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1.
Simulation of groundwater level recovery in abandoned mines,Fengfeng coalfield,China 总被引:1,自引:0,他引:1 
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下载免费PDF全文 MA Luan WANG Guang-cai SHI Zhe-ming GUO Yu-ying XU Qing-yu HUANG Xu-juan 《地下水科学与工程》2016,4(4):344-353
Abandoned mines are of high potential risk as they could be a large underground storage of pollutants(heavy metals and organic wastes, etc.). Various physical, chemical and biological reactions would take place when groundwater flows into underground spaces, which makes abandoned mine a huge potential hazard to groundwater environment. The recovery of groundwater level is one of the key elements controlling the reactions and causing such hazards. This paper simulated groundwater level recovery processes in the abandoned mines, Fengfeng coalfield by using the computer program FEFLOW. The paper integrated the pipe flow model, "three zones" model and groundwater inrush(discharge) model in the simulation of groundwater in the complex laneway-aquifer system. Groundwater flow in the laneway systems was considered pipe flow and described in Bernoulli equation. The water-bearing medium(coal seam roof) overlying the laneway systems was divided into "three zones" composed of the caving zone, fissure zone and bending zone based on the disruption degrees of previous mining. Groundwater in the Ordovician limestone aquifer(bottom of coal seam) flowing into laneway systems was considered a major inrush/recharge source, and its flow rate was calculated by an inrush(discharge) model which was newly developed in this study and incorporated into FEFLOW. The results showed that it would take approximately 95 days for groundwater in abandoned mines to recover to regional groundwater level elevation, and the total amount of water filling up would be about 1.41195×10~7 m~3, which is consistent with the actual data. The study could be of theoretical and practical significance to mitigate abandoned mines' hazards and improve mine groundwater utilization. 相似文献
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Environmental impact of the abandoned coal mines on the surface water and the groundwater quality in the south of Bochum,Germany 总被引:1,自引:1,他引:0
Surface water and groundwater samples were collected from 20 locations, situated in the vicinity of the abandoned coal mine fields south of Bochum. The main objective of this research is to assess the environmental impacts of these mines on the surface water and groundwater quality as well as to determine the factors controlling these impacts. The water samples were collected from stream sources, groundwater, surface water and engineered channels during April 2011. Physicochemical parameters were measured during fieldwork. Water samples were analysed for major ions and aluminium, iron, manganese, ferrous iron, zinc and hydrogen sulphide. The hydrochemistry of the surface water and the groundwater of this area is characterized by near-neutral to alkaline conditions, represented by predominance of calcium bicarbonate and sometimes calcium sulphate water types. Hence, the surface water and the groundwater quality in this region is significantly affected by abandoned coal mines. These effects resulted from oxidation of iron disulphide minerals that release iron, sulphate and hydrogen. The presence of carbonate-rich materials, which contained within the landfilling materials, has led the releasing of calcium, magnesium and bicarbonate. These materials could be the main source responsible for raising the alkalinity of the affected water. The environmental hazard of the abandoned coal mines in this area is related to the high concentration of Fe especially in the groundwater that possess the highest Fe concentration compared to other water sources: the Fe is 18 times larger than the allowed value in drinking water. Significant spatial variations of the water pollution were noted in this study. For this reason, the environmental hazards of the abandoned coal mines in Germany should be considered at closure of coal mines in the near future. Otherwise, these mines will be sources of environmental threats unless all necessary measures are taken to reduce their impact. 相似文献
