陷落柱渗流突水机理及强度主控因素模拟

为了研究陷落柱影响区域内巷道渗流突水机制及其主控因素,采用Darcy、Brinkman、N-S方程对含水层、陷落柱、突水巷道内流场进行联动系统刻画,选取不同参数、不同边界等变量,分析影响陷落柱渗流突水强度的主要因素。结果表明:定压、定流量条件下,含水层渗透率增大会引起含水层和陷落柱交界处区域流速增大,但定流量条件下增幅较小,且会降低巷道突水流速;陷落柱渗透率的增大对突水压力和突水流速作用显著,定压条件下,随着陷落柱渗透率的增大,巷道突水流速骤增;含水层压力增高,陷落柱区域和巷道区域流速明显增大;在定流量边界下,随着陷落柱渗透率的增大,巷道突水流速仅发生微小波动;将研究结论与现有相关成果进行了对比验证分析,获得了与本文较一致的研究规律。总体分析,陷落柱影响区域巷道突水机理是含水层水压高、足量补水、陷落柱破碎区域渗透率较大且联通了含水层和巷道;其中,含水层压力、陷落柱渗透率是陷落柱渗流突水强度的主控因素。      

断层破碎带突水突泥演化特征试验研究

为了研究富水断层破碎带隧道突水突泥灾害演化机制,自行研制了一套可考虑质量迁移及地应力状态的大型室内突水突泥试验系统。利用该装置开展了不同水压加载方式、不同破碎带介质参数等条件的断层破碎带突水突泥灾害演化过程模拟试验。结果表明：（1）断层破碎带突水突泥灾害演化是渗流?侵蚀强耦合过程,在水压作用下,破碎带介质中的细颗粒首先发生迁移,导致充填介质孔隙结构增加,进而加速细颗粒流失,促使涌水率不断增长,随着细颗粒不断迁移流失,水流流态由层流转换为紊流,最终诱发突水突泥灾害;（2）破碎带介质初始孔隙率和施加水压越大越易诱发突水突泥,介质渗流演化特征越明显,渗流场参量如渗透率、孔隙率、雷诺数增加越快,且渗流场参量演化曲线出现突增现象;（3）梯度水压加载模式下断层破碎带介质较恒定水压加载条件下突水突泥演化特征更明显,介质发生突水突泥的临界水压更小。在此基础上,基于涌水率?时间（Q-t）、水力梯度?涌水率（i-Q）关系的流态转换分析和基于渗透率?水力梯度（k-i）关系的渗透性演化特征,建立了断层破碎带渗透演化特征概化模型。该研究结果对于断层破碎带突水突泥灾害演化机制与防治措施具有一定的理论指导价值。     

Groundwater outbursts from faults above a confined aquifer in the coal mining

Groundwater outburst has an impartible relationship with geological structures such as water-conducting faults, which are widely distributed in north China. In order to study the seepage property and mechanism of water outburst from the faults above a confined aquifer in the coal mining, the simulation model of ground water inrush for fault was designed. The water outburst parameters, such as water inflow, permeability, seepage velocity, porosity and other variables under different material combination and water pressures, were obtained; the research results indicate as follows: (1) The changes of the water inflow can be divided into three stages, i.e., the water inflow slowly increases at the early stage, rapidly increases at the middle stage and keeps unchanged at the late stage. (2) The seepage process can be represented by the seepage combination types, which are composed of pore flow, fissure flow and pipe flow, and the seepage changes not only with time but also with different conditions. (3) Mining would lead to the reactivation of faults and further enhance the permeability of fault zone potentially. The tiny granules in fault would be eroded and moved to exterior as the time under the high water pressure and lead to the change of porosity parameters. In this case, the seepage velocity would increase ceaselessly, and then the seepage would convert into pipe flow and finally lead to water inrush accidents.     

