Groundwater resources management under environmental constraints in Shiroishi of Saga plain, Japan     

Nguyen Cao Don  Nguyen Thi Minh Hang  Hiroyuki Araki  Hiroyuki Yamanishi  Kenichi Koga 《Environmental Geology》2006,49(4):601-609

A sinking of the land surface due to the pumping of groundwater has long been recognized as an environmental issue in the Shiroishi plain of Saga, Japan. Land subsidence can have several negative economic and social implications such as changes in groundwater and surface water flow patterns, restrictions on pumping in land subsidence prone areas, localized flooding, failure of well casings as well as shearing of structures. To minimize such an environmental effect, groundwater management should be considered in this area. In this study, a new integrated numerical model that integrates a three-dimensional numerical groundwater flow model coupled with a one-dimensional soil consolidation model and a groundwater optimization model was developed to simulate groundwater movement, to predict ground settlement and to search for optimal safe yield of groundwater without violating physical, environmental and socio-economic constraints. It is found that groundwater levels in the aquifers greatly vary from season to season in response to the varying climatic and pumping conditions. Consequently, land subsidence has occurred rapidly throughout the area with the Shiroishi plain being the most prone. The predicted optimal safe yield of the pumping amount is about 5 million m³. The study also suggests that pumping with this optimal amount will minimize the rate of land subsidence over the entire area. An erratum to this article can be found at  相似文献   

The effect of stratigraphic heterogeneity on areal distribution of land subsidence at Taiyuan, northern China   总被引：1，自引：0，他引：1  

Rui Ma  Yanxin Wang  Teng Ma  Ziyong Sun  Shilong Yan 《Environmental Geology》2006,50(4):551-568

Taiyuan city has experienced serious land subsidence since the 1950s, with the maximum accumulated subsidence of 2,960 mm and a total affected area of 585 km² by 2003. Tectonic settlement was found to contribute about 1% and the major cause is over-exploitation of groundwater. The spatial–temporal relationship between the areal distribution of land subsidence and that of groundwater drawdown from 1956 to 2000 indicates that although land subsidence centers overall match groundwater depression cones, there are local deviations, and that although the time series curves are similar, land subsidence always lags behind groundwater level decline, with different lag time at different sites. The major findings of this work on the control of stratigraphic heterogeneity on the spatial pattern of land subsidence at Taiyuan include: (1) land subsidence centers shift from the corresponding groundwater depression cones to the sides with thicker accumulated clay layers; (2) under the same pumping rate, land subsidence at places with more clay interlayers and thinner individual interlayers is greater and the lag time shorter; and (3) land subsidence is closely related to the physical properties of clay soils. The Interbed Storage Package-1, a modular subroutine of MODFLOW was employed to simulate the areal distribution of individual layer compression. The modeling results show that compression of different clay layers has different contribution to land subsidence. Pumping groundwater from water-bearing zones close to the most compressible clay layers should therefore be carefully controlled.  相似文献   

开采浅层地下水对高速铁路工程的影响分析     

孟庆文  闫澍旺 《水文地质工程地质》2006,33(4):37-39

本文根据浅层地下水的性质，阐述了抽水引起的地面沉降机理和计算方法，结合实例计算了由于抽取浅层地下水引起的小范围地面沉降和影响范围，分析了这种小范围地面沉降对客运专线路基、桥梁、轨道工程的影响。  相似文献   

基坑抽水引起周围地面沉降机理及防治措施     

仵彦卿  张建山  李哲 《岩土力学》2005,26(10):1582-1586

抽水引起周围地面沉降和构筑物地基沉降已成为工程建设中的一个环境灾害问题。根据抽水引起周围地面沉降的机理分析,提出了由抽水引起地下水水头压力变化、含水层颗粒迁移、含水层压缩和水体的膨胀的更具普遍意义的地下水运动方程,该方程可以简化成Biot和Helm的地下水运动方程。在此基础上,通过实例分析和方案对比,提出了抽水引起周围地面沉降的防治措施,并分析了各种措施的适用范围及优缺点。  相似文献   

The development and control of the land subsidence in the Yangtze Delta,China   总被引：3，自引：0，他引：3  

Jichun Wu  Xiaoqing Shi  Yuqun Xue  Yun Zhang  Zixin Wei  Jun Yu 《Environmental Geology》2008,55(8):1725-1735

