Study on Deep Well Dewatering Optimization Design in Deep Foundation Pit and Engineering Application

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 water 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. A deep well dewatering project in the deep foundation pit is optimally designed. The calculated results including confined water level drawdown and surface subsidence 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.

Effect of Distance of Sanitary Pits on the Physicochemical Properties of Hand Dug Well Water Samples Consumed by People Living in Akwuke Community, Enugu South Local Government Area of Enugu State

Studies were carried out to evaluate the effect of distance of sanitary pits on the physicochemical properties of hand-dug well water samples consumed by people living in Akwuke community, Enugu South Local Government Area of Enugu State, using standard analytical procedures and instrumentation. The mean range of pH, turbidity, electrical conductivity, total dissolved solids, nitrate and sulphate in the well water samples at the determined sampling distances of 3, 6 and 10 m from the sanitary pits were 5.9 - 7.24, 1.92 - 6.63 NTU, 122.03 - 303.91 μs/cm, 100.00 - 261.90 mg/L, 1.21 - 4.68 mg/L and 28.89 - 49/61 mg/L respectively. The investigated mean physicochemical parameters of the well water samples were generally observed to increase with decrease in the distance of the well water samples from the sanitary pits. The levels of the determined physicochemical parameter of the well water samples at sampling distances of 3, 6, and 10 m respectively from the sanitary pits were statistically significant. The mean pH values of the well water samples at sampling distances of 3 and 6 m respectively from the sanitary pits were below the WHO recommended threshold limits for safe drinking water. Additionally, the mean values of turbidity and total dissolved solids of the well water samples at a sampling distance of 3 m from the sanitary pits were above the WHO permissible limits. The pH, turbidity and total dissolved solids are some of the most important parameters used in assessing the quality of any water source, therefore, the poor physicochemical properties of well water samples at a sampling distance of 3 m from the sanitary pits could put at severe health risk consumption of this water over a prolonged time. Siting well water at a reasonable far distance (above 10 m) for sanitary pits especially in communities with severe water scarcity would definitely help guarantee access to safe drinking water by rural as well as urban dwellers in Nigeria.

Effect of Distance of Sanitary Pits on the Microbial and Heavy Metal Levels in Hand Dug Well Water Samples Consumed by People Living in Akwuke, Enugu South Local Government Area of Enugu State

Studies were carried out to assess the effect of distance of sanitary pits on the microbial and heavy metal levels in hand dug well water samples consumed by people living in Akwuke, Enugu South Local government area of Enugu State, using standard biochemical and spectrophotometric analysis. The well water samples were digested with aqua-regia and four heavy metals (Pb, Cd, Cu and Zn) were assayed in the well water samples at sampling distances of 3, 6 and 10 m respectively from the sanitary pits. The range of mean bacterial counts (cfu/g) for the four detected pathogenic bacteria; S. aureus, Klebsiella pnemeoniae, Echerichia coli and Salmonella enteritidis were 83 - 3730, 510 - 870, 50 - 2535 and 240 - 3420 Cfu/g at sampling distances of 3, 6 and 10 m respectively from the sanitary pits. The mean bacteria counts of the four detected pathogenic organisms in the well water sample at sampling distances of 3 and 6 m respectively from the sanitary pits were above the WHO recommended threshold limits for a safe drinking water. The mean bacterial counts of Salmonella enteritidis in the well water samples of sampling distance of 10 m from the sanitary pits was above the WHO recommended permissible limits. At sampling distances of 3, 6 and 10 m from the sanitary pits, the mean range of Pb, Cd, Cu and Zn in the well water samples were, 0.03 - 0.3, 0.02 - 0.05, 0.46 - 1.71 and 1.63 - 7.03 μg/g respectively. The mean levels of Pb and Cd in the well water samples at sampling distances of 3 and 6 m respectively from the sanitary pits were above their respective WHO recommended threshold limits. The mean heavy metals (Cd, Pb, Cu and Zn) in the well water samples at sampling distances of 3, 6, and 10 m respectively from the sanitary pits were statistically significant at p < 0.05.

