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1.
弱透水层与含水层相互作用是国际水文地质学界关注的热点问题,特别是黏性土弱透水层与孔隙含水层的相互作用。近年来,在自然沉积、过量开采地下水、现代化农业机械与建筑业重型机械应用等自然与人为活动影响下,黏土弱透水层会发生有效应力增加、孔隙结构变形和孔隙度减少、渗透性降低、溶解氧和贮水能力减少以及侧向和垂向排水等的压实作用,导致地下水污染、地面沉降等环境问题的发生。本文重点介绍了黏性土弱透水层压实作用的原理,分析了地下水系统中4种不同状态下沉积物压实与孔隙流体压力的关系,基于压实物理模拟和数值模拟两个方面对压实作用的研究方法与技术进行了系统总结,随后探讨了压实作用下黏性土弱透水层对地下水水量与水质的影响,并对此研究的发展趋势及其在地球科学、环境科学等研究领域的潜在应用提出了展望。 相似文献
2.
弱透水层储存的地下水是地下水资源的重要组成部分,弱透水层水文地质参数对地下水资源管理与评价以及地面沉降等具有重要意义。通过室内试验对定降深条件下弱透水层水流运移规律进行了研究,并探讨了弱透水层释水过程中的变形规律和释水规律。试验结果表明,在相邻含水层定降深条件下,弱透水层固结变形滞后于相邻含水层的降深变化,且变形速度逐渐变小并趋于零。基于室内试验,利用配线法求得弱透水层不同应力状态下的水文地质参数,对比分析,大变形和小变形试验中土层的渗透系数变化不大,但贮水率明显变小,土层的固结系数变大。因此,土层的应力历史对土层的渗透系数影响不大,而对贮水率有较大的影响。 相似文献
3.
沧州市深层水中氟离子变化与地层释水估算 总被引:3,自引:0,他引:3
沧州市地面沉降过程中地层压密释水导致水资源组成发生变化,这部分释水量是水均衡计算中必须要考虑的,但现有的调查数据并不明确。通过地下水中氟离子浓度的变化来解释地面沉降与弱透水层释水机理,并采用二元混合模型估算地下水开采资源组成中越流与释水所占份额。结果显示:沧州市承压含水层中氟离子浓度与地面沉降量存在着对应关系,在压缩释水阶段,开采量中有56%来自黏性土压密释水;在越流发生阶段,开采量中有36%来自越流补给。这表明压密黏性土释水是水资源评价的重要组成部分。 相似文献
4.
过去对地下水位持续下降条件的地面沉降研究较多,但对水位大幅持续抬升过程中的地面沉降研究较少。本文根据
上海大量地面沉降、水位观测和钻孔资料,系统分析上海市90年代末以来地下水位大幅抬升条件下各土层的变形特征。自
1998年以来,上海市通过大幅压缩开采量、回灌地下水等措施使第二、三、四和五承压含水层水位分别平均抬升2.1 m,
3.6 m, 12.4 m, 12.7 m。水位的抬升使上海市地面沉降平均速率由1998年的12.2 mm/a减小到2011年的1.83 mm/a,减少85%。
通过对27组分层标数据分析发现:现阶段主要压缩层位在第一、二软土层,年沉降速率为2~4 mm/a;而第二含水层以下土
层已经有少量回弹。在水位持续大幅抬升过程中,本文总结了两种变形特征:1) 变形和水位变化基本同步,残余变形量非
常小,变形可概化为线弹性变形,这种变形主要发生在第一、二、三和五承压含水层、第五和六弱透水层;2) 压缩速率逐
渐减小,无明显持续回弹趋势,有较大残余压缩量且存在变形滞后现象,变形可概化为弹塑性变形,这种变形主要发生在
地第二、三和四弱透水层。第四承压含水层变形较复杂,两种变形特征都有。其中较大残余变形量主要由塑性贮水率比弹
性贮水率大2个数量级引起;变形滞后主要由弱透水层中超孔隙水压力消散较慢引起。本文研究成果对于掌握水位抬升过
程中土层变形方式、发生发展机理、预测未来地面沉降及地下水科学管理和资源评价具有重要意义。 相似文献
5.
