The research progress and prospect for the technology of controlling surface subsidence by grouting separated layer in overburden at coal mines in China

The developed process and theoretical achievement for the technology of controlling surface subsidence by grouting separated layer in overburden is summarized in this paper. The research progress of the technology is discussed synthetically on the basis of practice and research results obtained at coal mine of China in recent years. According to the development tendency of mining under buildings, water bodies and railroads and the properties of the technology, the future research direction is proposed.

Longwall surface subsidence control by technology of isolated overburden grout injection

Surface subsidence is a typical ground movement due to longwall mining, which causes a series of environmental problems and hazards. In China, intensive coal extractions are commonly operated under dense-populated coalfields, which exacerbates the negative subsequences resulted from surface settlement. Therefore, effective approaches to control the ground subsidence are in urgent need for the Chinese coal mining industry. This paper presents a newly developed subsidence control technology: isolated overburden grout injection, including the theory, technique and applications. Relevant procedures such as injection system design, grouting material selection, borehole layout, grout take estimation and injection process design are proposed. The applicability of this technology has been demonstrated through physical modelling, field measurements, and case studies. Since 2009, the technology has been successfully applied to 14 longwall areas in 9 Chinese coal mines. The ultimate surface subsidence factors vary from 0.10 to 0.15. This method has a great potential to be popularized and performed where longwall mining are implemented under villages and ground infrastructures.

Investigation of overburden behaviour for grout injection to control mine subsidence

This paper describes a field and numerical investigation of the overburden strata response to underground longwall mining, focusing on overburden strata movements and stress concentrations.Subsidence related high stress concentrations are believed to have caused damage to river beds in the Illawarra region, Australia. In the field study, extensometers, stressmeters and piezometers were installed in the overburden strata of a longwall panel at West Cliff Colliery. During longwall mining, a total of1000 mm tensile deformation was recorded in the overburden strata and as a result bed separation and gaps were formed. Bed separation was observed to start in the roof of the mining seam and gradually propagate toward the surface as the longwall face advanced. A substantial increase in the near-surface horizontal stresses was recorded before the longwall face reached the monitored locations. The stresses continued to increase as mining advanced and they reached a peak at about 200 m behind the longwall face. A numerical modelling study identified that the angle of breakage(i.e., the angle of the boundary of caved zone) behind the longwall face and over the goaf was 22–25° from vertical direction. This is consistent with the monitoring results showing the high gradient of stresses and strains on the surface150–320 m behind the mining face.

超百米深厚细砂覆盖层注浆效果旁压试验研究

为保证超百米深厚细砂覆盖层的注浆加固效果,保障工程长期安全运行,在对国内外现有旁压试验规范剖析的基础上,提出超百米旁压试验的测试方法和参数取值存在的问题和不足,后以某超百米深厚细砂覆盖层中的旁压试验为应用实例,对其注浆加固效果做了深入比较分析。结果表明:①因原始水平地应力复杂且试验成孔不能保证,超百米深厚细砂覆盖层旁压试验特征参数初始压力P_(0)的取值不能简单以作图法或计算法获取,需进一步深入研究;②可以利用旁压特征参数旁压模量(E_(M))、临塑压力(P_(f))作为超百米深厚细砂覆盖层注浆效果评价的关键指标;③经袖阀管注浆加固超百米扰动细砂层后,承载特性指标P_(f)提高约4.7倍,变形特性指标E_(M)提高约7.3倍。

