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1.
Tung-Lin Tsai 《Environmental Geology》2009,57(5):1055-1064
In this study, the viscosity effect on consolidation of poroelastic soil due to groundwater table depression is examined.
A viscoelastic consolidation numerical model is developed to conduct this examination. By nondimensionalizing the governing
equations the viscosity number that depends on hydraulic conductivity, viscous moduli, and thickness of soil is obtained to
represent the viscosity effect on consolidation of poroelastic soil. The case of clay stratum sandwiched between sandy strata
subjected to sudden and gradual groundwater table depressions is used to investigate the importance of viscosity effect to
poroelastic consolidation. The results show that the displacement and pore water pressure of clay stratum are strongly related
to the viscosity effect. The overestimation of soil displacement will occur if the viscosity effect is neglected. Hence, the
viscosity effect needs to be considered in modeling consolidation of poroelastic soil under groundwater table depression. 相似文献
2.
Deformation effects of porosity variation on soil consolidation caused by groundwater table decline 总被引:1,自引:0,他引:1
Soil consolidation has been widely analyzed using the poroelastic theory. As soil consolidation proceeds, porosity variation leads to the changes in hydraulic conductivity, Young’s modulus, and body force. However, the combined deformation effect of porosity variation on soil consolidation is rarely examined. In this study, a poroelastic consolidation model used to simultaneously consider the changes in hydraulic conductivity, Young’s modulus, and body force was developed to investigate the combined deformation effect of porosity variation on soil consolidation caused by groundwater table decline. The results indicate that the deformation effect of porosity variation on soil consolidation is negligible when the body force number is <0.01. For body force numbers >0.01, soil displacement could be overestimated or underestimated if the combined deformation effect of porosity variation is not completely considered. The misestimation of soil displacement increases as the body force number increases. In addition, the combined deformation effect of porosity variation also affects the transmission of pore water pressure. Therefore, it could be concluded that a reliable analysis of soil consolidation must simultaneously account for the variations in hydraulic conductivity, Young’s modulus, and body force. 相似文献
3.
In this study subsidence due to groundwater withdrawal was investigated. Kerman Province in Iran is struggling with land subsidence
problem due to extensive groundwater withdrawal mainly for farming. The rate and type of groundwater withdrawal has very important
impact on settlement rate. In this research, effective parameters on land subsidence caused by groundwater withdrawal were
determined by laboratory tests. Sampling had done up to depth of 300 m mainly with remolded specimens from Shams-abad, Nouq
plain in Kerman province. Similar to the field preconsolidation pressure was applied on specimens in the laboratory. Rate
of applied stress on prepared specimens was similar to effect of oscillation of groundwater level. In order to model the actual
soil behavior in the laboratory, one-dimensional consolidation device (odometer) was adopted for testing. In these tests,
the effect of loading caused by seasonal oscillation of groundwater table is considered by means of cyclic loading in the
testing which has great effect on rate of settlements. The results of tests show that when the water table level periodically
increases and decreases the amount of settlement decrease, comparing with the case when the groundwater table drop to a constant
level. In order to predict the further effects of groundwater level oscillation and actual field condition on land subsidence,
a finite element model based on Biots’ three-dimensional consolidation theory was developed. After calibration of finite element
model with laboratory tests, this model was used for prediction the effect of groundwater level oscillation on actual field
conditions. 相似文献
4.
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
5.
6.
为分析利用真空井点进行沿海软土地基处理的可行性,在天津汉沽区南部沿渤海区域某电厂建筑场地,布置了利用真空轻型井点抽水的现场地基固结试验,为分析其固结试验效果,试验过程中进行了地下水位、孔隙水压力的现场监测,试验前后安排了现场检测试验。抽水固结试验结束后,经试验前后的静力触探试验、十字板剪切试验及室内土工试验对比分析,证明加固效果显著。抽水试验开始后较短的时间(75 d内)即可使加固的地基达到固结稳定,比贯入阻力提高200~300 kPa,十字板试验抗剪强度平均提高30~50 kPa,地基承载力可达120 kPa。试验说明,采用真空轻型井点处理沿海浅部软土地基是可行的。 相似文献
7.
冻结-冻融过程中水分运移机理 总被引:9,自引:1,他引:9
为研究冻结-冻融过程中水分运移机理,在天山北麓平原通过人为控制潜水不同埋深条件下的模拟试验和田间土壤水分运移观测试验,分析了土壤水势分布和土壤含水量分布特征,发现冻结过程不同潜水埋深条件下的土壤水分运移机理、土壤水与潜水之间的相互转化关系有明显差异.在冻结过程中,潜水浅埋条件下,冻结层下界面与潜水面之间土壤水分运移状态呈上渗型,土壤水向冻结层下界面处运移、积累,同时引起潜水蒸发损耗使潜水位下降,表现出地下水向土壤水转化的基本特征.潜水深埋区,土壤水分运移状态呈上渗-入渗型,同样土壤水向冻结层下界面处运移、积累,同时潜水得到一定的入渗补给并使潜水位上升,表现为土壤水向地下水转化的特征.冻融过程中对于不同潜水埋深,由原来各自的土壤水分运移状态均逐渐转变为入渗型,形成潜水入渗补给,表现为土壤水向地下水转化的特征.冻融期是土壤水资源、地下水资源形成的重要时期,对于干旱少雨的西北地区而言,冻融水的形成、运移和入渗补给地下水具有重要的生态环境意义. 相似文献
8.
