谢一矿小型层滑构造特征对煤厚变化影响分析

通过分析层滑构造的基本形式、分布特征和在煤层中的展现形态,指出层滑构造对煤层厚度变化的影响特征,对煤厚的变化做到定性和定量预测.     

Integrated method of RS and GPR for monitoring the changes in the soil moisture and groundwater environment due to underground coal mining

Mining affects the environment in different ways depending on the physical context in which the mining occurs. In mining areas with an arid environment, mining affects plants’ growth by changing the amount of available water. This paper discusses the effects of mining on two important determinants of plant growth—soil moisture and groundwater table (GWT)—which were investigated using an integrated approach involving a field sampling investigation with remote sensing (RS) and ground-penetrating radar (GPR). To calculate and map the distribution of soil moisture for a target area, we initially analyzed four models for regression analysis between soil moisture and apparent thermal inertia and finally selected a linear model for modeling the soil moisture at a depth 10 cm; the relative error of the modeled soil moisture was about 6.3% and correlation coefficient 0.7794. A comparison of mined and unmined areas based on the results of limited field sampling tests or RS monitoring of Landsat 5-thermatic mapping (TM) data indicated that soil moisture did not undergo remarkable changes following mining. This result indicates that mining does not have an effect on soil moisture in the Shendong coal mining area. The coverage of vegetation in 2005 was compared with that in 1995 by means of the normalized difference vegetation index (NDVI) deduced from TM data, and the results showed that the coverage of vegetation in Shendong coal mining area has improved greatly since 1995 because of policy input RMB￥0.4 per ton coal production by Shendong Coal Mining Company. The factor most affected by coal mining was GWT, which dropped from a depth of 35.41 m before mining to a depth of 43.38 m after mining at the Bulianta Coal Mine based on water well measurements. Ground-penetrating radar at frequencies of 25 and 50 MHz revealed that the deepest GWT was at about 43.4 m. There was a weak water linkage between the unsaturated zone and groundwater, and the decline of water table primarily resulted from the well pumping for mining safety rather than the movement of cracking strata. This result is in agreement with the measurements of the water wells. The roots of nine typical plants in the study area were investigated. Populus was found to have the deepest root system with a depth of about 26 m. Based on an assessment of plant growth demands and the effect of mining on environmental factors, we concluded that mining will have less of an effect on plant growth at those sites where the primary GWT depth before mining was deep enough to be unavailable to plants. If the primary GWT was available for plant growth before mining, especially to those plants with deeper roots, mining will have a significant effect on the growth of plants and the mechanism of this effect will include the loss of water to roots and damage to the root system.     

地震勘探技术在发现韩岗煤田过程中作用分析

现代科技发展带来了物探装备和技术新飞跃,探测能力、性能以及准确性有了大幅度提高,使物探方法应用于找矿初期成效非常明显。以发现山东省韩岗煤田为例,说明在找矿方法上要采用物探先行、钻探验证、物探指导钻探的勘查方法,还应在整个井田勘探中均坚持物探在先、钻探验证的勘探原则,减少了钻探盲目性,提高找矿和开发矿产的效率。     

层滑构造煤岩体微观特征及其应力应变分析

层滑构造在煤层及其顶、底板间普遍发育,它对地质勘探、煤矿生产、矿井工程灾害防治以及煤层气的开发等方面都有着重要影响。本文以淮北煤田海孜煤矿为例,在研究宏观层滑构造带组合特征的基础上,探讨了层滑构造的微观特征和形成机理。构造煤是层滑引起的煤层流变最显著的特征之一。通过对构造煤与构造岩的微观特征测试,发现层滑运动除了产生脆性变形外,还产生较强烈的塑性变形。利用煤镜质组光率体各向异性和构造岩组构,结合层滑构造的实测数据进行了煤岩体应力、有限应变分析。结果表明:层滑构造以顺层剪切为主,煤层受力的主要方向为NW-SE向。     