覆岩离层注浆采空区自燃“三带”分布规律

覆岩离层注浆技术通过压实采空区内的破碎岩体,改变了采空区的流场特性和自燃“三带”的分布情况。为了探讨屯兰矿22301综采工作面离层注浆件下采空区遗煤自燃风险范围,基于实测和数值模拟相结合的方法,对该工作面采空区内存在的自燃“三带”进行准确划分;并提出了注浆钻孔的空隙率三维数学模型,评估不同注浆钻孔位置对采空区流场的影响。结果表明:修正后的空隙率三维数学模型能更好地反映注浆后采空区的气体流场,其模拟结果与现场实测结果的残差精度提高22%;相比于未注浆情况,离层注浆后采空区受到压实作用,有效抑制采空区自然发火的危险性,并导致工作面漏风风流向上汇聚,使采空区垮落带较高位置的氧气体积分数增加;注浆钻孔的布置参数对采空区流场将产生影响,其影响关联度依次为钻孔间距、钻孔排数、钻孔影响半径。

覆岩隔离注浆充填技术实践与研究展望

煤层开采后覆岩关键层失去下部支撑,在地层压力作用下断裂沉降是导致一系列采动损害与环境问题的根源,通过充填阻止关键层破断是减少环境损害的源头绿色开采技术。目前我国煤矿充填开采技术得到长足发展,但井下充填采煤存在效率相对较低、成本较高等问题,限制了其推广应用。而创新研发的覆岩隔离注浆充填技术,建立了地面钻孔“一注式减损”高效绿色开采新模式,突破了井下充填效率低的技术瓶颈。覆岩隔离注浆充填是基于采动覆岩卸荷膨胀累积效应对离层产生抑制作用,通过地面钻孔向关键层下进行高压注浆的充填,产生“压下托上”作用,将关键层下方碎胀岩体压实形成支撑体,在采空区形成压实承载结构,阻止关键层断裂。该技术解决了离层注浆充填量少、减沉率低的技术难题,可用于综采、综放工作面,以及单一煤层与多煤层开采;目前该技术已在全国推广应用,解决了东部矿区建筑物压煤开采难题,并在矸石减排、“减震防冲”“减漏保水”等方面开展了工程试验与实践。介绍了“双碳”背景下,针对煤矿充填材料不足问题,进一步研发“煤基固废+CO 2”覆岩隔离注浆充填绿色开采新技术构想,该技术可取得减沉、减漏、减震、减排、减碳等“一注五减”效果,实现煤炭资源的绿色开采与低碳利用。

构筑物下覆岩离层注浆控制地表变形模拟试验研究

为掌握离层注浆开采控制地表变形的规律,以数值模拟与相似模拟相结合研究了采空区形变及应力变化和覆岩运移演化规律,并进行现场工程试验。研究结果表明:(1)在离层注浆作用下,顶板压力增加,采空区被压实,采空区应力无明显变化;(2)离层上方关键层应力受到向上的注浆压力作用,内部应力在短距离范围内出现下降,随着向上远离离层,注浆压力作用影响下降,在巨大覆岩压力作用下,岩层向下的压力有所增加;(3)塑性区发育高度在离层注浆后基本不再向上扩展,转而变为横向扩展,关键层上方由于注浆充填作用未出现明显大面积破坏。由此可见,关键层下方离层空间注浆充填,对于关键层上方的岩层起到了很好的保护作用;(4)注浆区域的关键层及其上覆岩层下沉量较小,而注浆层位下方岩层和未注浆区域的岩层下沉量普遍明显较大,表明离层注浆对控制关键层及其上覆岩层的运移发挥了良好的作用。

大社矿覆岩隔离注浆合理层位高度

为了合理确定大社矿覆岩隔离注浆的最佳注浆层位高度,采用3DEC数值模拟的方法,结合大社矿921102工作面的实际情况,建立6种不同注浆层位高度(220 m、240 m、260 m、280 m、300 m、320 m)的设计方案,分析注浆充填材料对覆岩关键层的支撑作用,以及不同注浆层位高度对工作面地表减沉和地表倾斜的影响规律。结果表明,随着注浆层位高度的增加,地表最大沉降量也同时增大,建立注浆层位高度与最大下沉量的拟合曲线,注浆层位高度与最大下沉量呈指数关系;随着注浆层位高度的增加,地表倾斜变形量也同时增大,建立注浆层位高度与地表倾斜变形量的拟合曲线,注浆层位高度与地表倾斜变形值呈指数关系,现场工业性结果与数值模拟的结果基本吻合。

