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1.
Yong-Xia Wu Hai-Min Lyu Jack Shuilong Shen Arul Arulrajah 《Environmental Earth Sciences》2018,77(10):392
This paper discusses the geological and hydrogeological features of Quaternary deposits in Tianjin as well as the geohazards related to groundwater hydrology in this region. The soft soil deposits, comprising silt, sand, silty clay and clay, are composed of four aquifer groups. In the first aquifer group, one phreatic aquifer and two confined aquifers have relationships with underground construction in the urban area. These three aquifers are separated by two aquitards and collectively form a multi-aquifer system. During geotechnical construction, potential geohazards present are related to the groundwater, which include water-in-rushing, quicksand and piping hazards. To prevent the aforementioned geohazards, dewatering is conducted; however, groundwater pumping may result in large settlements of the surrounding ground. To reduce pumping-induced settlement, the dewatering–waterproofing system has been adopted. According to the characteristics of the subsoil, excavation depth and the surrounding environment, the dewatering system can be divided into five patterns. In the first four patterns, when pumping is conducted in the excavation pit, the groundwater head in the adjacent aquifers outside the pit decreases due to the leakage effect of the aquitards located between the aquifers. In the fifth pattern, waterproof curtain has cut off the aquifers completely and dewatering in the pit cannot result in settlement around excavation pit. To avoid geohazards related to groundwater hydrology, countermeasures recommended include construction of an effective waterproof curtain, selection of a reasonable excavation dewatering pattern and withdrawal of required groundwater. 相似文献
2.
Luo Chun-Yong Shen Shui-Long Han Jie Ye Guan-Lin Horpibulsuk Suksun 《Natural Hazards》2015,78(1):753-774
Natural Hazards - The Quaternary deposit in the Shanghai region is composed of a layered multi-aquifer-aquitard system (MAAS). The MAAS was formed mainly during the warm geological era over 2.6... 相似文献
3.
Modelling the cutoff behavior of underground structure in multi-aquifer-aquitard groundwater system 总被引:8,自引:4,他引:4
Ye-Shuang Xu Shui-Long Shen Yan-Jun Du Jin-Chun Chai Suksun Horpibulsuk 《Natural Hazards》2013,66(2):731-748
The quaternary deposit of Shanghai is composed of an alternated multi-aquifer-aquitard system (MAAS) consisting of a sequence of aquitards laid over aquifers one by one. In the MAAS, any drawdown of groundwater head in an aquifer may cause consolidation of the overburden aquitard. When underground structures penetrate those aquifers, groundwater seepage path changes and drawdown occurs at the side characterized by the lower hydraulic potential along the flow direction (hereafter refers as to the lower side). This drawdown may cause additional subsidence at the lower side and unbalanced load between the two sides of the underground structure. In order to evaluate the cutoff effect of an underground structure on groundwater seepage in a MAAS representative of the underground of the city of Shanghai, a numerical analysis based on a groundwater flow model has been carried out. The simulated results have shown that underground structures which cut off groundwater flow locally change both magnitude and direction of the flow velocity field. The induced changes in the groundwater field are highly sensitive to the penetration depth and width of the underground structure. Design recommendations for underground structures in aquifers belonging to a MAAS are also presented, which has not yet been considered in the engineering practice of Shanghai. 相似文献
4.
An integrated approach using hydrogeochemical analysis, remote sensing, GIS, and field data was employed to characterize the groundwater resources in southern Wadi Qena, Egypt. Various thematic maps showing topography, lineaments, wadi deposits, slope, and stream networks were combined through GIS analysis to discriminate groundwater potential zones on the valley floor. The resulting map classifies the area into five groups of groundwater potentiality from very high to very low zones, supported by the groundwater level, well locations, and by the results of previous geophysical studies. Thirty-seven groundwater well data were tested from the Quaternary and Nubian Sandstone aquifers and analyzed for physio-chemical parameters. Results of hydrochemical analysis show that water quality varies widely through the aquifers, and groundwater in the Quaternary aquifer shows the highest salinity values and a predominance of Na and Cl in water chemical facies. Overlay GIS maps of alkalinity (SAR and RSC) and salinity hazards (EC and Cl) of the Quaternary aquifer were prepared. The resulting maps show that samples do not present an alkalinity hazard in most areas but are potentially salinity hazard. Therefore, the water is fit for agricultural use with certain restrictions, but is not suitable for direct human consumption because it is either very hard or too saline. 相似文献
5.