Numerical Simulation of the Lagging Water Inrush Process from Insidious Fault in Coal Seam Floor

Because of insidious fault’s concealing performance and lagging nature, water inrush from insidious faults in coal seam floor can cause great threads to the mine safety. Based on analyzing the engineering geology conceptual model, this paper simulated the insidious fault lagging water inrush process and showed the lift height of the confined water in the insidious fault fractured zone (LHCWIFFZ) and the formation of water inrush channel. Then the concept of the potential water inrush channel with time effect was put forward. In order to further illustrate the time effect of the lagging water inrush from insidious fault, theoretical analysis was made from two aspects of the time effect of the plastic zone development height in the insidious fault fractured zone (PZDHIFFZ) based on the differential flow deformation theory and the time effect of water inrush channel in the upper part of the insidious fault (WICUPIF) based on the subcritical crack propagation theory. Simulation results showed that the results are basically consistent with mining practice.     

Hydrogeological analysis and salvage of a deep coalmine after a groundwater inrush

This paper presents a case history of the permanent salvage of the Sanhejian Coalmine in China after a sudden groundwater inrush, which includes emergency responses, hydrogeological analyses, and design and performance of bulkheads. The inrush accident occurred in October 2002 in the mined-out area with a high water pressure of 7.6 MPa and a high water temperature of 51°C. The emergency response quickly followed up to provide the time required to perform a detailed hydrogeological analysis to identify the source and pathway of groundwater. The Sanhejian Coalmine is geologically located in the Tengxian anticline hydrogeological setting. The Sunshidian fault, the northern boundary of the mine, was assumed impermeable in the original hydrogeological report. After the accident and hydrogeological analysis, this assessment was revised and the fault was considered to be permeable. The Sunshidian fault connects the strata in the mine and the excellent water-productive Middle Ordovician Majiagou Formation in the core of the Tengxian anticline. It was concluded that the water inrush was from the underlying Ordovician karst aquifer and the pathway was a hidden tectonic structure in the strata overlying the aquifer. This assessment served as the guideline for salvaging the mine in this project. After a detailed technical and economic analysis, a concrete bulkhead design was selected from several alternatives including dewatering and surface grouting. The performance of the bulkheads has been sufficient for the last 6 years since their construction. This case history shows that the hydrogeological analysis plays an essential role in successfully salvaging the coalmine from the water inrush by identifying the source and pathway of groundwater.     

断层参数对承压水体上采煤的影响分析

根据流固耦合理论,采用有限元数值模拟的方法,针对承压水体上采煤过程中断层参数(断距、倾角)对煤层、围岩的应力、变形和水压力变化的影响进行了模拟分析,探讨了存在断层时突水的机理和可能的突水点位置,并定量分析了防水煤柱的预留距离。得出以下结论:(1)当存在正断层时,多发生断层破坏型突水,而底板破坏型突水发生的几率较小;(2)突水性质和突水发生位置受断层断距和倾角的影响不大,煤层和采煤工作面附近的底板围岩都可能成为突水涌出点;(3)随着断层断距和倾角的增加,防水煤柱的合理留设距离应随之增大。以上结果可为实际矿井采煤防突水设计提供参考。 更多还原     

顶板离层水突涌模式及预防技术模拟研究

为预防顶板离层水突涌产生的安全事故,提出了部分充填方案进行模拟研究.首先通过现有资料总结分析全国发生的多种离层水害事故,深入研究离层积水致灾模式;然后以陕西某矿首采区1307工作面的离层水害事故为例,分析其水文地质条件、上部含水层和离层水突涌的关系,利用3DEC数值软件模拟工作面顶板离层空间发育特征;最后根据该矿的实际...     

地面核磁共振技术在隐伏火烧区富水性探测中的应用

煤层隐伏火烧区上覆基岩复合含水层(包括风化基岩和烧变岩含水层)是煤层开采的主要威胁之一, 明确隐伏火烧区的富水性对矿井水害防治具有重要意义。基于此, 以发生过较大突水事故的柠条塔煤矿为研究对象, 利用地面核磁共振(SNMR)技术开展隐伏火烧区含水层富水性探测并对其进行分析和验证。结果表明, 隐伏火烧区共有2个含水层位, 分别为第四系松散砂层含水层和1-2 上煤上覆基岩含水层; 第四系砂层含水层富水性受地表地形及其下隔水层顶部起伏形态影响水平变化较大; 1-2 上煤上覆基岩含水层富水性总体西南较低、北东较高, 该含水层厚度9~30 m, 局部相对较厚, 推测为1-2 上煤火烧区风化基岩和烧变岩含水层的叠加反映; 研究区内1-2 上煤上覆基岩含水层总体呈现出西部及中部偏东南区域富水性相对较大, 其余区域富水性相对较小。利用SNMR得到的含水层富水程度与探放水孔及水文孔的涌水量结果大致相同, 表明该方法的勘探结果相对可靠, 可用于隐伏火烧区富水性的探测。      

