Fractured zone height of longwall mining and its effects on the overburden aquifers

As mining depth becomes deeper and deeper,the possibility of undermining overburden aquifers is increasing.It is very important for coal miners to undertake studies on the height of fractured zone during longwall mining and the effects of longwall mining on the underground water while mining under surface water bodies and underground aquifers.In order to study this problem,piezometers for monitoring underground water levels were installed above the longwall panels in an American coalmine.Large amounts of pre-mining,during mining and post-mining monitoring data were collected.Based on the data,the heights of fractured zones were obtained and the effects of longwall mining on the underground water were studied.The results demonstrate that when the piezometer monitoring wells had an interburden thickness of less than 72.7 m,the groundwater level decreased immediately to immeasurable levels and the wells went dry after undermining the face of longwall.The height of the fractured zone is 72.7-85.3 m in the geological and mining conditions.The results also show that the calculated values of fractured zones by the empirical formulae used in China are smaller than the actual results.Therefore,it is not always safe to use them for analyses while mining under water bodies.

山西郭庄泉岩溶水系统分析

本文以系统思想为指导研究了郭庄泉岩溶水系统,圈定了系统的范围,确认郭庄泉系统和相邻的龙子祠泉岩溶水系统之间不存在水力联系,郭庄泉是系统的唯一排泄口,郭庄泉系统包含4个子系统:①区域性饱水带;②过路带;③局部饱水带;④峰峰组上层水带,在讨论了岩溶水系统的补给与排泄以后,提出了开发、保护与管理郭庄泉岩溶水系统的建议。

矿井煤层底板含水层注浆改造技术

根据焦作矿区5个矿井的煤层底板含水层注浆改造工程的实践,阐述了实施煤层底板含水层注浆改造技术时注浆孔、注浆压力、注浆材料、浆液配比、注浆量、终压及稳定时间等注浆参数的确定和选择,分析了工程施工的步骤、存在的问题与处理方案及工程实施的效益。研究表明,该技术不但可有效防止突水事故的发生,而且经济合理,同时还能有效地保护地下水资源,具有较高的推广应用价值。

一种新型孔隙水压力仪的研制与应用

采用孔隙水压力仪监测土壤水的压力,是目前工程上常用的一种方法。研制的新一代孔隙水压力仪,采用特制的微孔陶瓷探头,既可以测土壤水的正压力,也可以测土壤水的负压力。若监测得到的数据是正值,那就是饱和土壤中水的水位值;若得到的是负压力,那就说明土壤中的水分尚不饱和,但测得的负压力和土壤含水率之间有怎样的数学关系,目前国内、国际都没有定论。该文所研制的空隙水压力仪测得的负压力,对应土壤含水率之间的关系,在试验数据、实际监测数据和前人结论的基础上,得出了一种算法。根据该算法编写的软件,应用于长江三峡地区的地质灾害监测中,取得了不错的效果。该文的后半部分介绍了软件的流程图和实现方法。

掘进巷道过含水断层水害分析及施工工艺

羊场湾井田补充地质勘探区内断层分布广泛,在巷道掘进遭遇断层时,经常出现涌水、流砂,掘进头冒落,伴生泥石流灾害,严重影响了矿井的正常采掘接续。结合井田地质勘查资料,系统分析工程范围内水文地质条件与充水特征,对含水断层开采的突水危险性进行评价,确定断层水探放原则,采取超前加固、导(堵)水、架设U型钢棚、锚注、喷浆等工艺,减少了冒顶及次生灾害发生。

引洮7#隧洞含水疏松砂岩地层冻结法施工数值模拟

为探究含水疏松砂岩地层引水隧洞冻结施工中冻土帷幕的形成过程及力学特性,对引水隧洞的冻结施工及开挖过程进行三维数值模拟。研究了冻土帷幕的温度场、应力及位移的分布,计算出冻土帷幕完全形成所需的时间及其压、拉、剪应力极值并确定极值发生的位置。结合现场监测数据,分析了冻结过程中冻土的温度变化规律及冻土帷幕的形成机理,最后提出了相应的措施及建议。

孔隙水压力仪的算法研究及其在地质灾害监测中的应用

采用微孔陶瓷压力探头测土壤水的负压力,是目前工程上常用的一种方法。对测得的负压力和土壤含水率之间的数学关系探讨,目前国内、外还处于空白。根据自行研制的孔隙水压力仪测得的负压力,对应土壤含水率之间的关系,在试验数据、实际监测数据和前人结论的基础上,得出了一种算法。根据该算法编写的软件,目前已应用于长江三峡巫山地区的地质灾害监测中。

山西龙子祠泉岩溶水系统分析

龙子祠泉是山西重要岩溶大泉之一,有重要的利用价值。过去虽进行过大量勘察工作,但对岩溶水系统缺乏系统分析研究。本文着重从现有资料中提取尚未开发的潜在信息,特别是定量信息,通过综合分析研究,从宏观上建立水文地质模型,并在此基础上对长期争论的水文地质问题进行了论证,提出了新的见解;也对岩溶水资源的保护和开发提出了新的建议。