为了解沉积变质型铁矿床开采后矿区地下水化学特征的变化趋势,在充分掌握矿区含水系统划分和流动系统发育规律的基础上,通过对四含上、四含下、基岩含水层148个水样常规离子的相关性、水化学类型及公因子的分析,得出水化学类型分区和公因子得分等值线,将二者叠加,分析各含水层潜在的形成作用及其控制因素.研究结果表明,四含上以碳酸盐溶滤、污染、氧化作用为主;四含下以污染、溶滤、局部脱硫酸作用为主;基岩含水层以离子交换吸附、第四系水的混合、硅酸盐矿物的不全等溶解作用为主.除了背景因素外,矿山开采后的三维流场控制了基岩含水层的形成作用和原生水化学类型,影响了第四系含水层的局部形成作用,水化学类型分区界线明显移动. 相似文献
6.
位于松花江两岸的依兰煤田是重点能源基地,矿床充水有关的主要含水层为第四系孔隙含水层和煤系风化裂隙含水层,通过对现有矿区含水层及地下水的补给、排泄资料,以及开采矿井的充水特征、充水因素的研究,提出了下一步应做的水文地质工作。 相似文献
7.
Usama Abu Risha Sayed Mosaad El Sayed El Abd Abdel Mohsen Hasanein 《Arabian Journal of Geosciences》2017,10(21):461
The groundwater extracted from the unconfined Quaternary aquifer is the main source of water supply in El-Tur area. The area is bounded from the east by the elevated basement complex of Southern Sinai and from the west by El-Qabaliyat Ridge. The wadis dissecting these highlands form effective watersheds of the Quaternary aquifer. These wadis form areas of focused recharge. Recharge also occurs directly via the Quaternary sediments covering El-Qaa Plain. Subsurface lateral groundwater flow from the fractured basement contributes significant recharge to the aquifer as well. The aquifer sediment facies affect the type and quality of groundwater. In the eastern part where the aquifer is composed mainly of gravel and coarse sand with fragments of weathered basement, the Na-Cl-SO4 water dominates. In the west where the facies change is rapid and complex, many water types arise. The base exchange index (BEX) is positive in this part reflecting the role of clay minerals in changing the water types via cation exchange. In the east where clays are insignificant in the aquifer, the BEX is negative. In the western part next to El-Qabaliyat Ridge, the wells discharging from the calcareous sand zone have low groundwater salinities compared to the wells discharging from the alluvium. In general, the groundwater salinity increases in the direction of groundwater flow from the northeast to the southwest which reflects the dissolution of aquifer sediments. The concentration relationships between the major ions on one hand and chloride on the other reflect the dissolution of calcium carbonates, precipitation of K- and Mg-bearing minerals, and cation exchange of Ca for Na on clay minerals. The hydrochemical models support these reactions. In addition, they show that the effect of evaporation on the recharge water in the western catchment is about four times its effect on the eastern recharge water which reflects the rapid recharge through the wadis draining the fractured basement. Moreover, the contribution from the eastern catchment in sample No. 23 is more than four-folds the contribution from the western recharge area. The stable isotopes (2H and 18O) show that the Quaternary aquifer is recharging from recent rainfall. However, upward leakage of Paleogene groundwater (depleted in 18O) also occurs. The groundwater level map shows strong overpumping impact especially in the areas close to El-Tur city. 相似文献
8.