Study of pore pressure change during mining and its application on water inrush prevention: a numerical simulation case in Zhaogezhuang coalmine,China

Most of water inrush incidents in coalmines are originally derived from a seepage flow through rock mass fractures, particularly in fault zones. Water inrush is typically caused by hydromechanical coupling interactions induced by human activities. Taking the Zhaogezhuang coalmine in northern China as an example, the progress of a lagging water inrush, which occurred at a depth of about ?1,100 m, was simulated and analyzed based on the hydromechanical coupling mechanism. A 3D model incorporating the main structures of the study area was constructed based on the geological data and field investigation. The equivalent continuum medium was employed to describe fault zones. Processes of determining the mechanical, rheological and hydraulic parameters are discussed in details. Three hydromechanical coupling models are applied: (1) the elastoplastic strain-fluid coupling mechanism in rock mass within the fault zone, (2) the inelastic creep-fluid coupling mechanism in rock materials within the fault gouge, and (3) the stress-permeability coupling mechanism in the fractured porous rocks. The evolution of water-recharge zones along the fault zone was presented in different mining phases. By comparing the simulated pore pressures with the in situ monitored ones, the following conclusions can be drawn: (1) the actual hydraulic behaviors are a combination of the long-term trends and short-term effects; (2) the creep-fluid coupling model reflects the rock hydraulic behaviors of long-term trends, while the elastoplastic strain-fluid coupling model demonstrates the short-term effects; (3) a prediction method called ‘time window’ for the risk of the lagging water inrush is proposed. Its feasibility is discussed.     

Application of an Improved Flow-Stress-Damage Model to the Criticality Assessment of Water Inrush in a Mine: a Case Study

This paper presents a case study of water inrush on a mine working face from roof strata. The flow-rock failure process analysis (F-RFPA^2D) code with an improved flow-stress-damage (FSD) model was adopted to perform the failure and coupling analysis. The improved FSD model was used to represent the permeability variation at the four stages (elastic, damaged, cracked, and crack closure) of the rock failure process. The fracture initiation, propagation, and coalescence in the stressed strata and the seepage field evolution in the stress field are represented visually during the whole process of water inrush. The failure zone with high permeability induced by mining disturbance becomes the water-conducting zone after full excavation of the coal seam. The height of the water-conducting zone obtained in this study is in reasonable accordance with that predicted by an empirical formula. It is definitely clarified that the water inrush from the roof strata is induced by the failure zone full of vertical coalesced mine fractures. It is unlikely that roof accidents resulting in water inrush would occur if the water-conducting zone does not grow upwards into the aquifer. The main task for mine extraction under a confined aquifer is to locate the aquifer and find the maximum height of the water-conducting zone, which is very important for mine construction and support design.     

Spatiotemporal development of mine water inrush and its mechanism—a case study in Ganhe coal mine,Shanxi, China

Mine water inrush is one of the main hazards in coal mining industry. The mechanism and the processes are complex. Investigation of the spatiotemporal development of the hydrological process could lead to a better understanding of mine water inrush and effective countermeasures. For this reason, we investigated spatial and temporal characteristics (i.e., the changes of flow rate, groundwater level, and water quality) during a water inrush event in China, which had a flow rate of 730 m³/h at maximum and 300m³/h under a steady condition. The result shows that the water inrush developed in several stages. A mathematical model of the dynamic change between the water table and the inrush flow rate was constructed. Based on this model, we found the relationship of highly conductive flow channels between some observation boreholes and the water inrush point. In addition, the recharge velocity of the highly conductive flow channels and the equivalent mean flow velocity of the whole mine were determined. A comprehensive analysis of geological, hydrodynamic, and crustal stress conditions was conducted to study the development of the water channel near the F₁₃ fault and the nonlinear process from seepage stage to inrush stage. The result reveals the water inrush is likely caused by activation of faults under combined influences of high crustal stress and high hydraulic pressure.     