刘家梁煤矿采动覆岩垮落运移规律和离层注浆控制研究

刘家梁煤矿面临建筑物下采煤难题,提出采动覆岩离层区注入粉煤灰浆液充填工艺,实现无损开采和固废减排目标。以22101工作面为对象,采用理论分析、物理模拟和现场实测方法,研究厚煤层采动覆岩垮落运移规律、离层注浆控制机理和关键参数。结论如下:采动覆岩破坏持续向上传递,运动不同步使得在关键层和软弱层之间形成离层空间;及时在离层空间充填,关键层保持稳定不破断下沉,其上岩层直至地表就能保持小变形甚至微变形;提出覆岩离层注浆控制技术和参数,现场成功应用,取得了显著经济和社会效益。

Comparative study on pullout behaviour of pressure grouted soil nails from field and laboratory tests

Pullout resistance of a soil nail is a critical parameter in design and analysis for geotechnical engineers. Due to the complexity of field conditions, the pullout behaviour of cement grouted soil nail in field is not well investigated. In this work, a number of field pullout tests of pressure grouted soil nails were conducted to estimate the pullout resistance of soil nails. The effective bond lengths of field soil nails were accurately controlled by a new grouting packer system. Typical field test results and the related comparison with typical laboratory test results reveal that the apparent coefficient of friction （ACF） decreases with the increase of overburden soil pressure when grouting pressure is constant, but increases almost linearly with the increase of grouting pressure when overburden pressure （soil depth） is unchanged. Water contents of soil samples at soil nail surfaces show obvious reductions compared with the results of soil samples from drillholes. After soil nails were completely pulled out of the ground, surface conditions of the soil nails and surrounding soil were examined. It is found that the water content values of the soil at the soil/nail interfaces decrease substantially compared with those of soil samples extracted from drillholes. In addition, all soil nails expand significantly in the diametrical direction after being pulled out of ground, indicating that the pressurized cement grout compacts the soil and penetrates into soil voids, leading to a corresponding shift of failure surface into surrounding soil mass significantly.

离层注浆开采关键层变形特征及地表沉陷控制效应

为研究覆岩离层注浆开采条件下关键层变形特征及地表沉陷控制效应,准确预计地表移动变形值,对离层注浆开采关键层变形进行了力学分析,将关键层下方离层注浆充填体和煤岩体的组合视为弹性地基,并将之划分为压实区、欠压实区和实体煤区3种不同的区段,基于弹性地基梁理论,给出了关键层挠度方程和弹性地基系数计算方法;采用“两步法”,通过分层模拟的方式开展了离层注浆开采关键层变形与地表沉陷数值模拟,研究了不同工作面宽度条件下离层发育和关键层破断特征,以及不同注采比条件下地表移动变形特征;借鉴等价采高理论,将离层注浆开采条件下关键层弯曲下沉空间等效视为开采空间,结合概率积分法,建立了适用于离层注浆开采的地表沉陷预计模型。以淮北矿区袁店二矿7221离层注浆开采工作面为例进行了验证,结果表明:该地质条件下,离层注浆开采工作面宽度宜设计在90~120 m;采用提出的预计模型和方法能够对离层注浆开采条件下的地表沉陷进行有效预计,预计值与实测值平均误差9 mm,在允许误差范围内;离层注浆开采地表沉陷控制效果显著,减沉率约83%。

