武宁县煤矿矿山地质灾害发育现状及防治措施

江西省武宁县煤矿多属小型矿山,但小煤矿的开采同样会引起诸多矿山地质灾害问题,如废石乱堆乱放,诱发泥石流;不规范开采,造成区域地下水位下降,引起地面沉降、塌陷和矿井冒顶、突水、瓦斯爆炸等,这些问题需要评估和解决。对上述问题进行成因分析、危害性探讨,并针对每项矿山地质灾害问题提出相应的防治措施,可使该区地质灾害得到有效的控制。     

露天煤矿数字地质模型的建立及在虚拟开采中的应用研究

为了对露天煤矿剥、采、排和土地复垦的进行预控制,需要对露天矿生产进行预演,计算相关数据。采用层面模型建立露天矿的地质模型,以"多对角线交换循环算法"结合"凸包推进算法"建立约束TIN结构层面。根据露天矿开采推进的特点建立以台阶为单元的分层式开采模型,在地质模型和开采模型的基础上,根据露天矿实际生产情况建立开采模板,采用"人工交互式推进"实现露天矿的虚拟开采。     

鲁西南隐伏区单县煤田曹县煤田的发现及其意义

继巨野煤田之后,近期在鲁西南隐伏区又相继发现了单县煤田和曹县煤田。它指示着隐伏区赋煤规律及找煤方向是：掀斜断凸的北缘,大型潜凸的周边,凹陷中的凸起,凸起中的凹陷。表明山东省深部找煤潜力巨大,前景广阔。应系统开展曹县一鄄城、阳谷一茌平、黄河北、章丘煤田深部、淄博煤田外围、单县一嘉祥6个含煤预测区的深部找矿工作。     

中国省域煤矿事故时空分异特征及影响因素研究

煤矿事故给国家和人民带来巨大的生命财产损失,科学把握煤矿事故发生的宏观规律及区域煤矿安全的影响因素有助于促进煤矿安全生产。本文尝试采用GIS空间分析方法开展区域煤矿事故的研究,基于空间自相关性、时空演化规律方法研究了2006-2015年中国省域煤矿事故的时空分异特点,并分析了省域煤矿安全的影响因素及相对风险度。主要结论：①中国各省区之间煤矿事故存在明显的空间自相关性,但随着各省区煤矿安全生产形势改善情况的不同,其自相关性在不断下降;②以空间重心转移曲线分析中国煤矿事故发生的时空演化规律,10年间煤矿事故空间重心向东北方向转移。③重特大事故频发的省区由于监管措施的有力执行往往具有较低的煤矿百万吨死亡率;平均煤矿生产能力低的省区具有较高的煤矿百万吨死亡率;④建立基于解释变量的贝叶斯空间模型,以煤炭百万吨死亡率为指标评估中国各省区煤矿事故相对风险度,中国煤矿安全生产相对危险度存在明显的空间分布规律且各省区差异较大,相对危险度较高的省区主要集中在南方地区,包括湖北、福建等,危险度较低的省区主要集中在中东部地区,包括山西、内蒙古等。     

浅谈计算机技术在煤矿储量估算中的应用

介绍了在煤矿储量估算中应用Microsoft Excel制作各种表格及计算,同时应用MAPGIS软件直接绘制储量估算图,提高图件的精度及节省绘制图件的时间。     

桐梓北部大竹坝井田含煤地层及可采煤层地质特征

大竹坝井田位于呈北东向展布的松坎复式向斜南东翼之次级褶皱-乐坪背斜南东翼,含煤地层为上二叠统龙潭组(P3l),厚45.61~71.53m,平均厚61.10m,含煤层(线)2~6层,全区可采煤层一层(C3),局部可采煤层二层(C2、C4)。C3煤层具有低挥发份、中灰、中高硫、高固定碳、高熔灰分、高热值的特点。可作工业用煤、动力用煤、气化用煤和化工用煤以及民用等。井田以含煤地层相对较薄,可采煤层少,煤层厚度小,含煤率低为其特征。     