本文对山东半岛海岸带滨海杂填土、饱和粉细砂、淤泥质土等特殊复杂地层地基处理方法进行了研究。以经济高效的强夯法为基础,提出复杂地层整体排水概念,设计了浅层、深层竖向排水和水平排水的接力排水系统,并进行了现场试验研究。监测数据表明,强夯荷载作用下,接力排水系统整体协同排水,可快速排出各个地层中地下水、消散超孔隙水压力。7 h左右可基本消除强夯引起的地下水上升及孔隙水压力消散。持续降水,地表沉降为上部土体厚度的0.7%~2.0%。强夯动力荷载作用下,表层土体压缩为上部土体厚度的8.7%~10.9%。埋深3~7 m土体沉降约为土体厚度的5‰、3‰,埋深7~10 m土体沉降为土体厚度的2‰。检测数据表明,在强夯有效影响深度内地基处理效果明显,土体工程性状改善明显。表层承载力及变形模量满足设计要求,4 m以下淤泥承载力平均值略低于设计要求,下部淤泥质土计算平均固结度为77%。夯后1个月监测数据表明,地表沉降量在25 mm以内,已逐步趋于稳定,分层沉降、孔隙水压力数值整体稳定略有下降。 相似文献
6.
Xiaoqing Shi Jichun Wu Shujun Ye Yun Zhang Yuqun Xue Zixin Wei Qinfen Li Jun Yu 《Engineering Geology》2008,100(1-2):27-42
Su-Xi-Chang area and Shanghai City, located in the south of Yangtze Delta, China, has subsided due to groundwater overpumping. Because of the regional scale of the groundwater exploitation, cone of depression and land subsidence at present, Su-Xi-Chang area and Shanghai City are treated as a single area for land subsidence study to avoid the uncertainty of boundary condition due to the regionalism. The characteristics of aquifer system compaction are complex because of the difference in the types, compositions and structures of the soils that the hydrostratigraphic units are composed of, and in the histories of groundwater level change the hydrostratigraphic units have experienced. Considering the fact that different hydrostratigraphic units have different kinds of deformation and that an identical unit may also present different deformation characteristics, such as elasticity, elasto-plasticity, and visco-elasto-plasticity, at different sites of the cone of depression or in different periods, corresponding constitutive laws have been adopted. This avoids the shortcomings of the previous research that the same constitutive law was adopted in all the hydrostratigraphic units during the entire time period. A coupled flow and subsidence model, which includes a three-dimensional flow model with variable coefficients and a one-dimensional (vertical) subsidence model, is built according to the complicated hydrological condition in the region. The simulation model is calibrated using observed data, which include compression of individual strata from groups of extensometers and groundwater levels from observation wells from 1995 to 2002. The model reproduced that the primary subsidence layer in Shanghai shifts from the shallow aquitard to the fourth confined aquifer because of the groundwater yield variations and the change of exploitation aquifers. However the third aquitard was the primary subsidence layer in Su-Xi-Chang area and the compaction deformation of the sandy aquifers was remarkable. The simulation results could provide some reasonable advice about groundwater exploitation in the future. 相似文献
7.
8.
常州市过量开采第Ⅱ承压含水层的水使水位大幅度下降,造成含水砂层压密和粘性土层固结而导致地面沉降。试验资料表明该区粘性土层的压缩性较低,它们的压密主要是由主固结阶段完成的。视压榨液,浸提液成分和含水层多年水质的变化,以及抽水时水质与氚量资料说明粘性土层释水在造成本区地面沉降中起着相当重要的作用。这种条件下,用对含水层水化学成分的检测来监视地面沉降的发生、发展是一个经济可靠的方法。 相似文献
9.
天津市地下水流-地面沉降耦合模型 总被引:6,自引:0,他引:6
天津市平原区地面沉降主要由地下水大量开采引起,影响范围广、危害大,已成为天津市主要的环境地质问题。分析了研究区的水文地质条件,结合地下水开发利用状况,将研究区概化为6个含水层组,地下水流考虑三维非稳定流,地面沉降选用一维固结压缩模型,运用地下水流模型Modflow 2005和地面沉降模拟模块 Sub,建立了天津市平原区地下水流-地面沉降数值耦合模型,模型面积为1.1×104 km2,利用1998-2008年地下水位等值线、过程线、地面沉降过程线等资料对模型进行了识别。模拟期的地下水均衡分析表明,在多年开采条件下,越流补给、压缩释水、侧向边界流入分别占深层含水层补给量的41.84%、32.15%和24.17%。将调试后的模型应用于南水北调实施后地下水控采条件下的地面沉降趋势预测,显示出停采或减少地下水的开采,有利于减缓地面沉降下降速度,且表现出开采层位越往下,地面沉降恢复难度越大的变化趋势。 相似文献
10.