Land subsidence in China occurs predominantly in 17 provinces (cities) situated in the eastern and middle regions of the country, including Shanghai, Tianjin and Jiangsu, and Hebei provinces. It is primarily caused by groundwater overpumping. One of the areas most severely affected by land subsidence is the Yangtze Delta, most of which consists of Shanghai City, the Su-Xi-Chang area (Suzhou, Wuxi and Changzhou cities) of Jiangsu Province, and the Hang-Jia-Hu area (Hangzhou, Jiaxing and Huzhou cities) of Zhejiang Province. The excessive exploitation of groundwater forms in a large regional cone of depression and, consequently, land subsidence is also regional, currently centered in the Shanghai and Su-Xi-Chang areas. In 2002, the maximum cumulative subsidence of Shanghai, Su-Xi-Chang and Hang-Jia-Hu were 2.63 m, 2.00 and 1.06 m, respectively. The land subsidence area is continuing to expand throughout the Yangtze Delta. To study the characteristics and the pattern of this land subsidence, the government has implemented a monitoring system involving the placement of 37 groups of extensometers (layers marks) and drilling of more than 1000 observation wells. These provide an invaluable historical record of deformation and pore water pressure and facilitate studies on the special features of soil deformation when the groundwater level changes due to pumping. Several measures have been taken in recent years to control the development of the land subsidence in the different areas; these include groundwater injection, prohibition of pumping deep confined groundwater, and an adjustment of the pumping depth and magnitude of the groundwater withdrawn. At present, although the subsidence area is still increasing slowly, the subsidence rate is controlled.  相似文献   

The Characteristics and Causes of Land Subsidence in Tanggu Based on the GPS Survey System and Numerical Simulation   总被引：1，自引：0，他引：1  

MA Fengshan  WEI Aihu  HAN Zhantao  ZHAO Haijun  GUO Jie 《《地质学报》英文版》2011,85(6):1495-1507

Land subsidence is a severe hazard threatening Tanggu, a flat lowland area, and evidences of land subsidence can be seen throughout the city. A new reasonable GPS network was set up in this area from 2008 to 2010. The monitoring data show that land subsidence was serious and two main subsidence cones were obviously formed in the region. One emerged at Hujiayuan, with the maximum rate reaching 60 mm/a, and the influence region enlarged prominently from 2005 to 2010. The other one occurred at Kaifaqu, which became obvious only after 2005, and it showed a decreasing tendency with time. To analyze the causes of ground settlement, a correlation between groundwater withdrawal and land subsidence was firstly made. The results confirmed that over-exploitation of groundwater was the major cause for the severe settlement in Hujiayuan. Meanwhile, the subsidence of Kaifaqu was also related to groundwater withdrawal before 2005. However, the relationship became unconspicuous after 2005. To find the cause of this abnormity, a three-dimensional finite element numerical model, coupled with groundwater flow and subsidence, was built. The simulation results indicate that the subsidence induced by high-rise buildings is serious, but the affected range is limited and it also shows a decreasing trend with time, corresponding to the subsidence characteristics at Kaifaqu. Therefore, more attention should be paid to this hazard induced by engineering construction besides groundwater withdrawal, as more high-rise buildings are under construction in Tanggu.  相似文献   

Land subsidence caused by internal soil erosion owing to pumping confined aquifer groundwater during the deep foundation construction in Shanghai   总被引：3，自引：0，他引：3  

X.-S. Zhang  J.-X. Wang  H. Wong  C.-J. Leo  Q. Liu  Y.-Q. Tang  X.-L. Yan  W.-H. Sun  Z.-Q. Huang  X.-H. Hao 《Natural Hazards》2013,69(1):473-489

Land subsidence is presented in many factors in different areas with urbanization. Internal soil erosion, owing to pumping confined groundwater during the deep foundation pit construction, has contributed to land subsidence. Four governing equations are presented to describe the process of internal soil erosion based on the mathematical–physical model. The finite element computation results, based on practical deep foundation pit engineering consisted of 8 layers of soil of Shanghai area, demonstrate that internal soil erosion will cause the increment of land subsidence and deformation and is related to the hydraulic gradient and the characters of the soils.  相似文献   