Groundwater is the most important source of water supply in the Yeniceoba Plain in Central Anatolia,Turkey.An understanding of the geochemical evolution of groundwater is important for the sustainable development of water resources in this region.A hydrogeochemical investigation was conducted in the Plio-Quaternary aquifer system using stable isotopes(δ~(18)O andδD),tritium(~3H),major and minor elements(Ca,Na,K,Mg,Cl,SO_4,NO_3,HCO_3 and Br)in order to identify groundwater chemistry patterns and the processes affecting groundwater mineralization in this system.The chemical data reveal that the chemical composition of groundwater in this aquifer system is mainly controlled by rock/water interactions including dissolution of evaporitic minerals,weathering of silicates,precipitation/dissolution of carbonates,ion exchange,and evaporation.Based on the values of Cl/Br ratio(300 mg/l)in the Plio-Quaternary groundwater,dissolution of evaporitic minerals in aquifer contributes significantly to the high mineralization.The stable isotope analyses indicate that the groundwater in the system was influenced by evaporation of rainfall during infiltration.Low tritium values(generally1 tritium units)of groundwater reflect a minor contribution of recent recharge and groundwater residence times of more than three or four decades. 相似文献
9.
Vulnerability mapping of shallow groundwater aquifer using SINTACS model in the Jordan Valley area, Jordan 总被引:1,自引:0,他引:1
Jordan Valley is one of the important areas in Jordan that involves dense agricultural activities, which depend on groundwater resources. The groundwater is exploited from an unconfined shallow aquifer which is mainly composed of alluvial deposits. In the vicinity of the Kafrein and South Shunah, the shallow aquifer shows signs of contamination from a wide variety of non-point sources. In this study, a vulnerability map was created as a tool to determine areas where groundwater is most vulnerable to contamination. One of the most widely used groundwater vulnerability mapping methods is SINTACS, which is a point count system model for the assessment of groundwater pollution hazards. SINTACS model is an adaptation for Mediterranean conditions of the well-known DRASTIC model. The model takes into account several environmental factors: these include topography, hydrology, geology, hydrogeology, and pedology. Spatial knowledge of all these factors and their mutual relationships is needed in order to properly model aquifer vulnerability using this model. Geographic information system was used to express each of SINTACS parameters as a spatial thematic layer with a specific weight and score. The final SINTACS thematic layer (intrinsic vulnerability index) was produced by taking the summation of each score parameter multiplied by its specific weight. The resultant SINTACS vulnerability map of the study area indicates that the highest potential sites for contamination are along the area between Er Ramah and Kafrein area. To the north of the study area there is a small, circular area which shows fairly high potential. Elsewhere, very low to low SINTACS index values are observed, indicating areas of low vulnerability potential. 相似文献
10.
Leaking behavior of shield tunnels under the Huangpu River of Shanghai with induced hazards 总被引:3,自引:2,他引:1
Huai-Na Wu Run-Qiu Huang Wen-Juan Sun Shui-Long Shen Ye-Shuang Xu Yan-Bin Liu Shou-Ji Du 《Natural Hazards》2014,70(2):1115-1132
The Quaternary deposits in Shanghai primarily consists of a phreatic aquifer group (Aq0) and five artesian aquifers (AqI–AqV) that are separated by six aquitards (AdI–AdVI). In the basin of the Huangpu River, the first artesian aquifer (AqI) is connected to the second artesian aquifer (AqII), forming a 50-m-thick artesian aquifer with a very high groundwater level. The highway tunnels under the Huangpu River of Shanghai are constructed at a maximum depth up to 45 m, within the artesian aquifer. These tunnels are lined with precast reinforced concrete segments without a second lining. Under high water pressure, it is difficult for the single shell linings to achieve water tightness. Different degrees of groundwater leakage have been observed in road tunnels under the Huangpu River. The tunnels constructed before the 1990s have had very serious groundwater leakage (e.g., >1 L/m2/day), and the recently constructed tunnels have leaked less than 0.1 L/m2/day. The factors influencing groundwater leakage include depth below groundwater level, differential settlement of the tunnel, and applied waterproof technologies. The increase in depth leads to a significant increase in groundwater leakage. The differential settlement causes gaps to open and offset between segments, as well as cracking of segments, which can also induce groundwater leakage. According to the analysis of recorded data, the number of leaking points tends to increase with the curvature of the settlement curve. In addition, inappropriate waterproofing materials and poor waterproofing design will also lead to groundwater leakage. Groundwater leakage causes deterioration of the structure, aging of the installations in the tunnels (e.g., facilities and pavements), as well as discomfort for users of the tunnels and adverse environmental impacts. Furthermore, groundwater leakage also causes structural deformation of the tunnel itself, leading to further leakage and hazards. 相似文献
11.