An analytical method was proposed to estimate depletion of groundwater in the confining layers through their entire exploitation history and also for limited periods, especially when data on the drawdown history of the pumped aquifer were sparse. The method was based on the solution for drawdown distribution in the confining layer under the condition that the water level was not under equilibrium conditions but resulted from the delayed drainage phenomenon at the outset. First, the method was used on a hypothetical confined regional aquifer system. It suggested that the calculation error of depletion was generally small and that the cumulative released water from the confining layer can be calculated as being closer to the actual total depletion (2.88 km3) than an existing method. Then, the method was applied to estimate the groundwater quantity released from confining layers in the Su-Xi-Chang region of China, where there is a paucity of groundwater level data. The depletion of groundwater in confining layers represented approximately 54 to 82 % of total withdrawals (9.2 km3) from 1965 to 2000. Therefore, the confining layers are the main consolidation layers in Su-Xi-Chang area. Uncertainty in the properties of the confining layers made the depletion calculation subject to error. 相似文献
11.
地面沉降主要由深层地下水开采造成,含水层的压缩释水是深层地下水开采量主要构成来源,同时随其压缩变形孔隙比减小造成储水系数、渗透系数的减小,对弱透水层非弹性释水量、越流补给量造成影响。地面沉降过程中的水文地质参数非线性变化及对承压含水层系统的反馈作用也成为水文地质领域的前沿问题。为对地下水开采量、沉降量、地质参数变化以及给水能力变化之间的关系做一个较为定量定性的探究,以含水层压缩过程中的物理机制为依据,并基于沧州地区深层承压含水层的地下水位变化过程和水文地质参数,采用数学手段构建储水系数和渗透系数变化的一维非线性沉降模型。模拟结果显示随承压水头下降,储水系数最高可减小77%,含水层系统的给水能力和储水能力会随压缩变形减小50%甚至更多。研究成果为深入认识水文地质参数与应力变化相关关系、科学评价承压含水层地下水储水调节能力有重要借鉴意义。 相似文献
12.
衡水地区多年超采深层地下水,形成了以衡水市区为中心的区域地下水降落漏斗,改变了初始的水动力场和水化学场。运用聚类分析、Piper三线图、Gibbs图、氯碱指数、离子相关关系方法分析了该地区历史时期和现阶段深层地下水的水文地球化学特征及其演化规律,探讨了水化学组分的来源及形成机制。结果表明:该地区深层地下水水化学演化受到了较大的人类活动影响,根据Q型聚类分析将研究区划分为补给、径流、排泄3个水化学分区。20世纪70年代到现阶段,随降落漏斗产生发展,研究区形成了新的局部补径排关系,加强了地下水对围岩的溶滤作用,导致研究区水化学场发生了变化,径流区地下水水化学类型由Cl·HCO3-Na、HCO3·Cl-Na和SO4·Cl-Na转化为SO4·Cl-Na和Cl·SO4-Na,排泄区地下水水化学类型由Cl·HCO3-Na和Cl-Na转化为Cl-Na。Gibbs图和离子关系显示,研究区现阶段深层地下水在降落漏斗影响下,水化学组分主要受岩石风化、阳离子交替吸附和脱碳酸作用控制。 相似文献
13.
弱透水层水力参数对基础工程设计、建设和地下水资源评价、地下水污染预测具有重要意义。现提出一种现场确定含水层系统中弱透水层水力参数的钻孔双管试验方法。利用麻花钻钻孔,到达地下水位线以下揭露到目的层位后布设外管,以起到护壁防止土层塌孔的作用。在外管内通过锤击的方式将内管嵌入到目的层中,使其下部管中有一定厚度的土样作为现场固定试验土柱。待内外管中地下水位稳定后迅速加高内管水头,并通过马里奥特瓶装置保持定水头。建立钻孔双管试验土柱的数学模型,推导了土柱顶底面单位面积流量随时间变化的解析解,将其无量纲化后作出标准曲线。作为该方法应用的实例,在长江下游三角洲苏锡常冲积平原的常州天宁区德安医院附近的空旷场地进行了专门的钻孔试验。确定了该地区的细砂质粉土和粉质黏土的渗透系数和贮水率分别为:K=1.66×10?6 m/s,?s =8.21×10?3 m?1;K=6.06×10?7 m/s,?s =2.26×10?3 m?1。结果表明,该方法对于现场确定弱透水层的水力参数有较好的适用性。 相似文献
14.
