Characteristics of Gas Emission at Super-Length Fully-Mechanized Top Coal Caving Face

Characteristics of gas emission at the K8206 working face in the Third mine of the Yangquan Coal Group were investigated. The effects of strata movement,advancing velocity of working face,production capacity of working face and gas extraction capability of strike high-level entry on gas emission at K8206 working face were analyzed. A regression equation,reflecting the relationship between relative gas emission rate and the production capacity of work-ing faces,was established. Another regression equation showing the relationship between the gas emission rate from adjacent layers when the working face was advancing for one metre and advancing velocity was derived. It can be con-cluded that,1) the amount of gas emitted at the K8206 working face is far greater than that of ordinary top coal caving faces with a dip length of 180-190 m; 2) the dynamic process of gas emission from adjacent layers during the initial mining stage is controlled by the movement of key strata; 3) the amount of gas emitted that needs to be forced out by air is greatly affected by the capability of gas extraction; 4) when the advancing velocity is between 3.5-5.5 m/d or when the output is up to 8-12 kt/d,the gas emission from adjacent layers is almost constant.

Analysis and key control technologies to prevent spontaneous coal combustion occurring at a fully mechanized caving face with large obliquity in deep mines

In order to prevent spontaneous coal combustion occurring at a fully mechanized caving face with large obliquity in deep mines in China, we have analyzed the characteristics of spontaneous coal combustion and explain theoretically the factors affecting spontaneous coal combustion, such as rock bursts, high temperatures, high ventilation resistance, slow advancing speed and large obliquity mining. Key technologies to prevent spontaneous combustion occurring in sharply inclined seams in deep mines are pro- posed; these include pouring water, stopping leakage in upper and lower comers of the working face, choking off the goaf and cov- eting the coal. CO concentrations were controlled within two years to less than 15×10^-6 at the upper comer by applying these tech- nologies at the 1410 working face of the Huafeng coal mine. Our method has significant theoretical value and is of practical impor- tance in controlling spontaneous coal combustion occurring at a fully mechanized caving face with large obliquity in deep mines.

Analysis on distribution law of the abutment pressure of the integrated coal beside the road-in packing for gob-side entry retaining in fully-mechanized caving face

The three-dimensional damage constitutive relationship of coal is established and distribution law of the abutment pressure of the integrated coal beside the road-in packing for gob-side entry retaining in fully-mechanized caving face under the effect of given deformation of the main roof is analyzed by the damage mechanics theory. And the relationship between distribution of the abutment pressure and thickness of coal seam is explored. The presented result is of great theoretical significance and practical value to the study on stability control of the surrounding rock of road-in packing for gob-side entry retaining in fully-mechanized caving face.

综放工作面围岩控制与智能化放煤技术现状及展望

分析了厚及特厚煤层智能化综放工作面围岩控制技术与智能化放顶煤技术发展现状及存在的问题,从巷道围岩高效支护、工作面超前支护、坚硬特厚顶煤冒放性、液压支架位姿监测及智能化放顶煤5个方面提出了工程实际需求。针对综放工作面实现安全、高效、智能化开采存在的技术难题与工程需求,对综放工作面围岩控制技术、智能化放煤技术进行了研究:构建了坚硬特厚煤层顶煤悬臂梁力学模型,研发了提高顶煤冒放性及放出率关键技术,实现了坚硬特厚煤层超大采高综放开采;研发了单元式超前液压支架顶梁可旋转自复位装置,实现了液压支架顶梁根据巷道顶板倾斜角度自动旋转支护,有效提高了单元式超前液压支架对巷道顶底板的适应性;提出了采用巷道支护液压支架替代传统锚网支护结构的思路,具有支护效率高、成本低、节省工作面超前支护等优点;开发了基于立柱与尾梁千斤顶行程的综放液压支架支护姿态监测装置与算法,提高了液压支架支护姿态解算效率与精度;提出了基于透明地质模型、煤量监测装置与煤矸识别装置融合的智能放煤控制方法,可有效解决多夹矸层特厚顶煤智能化放煤技术难题。提出智能地质保障技术、机器视觉精准测量与智能感知技术、综放工作面设备智能精准自适应控制技术、综放工作面数字孪生技术等是智能化综放开采技术与装备的发展趋势。

