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1.
开采条件下河北平原中部咸淡水界面下移 总被引:3,自引:0,他引:3
河北平原中部上层咸水入侵下层淡水已造成局部地下水污染,本文调查统计了地下水质监测资料和2700多眼深井孔的测井物探资料。以水化学方法和数理统计方法,从水文地质条件和地下水开采利用状况入手,对研究区咸淡水界面下移的机理进行了分析。结果认为,咸淡水界面从20世纪70年代以来年均下移约0.4m,开采地下水造成上下层水头压力变化,加大上部浅层水向下越流是其主要原因之一。 相似文献
2.
河北平原咸水下移及其与浅层咸水淡化的关系 总被引:1,自引:3,他引:1
本文以位于河北平原中部地区的衡水市为重点研究实例,通过多年水质资料的分析,提供了咸水下移和浅层咸水淡化的有力证据.研究表明,浅层咸水谈化的根本原因是深层地下水开采导致的咸水下移,从而揭示了深层淡水开采、咸水下移、浅层咸水淡化间的内在联系及咸水下移本身所包含的环境改善意义。 相似文献
3.
理想的沉积盆地地下水动力场模式可以归纳为对称型和不对称型两种,其中局部地下水动力单元可以划分为4种类型:①泥岩压榨水离心流;②大气水下渗向心流;③越流、越流-蒸发泄水;④滞留。地下水动力场演化具有旋回性,每个旋回可以分为两个阶段:①盆地沉降接受沉积时期的泥岩压榨水离心流阶段;②盆地抬升剥蚀阶段的大气水下渗向心流阶段。随着沉积盆地的形成与演化,水动力场也有形成、发展和消亡的过程。松辽盆地地下水动力场具有明显的不对称性:盆地北部和东部大气水不对称下渗形成向心流;中央坳陷区压榨水形成离心流和越流;盆地南部以越流-蒸发浓缩为特征。在纵向上地下水动力的强度具有分带性,由浅到深,可以划分出强、弱、停滞3个带。 相似文献
4.
沉积盆地地下水与油气成藏-保存关系 总被引:3,自引:0,他引:3
含油气沉积盆地地下水动力场可以划分为:①泥岩压实水离心流;②大气水下渗向心流;③(层间)越流、越流——蒸发泄水和④滞流四种局部水动力单元类型。通常盆地边缘大气水不对称下渗,发育向心流,中央凹陷区以泥岩为主的砂泥岩地层压实,发育离心流,大气水下渗向心流与地层压实离心流汇合,发育越流泄水。沉积盆地地下水动力场演化和地下水成因控制了地下水化学场的分布规律。在离心流和向心流流动过程中,地下水浓缩、盐化,在越流泄水区形成高浓缩、高盐化地下水。泥岩压实离心流是沉积盆地油气运移的主要动力之一,在地层压实排水离心流过程中,由于岩性、地层、断层等圈闭使得部分油气在运移过程中聚集;在地下水越流泄水过程中有利于油气大量聚集—富集;在向心流推进过程中,早期聚集的油气可能部分被破坏,此外也可能在特定的地质条件下形成水动力和部分岩性、地层、断层油气藏。 相似文献
5.
滨州市深层地下水开采量主要由弹性储存量、越流补给量、径流量、压密释水量组成,地下水滞留时间长,更替时间缓慢.通过40年来深层地下水水动力场、水化学场和开发利用状况分析,认为过量开采是深层地下水位持续下降和降落漏斗形成的主因,地下水降落漏斗的快速扩展是咸水入侵的根本原因.采用解析法计算两个约束条件下深层地下水的允许开采量2001.9 m3/a.为合理开发利用地下水和防止成水入侵,提出了限量开采、回灌补源等措施. 相似文献
6.
