共查询到18条相似文献,搜索用时 283 毫秒
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在顶管施工中,千斤顶的支座需要巨大的反力支持,这些反力是由工作井的侧壁以及壁后土体提供的。对于超浅层顶管工作井,由于侧壁后土体高差小,提供的反力有限,这就成为超浅层顶管工作井设计施工的一个难点。以实际工程为例,详细介绍了超浅层顶管工作井施工工艺,其中包括预注浆加固、环梁施工方法以及逆作法的施工要点等。 相似文献
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位于上海浦东地区的越江隧道顶管工作井施工基坑距黄浦江防风墙45m,距煤气公司煤气井仪表室1.20m。基坑开挖底界(深度32.45m)为场地内第⑦土层承压含水层顶部(静止水位-6.40m)。为保证基坑施工及临近建筑物的安全,避免基坑降水造成砂土流失而引起的地面沉降问题,在降水井的施工中,根据含水介质的颗粒级配选择相应规格的过滤砂作为过滤层填料,并保证过滤层具有一定的厚度,使降水时的含砂量控制在1/10万以下;采用非稳定流控制水位跟踪作业降水法,尽量减少基坑降水的影响范围,取得了良好的预期效果。 相似文献
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城市深大基坑降水方法研究——以沈阳某30层外商公寓1-10#楼降水工程为例 总被引:1,自引:0,他引:1
针对某30层外商公寓降水基坑范围大、地下室底板深度不同、场地含水层富水性强的特点,采取分期施工、统筹布井、降水井疏密不一、个别问题特殊处理的设计思路,采用“多井、小泵”抽水,控制水位降深、降速的分阶段降水方法,使本次降水工程最大限度地保护了地下水资源,保证了周边建筑物的安全。 相似文献
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深厚强透水含水层超大基坑降水群井效应研究 总被引:1,自引:0,他引:1
基坑减压降水的幅度与群井效应密切相关。某超大面积基坑,含水层组厚40m,中下部透水性强,采用非完整井降水。对水文地质条件概化,建立了地下水三维非稳定流数值模型,对均匀布置群井、不均匀布置群井、分块开挖降水、不同的井结构、布设回灌井等工况,进行了渗流场模拟。研究表明,强透水性含水层超大面积基坑降水的群井效应极为明显;井位角密中疏布置,可实现降深调平,避免降深不足和超降;基坑分块降水,可减少坑外降深;短滤管井结构可减少基坑总涌水量和坑外降深;强透水性含水层可灌性强,回灌对减少坑外水位下降有较明显的效果。模拟结果与现场监测较为一致。研究成果可为类似工程地下水控制设计提供参考。 相似文献
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珠江一特大桥主墩位于珠江水域中,承台基坑施工采用锁口钢管桩围堰围护, C30水下混凝土封底。封底完成后进行围堰内排水时,基底承压水击穿了封底混凝土,造成了基底突涌事件。对比在围堰内降水和在围堰外降水两种方案后,决定采用围堰外降水的方法,将承压水位降至封底顶面以下。该方案工期短、费用低,开创了在珠江内降底承压水的先例,成功处理了围堰封底失败的事故,确保了承台的顺利施工。实践证明在深水中降承压水是可行的,降水是保证承台基坑安全的重要手段之一,为类似工程提供了宝贵的经验。 相似文献
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基坑工程中,通常采用地下水回灌措施降低降水对周边地质环境产生的不良影响,然而目前基坑降水—回灌的相关设计理论仍处于探索阶段。本文通过引入平面二维流势函数理论和叠加原理,分别求解得到了无止水帷幕工况下潜水完整井和承压完整井在降水—回灌共同作用下的地下水浸润曲线方程;此外,本文通过空间汇点原理和镜像原理分别求得基坑内降水和基坑外回灌对基坑外地下水位的影响,并运用叠加原理得到了有止水帷幕工况下,深基坑降水—回灌作用下的地下水浸润曲线解析式。本文利用得到的解析式探讨了在具有止水帷幕条件下回灌井距基坑围护结构的距离、渗透系数等主要因素对浸润曲线的影响,为基坑降水—回灌设计提供了参考依据。 相似文献
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Ye-Shuang Xu Huai-Na Wu Bruce Zhi-Feng Wang Tian-Liang Yang 《Environmental Earth Sciences》2017,76(9):351
Foundation dewatering has become a major cause of land subsidence in Shanghai. The burial depth of foundations in relation to geotechnical construction works is less than 75 m, and the corresponding groundwater includes phreatic, low-pressure artesian, and the first confined aquifers. Based on the geological and hydrogeological conditions beneath Shanghai, methods of dewatering may be divided into three modes and further five patterns according to the insertion depth of the dewatering-retaining system. The most common dewatering mode aims to reduce the water pressure in the confined aquifer by setting the dewatering wells inside the pit, whilst the retaining walls are buried in the confined aquifer and partially cut off the confined aquifer layer. To predict the settlement due to foundation dewatering, numerical models are generally adopted, which are similar to those used to predict land subsidence induced by regional groundwater withdrawal; however, since foundation dewatering is conducted along with the setting of retaining walls and foundation pit excavation, which differs from regional groundwater withdrawal, interactions between the retaining wall-dewatering well, the dewatering-excavation, and dewatering-recharge are important factors affecting the analytical model. Since the grading of the shallow soil layers is different, stratified settlement characteristics of the shallow soil strata and seepage erosion, which results in additional deformation, need to be given particular consideration. 相似文献