基于脆弱性指数法的韩城矿区11号煤层底板突水危险性评价

在全面分析韩城矿区地质与水文地质条件的基础上,应用相关因素分析方法,提出研究区煤层底板奥灰含水层突水的指标体系,并以多个典型煤矿为例,重点分析了受奥灰含水层威胁最严重的11号煤层底板突水的影响因素;构建了有效隔水层厚度、褶皱规模、含水层富水性、断层规模4个评价指标;采用脆弱性指数评价方法对11号煤层底板突水的危险性进行了分区。      

A GIS-based method of risk assessment on no. 11 coal-floor water inrush from Ordovician limestone in Hancheng mining area,China

The no. 11 coal seam in the deep area of Hancheng mining area is mining in recent years, which is threatened by the water inrush from the Ordovician limestone aquifer. Coal-floor water inrush is governed by the water abundance of coal-floor aquifer, the water-resisting performance of coal-floor aquitard, and the pathway connecting the water source and the working face. To make an accuracy risk assessment of water inrush from the no. 11 coal seam floor, a GIS-based vulnerability index method (VIM) is adopted for its superior comprehensive consideration of more controlling factors, powerful spatial analysis, and intuitively display functions. This study firstly established an index system including the water pressure of the coal-floor aquifer, the unit water inflow, the thickness, the core recovery percentage, the thickness ratio of brittle rocks to ductile rocks, the thickness of effective aquitard, and the accumulated length of faults and folds, of which the former six indexes governed the water abundance of the coal-floor aquifer which was combined with the last two factors to determine the risk of coal-floor water inrush. Secondly, the thematic map of each controlling factor is established by GIS using the geological prospecting data, and the weight of each factor is determined by the analytic hierarchy process (AHP) after consulting the expert review panel. At last, a vulnerability index is obtained and used to assess the risk of coal-floor water inrush of the no. 11 coal seam. The risk of water inrush of the no. 11 coal seam of the study area was ranked to three zones: the southeastern shallow area in red color is the dangerous zone, the wide northwestern area in green color is the safe zone, and the transition area in yellow color is the moderate-risk zone. Compared with the actual water-inrush incidents, the risk assessment result was verified to achieve an accuracy of 82.35%, which is proved to be a dependable reference for the prevention and controlling of coal-floor water inrush of the no. 11 coal seam in Hancheng mining area.     

断层破裂带附近采场采动效应的流固耦合分析

矿井底板突水是一个复杂的多物理场耦合问题,结合含断层破裂带条件下采场开采的工程背景,通过离散元流固耦合分析,研究了采场工作面推进过程中断层带的变形与受力情况以及底板支承压力、渗流矢量和渗流速度的动态发展规律和分布特征。相关模拟结果表明,采场中煤层的开采与断层破裂带之间是相互影响的,以支承压力为代表的采动应力是底板破坏形成导水裂隙带及断层“活化”突水的一个主要诱因,而断层的存在也使得工作面与断层带范围内的围岩应力更加集中,增大了底板破坏突水的危险性。采动过程中,底板破坏所形成的导水裂隙带主要集中在工作面前方及下方围岩中,这些区域渗流速度较大,是形成突水的主要通道。     

金河磷矿马槽滩矿区大巷突水原因及防治措施剖析

金河磷矿马槽滩矿区大巷出现涌水,严重影响了勘查施工与矿山的正常生产。矿区主要充水因素为断裂、构造裂隙充水,主要岩溶含水层及大气降水也对矿床充水有一定影响。F22断裂及破碎带与地表汇水区三道沟联通,突水主要是掘进F22含水断层破碎带引起。今后在采掘探矿过程中遇到断层时要坚持“有疑必探,先探后掘,疏堵结合,分类防治”的原则,采取疏水降压和注浆改造相结合的方法解决问题,防治突水事故。     

Using numerical simulation for the prediction of mine dewatering from a karst water system underlying the coal seam in the Yuxian Basin,Northern China

