Large-scale gas accumulation mechanisms and reservoir-forming geological effects in sandstones of Central and Western China

Large-scale gas accumulation areas in large oil-gas basins in central and Western China have multiple special accumulation mechanisms and different accumulation effects.Based on the geological theory and method of natural gas reservoir formation,this study examined the regional geological and structural background,formation burial evolution,basic characteristics of gas reservoirs,and fluid geology and geochemistry of typical petroliferous basins.The results show that the geological processes such as structural pumping,mudstone water absorption,water-soluble gas degasification and fluid sequestration caused by uplift and denudation since Himalayan stage all can form large-scale gas accumulation and different geological effects of gas accumulation.For example,the large-scale structural pumping effect and fluid sequestration effect are conducive to the occurrence of regional ultra-high pressure fluid and the formation of large-scale ultra-high pressure gas field;mudstone water absorption effect in the formation with low thickness ratio of sandstone to formation is conducive to the development of regional low-pressure and water free gas reservoir;the water-soluble gas degasification effect in large-scale thick sandstone can not only form large-scale natural gas accumulation;moreover,the degasification of water-soluble gas produced by the lateral migration of formation water will produce regional and regular isotopic fractionation effect of natural gas,that is,the farther the migration distance of water-soluble gas is,the heavier the carbon isotopic composition of methane formed by the accumulation.

Geochemical characteristics of produced fluids from CBM wells and their indicative significance for gas accumulation in Daning-Jixian block,Ordos Basin

The Daning-Jixian block,the eastern edge of the Ordos Basin,is one of the most potential areas for CO_(2)geological storage,enhanced coalbed methane recovery(ECBM)exploration and production in China in recent decades.The ionic composition and total dissolved solids(TDS)of the produced water,coal organic matter maturity,molecular composition and carbon isotope characteristics of the produced gas were utilized to analyze the hydrogeological condition,CBM generation and migration characteristics in this area.The CBM enrichment patterns and the geological impacts on gas well production characteristics were revealed.The optimal area for CBM development and CO_(2)geological storage in the study area were also proposed.Dominated by the Xueguan reverse fault zone,the hydraulic unit in this area can be divided into two parts(i.e.,the recharge-runoff zone in the east and the weak runoff-stagnation zone in the west).The thermogenic gas is dominating CBM genesis in this area.Secondary biogenic gas replenishment is only distributed in the eastern margin area,where theδ13C1 value is less than the thermal simulation results as an influence of hydrodynamic fractionation.Finally,two models of CBM formation and accumulation were proposed,1)thermogenic CBM migrated by hydrodynamic and resorbed for preservation at impermeable fault boundaries;2)thermogenic CBM trapped by fault and accumulated by hydrodynamic in slope zone.The gas production performance,generally increased from east to west,is mainly dominated by hydrogeological conditions.Generally,the west side of the fault zone is the enrichment and high-yield area for ECBM development and CO_(2)geological storage in the study area.

瞬变电磁法在煤矿老窑采空区积水探测中的应用

以某煤矿6-1采区为研究案例,根据采区地质水文及地球物理电性特征情况,合理在采取内容实施数据采集,对数据实施预处理后,从全域视电阻率断面图和全域视电阻率切面图2个角度实施煤矿老窑采空区积水探测分析。根据分析结果对采取1#和2#煤层采空区积水范围进行综合解释说明,最后采用钻孔探测法进行采取采空区积水情况验证分析,有效确认瞬变电磁法的应用价值。

瞬变电磁法在探测煤矿采空积水区中的应用

探测煤矿采空积水区通常较难,但可以充分利用瞬变电磁法对低阻地质体反应灵敏和分辨率高的特点,通过精细处理和分析研究,从而有效地探测采空积水区。本文介绍了瞬变电磁法的基本原理,阐述了瞬变电磁法在探测煤矿采空区中的应用,根据工作区域特有的物性地质条件,结合视电阻率断面图,分析视电阻率断面图,探测出煤矿采空区以及积水区的位置及范围。

瞬变电磁法在探测煤矿采空积水区的应用

探测煤矿采空积水区通常较难,但可以充分利用瞬变电磁法对低阻地质体反应灵敏和分辨率高的特点,通过精细处理和分析研究,从而有效地探测采空积水区。以吉林某煤矿和山西某煤矿采空积水区探测为例,介绍了瞬变电磁法在探测煤矿采空积水区中的应用及效果。

瞬变电磁法探测煤矿采空积水区

应用瞬变电磁法,探测煤矿采空积水区,有效地排除了煤矿的安全隐患.