基于长春某工程在基坑降水引发地面沉降方面的影响分析

本文以长春某基坑实际工程为背景,通过Midas GTS NX软件对基坑内的降水状况进行了模拟,得出施工的降水阶段对周边地表环境及支护结构的变形影响规律。结果表明,降水过程对周边地表造成的沉降作用以降水井为中心,呈降水漏斗状曲线,沉降最大值出现在降水井附近,对支护结构产生变形作用的最大值出现在桩顶,随桩体深度的下降呈下降曲线,分层降水对控制地表沉降可以起到良好的作用。

盾构机始发井深基坑力学和变形特性离心模型试验研究

为探究盾构机始发井深基坑开挖过程中周边土体的应力、变形和土压力分布规律,通过对工程原型进行概化,在典型土层条件下,采用停机-开挖-支护的模拟方式开展了方形基坑和圆形基坑两种方案共2组离心模型试验,从地连墙的弯矩和其后土体的水平位移、基坑外侧土压力分布以及地表沉降等角度,对比分析了两种盾构机始发井深基坑开挖过程的工程特性。结果表明:地面沉降随基坑开挖深度增大逐渐增加,形成沉降槽状;地连墙土压力变化呈非线性,随着基坑开挖不断深入的,离地表较近处的土压力逐渐变大,而深处的土压力则逐渐减小;在第5步开挖时2组模型地下连续墙水平位移均达到最大值,圆形基坑是方形基坑的1.4倍,同时地连墙的弯矩也达到最大值,圆形基坑比方形基坑小320 kN·m。研究成果可为深埋隧道深基坑的优化设计和开挖提供指导。

基于有效控制抽水量和地面沉降的长江Ⅰ级阶地深基坑深井降水参数取值优化

针对目前深基坑深井降水研究中仅关注目标降深及相应地面沉降,未考虑满足目标降深条件下的有效控制抽水量问题,以武汉长江隧道明挖段深基坑深井降水工程为例,通过抽水试验分析了井管直径、进水段的相对位置b/M以及井的不完整程度l/M对基坑涌水量的影响,确定了止水帷幕长度、井管直径、过滤管有效长度和合理位置等降水参数,根据试验数据拟合出该地区非完整井涌水量经验公式;建立了控制抽水量和地面沉降的深基坑深井降水参数优化设计模型,求解Maxf(l)得出的过滤管长度,与抽水试验结果相近。结果表明:止水帷幕进入强透水层厚度2/3处时,其对基坑坑内抽水量和坑内外水位有控制作用;选用Φ250井管、过滤管设置在强透水层上部(b=0)、l/M值较小及附加阻力系数差(ξ_(1)-ξ_(2))最大时,基坑涌水量较小;q_(0)-l、Δq_(0)/Δl-l曲线中曲率最大点对应的过滤管长度范围为14.0~16.0 m,其对应的基坑涌水量q0最小;考虑井群干涉的影响,干涉井涌水量在基坑中心处最小、角点处最大。

复杂地层深基坑井群降水综合控制方案优化分析

为控制工程物料成本及时间成本的投入,实现对复杂地层降水控制措施的合理化选择。以京安城际榆安1号隧道明挖段深基坑降水施工为背景,通过有限元模型分析和现场抽水试验相结合的方法,研究了止水帷幕插入深度、单井抽水速率及抽水时间对深基坑降水效果的影响。结果表明:基坑降水止水帷幕插入比控制在1∶0.9时,基坑降水效率及成本投入最优;抽水时间随单井抽水速率整体呈先快后慢的下降趋势,但增加到一定范围后趋势变缓、相关性减弱,单井最优抽水速率取125 m^(3)/d最优;抽水1~7 d天坑内地下水位降幅较大,达到最大降深的95.2%,以第7天的水位降深为标准进行降水方案设计最合理。可见科学的降水方案不仅有助于水资源保护,也关系到工程降水安全经济进行。

地铁车站基坑降水问题剖析及解决措施

地铁车站基坑开挖施工过程中,因降水井失效,不能起到良好的降水作用,导致基坑开挖过程及见底后泡槽,严重影响车站的正常施工进度和基底地基承载力。文章针对深圳地铁车站基坑降水质量问题进行深度剖析,提出了有效的处理措施。失效的降水井恢复功能,实现了良好的降水效果,解决了基底泡槽的问题,保证后续施工正常进行。