河北平原京津以南深层地下水资源形成规律的研究 总被引:1,自引:0,他引:1
本文应用同位素技术,结合含水岩组水文地质结构特征的分析及地下水动力方法的年龄计算,揭示了河北平原京津以南地区深层地下水的形成规律,得出深 地下水资源补给能力及承受开采能力很低的结论,这为今后深 地下不资源的合理开发利用提供了重要依据。 相似文献
15.
地热水属于承压水,其储存量包括容积储存量和弹性储存量两部分,当水位处于含水层顶板以上时,已开采出的地热水只能是弹性储存量。在河北平原区进行区域地热资源评价时,地热水可开采量按照开采系数法、解析法等不同方法计算,与弹性储存量存在巨大差距。为研究地热水开采资源的构成并更加准确评价集中开采区地热水的可开采量,采用地下水均衡法对辛集集中开采区地热水开采资源量进行了计算,结果显示: 侧向补给量为126×104 m3,占开采资源量的60.9%; 越流补给量为19.7×104 m3,占开采资源量的9.55%; 弹性释水量为33.1×104 m3,占开采资源量的16.1%; 弱透水层压密释水量为27.4×104 m3,占开采资源量的13.3%。研究结果说明,集中开采区地热水的开采资源量不仅仅来自于热储层的弹性释水量,还包括侧向补给量、越流补给量和弱透水层的压密释水量。研究成果对于科学合理地开发地热资源、更好地遏制和缓解地热水开采引发的地质环境问题具有一定意义。 相似文献
16.
对北京潮白河冲洪积扇分布区30年来降水量、地表径流量、地下水水位和地下水储存量进行了时间序列分析。结果表明: 过去30年中,区域地下水动态发生了明显变化,特点是1998年以来,地下水位和地下水储存量迅速下降与减少。1998年以来,年降水量为以往多年平均值的76%左右。在储存量变化的影响因素中,降水量减少导致的补给量减少约占24%,人类活动,如工农业地下水开采、应急水源地地下水开采和地表水体入渗减少等因素约占76%。由于未来气候变化的不确定性,在南水北调的水进京后仍可能出现连续枯水年,因此,以丰水年降水进行水源涵养存在较大风险。对于已经处于严重超采状况的潮白河冲洪积扇来说,为了满足未来供水的需要,应急水源地从现在起应减少开采量或停采以逐步恢复地下水储存量。 相似文献
17.
Krainer Karl Winkler Gerfried Pernreiter Sabine Wagner Thomas 《Hydrogeology Journal》2021,29(8):2837-2852
Garber Schlag (Q-GS) is one of the major springs of the Karwendel Mountains, Tyrol, Austria. This spring has a unique runoff pattern that is mainly controlled by the tectonic setting. The main aquifer is a moderately karstified and jointed limestone of the Wetterstein Formation that is underlain by nonkarstified limestone of the Reifling Formation, which acts as an aquitard. The aquifer and aquitard of the catchment of spring Q-GS form a large anticline that is bound by a major fault (aquitard) to the north. Discharge of this spring shows strong seasonal variations with three recharge origins, based on δ18O and electrical conductivity values. A clear seasonal trend is observed, caused by the continuously changing portions of water derived from snowmelt, rainfall and groundwater. At the onset of the snowmelt period in May, the discharge is composed mainly of groundwater. During the maximum snowmelt period, the water is dominantly composed of water derived from snowmelt and subordinately from rainfall. During July and August, water derived from snowmelt continuously decreases and water derived from rainfall increases. During September and October, the water released at the spring is mainly derived from groundwater and subordinately from rainfall. The distinct discharge plateau from August to December and the following recession until March is likely related to the large regional groundwater body in the fissured and moderately karstified aquifer of the Wetterstein Formation and the tectonic structures (anticline, major fault). Only a small portion of the water released at spring Q-GS is derived from permafrost.