Water inrush from a karst aquifer threatens mine safety in North China because of the special hydrogeological conditions. This paper systematically analyzes the regional hydrogeological conditions of the Cambrian–Ordovician limestone karst aquifer in the Yuxian Basin. Conceptual and mathematical models of karst water flow system are established, and the karst water flow system is simulated by the finite-difference method. The numerical model is checked using hydraulic head from karst water observation holes, and the sensitivity of hydrogeological parameters is analyzed. Further, the risk of water inrush from the karst aquifer underlying the coal seam in the second mining area of the Beiyangzhuang Mine in the basin is evaluated by the water inrush coefficient method. Based on the critical hydraulic head for mining safety, the rate of mine dewatering is simulated for the three stages of the mining plan with the numerical model. The results show that the risk of water inrush in the second mining area is high. The rate of dewatering in the three stages without grouting is 1300, 1860, and 2050 m³/h, respectively, and with local grouting is 1020, 1550, and 1700 m³/h, respectively. Dewatering combined with grouting not only ensures coal mine safety, but also significantly reduces the rate of dewatering. The prediction method of mine dewatering has practical significance in engineering applications.     

宜万铁路野三关隧道“8.5”突水事故成因分析

2007年8月5日宜(昌)万(州)铁路野三关隧道发生了重大的岩溶突水事故.在岩溶水文地质调查的基础上,对野三关隧道所处流域两个主要岩溶洼地以NaCl为示踪剂进行了充水水源和充水途径的示踪试验.两次示踪试验结果查明水洞坪岩溶洼地是"8.5"突水事故的主要水源,茅口组灰岩中发育的周家包暗河被F18断裂切割,将暗河水导入隧道形成突水事故.稻子坪的水在隧道突水段西以渗-涌水的形式进入隧道.水洞坪示踪实验得出二叠系栖霞-茅口组岩溶含水层中的地下水流速为50 m/h.稻子坪示踪试验得到茅口组灰岩含水层中的地下水流速为45.5 m/h;大冶组灰岩含水层中的地下水流速为10.8 m/h.本示踪结果为宜万铁路野三关隧道的后期恢复施工和防渗工作提供了依据,并为岩溶地区深埋隧道的设计和施工提供了试验和分析工作的实例参考.     

煤层底板破坏流固耦合数值模拟

根据煤层底板含水层具有不均一性的特点,建立了底板含水层非均布水压力学模型和流固耦合模型,并根据"下三带"理论和弹塑性理论求得了底板保护带突水极限压力的弹性解和塑性解。利用FLAC3D软件对工作面采动底板进行了流固耦合数值模拟,并对煤层采动底板的应力破坏特征以及渗流特征进行了研究。综合采用理论计算和数值模拟的方法对煤层底板进行了突水预测。研究表明:非均布水压模型更符合工程实际,数值模拟方法可以快捷、准确的对煤层底板突水进行预测,对水害防治具有重要意义。      

基于“双行裂隙”模型的两淮矿区高承压厚松散层突水机理

两淮矿区高承压厚松散含水层覆盖下煤炭储量巨大,在提高上限开采过程中常发生松散层突水事故,采用传统“上三带”理论难以合理解释此类事故发生的机理。本文在分析两淮矿区高承压松散层水文工程地质条件的基础上,建立近高承压松散层开采“双行裂隙”模型,采用室内实验、数值模拟、理论分析和工程应用检验等方法,研究“双行裂隙”发育规律,揭示两淮矿区高承压厚松散层突水致灾机理,结果显示:祁东煤矿松散层第四含水层（简称四含）水压与裂采比呈线性关系;在水压作用下,覆岩“上行裂隙”发育高度增大;利用裂隙受力分析推导的基岩风化带原生裂隙扩展渗透深度计算公式,表明高承压松散含水层对风化裂隙产生劈裂作用,是“下行裂隙”形成的主要因素。“双行裂隙”的综合作用使工作面更易发生松散层水突水事故,研究成果为近松散层煤层开采安全煤（岩）柱的合理留设提供科学依据。      

淮北刘桥二矿七含涌(突)水机理研究

刘桥二矿在开采4煤过程中，七含突水次数达38次之多，严重影响煤矿安全生产。文章在系统地分析刘桥二矿七含涌突水概况的基础上，提出了该矿七含涌突水的主要机理为断裂构造的控制作用和矿山压力的促进作用；指出了砂岩含水层的裂隙发育程度和富水性强弱、煤层的厚度、断层的作用以及4煤与含水层之间隔水层厚度的大小等，是影响工作面涌水的主要因素。研究结果对煤矿砂岩水害的有效防治具有重要的指导意义。