沉积盆地地下水动力场特征研究①——以松辽盆地为例 总被引:10,自引:0,他引:10
盆地地下水动力场的形成演化与油气运移、聚集关系密切。由多个水动力体系组成的松辽盆地地下水动力场的形成与演化在平面上具有明显的不对称性,总体上盆地北部为大气水下渗向心流区;中央坳陷区为离心流区和越流泄水区;盆地南部以地下水的越流—蒸发泄水浓缩为主要特征,盆地边缘和隆起剥蚀区的局部地区为大气水下渗区。且形成在地层压力、流动方向、流体势、垂直压力梯度等方面各具特征的局部水动力单元。同时,地下水动力场的形成与演化具有阶段性,其水动力强度在纵向上具有分带性,由浅到深,可以划分出强、弱、停滞3个带。 相似文献
7.
东营凹陷地下水动力场的形成与演化 总被引:10,自引:5,他引:10
沉积盆地地下水动力场的理想模式可以归纳为对称型和不对称型两种,其中局部地下水动力单元可以划分为泥岩压榨水离心流,大气水下渗向心流,越流、越流蒸发泄水和滞流4种类型。地下水动力场的演化具有旋回性,每个旋回可以分为两个阶段:盆地沉降沉积时期的泥岩压榨水离心流阶段和盆地抬升剥蚀时期的大气水下渗向心流阶段。随沉积盆地的形成与演化,水动力场也有形成、发展和消亡的过程。东营凹陷地下水动力场在平面上呈对称性:总体上大气水由凹陷边缘向凹陷中心渗入,凹陷内部各洼陷为压榨水形成的离心流区,凹陷边缘南部斜坡带和北部断阶带以及凹陷内部中央断裂带为越流泄水区。纵向上,局部水动力单元强度及演化规律与地层的埋藏深度有关。随着埋藏深度的增加,水动力单元强度逐渐减弱。 相似文献
8.
论松辽盆地地下水动力场演化与油气运移、聚集 总被引:15,自引:1,他引:15
松辽盆地地下水动力场具有明显的不对称性:盆地北部大气水下渗形成向心流;中央坳陷区发育泥岩压榨水形成的离心流和越流泄水;盆地南部以越流-蒸发泄水为特征,只有盆地边缘和隆起区的顶部有大气水下渗。泥岩压榨水形成的离心流是松辽盆地油气运移的主要动力。古水文地质的旋回性和离心流的阶段性,决定了油气的阶段性运移和在一个独立水动力体系内多个油环在内,气环在外,与沉积凹陷同心的阶梯式-环带状油气分布规律. 相似文献
9.
束鹿地区地下水咸化机理分析 总被引:1,自引:0,他引:1
地下水咸化是束鹿地区地下水环境的主要问题,本文从物质来源和水动力条件的变化分析了地下水咸化形成条件,指出淡水咸化主要是由于开采导致上部咸水下移的结果;并利用质量平衡模拟理论进一步分析了咸淡水混合过程中的水岩作用过程。 相似文献
10.
11.
深层地下水的属性、深浅层地下水的水力联系(越流)是水文地质工作者一直研究和争论的问题。在对邯郸、邢台东部四县深、浅层地下水的氢、氧同位素样品的采集与测试中,发现该区地下水中氚同位素含量较高(15~30 TU,最高达51.1 TU)。本文利用区域大气降水中氚同位素衰减规律与特征,结合研究区地下水的水位和水质动态特征、含水层及隔水层的岩性特征,对特定水文地质条件下浅层地下水向深层地下水越流的可能性进行了分析研究,认为:本区存在浅层地下水越流至深层地下水的可能,在深层地下水中出现的高氚含量是其重要的证据。 相似文献
12.
天津平原地面沉降条件下的深层地下水资源组成 总被引:7,自引:4,他引:7
根据天津平原地面沉降监测结果,采用水量均衡法,计算出深层地下水开采量中,浅层地下水越流补给量占38.2%,粘土性压密释水量占41.3%,弹性释水量占5.6%,侧向流入量占14.9%。在控制地面沉降的条件下,深层地下水持续利用的对策是调整开采三维布局,适度开发利用浅层地下水对深层地下水的越流补给。 相似文献
13.