煤矿积水采空区瞬变电磁法探测分析

以鸡西市某地方煤矿为例,运用瞬变电磁法对煤矿井田范围进行地面半空间不接地探测,通过数据采集、处理、反演成像,结合煤矿水文地质资料和视电阻率剖面图与切片图,分析采空区含水体的分布情况。结果表明:瞬变电磁法探测的疑似积水采空区与矿方实际掌握情况是一致的。

上覆不明采空区突水危险性分析及积水范围探测

针对整合矿井上覆不明采空区工作面易发生老空水害的工程难题,以重组整合矿井胜利煤矿太原组10号煤层开采为例,运用力学模型分析、经验公式计算以及数值模拟方法,综合分析研究了10号煤层及上覆6号、2号煤层开采后的导水裂隙带高度、底板破坏带深度情况。研究结果表明:10号煤层及上覆6、2号煤层开采后的最大导水裂隙带高度分别是54.94、30.49、33.67 m,最大底板破坏带深度分别是12.24、3.12、1.25 m,基于其相对空间位置,判断出2号煤层采空区积水不会影响10号煤层开采,而6号煤层采空区积水会直接进入10号煤层,对10号煤层安全生产造成重大影响;利用调查资料、地面物探、井下物探相结合的方法对6号煤层不明采空区积水范围进行了精准确定,为后续钻探放水提供了依据,为相似工程条件下上覆采空区突水危险性分析及积水范围探测提供借鉴。

煤田积水采空区井地电位法三维有限差分正演模拟

煤田积水采空区是威胁矿井安全的主要因素之一。针对井地电位法特定的边值问题,推导出了相应的有限差分格式,结合煤田积水采空区的电性特征及分布特点,设计了多个地电模型,分别利用有限差分法对其进行了正演模拟。正演结果表明,井地电位法对单个积水采空区及横向上分布的多个积水采空区识别能力较好,而对垂向分布的多个积水采空区识别能力较弱。研究结果对于煤田积水采空区的探测研究具有一定的参考价值。

The special sealing mechanism of caprock for Quaternary biogenetic gas in Sanhu area,Qaidam Basin,China

The Quaternary biogenetic gas reservoirs in the east of Qaidam Basin have many characteristics such as late forming time,shallow burial depth,low diagenetic grade,high porosity and high permeability and so on.It cannot be considered as caprock according to the traditional evaluation criterion.However, the large scale and high efficient biogenetic gas reservoirs of the Qaidam Basin are really formed under these kinds of caprocks,so it does have some specialty in its sealing mechanism.Aiming at the special sealing mechanism,some simulating experiments have been done.The research results show that the sealing ability of biogenetic gas caprock is related with water saturation,the caprock that is saturated with salt water can effectively block seepage and diffusion.Furthermore,the multiple reservoir-caprock groups have accumulated sealing effect,causing the formation of big gas fields.The evaluation method with traditional caprock parameters cannot be adopted in evaluating the study area.

三维高密度电法在积水采空区探测中的应用

对点源三维地电场的有限差分计算方法进行了讨论,推导出三极装置在多层水平地层的视电阻率计算表达式。以3层水平地层为例,根据地层厚度和视电阻率的变化得到不同类型曲线。分析了以圆滑约束最小二乘法为核心的反演程序,并通过实例验证了三维高密度电法正、反演计算方法的正确性、准确性,三维立体成图的直观性。该方法提高了对矿井老空区分布范围及富水性的探测能力,为控制矿井突水事故提供了科学的技术手段。

强干扰条件下电磁法在探测煤矿积水采空区的应用

在各种强干扰条件下,采用电磁法准确探查煤矿积水采空区是一个难点。采用瞬变电磁法和高密度电阻率法2种方法巧妙地相互配合、合理化去噪,探查了陕北侏罗纪煤田某矿4^(-2)煤42101—42104工作面采空区积水范围。对2种勘探方法所取得的数据中的各种干扰采用合理探测方法,能够有效规避强干扰,利用限差、拟合与多点圆滑相结合的方法对较小的干扰进行去噪处理,结合4^(-2)煤层已知的水文、地质资料,准确解释了测区内4^(-2)煤层采空积水区分布范围。钻探结果表明,该物探结果与实际吻合。