不同方法求解疏排水引起的地面沉降对比研究          下载免费PDF全文

骆勇  祝晓彬  郭飞  吴吉春  蒋建国  曾献奎  范亚民  王栋 《水文地质工程地质》2018,(5):150-150

地下水开发利用和疏排水过程引起的地面沉降是一个渗流场与应力场耦合的过程。基于算例模型,分别采用目前常用的基于渗流-沉降分步计算的土力学经验公式、渗流-沉降部分耦合的GMS软件中SUB模型以及目前少用的基于渗流-沉降全耦合的COMSOL Multiphysics模型对疏排水引起的地面沉降量进行了计算。对比不同方法计算结果表明,COMSOL Multiphysics计算疏排水引起的地面沉降可行且计算结果较经验公式法、GMS中SUB模型的结果更为合理、更符合实际沉降特征。在此基础上,采用COMSOL Multiphysics和GMS中SUB模型对比研究了不同渗透系数对地面沉降计算的影响,结果进一步验证了COMSOL Multiphysics求解疏排水引起地面沉降的可靠性。  相似文献   

太原市地层空间异质性对地面沉降分布的影响   总被引：4，自引：0，他引：4  

孙自永  马腾  马军  马瑞  闫春淼 《岩土力学》2007,28(2):399-403

对比1956～2000年太原市地下水位与地面沉降资料发现,该区地面沉降漏斗与地下水位降落漏斗的空间分布基本相近,但不完全吻合,局部地区存在偏移。通过对黏性土层累计厚度分布、黏性土层与粗颗粒土层的组合特征、不同分区各深度处土的力学特征值与上述偏移的对比分析,认为太原市地层的空间异质性对地面沉降分布有如下影响：（1）与地下水位降落漏斗相比,地面沉降漏斗偏向于黏性土层较厚的一侧;（2）地层组合（黏性土的夹层数、单层厚度等）对地面沉降的空间分布影响较大,沉降多发生在黏性土夹层多、单层厚度较小的地区;（3）土的力学性质的差异是影响沉降分布的重要因素。  相似文献   

地面沉降对高速铁路的影响分析     

王荣  刘明坤  贾三满  杨艳  田芳  刘欢欢 《中国地质灾害与防治学报》2014,(2):49-53,64

北京平原区快速发展的地面沉降对高速铁路的发展构成了威胁,地面沉降与过量开采地下水造成的水位下降关系密切,为此有针对性地开展基于高速铁路的地下水动态与地面沉降相关关系研究对于高铁安全运行意义重大,特别是对于制定高铁沿线地下水开采方案、地面沉降减缓措施和工程措施至关重要。基于其对高速铁路的影响模式,本文将地面沉降分为区域沉降和局部沉降两种类型。针对区域沉降,利用Logistic方程,使用天竺、望京及王四营分层地面沉降和地下水位数据,构建了不同层位地下水水位变化与地面沉降之间的相关关系模型,通过ABAQUS计算局部地区,对于6m高路堤和15m CFG桩处理深度的地基而言,当渗透系数k=2m／d,距离线路边缘25m处浅层地下水下降10m将产生约61—85mm的沉降。  相似文献   

南京河西地区地面沉降成因分析     

刘刚  徐成华  施威  李兆  骆祖江 《地质论评》2023,69(2):639-647

为了查明南京河西地区地面沉降的成因,笔者等在系统研究水文地质与工程地质条件的基础上,研究了地面沉降的分布特征和发展规律,以及地面沉降与地下水位、软土分布及建筑荷载之间的关系,进而揭示了南京河西地区地面沉降的成因。研究结果表明：南京河西地区不开采地下水,地面沉降与软土层厚度和建筑荷载分布关系密切,地面沉降主要受建筑工程影响,即建筑荷载和深基坑降水的作用。  相似文献   

南京河西地区地面沉降成因分析     

刘刚  徐成华  施威  李兆  骆祖江 《地质论评》2022,68(4):2022082011-2022082011

为了查明南京河西地区地面沉降的成因,笔者等在系统研究水文地质与工程地质条件的基础上,研究了地面沉降的分布特征和发展规律,以及地面沉降与地下水位、软土分布及建筑荷载之间的关系,进而揭示了南京河西地区地面沉降的成因。研究结果表明：南京河西地区不开采地下水,地面沉降与软土层厚度和建筑荷载分布关系密切,地面沉降主要受建筑工程影响,即建筑荷载和深基坑降水的作用。  相似文献   