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废弃矿井充水问题及其研究和治理方法——以美国匹兹堡煤田为例 总被引:1,自引:0,他引:1
以美国匹兹堡煤田为例,介绍了废弃矿井地下水回充、相邻矿井水连通和自流排泄出地表,以致造成河水污染,生产矿井涌水量增加,甚至导致生产矿井水害事故等问题。强调应基于GIS和GPS等技术对这类矿区进行水文地质填图,设立长期水位水质观测站,并有针对性的设置矿井水处理厂。针对我国废弃矿井充水问题提出了建议。 相似文献
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The focus of this research was to determine if abandoned mines constitute a major environmental hazard in the Black Hills. Many abandoned gold mines in the Black Hills contribute acid and heavy metals to streams. In some areas of sulfide mineralization local impacts are severe, but in most areas the impacts are small because most ore deposits consist of small quartz veins with few sulfides. Pegmatite mines appear to have negligible effects on water due to the insoluble nature of pegmatite minerals. Uranium mines in the southern Black Hills contribute some radioactivity to surface water, but the impact is limited because of the dry climate and lack of runoff in that area. 相似文献
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Shen Qu Guangcai Wang Zheming Shi Qingyu Xu Yuying Guo Luan Ma Yizhi Sheng 《Hydrogeology Journal》2018,26(5):1443-1453
With depleted coal resources or deteriorating mining geological conditions, some coal mines have been abandoned in the Fengfeng mining district, China. Water that accumulates in an abandoned underground mine (goaf water) may be a hazard to neighboring mines and impact the groundwater environment. Groundwater samples at three abandoned mines (Yi, Er and Quantou mines) in the Fengfeng mining district and the underlying Ordovician limestone aquifer were collected to characterize their chemical and isotopic compositions and identify the sources of the mine water. The water was HCO3·SO4-Ca·Mg type in Er mine and the auxiliary shaft of Yi mine, and HCO3·SO4-Na type in the main shaft of Quantou mine. The isotopic compositions (δD and δ18O) of water in the three abandoned mines were close to that of Ordovician limestone groundwater. Faults in the abandoned mines were developmental, possibly facilitating inflows of groundwater from the underlying Ordovician limestone aquifers into the coal mines. Although the Sr2+ concentrations differed considerably, the ratios of Sr2+/Ca2+ and 87Sr/86Sr and the 34S content of SO42? were similar for all three mine waters and Ordovician limestone groundwater, indicating that a close hydraulic connection may exist. Geochemical and isotopic indicators suggest that (1) the mine waters may originate mainly from the Ordovician limestone groundwater inflows, and (2) the upward hydraulic gradient in the limestone aquifer may prevent its contamination by the overlying abandoned mine water. The results of this study could be useful for water resources management in this area and other similar mining areas. 相似文献
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Xiong Wu Xiao-Gang Wang Xiao-Wei Jiang Qing-Wei Duan Yan-Dong Sun Hong Tian Zhi-Xin Jia 《Environmental Geology》2009,57(3):675-683
At present, the easily mineable coal resources have been depleted in China, and it is very necessary and urgent to mine under
hydraulic projects for continuous production and sustainable development of the society. In this paper, the coal field of
Shenjiazhuang Colliery, which mostly lies under the Yuecheng reservoir area, is studied. By using a comprehensive study involving
field engineering geologic survey, indoor rock mechanics test, in situ test, statistical analysis of mine well discharge,
water quality analysis, theoretical calculation and numerical simulation, it is concluded that coal mining would not affect
safe operation or bring any secondary geological hazard to the reservoir area. This paper provides an important scientific
basis for achieving double profits for both departments of water and coal resources and helping departments related make further
decisions. In addition, the research reported in the current paper can be served as a reference for similar projects, such
as the coal mines under the Xiaolangdi reservoir area, under the Xifeihe Dam and under the mid-route South-to-North Water
Transfer Project. 相似文献
7.