相似文献18.
ZHUANG Chao Lü Chenyang YAN Long LI Yabing ZHOU Zhifang WANG Jinguo DOU Zhi Walter A. ILLMAN 《《地质学报》英文版》2024,98(2):477-490
In groundwater hydrology, aquitard heterogeneity is often less considered compared to aquifers, despite its significant impact on groundwater hydraulics and groundwater resources evaluation. A semi-analytical solution is derived for pumping-induced well hydraulics and groundwater budget with consideration of vertical heterogeneity in aquitard hydraulic conductivity (K) and specific storage (Ss). The proposed new solution is innovative in its partitioning of the aquitard into multiple homogeneous sub-layers to enable consideration of various forms of vertically heterogeneous K or Ss. Two scenarios of analytical investigations are explored: one is the presence of aquitard interlayers with distinct K or Ss values, a common field-scale occurrence; another is an exponentially depth-decaying aquitard Ss, a regional-scale phenomenon supported by statistical analysis. Analytical investigations reveal that a low-K interlayer can significantly increase aquifer drawdown and enhance aquifer/aquitard depletion; a high-Ss interlayer can noticeably reduce aquifer drawdown and increase aquitard depletion. Locations of low-K or high-Ss interlayers also significantly impact well hydraulics and groundwater budget. In the context of an exponentially depth-decaying aquitard Ss, a larger decay exponent can enhance aquifer drawdown. When using current models with a vertically homogeneous aquitard, half the sum of the geometric and harmonic means of exponentially depth-decaying aquitard Ss should be used to calculate aquitard depletion and unconfined aquifer leakage. 相似文献
19.
Garth van der Kamp 《Hydrogeology Journal》2001,9(1):5-16
Shallow clay-rich aquitards limit groundwater recharge to underlying aquifers, but they also protect the aquifers from contamination.
The bulk hydraulic conductivity of such shallow aquitards can range from less than 1 mm/year to more than 100 m/year and may
be much greater than the hydraulic conductivity of small intact samples of the aquitard material. This enhanced hydraulic
conductivity diminishes the qualities of the aquitards for the protection of underlying aquifers but allows a higher rate
of recharge. For aquifers that are overlain by aquitards, management and protection of groundwater resources may be critically
dependent on reliable determinations of aquitard permeability.
A variety of methods for determining bulk hydraulic conductivities of shallow clay aquitards is available; each has drawbacks
and advantages, and each is based on simplifying assumptions. These methods include slug tests, pumping tests, response of
the aquitard to mechanical loading, and analysis of natural pore-pressure fluctuations. Several of the commonly used methods
require an independent measurement of specific storage. Laboratory methods for determining specific storage are probably not
representative of in situ conditions and may lead to overestimation of aquitard permeability. Much of the theory developed
to date depends on the assumption that horizontal displacement of the solid material is negligible, and this may not be a
valid assumption for highly deformable media such as clay aquitards. However, with judicious selection of the most suitable
methods for a particular site, good test design, careful instrumentation, and respect for the underlying assumptions, reliable
determinations of aquitard permeability can be obtained.
Electronic Publication 相似文献
20.
为阐明强烈开采条件下华北平原深层水的开采水量来源及组成问题,以德州地区深层水漏斗分布区为重点研究区,通过基于大量钻孔资料对含水层组及其粘性土夹层或透镜体的分析和野外地下水采样、动态监测及地面沉降测量资料等分析,采用分层、分区计算方法对漏斗中心至外围的各分区弹性释水量、粘性土压密释水量、侧向流入和越流补给量进行均衡计算。结果表明:在强烈开采条件下,深层水开采量中弹性释水量和压密释水量所占比率不是常量,随着深层水位下降的幅度和深度增大、超采释压持续时间愈长、开采层中粘性土夹层或透镜体愈多,则区内弹性释水和压密释水的强度及累积地面沉降量愈大;愈靠近漏斗中心,弹性和压密释水强度愈大,相同降深下平均单位降深的地面沉降量愈小。在深层水开采量中粘性土压密释水占35.5%~61.9%,与地面沉降密切相关。 相似文献