采水地面沉降时空预测模型研究   总被引：2，自引：0，他引：2  

于广明  张春会  潘永站  刘福顺  袁长丰 《岩土力学》2006,27(5):759-762

地下水开采引起的地面沉降对地面建（构）筑物的正常使用和结构安全构成了严重威胁,深入研究采水地面沉降预测理论对于沉降灾害防治具有重要意义。针对本构模型和土体参数确定上的困难,采用力学推理和数学统计相结合的方法,建立了新的采水地面沉降时空预测模型。首先,利用太沙基固结微分方程,建立了反映地面沉降时间效应的半经验计算模型;其次,在分析采水地面沉降空间分布规律的基础上,利用随机介质理论研究了采水地面沉降空间分布特征;再次,综合考虑采水地面沉降的时间效应和空间分布形态,建立了采水地面沉降的时空预测模型。利用该模型计算地面沉降共需4个计算参数,介绍了参数求解方法。最后,利用时空计算模型预测了某地单井采水引起地面沉降的时空规律。研究表明,所建立的采水地面沉降预测模型能准确地反映采水地面沉降的时空规律,能方便、快捷地预测地下水开采引起的地面沉降。  相似文献   

基于SBAS-InSAR技术的豫北平原地面沉降监测     

许军强  马涛  卢意恺  白潍铭  赵帅 《吉林大学学报(地球科学版)》2019,49(4):1182-1191

豫北平原是河南省平原地区地面沉降灾害较严重地区之一,快速全面掌握豫北平原地面沉降信息、有效防控地面沉降的持续快速发展对中原城市群建设至关重要。本文借助中高分辨率RADARSAT-2雷达数据,基于SBAS-InSAR技术获取了豫北平原2014-2016年的地面沉降监测数据。监测结果表明：两年内豫北平原地面整体下沉,区内共圈定8个较明显的沉降区,总面积约3 006 km²,各沉降区沉降速率在25.00~114.85 mm/a之间;其中,除安阳县白壁镇-内黄县沉降区和辉县沉降区最大沉降速率分别达到95.36和114.85 mm/a之外,其余6个沉降区最大沉降速率均小于73.58 mm/a。根据沉降区现场实地调查和综合分析发现,豫北平原地面沉降主要是活动断裂、松软岩土、地下水超采、城市建设活动、石油和地热资源开采等共同作用的结果。建议将豫北平原地面沉降的防控重点放在人类活动引起的地下水超采和城市建设引发的松软岩土层超量堆载等方面。  相似文献   

水准测量网监测在德州市地面沉降中的应用     

何国荣  冯在敏  冯克印  任翠爱  商婷婷  谭现锋 《山东地质》2012,(6):28-30

山东地面沉降灾害以鲁北平原最为严重,在德州地区的地面沉降已对当地人民的正常生产和生活构成了威胁,并制约了当地经济的可持续发展。通过建立水准测量网络及监测运行,查明了德州市地面沉降的规模和范围,研究成果表明工作区均存在地面沉降现象,截至2010年,德城区由于地下水开采强度大,地面沉降幅度最大,目前地面累计沉降量为-1186．9～-636．9mm,多年平均沉降速率为59．35mm／a,形成了以市区西北部为中心的地面沉降盆地。超量开采深层地下水是造成大规模地面沉降的重要因素。  相似文献   

Boundary element analysis of Biot consolidation in layered elastic soils     

Yaw-Jeng Chiou  Shue-Yeong Chi 《国际地质力学数值与分析法杂志》1994,18(6):377-396

Biot's linear consolidation analysis of three-dimensional fluid saturated layered soils is investigated. The time marching method, uncoupled boundary element method, and successive stiffness method are applied for the numerical modelling of this study. Settlement induced by surface loading and land subsidence due to pumping is studied. The results show that settlement induced by surface loading is mainly influenced by the properties of the soil layer, and that the settlement is larger for soil layers with smaller stiffness and greater thicknesses. The land subsidence induced by pumping is influenced by the properties of the soil layer as well as by the permeability of the pumped layer and the conditions at the top and bottom boundaries. The land subsidence is larger for soil layers with a smaller stiffness, lower permeability of the pumped layer, deeper pumping depth, larger pumping rate and an impervious top surface.  相似文献   

Investigation into subsidence hazards due to groundwater pumping from Aquifer II in Changzhou,China   总被引：2，自引：1，他引：1  

Ye-Shuang Xu  Yao Yuan  Shui-Long Shen  Zhen-Yu Yin  Huai-Na Wu  Lei Ma 《Natural Hazards》2015,78(1):281-296