随着我国煤炭去产能政策的有力实施,一批资源枯竭及产能落后矿井将陆续关停废弃。废弃矿井仍赋存着大量的煤层气资源,其开发利用是实现煤炭产业清洁安全高效低碳发展、促进煤矿安全生产、优化能源结构、实现温室气体减排等方面的重要举措。基于山西省煤基重点科技攻关(煤层气产业链)项目相关研究,系统阐述了废弃矿井煤层气开发面临着资源量评价不准、钻进体系不健全、井上下联合缺失等关键问题。针对这些问题提出以下几点对策:废弃矿井精准地质探测是采空区地面钻井轨迹设计的重要依据,尤其是炮采等落后采煤工艺的废弃矿井,地球物理勘探精度应达到米级才能有效降低钻遇煤柱风险;优选废弃矿井煤层气地面“L”型钻井思路,即选采空区周边一定距离的保安煤柱作为L型井位,并配套特殊钻进工艺;煤矿企业应将废弃矿井资源开发利用纳入煤矿全生命周期规划,尤其是矿井废弃前应确保煤层气抽采通道畅通,以实现煤层气井“一井多用”的新型井上下联合开采模式,提高废弃矿井煤层气开发效率;采用防回火、各种传感器等装置,并对关键参数设置自动报警停机界限值,从而使废弃矿井煤层气地面开采工艺安全、高效;对不同浓度废弃矿井煤层气,需要采取相应的梯级利用模式,从而提高整体开发利用价值。以山西省废弃矿井为示范区,研究认识对推动全国煤矿区废弃矿井煤层气开发利用具有重要的指导和示范意义。 相似文献
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J. -Y. Yu 《Environmental Geology》1996,27(4):286-299
Osheepcheon Creek running through the Dogyae area is being polluted by the influx of the abandoned coal mine drainage. Generally, the more polluted water has lower pH and Eh and higher conductivity values. The concentrations of Mg, Ca, Fe, SO4, and some trace elements, such as Cd, Co, Cr, Mo, Ni, Pb, Rb, Sr, U and Zn, are tens to hundreds of times more concentrated in the abandoned coal mine drainage than in the unpolluted streamwater. However, most immobile toxic pollutants from the mine drainage are quickly removed from the streamwater by the precipitation of amorphous Fe hydroxide and sorption on the precipitated Fe hydroxide. The fast removal of the pollutants from the streamwater maintains the water quality of the creek as acceptable at most places along the stream path, except where the abandoned coal mine drainage flows in. However, the creek has the potential of deteriorating quickly if the mine drainage is allowed to be continuously combined with the streams. A function of pH, Eh, and conductivity has been developed with discriminant function analysis for the purpose of easy, fast, and inexpensive measurement of the degrees of pollution of the streams. The estimated pollution of the streams with the discriminant function are consistent with what the chemical compositions of the water samples indicate. The pollution map of the study area was constructed from the calculated scores with the discriminant function. The pollution map suggests that the pollutants mainly come from the west side of Osheepcheon Creek. Thus, the abandoned coal mine drainage from the west side has to be appropriately treated as soon as possible to prevent Osheepcheon Creek from being further polluted. Considering the topography, climate, and the amount of the mine drainage, an active treatment method is recommended. 相似文献
10.
Candice Lagny 《Environmental Earth Sciences》2014,71(2):923-929