石门揭煤突出模拟实验台的设计与应用

基于石门揭煤过程中采掘应力场与瓦斯突出关系研究的需要,针对目前石门揭煤突出模型还处在实验室研究的阶段,而大部分都未能综合考虑瓦斯压力、地应力、煤的物理力学性质等对突出的影响,研制出一套能够综合考虑地应力、瓦斯压力及煤体结构的石门揭煤突出模拟试验系统。为取得准确、客观的试验效果,进行了密封、快速开启装置及氮气平衡系统等关键技术的设计,介绍了试验系统的主要组成结构、功能。利用该实验台进行石门揭煤突出试验,试验结果反映出在突出过程中地应力和瓦斯压力的变化情况,可为研究和揭示煤与瓦斯突出机制、突出过程中地应力和瓦斯压力的变化规律提供新的技术手段。     

滕县煤田七五井田岩浆岩分布特征及对煤层煤质的影响

以七五井田为研究对象,通过对区内地质构造展布特征、岩浆岩分布特征进行分析研究,总结得出七五井田岩浆侵入规律,进一步弄清了岩浆侵入对煤层的破坏程度,并对岩浆岩对煤层煤质的影响程度进行了评价,为矿井生产过程中的开拓布置工作提供了依据。     

太原地震台水位异常分析

针对太原地震台晋7-1井近年来水位大幅上升情况,进行资料收集和干扰因素分析,结果发现：2009年7月以来的井水位回升,与关闭小煤窑、汾河清水复流工程、关井压采、大量引用黄河水有直接关系。     

钼催化作用下的煤成烷烃气碳同位素演化

为了阐释钼催化作用下的煤成气碳同位素演化特征和机理,采用在原煤中添加单质钼的方式,开展催化生气模拟试验,测定模拟系列气样的单体烷烃气碳同位素组成,并对其演化规律和模式进行探讨.结果表明:无论加钼与否,模拟气甲烷碳同位素组成(δ(13C1))均以镜质组反射率1.1%为界分为演化趋势截然相反的2个阶段,乙烷碳同位素组成(δ(13C2))不存在明显的演化阶段性,但加钼煤样δ(13C2)由在较低成熟度阶段重于原煤样变为在较高成熟度阶段轻于原煤样;加钼条件下,模拟烷烃气呈现出正碳同位素系列,δ(13C1)为(-25~-45)×10-3,δ(13C2)重于-29×10-3,表明钼催化成因气属于有机热成因气范畴.对比模拟烷烃气碳同位素组成与镜质组反射率之间的关系,发现模拟烷烃气碳同位素组成演化规律与前人模式有所不同.加钼煤样的不同单体烷烃气碳同位素组成随有机质成熟度变化速率的不同而不同,指示生气作用在钼催化作用下得到增强,这一效应在裂解气生成过程中更为显著;加钼煤样δ(13C2)在较高成熟度条件下轻于原煤样δ(13C2)的原因可能在于钼催化效应促进了煤中壳质组裂解生气.     

Evaluation of coal bed methane content using BET adsorption isotherm equation

Coal bed methane is unconventional raw natural gas stored in coal seam with considerable reserves in China.In recent years,as the coal bed methane production,the safety and the use of resources have been paid more attentions.Evaluating coal bed methane content is an urgent problem.A BET adsorption isotherm equation is used to process the experimental data.The various parameters of BET equation under different temperatures are obtained;a theoretical gas content correction factor is proposed,and an evaluation method of actual coal bed methane is established.     

煤炭开采对煤层底板变形破坏及渗透性的影响

煤层底板变形破坏除受地质因素控制外,还受开采因素影响。通过试验和理论分析,系统研究了煤炭开采对回采工作面底板应力、应变和破坏及渗透性的影响。研究结果表明,不同岩性岩石的渗透性在全应力-应变过程中为应变的函数,在微裂隙闭合和弹性变形阶段,岩石的原生孔隙和裂隙容易被压密,岩石的渗透率随应力的增加由大变小明显,当应力增大至极限强度时岩石试件破坏形成贯穿裂隙,岩石的渗透率迅速增大至最大,不同岩性岩石存在一定差异性;随着回采工作面推进,煤层底板岩层在横向上划分为原岩应力区、超前压力压缩区、采动矿压直接破坏区和底板岩体应力恢复区4个区。煤层底板岩体的渗透性随着煤炭开采底板岩体变形破坏而呈规律性变化。