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Study on Deep Well Dewatering Optimization Design in Deep Foundation Pit and Engineering Application 总被引:2,自引:0,他引:2
HuChunlin Yanghuijun 《中国地质大学学报(英文版)》2002,13(1):78-82
Based on analyses of the theories of groundwater unsteady flow in deep well dewatering in the deep foundation pit,Theis equations are chosen to calculate and analyze the relationship between wa-ter level drawdown of confined aquifer and dewatering duration.In order to reduce engineering cost and diminish detrimental effect on ambient surrounding,optimization design target function based on the control of confined water drawdown and four restriction requisitions based on the control of safe water level,resistance to throwing up from the bottom of foundation pit,avoiding excessively great subsidence and unequal surface subsidence are proposed.Adeep well dewatering project in the deep foundation pit is optimally designed.The calculated results including confined water level drawdown and surface subsid-ence are in close agreement with the measured results,and the optimization design can effectively control both surface subsidence outside foundation pit and unequal subsidence as a result of dewatering. 相似文献
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某深大基坑位于长江下游岸边,场地地层为典型的二元结构,基坑开挖涉及的两层承压含水层间的弱透水层局部缺失,之间水力联系密切,基坑场地地质条件极为复杂,基坑施工降水直接关系到基坑工程的安全。这里将基坑分3个区,分别进行降水设计。具体降水方案:Ⅰ区两层承压含水层和Ⅱ区第一承压含水层被围护结构隔断内外水力联系,采用疏干井降水;Ⅱ区第二承压含水层未被围护结构隔断,Ⅲ区两层承压含水层水力联系密切,针对这两个区域设计了两套降水方案,方案一在Ⅱ区和Ⅲ区均布置有降水井,在Ⅱ区对第二承压含水层降水,在Ⅲ区对第一承压含水层降水;方案二仅在Ⅲ区布置降水井对第一承压含水层降水。为了更好地对降水方案进行对比分析,验证方案的可行性,对此进行了数值模拟分析,计算结果显示,两种方案均能满足降水要求,不过方案二布井数量少,基坑外水位降深较小,对周边环境影响更小,优于方案一。 相似文献
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Anisotropy and bedding effects on the hydro geological regime in a confined aquifer to design an appropriate dewatering system 总被引:1,自引:1,他引:0
A. Aryafar F. Doulati Ardejani Ph.D. 《International Journal of Environmental Science and Technology》2009,6(4):563-570
Prediction of groundwater inflow into mining excavations is very important in order to design an effective dewatering system to keep the mine workings dry and create prolonged cone of depression. The effects of anisotropy ratio and bedding on the hydraulic head and drawdown curves of a dewatering test carried out in a fully penetrating well in a confined aquifer have been investigated. An existing numerical finite element model has been used to perform the simulations. The results of the numerical model are compared to those from analytical Jacob and Lohman solution for estimating hydraulic heads and drawdown curves. It was found that the anisotropy ratio and bedding should not have a significant effect on drawdown and the quantity of inflow into a confined aquifer. It was further found that taking the simultaneous effects of anisotropy and bedding into account reduces the differences in the results of analytical and numerical methods. Comparison of the field data and model predictions showed that, the modelling results for a three layer anisotropic aquifer fit well to the field data than those results obtained for a single layer aquifer and the relative error decreased from 4.81 % to 2.98 %. 相似文献
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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
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承压水降压引起的地面沉降由含水层、弱透水层和潜水层的变形组成。当承压层降压时间短、弱透水层固结变形较小时,可以假设弱透水层为严格的隔水层。采用层状弹性体系理论,基于位移协调条件分别建立了单井抽水以及第三类基坑工程降水(隔水帷幕插入降水含水层)引起的土层变形分析模型,与数值模拟和现场抽水试验结果的对比,验证了文中方法的正确性。研究结果表明,上覆土层弹性参数变化对地表变形的影响可以忽略;抽水井附近的土层变形呈现“上小下大”特点,一定距离以外含水层与地面沉降大致相等,根据承压含水层降深要求,可估算出基坑外的水位降深。 相似文献