采动覆岩与地表下沉关系模型及离层量估算方法

地下开采可能导致地表沉陷、基础设施损毁、土地破坏或地面积水等,进而诱发生态环境恶化。而采空区固体充填和覆岩离层注浆是控制岩层移动,减小采动损害的有效技术手段。传统的覆岩离层注浆往往采用关键层理论、数值模拟、相似材料模型实验和理论分析手段,因涉及的物理力学参数多、边界条件限制等,计算过程复杂,仅能给出离层层位,难以定量确定离层量。开采沉陷研究表明,采动覆岩与地表移动方向指向采空中心,移动边界可以简化为线性边界,基于下沉盆地主断面上地表下沉与任一覆岩下沉的面积相等和煤系地层的层状特征,构建了采动覆岩与地表下沉的关系模型,较好地反映了覆岩与地表下沉随边界角、工作面宽度、开采深度的发展演化规律。采动覆岩与地表下沉比值随埋藏深度增加而增大,反映了采动下沉效应从顶板向覆岩、地表的传递规律;随着宽深比的增加,同一层位岩层下沉与地表下沉比值减小,地表下沉增大;当边界角减小时,地表下沉范围增大,地表下沉值减小。结合钻孔揭示的覆岩结构与组合,可以逐层计算上覆岩层和地表的下沉值,利用两相邻岩层下沉的非一致性,可以确定各岩层间的离层量,通过计算导水裂隙带高度,剔除导水裂隙带内无法形成封闭充填空间的无效离层,进而优选确定出适用于覆岩离层注浆的最大离层及层位,为覆岩离层注浆减沉设计提供了简单、便捷的离层识别方法和离层量定量计算方法。

Mechanics Principle and Engineering Application of Split Layer and Bed Separation of Mining Overburden

To control land surface subsidence caused the underground mineral exploitation and the catastrophic phenomena such as serious damage of buildings, waterbodies, cultivated lands, railways, bridges caused by land subsidence, bed separation grouting technology of overburden is put forward. To provide theoretical support for the technology, the characteristics and the mechanics mechanism of mining overburden from layer-split to formation of bed separation are studied. On the basis of elastic sheet board theory, calculation formula of rock sheet deflection is presented, and the mechanics criteria of the separation formation and the calculation formula of bed separation volume are set up. Finally, the applications and technics of bed separation grout technology of mining overburden to control land subsidence in china are introduced.

煤矿全生命周期绿色开采研究展望

煤矿绿色开采理念提出20 a来,理论研究与技术实践取得了重大创新进展,但在精确量化预测、提效降本控制等方面与生产实际需求仍然存在差距。阐述了煤矿全生命周期绿色开采技术框架,提出了煤矿绿色开采需要深入研究的若干方向和建议。在基础理论方面,应遵循关键层理论的“全地层”学术思想,深入研究采动覆岩卸荷膨胀累积效应及其对岩层移动的影响,建立自下而上涵盖煤层直至地表的全地层移动时空动态模型,实现采动应力、裂隙与沉陷的定量预测,最终形成不同地质开采条件下岩层移动的数字孪生模型。在技术方面,需充分利用岩层移动规律,研究发展适应煤矿高效生产的低成本绿色开采技术,具体而言,重点攻关方向之一是“一注五减”绿色开采解决方案,针对绿色开采中采动损害控制领域面临的煤矿充填材料不足问题与“双碳”目标,研发“煤矸石+粉煤灰+CO_(2)”覆岩隔离注浆充填绿色开采技术,实现减沉(减少地表沉陷)、减漏(减少地下水漏失)、减震(减少应力集中与矿震)、减排(减少固废排放)、减碳(减少CO_(2)排放)等“五减”绿色开采效果。另一个需要重点攻关的方向是采动破坏含水层的修复技术,特别是在西部生态脆弱矿区(尤其是浅埋煤层),需给予充分重视,建议借鉴采后土地复垦,通过相关技术与标准研究将含水层修复列为必备环节,进一步落实全生命周期绿色开采。

基于条带式充填开采的离层注浆减沉技术研究

在浅部资源渐趋枯竭的背景下,针对大量“三下”压覆煤炭,离层注浆减沉技术越来越受到广泛应用。不过目前条带式充填开采基础上的离层注浆工艺研究还比较欠缺,结合邢台某矿条带式充填开采+离层注浆减沉实践,通过充填后采高等效换算,条带开采工作面注浆关键层优化、邻空工作面注浆孔位确定和注浆压力持续控制等关键技术,实现了条带式充填开采回收以往煤柱的地表沉降控制,地表沉降幅度在30mm以内,补充了不同条件的离层注浆工艺研究,对以往条带式开采矿井剩余煤柱的绿色回收有重要意义。