2013年7月22日在甘肃省定西市岷县、漳县交界处发生了MS6.6级地震。此次地震造成了大量房屋、基础设施破坏以及人员伤亡,并诱发了一系列的滑坡、崩塌、不稳定斜坡等地质灾害隐患。通过现场调查和分析,对此次地震地质灾害隐患类型、分布与主要特点进行概括。利用边坡地质灾害数量和面积发育率两个统计指标,对受灾最为严重的岷县灾区的地震地质灾害分布与地形、地质、地震因子变量间关系进行分析,结果表明:(1)地震地质灾害隐患在高程为2200~2800m范围内集中分布,在0~15缓坡内分布最多,坡向为S、SW和W的斜坡在地震作用下易诱发地质灾害,坡位为中坡的边坡内分布地质灾害数量最多; (2)软弱岩层在地震作用下易发生地质灾害,区内泥盆系和二叠系板岩、灰岩岩组内分布近50%的地质灾害,面积发育率最大的则为新近系中厚层软弱泥岩、砂岩岩组。地质灾害主要沿发震断裂通过或距离较近的地方成片集中分布,地质灾害主要分布在距离发震断裂20km以内的范围内; (3)震中距和PGA与地质灾害数量对应关系不明显,但是面积发育率整体趋势是随着震中距增加而减小,随着PGA增大而增加; 地质灾害易发程度随烈度增大而增强; (4)越靠近公路和河流,地质灾害越易发生,集中分布区间分别为距公路0~800m和距河流0~600m。 相似文献
12.
冀东铁矿田赋存在太古界单塔子群白庙子组中,资源量(332+333)为25亿 t,平均品位〉30%,是我国重要的铁矿基地。矿区位于滦河冲洪积扇中上部,矿体上覆第四系砂砾卵石含水层富水性强,水量丰富,属于大水矿床,矿床疏干排水困难,疏干排水将破坏地下水环境。本文在分析矿区水文地质条件的基础上,提出了具有密切水力联系的多层含水层系统的水文地质概念模型,并建立了刻画多层含水层系统的数值仿真模拟模型,基于预留隔水顶板井下充填法采矿,预测矿山开采地下水流场演变,评价了矿山开采对区域地下水环境的影响,提出了环境保护措施,对今后矿山开发过程中的地下水环境影响评价方法、地下水资源开发利用及环保管理决策具有重要意义。 相似文献
13.
Assessment of the Capoterra coastal plain (southern Sardinia, Italy) by means of hydrogeological and geophysical studies 总被引:1,自引:0,他引:1
Hydrogeological and geophysical surveys confirm that the aquifers of the Capoterra plain in Sardinia (Italy) constitute a complex, multilayer system. In the north-east of the plain, this system is composed of a shallow aquifer of recent alluvium and a deeper aquifer separated from the former by a clay layer; in the south-west there is no separation between the two aquifers. The deepest and most important member of the multilayer aquifer system is situated at the transition from Quaternary to Miocene sediments. With respect to deep structures and stratigraphy, several differentiations inside the Miocene sedimentary filling, whose overall thickness is in the order of 300 m, have been found. The combined interpretation of several datasets allows the Capoterra plain to be reliably modelled from surface to a depth of several hundreds of metres and provides the possibility of finding deeper groundwater resources. Concerning the latter, since Miocene materials are known to be impermeable in the middle of the plain, in contrast to the aquifers hosted in the Quaternary sediments and alluvium, the probability of finding fresh water at a depth of less than 350–400 m is very low. The condition of seawater intrusion affecting the aquifers is also elucidated. 相似文献
14.