隧道进口区段的超前探水预测

在分析红外线超前探水机理的基础上,通过工程实例探测,得到了某隧道进口ZK50+282.5～ZK50+289与YK50+278～YK50+284区段的探测曲线,对开挖掌子面前方的含水层进行了预测,可为该类隧道的施工提供参考。

太原西山煤矿带压开采对晋祠泉水影响的研究

从水文地质、工程地质角度出发，结合多年的井下防治水工作实践，对西峪煤矿的带压开采与地下水之间的联系进行了详细的分析研究，得出了西峪煤矿的带压开采不会影响晋祠泉水，甚至西山矿务局各煤矿的带压开采也不会影响晋祠泉水的结论。

北京西山岩溶水系统渗透系数计算及富水性分析

在北京西山岩溶水系统243个简易抽水试验的基础上,分析了岩溶含水层的出水能力,应用稳定流和非稳定流方法计算了含水层的渗透系数。通过对比分析,确定了北京西山地区岩溶水系统富水区域为房山拒马河流域十渡—马安泉及张坊地区、大石窝镇半壁店村附近和甘池泉附近的蓟县系雾迷山组含水岩组,房山大石河流域河北镇、房山岩体南侧篓子水村附近、西山山前三厂水源地及海淀山后温泉镇地区的寒武奥陶系含水岩组。本次工作弥补了西山地区岩溶水水文地质参数的空白与偏差,为岩溶水资源评价和开发利用提供了数据支撑。

初探烧变岩含水带地下水储存量的计算

基于烧变岩体积形态的特殊性,而现有的水文地质公式计算烧变岩地下水储存量出入较大,所以本文探寻了无定水头补给的烧变岩含水带体积的近似计算,以单孔抽水试验资料计算给水度,从而给定烧变岩含水带地下水的储存量。

苏锡常地区Ⅱ承压水开采与地面沉降控制研究

论文通过苏锡常地区获取了孔隙水Ⅱ承压水开采水位衰变与地面沉降同步监测资料、含水层结构特征研究,论述了Ⅱ承压水压力成为含水层中所夹粘性土层由高压转卸荷膨胀的机理;天然状态水、土应力平衡面在不同顶板压力水头高度内。地面沉降的发生、发展系开采水位超过天然状态的水、土应力平衡面所致[1,2]。尚未超采区则消耗了天然状态高压强水压力。而超采区才是水、土应力失衡互动的结果。两者水力性质不同。给尚未发生地面沉降区由禁采转入按天然状态水、土应力平衡面控制开采措施和地面沉降发生、发展区的形成条件找到了理论依据。提出了超采严重区禁采后,在远离高压强补给源地水位下降期增加在Ⅱ承压含水层上的附加应力荷载仍存在,潜在地面沉降量较大,需采取人工辅助的高压强回灌水来快速提高Ⅱ承压含水层水压强,扼制其沉降速率的治理措施。这不仅对该地区孔隙水Ⅱ承压水开采与地面沉降的关系认识有重要意义,而且对不同埋深孔隙水承压含水层水的开采利用、查明水文地质条件和评价允许开采资源方面将起导向作用。

中条山某公路隧道地下水环境问题探讨

以中条山某公路隧道为研究对象,从隧道区的地质环境、水文地质条件、地下水环境特征等方面入手,对隧道施工的可能突水来源进行了分析,主要探讨了公路隧道地下水环境相互转化关系,得出了相关结论并提出建议。

Fifty Years of Water Sensitive Urban Design, Salisbury, South Australia

Australia has developed extensive policies and guidelines for the management of its water. The City of Salisbury, located within metropolitan Adelaide, South Australia, developed rapidly through urbanisation from the 1970s. Water sensitive urban design principles were adopted to maximise the use of the increased rim-off generated by urbanisation and ameliorate flood risk. Managed aquifer recharge was introduced for storing remediated low-salinity stormwater by aquifer storage and recovery （ASR） in a brackish aquiter for subsequent lrngatlon. Ibis paper outlines now a municipal government has progressively adopted principles of Water Sensitive Urban Design during its development within a framework of evolving national water policies. Salisbury＇s success with stormwater harvesting led to the formation of a pioneering w aterbusiness that includes linking projects from nine sites to provide a non-potable supply of 5 ×10^6 m^3 year. These installations hosted a number of applied research projects addressing well configuration, water quality, reliability and economics and facilitated the evaluation of its system as a potential potable water source. The evaluation showed that while untreated stonnwater contained contaminants, subsurface storage and end-use controls were sufficient to make recovered water sale for public open space irrigation, and with chlorination acceptable lbr third pipe supplies. Drinking water quality could be achieved by adding microfiltration, disinfection with UV and chlorination. The costs that would need to be expended to achieve drinking water safety standards were found to be considerably less than the cost of establishing dual pipe distribution systems. The full cost of supply was determined to be AUD$1.57 m ＂ for non-potable water for pubhc open space lrngatlon much cheaper than mares water, AUD $3.45 m at that time. Producing and storing potable water was found to cost AUDS1.96 to $2.24 m .