量往往小于10^(5)J,发生时,微震监测总频次和总能量骤增,总能量达到10^(5)J以上,发生后,微震监测总能量和总频次骤减,一段时间内处于静默状态;静载条件下,底板相比较顶板离层现象更显著,矿震扰动下,顶板相比较底板更易发生离层,10^(5)J及以下能级矿震扰动下,对巷道围岩产生的影响是顶板>底板>两帮,10^(5)J以上能级矿震扰动下,对巷道围岩产生的影响是顶板>两帮>底板。

基于沉积控压规律的鄂尔多斯盆地中深部矿井冲击危险性分区评价

为解决鄂尔多斯盆地北部深埋煤层开采普遍面临的冲击地压问题,在煤层覆岩沉积地质特征研究基础上,以M煤矿为例,分析了微震事件的平面展布规律及其与沉积地质环境、主关键层厚度、主关键层与煤层间距、煤层厚度、岩心采取率之间的关联性,结果表明沉积地质条件是影响微震事件的重要因素。利用灰色关联度法对影响冲击危险性的5个主控因素进行了影响程度排序,采用层次分析法确定了各因素的权重值,在ArcGIS平台上建立了各主控因素专题图,构建了冲击危险性评价模型,对矿井的冲击危险性进行了分区评价,并与工作面开采过程中微震事件实际观测数据进行了对比验证,结果表明分区评价结果与实际观测结果吻合程度较高,证明了基于沉积地质条件分析的冲击地压危险性评价结果的正确性。研究结果可为矿井冲击地压防治工作提供一种新的参考方法。

深部连续开采充填工作面沿空掘巷围岩偏应力演化与控制

为解决深部连续充填工作面沿空掘巷围岩控制问题,以邢东矿1128运输巷为工程背景,借助FLAC3D数值模拟软件,探究1126工作面采空区在不同充填率条件下沿空掘巷围岩偏应力分布规律,模拟分析充填开采工作面超前段受开采影响的围岩偏应力演化特征。研究发现:巷道浅部围岩形成环全断面低偏应力区,顶板低值区深度明显小于两帮与底板,低值区外的巷道四边均有一个偏应力高值区;围岩最大偏应力区位于巷道右上部,峰值大于20 MPa,当充填率大于90%时,巷道围岩四周偏应力值逐渐减小且沿巷道两帮呈对称分布;充填开采对超前段巷道围岩形成的高集中应力主要分布在工作面前方0~15 m,巷道顶、底板两尖角处围岩受巷道围岩偏应力影响形成4个“突出变形区”。结合模拟分析结果、锚杆索预应力承载结构及采空区高水材料充填性能,提出巷道围岩“超强锚杆+大直径高延伸率锚索”联合支护技术,并应用于现场工程实践,结果表明该技术可实现对深部连续开采充填工作面沿空掘巷围岩的有效控制。

深部工作面冲击地压组合卸压参数优化实践研究

以园子沟煤矿首采深部1012001工作面为研究对象,提出回采期间的3种卸压措施。由于深部工作面应力环境复杂多变,为保证工作面安全开采,以原有的卸压方案为基础,对不同参数的卸压效果进行细化分析,确定更优参数;提出增大帮部卸压孔的孔深、改变底板卸压孔布置方式,以及采用水力压裂的措施进行卸压效果更好,若卸压措施无法消除冲击危险或仍旧能监测到高应力的存在,便在参数优化后的实施进一步补强卸压措施,最终确定深部工作面冲击地压组合卸压解危方案。

深部矿井分源立体防冲击地压技术实践

以孟村煤矿401102工作面为例,通过综合分析得出401102工作面主要有煤层强冲击倾向性、埋藏深、推采过地质构造及煤层上方赋存多层硬厚砂岩等4个冲击地压主控因素,其中回采期间坚硬顶板破断产生的动载极易诱发冲击地压。通过对工作面动、静载分级防控,煤岩层立体防治,采取煤层爆破、大直径卸压、顶板爆破预裂、地面水平井分段压裂等措施,大幅度降低了工作面冲击危险性,对相似地质条件下深部冲击地压矿井防冲工作具有一定的借鉴意义。