大水易淤综放工作面泄水巷煤泥淤积物临界流速研究

高家堡煤矿综放工作面面前淋水,水源主要来自采煤工作面顶板,矿井涌水量达到4000~5000 m^(3)/h。结合开采工作面泄水巷煤泥淤积的特点,利用罗宾诺维奇—莫纳方程和哈根—泊肃叶(Hagen-Poiseuille)等公式,确定了煤泥混合物的流变类型和本构方程;采用大型环管实验法建立了煤—泥—水混合物的流动模型,理论分析了工作面泄水巷煤泥淤积物分别在高低压段和不同剪切速率下的沉降特性;计算得到动水条件下煤泥淤积物发生流动的临界流速为1.1~1.5 m/s,从而得出煤泥淤积物的临界流速。研究煤泥在矿井水流动过程中的淤积机理,可为科学合理的清淤工作提供理论依据。

煤矿大倾角综放工作面采煤参数及采煤工艺优化分析

以A煤矿26514工作面为例,介绍了一种基于有限元分析的煤矿大倾角综放工作面采煤参数及采煤工艺优化方法。该方法根据煤矿大倾角综放工作面参数构建相应的有限元模型,通过有限元模型的分析寻找现有工作面采煤参数与采煤工艺的缺陷,进而以此为基础制定工作面采煤参数与采煤工艺优化方案。研究对大倾角综放工作面的开采具有重要意义。

特厚煤层综放面超前支护液压支架设计及应用

为了降低特厚煤层综放工作面巷道超前段单体柱支护风险,简化支护工艺,提高作业效率,基于不连沟煤矿特厚煤层地质赋存与综放开采工艺特点,开展了特厚综放工作面巷道超前支护液压支架选型设计,并进行了现场工业性试验。现场试验结果表明,应用ZQL2×6500/27/50D型端头超前液压支架过程中,巷道超前段顶板最大下沉量为127 mm,两帮最大移近量为466 mm,工作面液压支架最大工作阻力为46 MPa,巷道超前段顶板和两帮变形得到了有效控制。现场试验取得了较好的效果,可为特厚煤层综放工作面超前液压支架支护技术提供参考。

“三软”煤层大倾角综放面生产难题及管控

靖煤公司王家山煤矿大倾角特厚煤层水平-圆弧过渡综放工作面,针对在生产管理中存在两道超前支护范围巷道变形快、工作面设备上窜下滑、增补液压支架困难、设备影响频繁等问题,采用工程实践方法,超前进行工作面顶底煤探测并绘制工作面旬测剖面图,及时验收调整工作面工程质量问题,控制液压支架及前后溜上窜下滑及断链预防,实施防飞矸措施,上下端头及隅角管理等一系列管控措施,有效管控了大倾角综放工作面生产过程中各种突出问题,实现了王家山煤矿大倾角综放面的安全高效回采。

Systematic principles of surrounding rock control in longwall mining within thick coal seams

Effective surrounding rock control is a prerequisite for realizing safe mining in underground coal mines.In the past three decades, longwall top-coal caving mining(LTCC) and single pass large height longwall mining(SPLL) found expanded usage in extracting thick coal seams in China. The two mining methods lead to large void space left behind the working face, which increases the difficulty in ground control.Longwall face failure is a common problem in both LTCC and SPLL mining. Such failure is conventionally attributed to low strength and high fracture intensity of the coal seam. However, the stiffness of main components included in the surrounding rock system also greatly influences longwall face stability.Correspondingly, surrounding rock system is developed for LTCC and SPLL faces in this paper. The conditions for simultaneous balance of roof structure and longwall face are put forward by taking the stiffness of coal seam, roof strata and hydraulic support into account. The safety factor of the longwall face is defined as the ratio between the ultimate bearing capacity and actual load imposed on the coal wall.The influences provided by coal strength, coal stiffness, roof stiffness, and hydraulic support stiffness,as well as the movement of roof structure are analyzed. Finally, the key elements dominating longwall face stability are identified for improving surrounding rock control effectiveness in LTCC and SPLL faces.