大同矿区多层采空区综合探测技术

大同矿区为石炭-二叠系与侏罗系“双系”煤田,可采煤层多达26层,煤层开采后的采空区内积水、积气等对下组煤开采乃至矿井安全形成威胁,为此大同矿区多年以来在采空区探测治理方面投入大量资金、运用多种技术手段,总结探索出一套以资料收集追溯、物探、钻探等多种手段相结合的多层采空区综合探测技术,有效解除了采空区积水、积气影响。

应用天然交变电场在同家梁井田311盘区探测老空积水

探测老空区积水是煤炭开采的一个难题。文章论述了天然交变电场在侏罗系煤层稳定性较好、构造简单区域探测地下积水及采空巷道的良好应用效果 ,值得在同类地区推广应用。

钻孔超前探水技术在井下掘进巷道中的应用研究

通过对钻孔超前探水技术原理进行分析,得出该技术抗干扰能力强,同时对微弱信号较为敏感,是一种较好的巷道超前探水方法。对矿井的回风槽应用YZT6钻孔超前探测仪进行了实际探测,采用视极化率和视电导率两个参数进行隐患评估。探测数据结果表明,掘进方向存在3处异常点,分析后推测,在中心半径40m范围内,2#孔63m和3#孔45m处存在裂隙隐患区,3#孔59m处存在积水采空区引起的联通异常体。

浅析井工矿井采空区的涌水通道和积水影响因素

针对井工矿井采空区涌水造成经济损失和人员伤亡等影响正常生产的问题,在分析煤矿井下采空区积水来源的基础上,进一步从理论角度对采空区顶底板的涌水通道和采空区积水的影响因素进行了分析。研究结果对具体工程条件下选择合理的采空区涌水预测预报方法有一定的实际意义。

瞬变电磁法测量在采空积水区测定中的研究与实践

本文通过瞬变电磁法(TEM)对圈定区域进行勘测,利用煤电压平面图和煤底板视电阻率等值线图分析导水性与富水性情况,能够准确判断积水范围。另外,通过测定的积水面积,根据煤层平均厚度和压实系数等参数可以准确计算积水量,为矿区积水安全隐患的排除提供保障,对煤矿安全生产具有一定的指导意义。

矿井瞬变电磁法定向超前探测机理及方法研究

巷道掘进前方隐伏的导、含水构造或老窑采空积水区极易造成矿井突水事故,对煤矿安全生产构成极大威胁。研究定向超前探测技术,准确及时地预报掘进前方隐伏的赋水构造,对于煤矿的防治水工作与安全生产具有重要意义。本文首先通过数值模拟分析了磁偶源平行层理激发方式下全空间瞬变电场的扩散衰减过程,得到了不同地电断面瞬变磁场的响应特征,分析了矿井瞬变电磁定向超前探测的原理,在此基础上研究了瞬变电磁定向探测的数据采集与处理技术。最后通过实例分析,说明矿井瞬变电磁法定向超前探测技术对老窑采空积水区和巷道前方断层的探测取得了好的应用效果。

积水采空区下厚煤层综放开采技术

应用煤层开采覆岩破坏理论,从煤层与上覆采空区空间关系出发,研究综放开采的可行性和安全开采技术方案。分析了新疆库车某矿1005工作面地质采矿条件,类比国内类似条件综放开采实测资料预计其覆岩破坏高度,研究厚煤层综放开采对覆岩含水层尤其是积水采空区的影响,评价积水采空区下综放开采的可靠性,提出"物探探查、钻探验证、疏干再采"的技术方案,最终实现该工作面的安全开采。

煤矿采空区及其含水性综合物探技术

针对煤矿积水采空区普遍存在的问题现状,基于瞬变电磁法和EH4大地电磁法的理论,通过分析二者特点及局限性,提出综合运用这2种方法探测煤矿积水采空区,并进行了现场应用。研究结果表明:采用综合探测方法能够有效地解决单一方法干扰大、精度低的弊端,探测结果较为可靠,可以有效地对采空区范围及其含水性进行探测与评价,防止重大突水事故发生。