Review: The potential impact of underground geological storage of carbon dioxide in deep saline aquifers on shallow groundwater resources 总被引:2,自引:0,他引:2
Jean-Michel Lemieux 《Hydrogeology Journal》2011,19(4):757-778
Underground geological storage of CO2 in deep saline aquifers is considered for reducing greenhouse gases emissions into the atmosphere. However, some issues were raised with regard to the potential hazards to shallow groundwater resources from CO2 leakage, brine displacement and pressure build-up. An overview is provided of the current scientific knowledge pertaining to the potential impact on shallow groundwater resources of geological storage of CO2 in deep saline aquifers, identifying knowledge gaps for which original research opportunities are proposed. Two main impacts are defined and discussed therein: the near-field impact due to the upward vertical migration of free-phase CO2 to surficial aquifers, and the far-field impact caused by large-scale displacement of formation waters by the injected CO2. For the near-field, it is found that numerical studies predict possible mobilization of trace elements but concentrations are rarely above the maximum limit for potable water. For the far-field, numerical studies predict only minor impacts except for some specific geological conditions such as high caprock permeability. Despite important knowledge gaps, the possible environmental impacts of geological storage of CO2 in deep saline aquifers on shallow groundwater resources appears to be low, but much more work is required to evaluate site specific impacts. 相似文献
14.
The deep wells drilled along the eastern escarpment of the Jordan Valley penetrate confined aquifers that produce thermal and mineralized artesian water. Uncontrolled flows from poorly constructed and uncapped artesian wells over the last 30 years have caused the deterioration of the quality of shallow groundwater and surface water. They also have been accelerating the discharge of saline water from deep aquifers and have caused the loss of shallow fresh groundwater resources through the downward percolation of fresh water to replace the extracted deep salty groundwater. A lack of adequate controls on the construction and maintenance of artesian wells is leading to widespread water quality problems in the region, which limits the ability of future generations to access high-quality water, a clear breach of the principle of intergenerational equity. 相似文献
15.
Field observation and numerical simulations were carried out to evaluate the hydraulic relationship between the shallow and deep aquifer of a High Plains Aquifer system, in which shallow and deep aquifers are separated by an aquitard. Pumping from the lower aquifer resulted in a small drawdown in the upper aquifer and a larger drawdown in the aquitard; pumping from the shallow aquifer caused a small drawdown in the aquitard and the deep aquifer. Analysis of pumping test data gives the values of the hydraulic conductivity of the aquitard and the deep aquifer. Long-term observation of groundwater levels in the shallow and deep aquifers showed that a strong downward hydraulic gradient was maintained during an irrigation season. Numerical simulations were used to calculate the induced leakage of water from the shallow to the deep aquifer. Water budget analyses suggested that after pumping continues for a couple of days, the leakage from the overlying layers begins to supply the majority of the withdrawal from the deep aquifer. However, the induced leakage from the upper shallow aquifer can travel only a few meters into the aquitard, and it can not reach the lower aquifer during a 90 day pumping period. The major portion of the induced leakage occurred during the pumping period, but a small leakage can continue as a residual effect after the pumping period. The vertical hydraulic conductivity of the aquitard plays a major role in partitioning the ratio of the induced leakage for the pumping and after-pumping periods. 相似文献
16.
泉按照出露原因通常可以分为侵蚀泉、接触泉、溢流泉(溢出泉)和断层泉等。根据泉眼和地下水循环深度(或径流位置)的相对关系,泉可以分为表层泉、浅循环泉和深循环泉。地下水在地下流动(循环)的最深处仍然高于泉口,这类泉称为浅循环泉。浅循环泉出露的位置并不在地形最低处,其补给来源主要是大气降水入渗,地下水受到重力作用自高处往低处流动,在地下径流的途径短、时间短,流量一般不大。浅循环泉通常是常温泉、淡水泉(也有咸泉和盐泉),多是常年性泉,也有部分是季节性泉或暂时性泉。广西北竂岭北坡泉和云南顺荡井盐泉是典型的浅循环泉。 相似文献
17.