唐山矿大倾角综放工作面支架失稳力学机理及控制技术

以唐山矿0291工作面初采时支架倒架事件,建立了大倾角工作面支架滑移力学方程和支架倾倒力矩方程,推导了支架滑移判断力、倾倒判断力矩以及发生滑移和倾倒的极限倾角计算公式。依据ZF7600/17/34D型液压支架的基本参数,计算了该型液压支架在漏顶情况下产生滑移的极限倾角为21.8°,发生倾倒的极限倾角为26.6°,从而判断该工作面支架上方一旦漏顶,倾角为38°的支架必将发生滑移和倾倒,得出了0291工作面发生倒架事件的原因,给出了防治支架滑移需增加抗滑力75.1 kN,防止支架倾倒的抗倾倒力矩83 kNm,从而提出了4项支架失稳防控措施:增加防倒防滑装置、调整支架形态等措施.

特厚煤层8.8 m超大采高综采面切眼放顶技术

上湾煤矿特厚煤层8.8 m超大采高12403综采面顶板不易自然垮落,在工作面初采阶段,易导致顶板初次垮落步距较大,在顶板大面积瞬间垮落时会产生强烈的强矿压和飓风现象,从而导致人员伤亡及设备损坏等。为了保证工作面初采阶段的安全生产工作,上湾煤矿通过引进井下定向长钻孔水力压裂工艺技术对切眼顶板进行预裂,同时配合切眼三角区强放技术,对特厚煤层8.8 m超大采高综采面切眼进行了初采放顶工作。实践表明:通过在上湾煤矿12403工作面进行煤层顶板定向长钻孔分段水力压裂工程施工,有效降低了顶板强度,缩小了初次放顶步距,为矿井安全高效回采提供技术保障,同时为大采高工作面初次放顶提供了治理经验。

浅埋煤层综放工作面开采煤柱矿压显现规律研究

针对西坡矿5106工作面中部地质构造隆起,导致工作面走向和倾向方向上都存在不同程度的倾角,工作面在开采时易造成顶板的偏应力集中,低水平位置的回采巷道矿压显现会更加剧烈的问题,对大倾角综放开采放煤工艺进行针对性优化,以提高顶煤的采出率。

综放工作面过集中煤柱矿压显现规律及控制技术

工作面过上覆集中煤柱期间的矿压动载是近距离煤层开采过程中最为关注的问题。采取理论与实际相结合的分析模式,运用数值模拟与现场分析的方法与手段,对高瓦斯矿井大采高综放工作面的矿压显现规律进行研究和分析,同时提出其主要控制技术,以达到对综放工作面过集中煤柱矿压显现规律的把握,确保工作面煤壁的稳定性。

汾源煤业大倾角煤层综放开采矿压规律研究

根据汾源煤业的地质及开采条件,通过损伤理论分析和现场监测的研究手段,分析了大倾角煤层煤体损伤、支承压力和支架阻力的变化规律,现场观测确定了来压参数和特征,根据煤体应力监测和支架载荷监测结果,提出了开采建议,为类似条件的煤层开采提供借鉴。