针对松嫩平原西部地下水潜水位变化对环境产生影响的现状,运用GIS-PModflow联合系统确定了地下水环境预警警戒线,采用以不至于发生土壤盐碱化的潜水临界水位作为上警戒线值,以潜水开采极限深度作为下警戒线值。在对系统模型概化的基础上,进行了潜水位的数值模拟和预报。利用GIS空间分析方法对图像数据进行栅格叠加和属性判断,通过对预报水位与警戒水位对比,进行水环境预警。结果表明,研究区2015年的警情较1999年增加,且以灌溉后潜水位上升引起的土壤次生盐渍化的警情为主。 相似文献
9.
文章从一维地下水运动和渗透力学的角度,分析比较潜水位上升与承压水位下降对岩溶地区透—阻型盖层中阻水层渗透稳定性的影响,重点讨论了承压水位下降速度(降速)与下降深度(降深)对阻水层中渗透坡降的影响,结果表明:地下水位变化(潜水位上升或承压水位下降)产生的非稳定渗流不利于岩溶洞穴开口上方阻水层的稳定,承压水位的下降对岩溶开口附近处阻水层中渗透力的影响远大于潜水位的变化;在承压层水位最大降深确定的条件下,承压水位下降速度愈快,岩溶开口附近处阻水层中向下渗透力愈大。因此,在覆盖型岩溶地区抽取地下水时,为了减缓或避免覆盖型塌陷的发生,应同时控制好最大降深和最大开采速度。 相似文献
10.
大庆西部地下水位降落漏斗区水资源人工调蓄方案 总被引:6,自引:0,他引:6
对地下水资源的长期大量集中开采形成了区域性地下水位降落漏斗,地下水的超采引发了一系列环境地质问题。利用降落漏斗区腾空的地下储水空间进行水资源的人工调蓄可使地下水位得到恢复。以地下水为主要供水水源的大庆市目前已形成了东西两个大的区域性地下水位降落漏斗,必须进行地下水人工调蓄。设计并模拟了现状开采、逐年压缩分别在现采和压采基础之上进行人工回灌等4种人工调蓄方案,对大庆西部地下水位降落漏斗区进行水资源人工调蓄。结果表明,压缩开采和人工回灌均可加速降落漏斗区地下水位的恢复,在逐年压缩地下水开采量5%的情况下实施人工回灌(0.45×108m3/a),地下水位恢复效果最明显,到2010年末,漏斗中心地下水位可回升7.7~10.3 m。 相似文献
11.
Nguyen Cao Don Hiroyuki Araki Hiroyuki Yamanishi Kenichi Koga 《Environmental Geology》2005,47(3):361-374
In coastal lowland plains, increased water demand on a limited water resource has resulted in declining groundwater levels, land subsidence and saltwater encroachment. In southwestern Kyushu, Japan, a sinking of the land surface due to over pumping of groundwater has long been recognized as a problem in the Shiroishi lowland plain. In this paper, an integrated model was established for the Shiroishi site using the modular finite difference groundwater flow model, MODFLOW, by McDonald and Harbaugh (1988) and the modular three-dimensional finite difference groundwater solute transport model, MT3D, by Zheng (1990) to simulate groundwater flow hydraulics, land subsidence, and solute transport in the alluvial lowland plain. Firstly, problems associated with these groundwater resources were discussed and then the established model was applied. The simulated results show that subsidence rapidly occurs throughout the area with the central prone in the center part of the plain. Moreover, seawater intrusion would be expected along the coast if the current rates of groundwater exploitation continue. Sensitivity analysis indicates that certain hydrogeologic parameters such as an inelastic storage coefficient of soil layers significantly contribute effects to both the rate and magnitude of consolidation. Monitoring the present salinization process is useful in determining possible threats to fresh groundwater supplies in the near future. In addition, the integrated numerical model is capable of simulating the regional trend of potentiometric levels, land subsidence and salt concentration. The study also suggests that during years of reduced surface-water availability, reduction of demand, increase in irrigation efficiency and the utilization of water exported from nearby basins are thought to be necessary for future development of the region to alleviate the effects due to pumping. 相似文献
12.
矿坑排水与岩溶地面塌陷的关系 总被引:5,自引:5,他引:0
浙江省某岩溶矿区南部洼地先后发生6处地面塌陷,引发了当地居民的恐慌。矿区排水是唯一地下水开采活动,为分析塌陷区与矿区之间的水力联系,遂在研究区全面布置地下水监测系统。通过对比分析观测水位、矿坑排水量及当地降雨量数据,探讨地面塌陷与矿区排水之间的关系及其潜在成因。研究表明,研究区岩溶地下水动态变化整体保持一致,受降雨、矿坑排水等综合因素影响。北部矿区和南部洼地存在岩溶连通管道,两者在雨季水力联系微弱、旱季水力联系密切。经长期径流潜蚀作用,〖JP2〗导致区内地面塌陷区灰岩顶板岩溶发育处上覆土层出现土洞,当矿区排水量急剧增大时,南部洼地岩溶水位大幅度下降,使得土洞中出现负压、上覆土层所受浮托力降低、孔隙水与岩溶水补排关系改变,在多种效应共同作用下,土洞最终形成地面塌陷。 相似文献
13.