This paper presents an investigation into increased deformation of Aquifer II caused by groundwater pumping from the aquifer in Changzhou, China. As groundwater levels of aquifers have been decreasing in recent decades due to uncontrolled water pumping, land subsidence is becoming a serious geohazard in Changzhou. Based on recently reported field data, the compression of aquitards has not increased compared to that of aquifers with the same scale of layer thickness. The Cosserat continuum model was adopted to analyse the observed phenomenon in this study. A classic Cauchy continuum model is also used for comparison. The comparison between these two models indicates that the proposed approach can interpret the increased deformation well, and the classic Cauchy continuum model underestimates the aquifer deformation as it does not consider shear displacement and macro-rotation. A discussion on the relationship between the groundwater level in the aquifer and subsidence is then undertaken. The results show that the severity of the annual subsidence is correlated with the variation in groundwater level in Aquifer II. To mitigate the subsidence hazards, countermeasures should be adopted to avoid the shear stress in aquifers which results from the high hydraulic gradient, by the appropriate allocation of pumping wells and by restricting groundwater withdrawal volume from each pumping operation.  相似文献   

GIS-based spatial and temporal prediction system development for regional land subsidence hazard mitigation   总被引：3，自引：0，他引：3  

Guoyun?ZhouEmail author  Tetsuro?Esaki  Jiro?Mori 《Environmental Geology》2003,44(6):665-678

An integrated GIS-based approach for establishing a spatial and temporal prediction system for groundwater flow and land subsidence is proposed and applied to a subsidence-progressed Japanese coastal plain. Various kinds of fundamental data relating to groundwater flow and land subsidence are digitized and entered into a GIS database. A surface water hydrological cycle simulation is performed using a GIS spatial data operation for the entire plain, and the spatial and temporal groundwater infiltration quantity is hereby obtained. Through the data transformation from the GIS database to a groundwater flow code (MODFLOW), a 3D groundwater flow model is established and unsteady groundwater flow simulation for the past 21 years is conducted with results which compare satisfactorily with observed results. Finally, a Visual Basic code is developed for land subsidence calculations considering aquifer and aquitard deformation. Future land subsidence in the plain is predicted assuming different water pumping scenarios, and the results provide important information for land subsidence mitigation decision-making.  相似文献   

国际地面沉降研究综述   总被引：20，自引：2，他引：18  

张阿根  刘毅 《上海国土资源》2000,(4):1-7

文章在介绍国际地面沉降会议历史及２０００年第六届国际地面沉隆会议简况的基础上,并根据２０００年第六届国际地面沉降会议论文,对国际地面沉降研究进展情况分成如下六个方面进行了综述。地面沉降地质因素介绍了古代地面沉降、泥炭层沉降、地震砂土液化地面沉降和海平面上升研究状况。地下流体运移地面沉降方面介绍了以地下水开采为主的地面沉降问题及地面塌陷、天然气开采引起的地面沉降、均匀沉降对建筑结构的破坏和欠固结石英  相似文献   

Excessive groundwater withdrawal and resultant land subsidence in the Su-Xi-Chang area,China   总被引：5，自引：1，他引：4  

Yun Zhang  Yu-Qun Xue  Ji-Chun Wu  Xiao-Qing Shi  Jun Yu 《Environmental Earth Sciences》2010,61(6):1135-1143

Excessive groundwater withdrawal has caused severe land subsidence in the Su-Xi-Chang (SXC) area, China. The restriction and prohibition on groundwater pumping have been carried out since the late 1990s. Based on the latest updated field data, the changing pattern of groundwater level and the distribution of land subsidence are analyzed. The distribution of land subsidence in SXC is closely related to that of the cone of depression in the second confined aquifer in time and space. But land subsidence is not in synchronization with the changing groundwater level. Both aquitards and aquifers compacted continuously in the early period of groundwater level rising and behaved as creep materials. A series of laboratory tests were conducted on aquifer sands, which indicated that the creep deformation under virgin compression is much greater than that under recompression and unloading, and that the creep of sands decreases rapidly with the cycles of repeating load. The test results reveal the mechanism of sand creep under the condition of long-term groundwater pumpage. As a consequence of the restriction and prohibition on groundwater pumping, groundwater level has obviously recovered in the vast majority of the SXC area, and land subsidence has slowed down and even a little rebound has occurred in some sites in Suzhou and Changzhou. If the pumpage is strictly limited continuously, the groundwater level will not decline below the historical lowest value but fluctuate within a certain range. In such a case, land subsidence in SXC will no longer develop obviously.  相似文献