淄博市瓦泉寨矿区铁矿床地质特征及其成因

沉积变质型铁矿是山东省鲁西地区重要成因类型之一,含矿层位为新太古代泰山岩群。经过地表工程和钻探工程验证,瓦泉寨矿区C1、C2、C3、C5磁异常是由铁矿体引起。矿体总体走向NW,倾向NE,倾角55°~88°,厚度1.44~6.29m;主要矿物为磁铁矿;矿石主要呈粒状变晶结构、条带状构造。同时,本文对沉积变质型铁矿床的成因进行了分析,铁质来源与基性火山活动关系密切。     

陕西小秦岭地区熊耳群火山岩型铁(钛)矿及资源潜力

对小秦岭地区熊耳群地层的分布作了概述。在熊耳群地层分布区划出了坝源—洛源(A区)、三岔—石门(B区)和西峪河—梧桐河(C区)三个火山岩型铁矿资源潜力区。阐述了各潜力区的铁矿成矿条件,对潜在资源量作了测算。预测全区300 m以上铁矿潜在资源量为≥9.4亿吨,钛铁矿≥300万吨。     

陕北榆横矿区小纪汗井田水文地质特征及矿床充水条件分析

从用顶板充水、底板突水两个角度对矿坑充水强度进行了分析,为小纪汗井田及周边开采提供了参考。     

煤矿“一张图”概念及其体系结构研究

结合参与国土资源部"一张图"工程的亲身感受及其所取得的成果,并在分析了煤矿信息化建设存在不足的基础上,提出了煤矿"一张图"的概念及其体系结构,详细探讨了煤矿"一张图"的关键技术和构建步骤,最后结合煤矿"一张图"的体系结构,分析了其在矿区安全监测监控管理中的应用,实现了基于采掘工程平面图的监测监控、人员定位应用等。     

后方交会在排土场沉降监测中应用的探讨

排土场是露天矿山的重大危险源之一,其沉降监测一直以来备受重视。本文根据某露天钼矿排土场沉降监测方法及特点,提出利用全站仪后方交会的方法进行沉降观测,通过观测实验,分别对测角、测边后方交会的坐标数据进行比较分析,综合考虑数据的精度和产生误差的原因,并依此得出测边后方交会更加适合于该露天钼矿排土场沉降观测的结论。     

贵州六盘水水城矿区小牛煤矿钻孔中断层发育特征分析

利用钻探岩心识别断裂形变、挤压扭曲、岩心破碎带等断层标志, 有利于勘探区构造地质条件的分析。通过对钻孔岩心岩性特征、地层厚度、煤层间距等方面的研究,发现ZK13钻孔在C51与C52煤层之间地层出现明显的揉皱与破碎现象、地层厚度与煤层间距增大,同时测井曲线显示地层有重复现象,推测在C51与C52煤层之间发育一逆断层;C54与C58煤层之间地层也比较破碎、地层厚度与煤层间距减小,伽玛伽玛曲线幅值增大,推测在C54与C58煤层之间发育一正断层。     

沁水煤田赵庄矿区地质构造分析与研究

在野外踏勘和室内资料整理分析的基础上,对赵庄矿区物探工作所查明的断层、井下揭露的断层以及野外观测到的断层进行了断层倾角统计和分断距统计对比分析。对矿区范围内井上下的断层和野外实测节理滑动面的发育规律进行了总结。在此基础上,分析了赵庄矿区地质构造体系及其演化规律。     

磺酸自硬砂引起球铁件表层异常组织的研究

通过实验研究,用甲苯磺酸作催化剂的呋喃树脂自硬砂与稀土镁作催化剂生产的球铁件,通常在其铸件表层出现异常组织。提出导致异常组织产生的原因,同时又降低了试件的冲击值,并且采用反应型或屏蔽型涂料将可防止球铁件表层异常组织缺陷,为生产性能良好的球铁件提供技术依据。     

Hydrogeochemistry of mine, surface and groundwaters from the Sanggok mine creek in the upper Chungju Lake, Republic of Korea

 The Sanggok mine used to be one of the largest lead-zinc mines in the Hwanggangri mining district, Republic of Korea. The present study characterizes the heavy metal contamination in the abandoned Sanggok mine creek on the basis of physico-chemical properties of various kinds of water samples (mine, surface and groundwater). Hydrochemistry of the water samples is characterized by the relatively significant enrichment of Ca²⁺, HCO₃ ^–, NO₃ ^– and Cl^– in the surface and groundwaters, whereas the mine water is relatively enriched in Ca²⁺, Mg²⁺, heavy metals, and HCO₃ ^– and SO₄ ^2–. The more polluted mine water has a lower pH and higher Eh, conductivity and TDS values. The concentrations of some toxic elements (Al, As, Cd, Cu, Fe, Mn, Pb, Se, Sr, Pb and Zn) are tens to hundreds of times higher in the mine water than in the unpolluted surface and groundwaters. However, most immobile toxic pollutants from the mine drainage were quickly removed from the surface water by the precipitation of Al and Fe oxyhydroxides. Geochemical modeling showed that potentially toxic heavy metals might exist largely in the forms of MSO₄ ^2– and M²⁺ in the mine water. These metals in the surface and groundwaters could form M²⁺, CO₃ ^2– and OH^– complex ions. Computer simulation indicates that the saturation indices of albite, alunite, anhydrite, chlorite, fluorite, gypsum, halloysite and strontianite in the water samples are undersaturated and have progressively evolved toward the saturation condition. However, barite, calcite, chalcedony, dolomite, gibbsite, illite and quartz were in equilibrium, and only clay minerals were supersaturated. Ground and mine waters seemed to be in equilibrium with kaolinite field, but some surface water were in equilibrium with gibbsite and seceded from the stability field of quartz. This indicates that surface water samples in reaction with carbonate rocks would first equilibrate with carbonate minerals, then gibbsite to kaolinite. Investigations on water quality and environmental improvement of the severely polluted Sanggok creek, as well as remediation methods on the possible future pollution of the groundwater by the acid mine drainage from the abandoned metal mines, are urgently required. Received: 4 February 2000 · Accepted: 9 May 2000     

数字矿山的数据组织及其不确定性分析

数字矿山是数字地球的重要组成部分,数据是数字矿山的核心,这些数据的精确与否将关系到矿山的安全生产、合理决策等方面的问题。数字矿山的数据来源广泛,数据极其复杂,因此,采用空间数据仓库技术来处理矿山数据是必要的。本文在分析矿山数据内容、特征的基础上,论述了数字矿山数据的组织,针对矿山数据源、数据入库、数据动态性及数据处理引起的不确定性问题作了分析,并归纳了相应的处理方法。