Axisymmetric consolidation of a poroelastic soil layer with a compressible fluid constituent induced by groundwater drawdown was studied based on Biot’s axisymmetric consolidation theory. Laplace and Hankel transforms were employed to solve the governing equation. Explicit analytical solutions are obtained in the Laplace–Hankel transform domain when groundwater drawdown is induced by a constant pumping well. Based on the solutions, numerical computations were performed to study the influences of the compressibility of the fluid constituent on the consolidation behavior of the soil layer. 相似文献
14.
汤池镇位于两组断裂交汇处,下伏震旦系碳酸盐岩中赋存岩溶热水。每年冬季超量开采地热使地下水位骤降37m,产生真空吸蚀、失托增荷等作用,破坏上覆岩土体结构,周而复始,导致7处地面塌陷。目前塌陷的解除性依然存在,为防治地面塌陷必须减少冬季开采量,严格控制水位降深小于16m。 相似文献
15.
A poroelastic numerical model is presented to evaluate three-dimensional consolidation due to groundwater withdrawal from desaturating anisotropic porous media. This numerical model is developed based on the fully coupled governing equations for groundwater flow in deforming variably saturated porous media and the Galerkin finite element method. Two different cases of unsaturated aquifers are simulated for the purpose of comparison: a cross-anisotropic soil aquifer, and a corresponding isotropic soil aquifer composed of a geometrically averaged equivalent material. The numerical simulation results show that the anisotropy has a significant effect on the shapes of three-dimensional hydraulic head distribution and displacement vector fields. Such an effect of anisotropy is caused by the uneven partitioning of the hydraulic pumping stress between the vertical and horizontal directions in both groundwater flow field and solid skeleton deformation field. Copyright © 1999 John Wiley & Sons, Ltd. 相似文献
16.
圆明园遗址公园水文地质条件分析 总被引:2,自引:0,他引:2
通过遥感解译、水文地质调查、钻孔和抽水试验,结合区域水文、气象和地质等资料,对圆明园的水文地质条件有了初步认识:圆明园处在清河古河道范围内,浅层地下水可分为潜水和第一层承压水,含水层岩性以砂类为主,与湖水有直接联系的潜水含水层的渗透系数大于20md;20世纪50~60年代,圆明园所在区域地下水位较高,地下水补给湖水;近年来,受降水减少和地下水开采等因素影响,地下水位下降较大,湖水位高于潜水位,自然条件下湖水补给地下水。 相似文献
17.
Managing groundwater rise: Experimental results and modelling of water pumping from a quarry lake in Milan urban area (Italy) 总被引:1,自引:0,他引:1
An innovative approach to solve the problem of lowering water table was carried out in a quarry lake south of the city of Milan (northern Italy): the project, based upon pumping out water at a rate of 1,000 L/s can be considered a strategic medium to long-term solution to hinder the rise of groundwater level interfering with underground structures (foundation, construction, subway) in urban areas. The basic idea is to pump a high groundwater rate as close as possible to the stagnation point of the piezometric depression located in the city. After a pilot-test was carried out in November 1998, experimental activities started in July 2001 and lasted one year; water withdrawal was discharged into artificial channels used in agricultural practice. Maximum drawdowns measured in the quarry lake by the monitoring network resulted in more than 5 m, and a significant drawdown was registered up to 1.5 km of distance from the quarry in the important historical site of Chiaravalle Abbey, threatened by groundwater rise. The results of this pumping activity confirm the importance of the project, its lower cost compared with traditional solutions (such as drainage by wells) and remarkable effects on the improvement of surface water quality. A groundwater model was implemented to evaluate further scenarios of discharge rate and pumping location, too. 相似文献
18.
岩溶地下工程施工抽水容易诱发地面塌陷工程事故,目前关于此问题的研究,主要针对砂性土层,较少涉及黏土层,但大量的抽水致塌事例发生在黏土层。本文分析施工抽水对界面上黏土性质、地下水动力条件的影响,并划分出Ⅰ、Ⅱ、Ⅲ三个影响区。依据“土-水”耦合作用,在Ⅰ、Ⅱ区建立非饱和黏土地面塌陷崩解作用模式及其判据,在Ⅲ区建立饱和黏土地面塌陷潜蚀作用模式及其判据。为了应用于施工抽水实践,推导出潜水非完整孔和承压水非完整孔抽水诱发地面塌陷的临界抽水流量表达式,并计算出南宁地铁工程场地地面塌陷的临界抽水量为17.97 m3?d-1。在场地内进行的现场抽水验证性试验的结果表明此临界抽水量具有一定的工程应用性及参考借鉴意义。 相似文献
19.
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