Intrinsic parameters influence abandoned mine gas emissions. Independent of the presence or not of noxious gas in mine voids, meteorological factors influenced directly the gas outflow or inflow. Measurement stations were installed in the exits located in abandoned mines of the iron Lorraine basin, the Lorraine and the north east France coal basins to enhance the gas flow behaviour. Closure methods of the mines and exits from the abandoned mines are quite different. For the first, shafts are associated with adits. Some of them are closed with bars to avoid people entrance into abandoned mine workings, but gas flow is enabled. For the second, there are essentially shafts which are secured. Some of them are equipped with a vent to enable outflow of the mine gas in specific conditions. Mine gas parameters were measured. Besides, external parameters like temperature and atmospheric pressure were monitored. Gas flow can be influenced mainly by the temperature difference between external atmosphere and mine workings (in iron mines, which can be considered as an open system) while atmospheric pressure influences gas flow in the coal mines, which can be considered as closed systems. Modelling has confirmed the differential pressure value measured that exceeds friction losses. 相似文献
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针对我国关闭矿井资源利用率低、蓄电储能需求日益增长的问题,废弃矿井抽水蓄能技术是实现资源二次开发利用,提升电网调峰能力的有效手段。基于废弃矿井抽水蓄能电站工作原理与发展现状,提出在黄河流域九省区利用废弃矿井建设抽水蓄能电站的半地下式、全地下式2种模式。通过综合考虑空间、地质、水文、社会、经济与资源等影响因素,提出废弃矿井抽水蓄能电站选址评价指标体系,并进行黄河流域废弃矿井抽水蓄能电站实例分析。基于2016—2020年黄河流域九省区的废弃煤矿资料,利用废弃矿井抽水蓄能电站静态效益与动态效益计算方法,定量评估黄河流域九省区废弃煤矿抽水蓄能电站建设的开发潜力。结果表明:(1) 黄河流域九省区能源资源丰富,现阶段满足电力供应需求,但火电仍是电力供应主体且水电发展进入瓶颈阶段;(2) 影响废弃矿井抽水蓄能电站选址的重要因素为巷道空间体积、上下水库水位差、巷道围岩稳定性、巷道围岩渗透率与地下水循环特征;(3) 由黄河流域废弃矿井抽水蓄能电站实例分析可知,其发电效率可达到75.7%,可媲美常规抽水蓄能电站;(4) 2016—2020年黄河流域九省区废弃煤矿累计有效可利用井巷空间为4.7×107 m3,依据132座废弃矿井基本情况,从统计学角度估算出废弃矿井抽水蓄能电站可利用井巷空间为1.34×107 m3,利用其建设抽水蓄能电站年发电量可达3.78×109 kW·h,可满足2021年黄河流域九省区28.4%的弃风、弃光电量的消纳需求,每年直接经济效益约达21.2亿元。综上表明,黄河流域九省区废弃矿井抽水蓄能利用具有可观的发展前景。 相似文献
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废弃矿井地下水淹没过程的水流与水位数值模拟 总被引:1,自引:0,他引:1
定量分析和研究废弃矿井淹没过程的水流特征对于预测和防止废弃矿井地下水淹没过程中诱发的次生灾害具有重要意义。建立了废弃矿井淹没的多种介质水流数学模型,得出了淹没补给水量随时间、矿井内淹没水位和补给水源含水层水位之间的相关关系,建立了淹没补给水量与相关影响因素之间的函数关系式,完成了矿井淹没过程中涌水量实时计算的FEFLOW模块设计和开发。进行了近水平煤层开采后废弃矿井充水淹没水位回弹过程的数值模拟计算,得到了不同充水介质在充水淹没过程中的水流和水位回弹特征。结果显示,FEFLOW二次开发模块运算效果良好,具有实用价值。 相似文献
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为了研究废弃矿井中煤层气成因,以沁水盆地南部潘庄区块废弃矿井为例,抽采废弃矿井中煤层气并进行化学组分和同位素测试,并采集部分废弃矿井水样品测试水中离子浓度、pH值等进行研究。结果表明:潘庄区块废弃矿井中煤层气CH4体积分数平均值为91.99%,CO2为1.26%,N2为6.73%;甲烷碳同位素(δ13C1)值为-31.36‰~-33.53‰,平均-32.25‰,氢同位素(δD)值为-182.76‰~-193.20‰,平均-187.538‰。废弃矿井排采水中阴阳离子主要为Mg2+、K+、HCO3-、Cl-、Na+、SO42-和NO3-等,产出水型为Mg-(HCO3)2型,表明矿井水受到地表水的强烈影响。废弃矿井中煤层气主要以热成因气为主,少量次生生物气。与附近未开采煤储层相比,研究区废弃矿井中的环境更有利于次生生物气的生成。 相似文献
16.