特厚煤层大采高综放工作面矿压及顶板破断特征

针对大采高综放工作面覆岩活动空间大、开采扰动强烈的特点,以不连沟煤矿特厚煤层大采高综放开采为背景,采用现场实测和理论分析等方法对大采高综放采场矿压及顶板运移破断特征进行分析,建立了大采高综放采场周期来压岩层破断的力学模型,得出了液压支架工作阻力的计算方法。结果表明:大采高综放工作面来压时安全阀开启频繁、顶板快速下沉,额定工作阻力13 800 kN的液压支架不能满足顶板控制的需要;开采空间的增大、直接顶厚度增大,低位基本顶转化为直接顶成为悬臂结构、高位基本顶形成砌体梁,二者形成"上位砌体梁-下位倒台阶组合悬臂结构";工作面来压强烈、动载明显、持续时间短的矿压现象是由于高位砌体梁结构滑落失稳造成的,据其力学特征确定了液压支架的工作阻力。

特厚煤层综放工作面大断面切眼支护技术

为了解决塔山煤矿综放工作面跨度10 m切眼的支护难题,采用理论分析、数值计算方法确定了大跨度切眼的支护形式为高强度锚杆、组合锚索、W钢带、金属网、混凝土联合支护,以形成群锚封闭效应,维护切眼巷道围岩的稳定性和安全性。试验中锚索锚固力达140~160 kN,锚固区内顶板最大离层值7 mm,顶底板移近量最大值38 mm,试验结果表明,设计提出的锚杆-组合锚索-混凝土支护提高了支护结构的整体承载力,有效控制了切眼巷道围岩的变形,保证了大断面切眼的安全使用。

综放面动压回采巷道帮部大变形控制机理及应用

基于综放面动压回采巷道的变形特征和两类滑移面的分布规律,研究了锚杆、锚索与第Ⅰ类及锚索与第Ⅱ类滑移面的微结构的力学模型,得到了一级和二级锚固体的重构机理,提出了"携顶底,控两帮"的支护思想,并推演了该思想的演化图解;运用FLAC3D数值模拟研究了综放面回采巷道在3种不同支护方案下的变形破坏规律,研究结果表明,与方案一相比,采用方案二和方案三支护的巷道破坏深度和塑性区发育单元体数量分别减小了44.4%,66.7%,巷道掘进与回采期间帮部变形分别减少了51.4%和68.6%、50%和68.9%;将新的支护思想在综放工作面回采巷道沿底和沿顶掘进两种情况下进行了工业性试验,结果表明,新思路下巷道围岩变形得到了有效控制;研究结果对类似工程地质条件下综放回采巷道的围岩控制具有重要的指导意义。

三软煤层大倾角综放面倒架原因分析及扶架技术研究

针对长山子煤矿1121综放面支架倒架、咬架的实际问题,通过对工作面地质条件、支架受力情况及设备情况的分析,建立工作面支架工作的力学模型,分析得到导致支架倒架的主要原因为顶底板松软、采高超高、支架上方空顶、支架防倒防滑装置不完备、个别支架侧护板故障和管理方面的因素,研究了解决三软大倾角工作面倒架问题较为有效的动态扶架技术。

深部大采高超长工作面开采技术研究及展望

基于浅部大采高超长工作面应用的成功经验,在深部大采高超长工作面回采实践的基础上,分析了深部大采高超长工作面回采可能遇到的矿压显现、煤壁片帮、巷道变形和超前支护问题。分析表明,液压支架支护技术能够满足深部大采高超长工作面回采要求,煤壁片帮、巷道大变形与超前支护的适应性仍需加强研究。

厚煤层综放工作面过特大断层技术实践

为有效预防综采放顶煤工作面过特大断层时造成的采出率低、采掘衔接矛盾等问题,采用地质勘探技术查明断层具体位置,通过对跳采过断层和直接过断层2种开采方案的经济技术比较,在直接过断层的方法基础上提出采用层位调整、支架防护、采煤机改良等技术措施。实践结果表明:改进后的直接过断层技术保证综放工作面顺利通过了特大断层,回收煤炭达126.4万t。