盾构井基坑围护结构数值模拟与现场变形监测分析研究

以徐州市某始发盾构井基坑为研究对象,制订了基坑围护结构水平变形监测方案,重点分析了基坑开挖过程中围护结构水平变形与开挖深度的动态规律。通过有限元数值模型对基坑开挖过程施工进行动态模拟分析,并将数值模拟的理论值与现场监测结果进行对比分析,结果表明:有限元计算结果与现场监测结果比较一致,证明计算模型是合理的;基坑开挖深度与桩身水平变形值近似呈线性变化;桩身水平位移最大值在土层坑底上1~2m处;预应力及岩层可有效限制桩身水平位移。

考虑止水帷幕的承压含水层基坑涌水量计算

止水帷幕结合减压降水井的“墙-井”体系是深大基坑常用的降水措施之一,而实际工程中采用“墙-井”体系的基坑涌水量比按照规范公式计算的结果小。为了得到止水帷幕下的承压含水层基坑涌水量计算公式,考虑悬挂式止水帷幕阻断形成的绕流区对基坑地下水水力梯度和渗流断面的影响,本文建立计算分析模型,引入绕流区渗径影响系数,采用数值模拟确定该影响系数,得到基坑涌水量计算公式。结合工程实例验证了公式的准确性,分析了止水帷幕插入深度比和基坑尺寸比对基坑涌水量的影响,得到以下结论:基坑涌水量与止水帷幕插入深度成反比、与基坑面积成正比;当帷幕插入深度比大于0.6或基坑尺寸比小于0.4时,对基坑涌水量和降深影响较大,其他范围内影响幅度逐步减缓。本研究可为类似工程基坑涌水量计算和止水降水设施的布置提供理论依据。

河道基坑两岸不同地质情况下的降水研究

在河道工程中降水井施工是不可避免的,在建设过程中,需进行基坑的挖掘作业,当地下水位埋深较浅时,将会直接影响到基坑的开挖和后续施工,因此需要采用管井降水技术来降低水位,为后续的施工创造一个方便的环境,同时通过人工措施,使基坑内或基坑外的水位降低至基坑开挖面以下,以方便放置地下水产生渗透破坏,提高坑壁及围护稳定性,方便施工,提高施工质量,避免水下作业。为了保证施工质量、提高施工效率,需对井孔间距和井的的深度进行控制。

深井基坑分段开挖方法数值模拟分析

为研究大“长宽比”深井基坑使用分段依次开挖的方式修建深基坑的剪应变和塑性区变化,文章依托江心洲中间风井基坑工程,利用FLAC3D软件对基坑开挖过程进行模拟,分析采用分段依次开挖对大“长宽比”深井基坑的施工过程产生的影响。研究结果表明:基坑最大剪应变主要发生在基坑内部的“临空”边缘面;基坑开挖过程的模拟结束后基坑内现存的剪切破坏区主要存在于开挖基坑与地连墙边缘接缝处,而现存的拉伸破坏区主要存在于开挖基坑的临空边缘处;地下连续墙周围塑性区较少。在使用分段依次开挖方法进行基坑施工时,应尤其注意基坑内部的临空边缘面,避免发生垮塌危害;同时地下连续墙可以有效避免了基坑以外土层的坍塌陷落,在控制成本的情况下应尽量使用。

临水强透水地层船闸基坑帷幕防渗与管井降水措施研究

临水强透水地层总是伴随着高地下水的特点,对于该地层的基坑施工易造成许多危害和不利影响,因此需要采用帷幕和管井的防渗降水措施,目前对于帷幕和管井的防渗降水效果的评价方式仍处于探索阶段。利用ABAQUS有限元计算软件,分别对帷幕和管井作用下的基坑渗流特征进行研究,采用单宽渗流量、帷幕降水深度、边坡水位作为帷幕防渗效果的评价标准,采用管井流量和边坡水位作为管井降水效果的评价标准,对帷幕深度和帷幕距基坑的距离以及管井深度、管井间距和管井半径进行敏感性分析,并对帷幕管井共同作用下帷幕和管井的防渗降水效果进行分析,为船闸基坑工程中帷幕和管井的布置方案提供设计依据。