覆岩离层时空演化规律及注浆开采实践——以夏店煤矿3117工作面为例

覆岩离层注浆充填技术既解决了长壁开采控制地表变形的问题,又提高了采出率,但随着该技术的广泛应用,其理论研究和技术发展遇到了瓶颈。以夏店煤矿3117工作面瓦斯泵站下注浆开采项目为例,从离层演化规律、高性能浆液配置和地表观测等方面开展了研究,有效指导实际工程应用,为推进绿色矿山建设、促进离层充填技术的高质量全面发展提供了新的思路。

深埋串珠状溶洞的超高层基础设计案例分析

超高层建筑对地基稳定性、地基承载力和地基变形的要求非常高。2007年某市拟建超高层建筑,详勘揭露地表80 m以下地层中分布深埋串珠状溶洞,溶洞顶板厚度薄,串珠状溶洞在水平方向和垂直方向的分布情况及连通性等方面的不确定性较多,若建筑基础浅埋,则地基承载力无法满足设计要求;若建筑基础深埋,则因套管回收及溶洞处理等问题施工的可行性差。设计原则最终确定为基础浅埋方案,首先初步确定满足地基稳定性的前提条件,随后工程设计及施工各专业围绕单桩承载力问题进行讨论并修改专业方案,最终决定应用当时的创新工艺-灌注桩后注浆工艺解决单桩承载力问题。该工程终于在2010年得以推进。工程一期建成后平均沉降与不均匀沉降均很好地满足了规范要求。此次多专业技术联动是勘察设计施工技术一体化的一次成功尝试,相比目前质量进度管理一体化更具前瞻性,也是今后技术优化一体化的发展方向。

阳江抽水蓄能电站下水库大坝坝基防渗处理技术

广东阳江抽水蓄能电站下水库大坝为沥青混凝土心墙堆石坝,最大坝高55.9 m,建造于地震烈度区Ⅶ度、深厚不均匀的覆盖层上。下水库大坝坝基河床部位以洪冲积砂卵石层作建基面,两岸坝肩及防渗心墙建基面为全风化带,坝基防渗采用混凝土防渗墙与帷幕灌浆共同防渗的方式。本文简要介绍了下水库大坝坝基处理设计,在施工技术方面从坝基开挖处理、混凝土防渗墙、帷幕灌浆施工及坝基防渗效果等作了简略的阐述,分析了覆盖层坝基混凝土防渗墙施工等主要存在的技术难点和控制重点,可供类似工程参考。

注浆加固松散覆岩干式充填体技术研究与应用

松散覆岩充填体下残留矿柱的回采面临着顶板安全问题。为了保障矿柱回采过程中顶板的稳固性,提出利用注浆加固松散覆岩使之形成整体,提升整体稳定性与承载性。研究松散覆岩胶结体与围岩的力学特征、注浆工艺与注浆参数对固结效果的影响,并进行工业试验验证。结果表明:采用注浆固结松散覆岩,其稳固性增强明显,能满足矿柱开采需求,研究成果对相似散体碎石固结控制有指导价值。

煤矿老采空区地基注浆处治后稳定性评价研究

采空区引发的地表沉降影响建筑物安全,且其影响通常贯穿于构筑物的整个使用寿命。针对注浆法处治后的老采空区建筑地基,根据荷载临界影响深度与附加应力影响深度等分析评价方法,开展稳定性分析及建筑物对采空区稳定性影响评价研究。结果表明:建筑物所形成的附加应力在正常工况条件下不会引起采空区活化。提出了采空区地基稳定性综合评价研究方法,也为类似工程提供了技术借鉴。