Evaluation of hydrogeochemical processes in the Pleistocene aquifers of Middle Ganga Plain, Uttar Pradesh, India 总被引:4,自引:4,他引:0
Janardhana Raju Nandimandalam 《Environmental Earth Sciences》2012,65(4):1291-1308
Evaluation of major ion chemistry and solute acquisition process controlling water chemical composition were studied by collecting
a total of fifty-one groundwater samples in shallow (<25 m) and deep aquifer (>25 m) in the Varanasi area. Hydrochemical facies,
Mg-HCO3 dominated in the largest part of shallow groundwater followed by Na-HCO3 and Ca-HCO3 whereas Ca-HCO3 is dominated in deep groundwater followed by Mg-HCO3 and Na-HCO3. High As concentration (>50 μg/l) is found in some of the villages situated in northeastern parts (i.e. adjacent to the concave
part of the meandering Ganga river) of the Varanasi area. Arsenic contamination is confined mostly in tube wells (hand pump)
within the Holocene newer alluvium deposits, whereas older alluvial aquifers are having arsenic free groundwater. Geochemical
modeling using WATEQ4F enabled prediction of saturation state of minerals and indicated dissolution and precipitation reactions
occurring in groundwater. Majority of shallow and deep groundwater samples of the study area are oversaturated with carbonate
bearing minerals and under-saturated with respect to sulfur and amorphous silica bearing minerals. Sluggish hydraulic conductivity
in shallow aquifer results in higher mineralization of groundwater than in deep aquifer. But the major processes in deep aquifer
are leakage of shallow aquifer followed by dominant ion-exchange and weathering of silicate minerals. 相似文献
18.
Physico-chemical characterization of saline subsurface system near small endorheic ponds in Thailand
Uma Seeboonruang 《Environmental Earth Sciences》2014,71(7):3273-3286
The problem of salt-ravaged lands is reported in many parts of the world and could be exacerbated by the presence of an endorheic pond normally associated with a saline low-lying area. An endorheic or playa pond accumulates dissolved salts which can be carried primarily by groundwater before discharging into the pond; then, intense evaporation produces salt residues which can wreak havoc on the adjacent areas. The objective of this study is to investigate the subsurface conditions and groundwater interactions beneath two endorheic saline ponds of Thailand’s Great Mekong Basin to have a better understanding and thereby efficiently manage the resources. A comprehensive analysis of the physical and geochemical properties (limited to pH, specific conductance and salinity) of the subsurface system was performed to determine the processes that regulated the migration of dissolved salt. The data collected from the deep and shallow groundwater of the basin were analyzed to determine their physical and chemical properties. Soil samples of various depths were examined to determine their respective geologic, chemical and unsaturated properties. The groundwater near the salt ponds was different from that of other areas in that its groundwater table was closer to the surface soil and its deep groundwater, which is of high pressure, was more saline than its shallow groundwater. As the capillary rise influences the topsoil, particularly in the saline pond areas, the vertical upward flow and the capillary force are thus the additional mechanisms of salt transportation to the endorheic ponds. Since these surface water bodies are the discharge sites for saline groundwater and are not perennial, a practical solution is to localize the saline groundwater. 相似文献
19.
本文以高渗透压渗流试验装置模拟已被污染的浅层地下水越流通过弱透水层污染深层地下水的过程,研究了有机污染物(菲)通过饱和粘性土弱透水层时的自然衰减特征,以及非生物因子-配位体对于弱透水层中菲迁移转化的影响作用。研究表明,菲的衰减曲线明显分为三阶段:初期吸附截留显著期,中期微生物降解旺盛期,后期微生物降解稳定期;溶液中共存离子HCO 3-、Ca2+与菲形成络合物,SO42-参与菲的生物降解;溶液中主要配位体不同时,菲与阴、阳离子之间相互作用的方式也不同,以络合作用为主。渗透水中菲含量有99%以上被衰减,仅有极少量菲穿透弱透水层。 相似文献