深基坑管井降水施工水泵损坏率降低策略分析

深基坑管井降水施工时往往出现水泵损坏,水泵损坏率高不仅影响基坑支护的安全性能,还导致重大经济损失,延误建设工期。本文就深基坑管井降水施工水泵损坏率降低策略进行阐述。

紧邻既有建筑物含流砂层深基坑管井降水施工技术研究

文中分析了深基坑管并降水技术,包括管井施工步骤及案例分析,通过合理应用相关技术,实现对基坑地下水的有效控制,保护了既有建筑的安全,同时取得了较高的社会效益和经济效益。

降水回灌对卵石地层沉降的影响分析

北京地铁房山线丰益桥南站结构深度多位于地下水位线以下,施工过程中为达到无水施工目的必须降水。为有效的保护和利用地下水资源,将降水抽出的水资源回灌至地下相同水层。本课题探索降水回灌对卵石地层沉降的影响分析。通过现场回灌水量监测、地表沉降监测、理论计算和数值分析计算,证明沉降理论计算和数值分析计算方法可为降水回灌对地层沉降变化分析提供较为准确的数据支持。根据分析结果可得出卵石地层降水回灌引起的地表沉降较小,对周边环境几乎无影响。

粤东城际车站基坑深层承压水控制方法研究

为合理控制基坑第四系深层承压水带来系列施工难题,以粤东城际铁路车站基坑工程为背景,首先采用抽水试验预测分析基坑场地的水文状况和基坑涌水量,然后基于预测分析结果提出基坑周边设置水位观测井兼回灌井的悬挂式地连墙+坑内泄压井降水减压的方案,运用可视化三维地下水流动模拟软件Visual Modflow模拟分析对基坑降水工程,通过对比分析,采用墙底封底方案进行降水控制。研究结果表明:(1)该车站基坑场地内为海相、海陆交互相沉积地层,共有3层承压水,局部隔水层缺失存在越流天窗,抽取第3层承压水将造成各含水层的水位下降,存在越流补给;(2)经过结构分析及实际施工证明,利用墙底封底方案,可将水文状况复杂条件下的软土地区基坑施工过程中的基坑底抗突涌稳定性控制在规定安全范围;(3)在不同嵌固深度地连墙情况下坑外地下水的降深有显著有影响。

灌区泵站工程中的基坑井点降水设计

本文探究了某灌区泵站工程中基坑井点降水方案的设计要点。在确定基坑总涌水量的基础上,分别求得井点管的长度、直径、数量以及抽水总管直径等参数;根据水泵扬程和流量计算结果,选择175QJ80-33-11型潜水泵,该泵的设计流量为80 m3/h,额定扬程35 m,可满足本工程中基坑井点降水的要求;采用胶管链接法将井点管与抽水总管连接起来,采用基于双向闸刀的双电源供电,保证了井点降水系统的可靠运行。通过设计基坑井点降水方案,为后续灌区泵站工程中降水井的开挖与井点抽水系统的安装提供了参考。

P110S油管在无固相压井液中点蚀成因分析

分析P110S油管在井下无固相压井液环境中发生点蚀的原因。经检测油管的合金成分和组织无异常;通过对压井液注入前后的化学性质和腐蚀产物的分析,判断压井液入井后有酸性物质混入,且腐蚀产物中存在CO_(2)腐蚀特征产物FeCO_(3);通过高温高压腐蚀模拟试验再现油管点蚀现象,确定了P110S油管在无固相压井液中的点蚀是因为井下CO_(2)溶入压井液后引起油管发生CO_(2)腐蚀。对于井下工况不甚明朗的作业管柱选材,建议依据前期探明的井下工况选用具有更高耐蚀性能的管材,提高管柱腐蚀冗余,从而避免管柱腐蚀失效带来的安全隐患和经济损失。

复杂环境下建筑工程深基坑施工技术研究

面对复杂的施工环境和地质条件,地下工程总体呈现出“深、大、近、紧、难”的施工特征,深基坑变形性状各有不同。鉴于此,文中以长治市乐苑三区7#~9#楼深基坑工程为例,分析技术方案和施工要点,以期规范施工技术、强化施工质量、保障施工安全。