Stable chlorine isotopic signatures and fractionation mechanism of groundwater in Anyang,China 
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下载免费PDF全文 Xiao-xia Tong Rong Gan Shu-qian Gu Xing-le Sun Kai-tuo Huang Xiao-feng Yan 《地下水科学与工程》2022,10(4):393-404
The present work provides an online Bench II-IRMS technique for the measurement of stable chlorine isotope ratio, which is used to measure the δ37Cl of 38 groundwater samples from the Karst and Quaternary aquifers in Anyang area. The regional distribution and signature of δ37Cl value are characterized on the base of isotopic data. The results suggest that the δ37Cl value of Quaternary groundwater decreases with increasing Cl? concentration, and has no correlation with δ18O and δD values, but closely correlates with the depth to water table. The fractionation mechanism of the chlorine isotope is expounded according to the type of groundwater. The δ37Cl value of karst water is generally positive, which is relevant to the dissolution of evaporite (gypsum mine), and may be caused by the mixing of groundwater and precipitation. The groundwater of Quaternary unconfined aquifer is mainly recharged by precipitation, and the δ37Cl value of groundwater is generally negative. The δ37Cl value of groundwater in Quaternary confined aquifer is more negative with increasing the depth to water level and elevated Cl? concentration, which is possible to result from the isotope fractionation of ion filtration. The groundwater with inorganic pollutants in Quaternary unconfined aquifer has generally a positive δ37Cl value. 相似文献
15.
辽河三角洲处于陆地和海洋的结合部,蕴含丰富的资源,具有十分重要的战略地位。项目通过三年的时间,查明了辽河三角洲地区主要含水层结构:第四系含水层系统(Q)、明化镇组含水层系统(Nm)、馆陶组含水层系统(Ng)。通过设立动态监测网,建立、完善地下水动态监测体系,实现地下水位和水质的实时监测;地下水水位动态:第四系松散岩类孔隙水较为稳定,水位动态变化不大;上新近系明化镇组和馆陶组地下水,受人类活动影响较大,由于多年连续大量开采,地下水位逐年下降,已形成了2个区域性地下水降落漏斗。地下水水质动态:第四系上更新统(Q3)浅层水Cl-、SO42-、Na+及矿化度持续升高,高矿化度水分布面积扩大,水化学类型复杂化,氯化物型和钠型水分布面积增大,向周边扩散;明化镇组和馆陶组地下水,水质优良,变化不大。针对地下水超采,注重水资源合理配置,适当减少新近系地下水资源的开采,充分利用地表水资源的对策。 相似文献
16.
The effect of homogeneous sand lenses on the groundwater flow in an otherwise homogeneous clayey deposit is examined by performing Monte Carlo simulations using a finite element flow model. In the simulations, the locations of the sand lenses are assumed to be mutually independent. The paper examines the effect on the flow field in a clayey deposit of (a) different percentages of sand lenses, (b) different hydraulic conductivities of the sand lenses, (c) different average sand lens sizes, (d) non-uniformity of the sizes of the sand lenses, and (e) localization of the sand lenses. The effect of these non-uniform flow fields on contaminant migration is then examined using a finite element contaminant transport model. For the range of cases considered it is shown that: the volume of sand lenses present has a greater influence than the shape, size, location and hydraulic conductivity of the sand lenses; simplified calculations performed using the geometric and harmonic means of hydraulic conductivity bracket the behaviour evident from more complex analyses; and the maximum impact on an aquifer separated from a waste disposal facility by a deposit containing sand lenses can be modelled to sufficient accuracy, using quite simple flow and contaminant transport models. 相似文献
17.
内蒙古阿拉善西部的水文地质研究程度很低,关于地下水的来源和流向仍然存在各种不同的认识,需要在沙漠腹地补充钻探资料加以验证。本研究在前人调查成果的基础上,选择巴丹吉林沙漠及其周边的4个控制点进行了水文地质钻探,获得关键性的含水层分布和地下水位数据,对地下水流向问题提出了新的认识。分析结果表明,阿拉善西部广泛发育厚度50 m以上的第四系孔隙含水层,与新近系和白垩系砂岩含水层一起构成主要的地下水渗透介质,使区域地下水流具有连续性。地下水总体自东向西、自南向北流动,水力梯度介于0.8‰与7.9‰之间。在区域尺度上,断裂带对浅层地下水的作用并不显著。 相似文献
18.