桐梓煤矿大竹坝井田勘查类型及勘查工程间距的确定

通过对大竹坝井田构造复杂程度和煤层稳定程度进行分析研究和综合评价,认真总结煤层厚度变化的规律。对井田勘查工作进行了分区,在同一井田内划分了两个不同的勘查类型,选择主要的勘查区块进行了勘探,并按照论证的结论合理布设勘查工程间距,实现了以较小的经济投入获取较佳地质成果的勘查目标。其评价过程和由此获得的经济效益为今后的地质勘查工作中在确定地质勘查类型时有一定的借鉴作用。     

新建煤矿区循环经济发展探讨——以河南省新郑煤矿为例

新建煤矿发展循环经济是避免"三农四矿"问题的有效途径.在研究煤炭产业循环经济发展模式的基础上,以正在建设中的新郑煤矿区为例,运用SWOT方法分析了其社会经济基础,提出了目标、指标体系、总体框架和发展模式,并从区域可持续发展的角度提出了新建煤矿区在初期可按"煤-电-建"的模式发展,中后期可按"煤化工"的模式发展,并在企业、园区和社会3个层面建立循环型工业体系、循环型农业体系、资源节约型社会体系和绿色社区体系四大循环体系,为其他新建煤矿区的发展提供借鉴和示范作用.     

Application of a Bayesian model to infer the contribution of coalbed natural gas produced water to the Powder River,Wyoming and Montana

The Powder River Basin (PRB) of Wyoming and Montana contains significant coal and coal bed natural gas (CBNG) resources. CBNG extraction requires the production of large volumes of water, much of which is discharged into existing drainages. Compared to surface waters, the CBNG produced water is high in sodium relative to calcium and magnesium, elevating the sodium adsorption ratio (SAR). To mitigate the possible impact this produced water may have on the quality of surface water used for irrigation, the State of Montana passed water anti‐degradation legislation, which could affect CBNG production in Wyoming. In this study, we sought to determine the proportion of CBNG produced water discharged to tributaries that reaches the Powder River by implementing a four end‐member mixing model within a Bayesian statistical framework. The model accounts for the ⁸⁷Sr/⁸⁶Sr, δ¹³C_DIC, [Sr] and [DIC] of CBNG produced water and surface water interacting with the three primary lithologies exposed in the PRB. The model estimates the relative contribution of the end members to the river water, while incorporating uncertainty associated with measurement and process error. Model results confirm that both of the tributaries associated with high CBNG activity are mostly composed of CBNG produced water (70–100%). The model indicates that up to 50% of the Powder River is composed of CBNG produced water downstream from the CBNG tributaries, decreasing with distance by dilution from non‐CBNG impacted tributaries from the point sources to ~10–20% at the Montana border. This amount of CBNG produced water does not significantly affect the SAR or electrical conductivity of the Powder River in Montana. Copyright © 2013 John Wiley & Sons, Ltd.     

Influence of longwall support on the occurrence of roof cavities

Summary The forming of roof cavities in longwall faces is a complicated process. A likely explanation for this process is the presence of relaxed zones in the first beds of the roof above and ahead of the support. If existing or potential fissures are allowed to open through insufficient constraint, the block of roof delimited by these fissures will collapse. An increasing unsupported distance, an increasing distance between the face and the first row of legs, a lower vertical bearing force and a lower support pressure on the roof will increase the extent of the relaxed zones. These effects are investigated through underground observations and numerical modelling.Supplementary to this local influence, there is also a spatial relation between the support characteristics of one element in one coal step and the occurrence of fall outs in the roof uncovered by the next coal steps (3 on average) and above the neighbourhood elements (2 to 4 on average). It is probable that, once a cavity is formed, it is extended easily (in the two directions), until appropriate measures are taken.