江苏省长江沿岸废弃矿山修复治理是长江经济带生态修复的关键节点区域,如何快速、直观地获得区域内废弃矿山的分布和修复工程进展,成为长江经济带废弃矿山生态修复工程的重要工作之一。以江苏长江干流两岸10?km范围为研究区,以2017—2020?年4?期高分辨率遥感影像为数据源,采用ArcGIS平台人机交互解译和野外验证的方式,获取了研究区内露天废弃矿山分布情况、地质环境问题和生态修复情况等信息。结果表明:镇江市和南京市需修复面积较大,区内露天废弃矿山主要表现为矿山的采场和中转场地两类占地,涉及矿种以建筑石料用灰岩和建筑用砂矿为主;存在的主要矿山环境问题有地形地貌破坏、矿山地质灾害、矿区生态环境破坏和水土污染等;2018—2020 年研究区已修复面积和正在修复面积均呈上升趋势,截至2020 年10 月,研究区废弃矿山修复效果良好,修复面积占67.08%;主要生态修复措施有自然恢复、客土回填、土地平整、削坡、土地综合治理等。建议在进行修复治理工程时,最大限度地保护矿区原有地貌,充分利用土地资源。调查结果和建议可为同类型地区露天废弃矿山生态修复治理提供技术参考。 相似文献
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Ashkan Bahrami Mohammad Jamialahmadi Jamshid Moghadasi Naimeh Alimohammadi 《Environmental Earth Sciences》2013,70(6):2501-2509
Significant potential exists for CO2 sequestration in coalbed methane reservoirs of the Black Warrior basin. Reservoir simulation is an appropriate approach to estimate both the storage capacity and methane recovery enhancement. However, prior to a reliable reservoir modeling and simulation, conducting an accurate and comprehensive reservoir characterization study is necessary. The purpose of the present study is twofold: (a) to provide a rigorous reservoir characterization study required for modeling Mary Lee coal group in the Blue Creek field of the Black Warrior basin; (b) to run fluid flow simulations to predict the performance of ECBM process applied to an under pressured zone of the Mary Lee coal group. According to the current well configuration of Blue Creek field, three applicable well patterns, namely a direct line drive, an inverted 5-spot and a normal 5-spot were separately (i.e., in three distinct cases) used for simulating ECBM. Simulations were run on an approximately 32 ha (80-acre) drainage area, and included coal matrix shrinkage/swelling effects. The injected gas was assumed to be pure CO2. Using an inverted 5-spot pattern, simulations predicted that after 7.5 years of CO2 injection, approximately 32,000 tonnes of CO2 would be sequestered per 32 ha of this zone and that methane recovery would be enhanced by 36 %. Using a normal 5-spot pattern, CO2 breakthrough would occur 2.4 years earlier, and about 40,000 tonnes CO2 would be sequestered. However, methane production would be enhanced by 33 %. Considering methane recovery enhancement, direct line drive pattern delivered poor results in comparison with two other patterns. As expected, the results also showed that CO2 injection would increase water production. 相似文献
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Geological impact of some tailings dams in Sardinia,Italy 总被引:2,自引:0,他引:2
This article deals with the results of a survey carried out in Sardinia on both active and abandoned tailings dams, and we also discuss the geological impact of tailings dams of two mines: the Masua mine, a large syngenetic Pb-Zn deposit located in Cambrian limestones, and the Montevecchio mine, a Pb-Zn vein deposit near a Hercynian granite intrusion. The characteristics and metal content of material in the dams were analyzed. A high contamination of heavy metals (Pb, Zn, Cd, Cu) was found both in the soils and water of Rio Montevecchio, a stream draining the tailings dams and other mining operations in the area.The study indicates that a control plan to minimize heavy metal pollution must be drawn up for all mines of the area, whether active or abandoned. 相似文献
20.
Kalu O. Uma 《Environmental Geology》1992,20(3):181-194
Mine flooding is a serious problem in the Enugu Coal Mines and has led to the abandonment of two of the four mines. About 1800 m3 of water is pumped out daily from the mines into the nearby streams. The source of this enormous volume of water has been established based on the hydrodynamics and hydrology of the area. It is shown that although two prolific aquifers—an unconfined and a confined system—overlie the mines, the mine water is derived principally from the unconfined aquifer. The pathway of flow is, however, provided by the numerous fractures connecting the two aquifers and the mine tunnel.The major hydrochemical activity resulting in pollution of the mine water occurs within the sumps in the floor of the longwalls. These sumps act as oxidation chambers where groundwater from the fractures is mixed and subsequently reacted with sulfur-rich solutes released by coal mining.Contrary to general belief, the mine drainage has not seriously degraded the chemistry of receiving streams. The pH, electric conductivity and, thus, the dissolved ions were increased less than 10% of the values in the unaffected region. 相似文献