天津市宁河北奥陶系灰岩水源地的水文地球化学模拟 总被引:8,自引:3,他引:5
天津市宁河北水源地属埋藏型地下水源地,其开采层奥陶系灰岩含水层呈北东向的向斜展布,隐伏于石炭系-二叠系砂页岩之下,并被新近系覆盖,仅在东北部与第四系含水层有水力联系,地下水的补给主要来自浅层第四系含水层的越流补给。应用水文地球化学模拟方法,研究从第四系含水层到奥陶系含水层地下水经历的水-岩作用,包括方解石、白云石、萤石和硬石膏的溶解或沉淀、二氧化碳气体的溶解或逸出等,地下水硬度、矿化度总体上有下降趋势,这是由于含Ca2+、Mg2+和HCO-3的矿物相发生溶解,迁入溶液的比率要小于发生沉淀迁出溶液的比率,具体表现在从第四系含水层到奥陶系含水层Ca2+、和HCO-3浓度的降低幅度较大。通过模拟计算,可以定量确定从补给区到研究区沿水流路径上的水-岩相互作用及质量交换,有助于揭示该区地下水化学环境的演化机制。 相似文献
19.
天津滨海地区晚新生代地层自然固结与地面沉降研究 总被引:1,自引:0,他引:1
天津滨海地区地处渤海湾西岸,晚新生代沉积了巨厚的松散沉积物。地下水位下降、地层自然固结、地表载荷的加速增长等复合因素造成了严重的地面沉降。利用在天津滨海新区塘沽地区施工的一眼1 226 m全取芯钻孔,通过原状样品测试分析,系统研究了晚新生代土层的物理力学性质、黏性土固结特征,并结合欠固结黏性土层沉降量计算等方法阐述了土层固结状态空间特征,探讨了土层固结特征与地面沉降的相关关系。结果表明:该地区0~100 m深度土层具有低天然密度、高孔隙比、高含水率、高压缩性等特点,表现出软土的性质,在地表荷载增大的情况下,易发生地面沉降;100~550 m的黏性土大都处于超固结和微超固结状态,主要是由于过去地下水的大量开采造成的;550 m以下的黏性土多为正常固结,局部存在欠固结黏性土夹层。钻孔中存在合计约218 m的欠固结黏性土夹层,这些欠固结黏性土夹层在自重应力下的最终沉降量为1 985 mm,沉降量最大的土层对应于第1、6含水组,分别达614 mm和665 mm,这一沉降过程完成所需时间为数十年甚至上百年。 相似文献
20.
天然成因的高氟地下水是世界范围内备受关注的环境问题和饮用水安全问题。前人对高氟地下水的形成过程已开展了大量研究,但是对于高原盆地复杂水文地质条件下不同类型含水层组(第四系松散层含水层、基岩裂隙或岩溶含水层以及新生代古近纪以来的碎屑岩含水层)高氟地下水的分布和形成过程尚不明确。本文以化隆—循化盆地为研究区,通过采集、测试研究区内的各类地下水样品,分析研究区内不同类型含水层中地下水的化学特征及同位素特征。结果表明,高氟地下水(1.007.73 mg/L)主要分布在沿黄河的河谷区域和巴燕低山丘陵区域的泉水和潜水中以及深部的承压水中,在垂向上高氟地下水无明显分布规律。接受黄河水入渗补给的河谷潜水中氟离子浓度较低,补给黄河的河谷潜水中氟离子浓度较高。贫钙富钠的弱碱性苏打型水有利于地下水中氟的富集。泉水和潜水中氟主要来源于萤石的溶解,而承压水中氟除了来源于萤石外,还来源于其他含氟矿物。对于潜水和第四系松散层泉水,蒸发浓缩作用促进了地下水中氟的富集。另外,阴离子竞争吸附作用、阳离子交换吸附作用是泉水(第四系松散层泉水和基岩裂隙泉水)和潜水中氟元素富集的主要原因,而承压水中氟离子浓度受竞争吸附作用影响较大,阳离子交换吸附作用影响较小。研究成果可为化隆—循化盆地低氟地下水的勘查和开发提供科学依据。 相似文献