Permanent earthquake‐induced actions in buried pipelines: Numerical modeling and experimental verification     

《地震工程与结构动力学》2018,47(4):966-987

Buried pipelines are often constructed in seismic and other geohazard areas, where severe ground deformations may induce severe strains in the pipeline. Calculation of those strains is essential for assessing pipeline integrity, and therefore, the development of efficient models accounting for soil‐pipe interaction is required. The present paper is aiming at developing efficient tools for calculating ground‐induced deformation on buried pipelines, often triggered by earthquake action, in the form of fault rupture, liquefaction‐induced lateral spreading, soil subsidence, or landslide. Soil‐pipe interaction is investigated by using advanced numerical tools, which employ solid elements for the soil, shell elements for the pipe, and account for soil‐pipe interaction, supported by large‐scale experiments. Soil‐pipe interaction in axial and transverse directions is evaluated first, using results from special‐purpose experiments and finite element simulations. The comparison between experimental and numerical results offers valuable information on key material parameters, necessary for accurate simulation of soil‐pipe interaction. Furthermore, reference is made to relevant provisions of design recommendations. Using the finite element models, calibrated from these experiments, pipeline performance at seismic‐fault crossings is analyzed, emphasizing on soil‐pipe interaction effects in the axial direction. The second part refers to full‐scale experiments, performed on a unique testing device. These experiments are modeled with the finite element tools to verify their efficiency in simulating soil‐pipe response under landslide or strike‐slip fault movement. The large‐scale experimental results compare very well with the numerical predictions, verifying the capability of the finite element models for accurate prediction of pipeline response under permanent earthquake‐induced ground deformations.  相似文献   

2012年江苏扬州M 4.9地震前地磁垂直分量日变双低点异常     

郭明瑞  胡久常  吴佳林  王桂丹  王锡娇  崔泽岩 《地震地磁观测与研究》2018,39(3):89-93

2012年6月13日和7月10日华东地区部分地磁台垂直分量日变形态出现双低点异常，首次异常出现后37天，于7月20日发生江苏扬州M 4.9地震，震中位于低点位移分界线附近。分析认为，在强震前由于应力变化，引起孕震体环境中介质电导率等电磁性质发生改变，区域地磁场垂直分量日变曲线出现相位和幅度变化，说明地磁垂直分量日变双低点异常与地震的孕育和发生相关。  相似文献   

临汾地震台垂直摆倾斜观测资料阶变异常分析     

张红秀  罗振东  邰垣东  郭国祥 《地震地磁观测与研究》2018,39(4):154-157

对临汾地震台垂直摆倾斜观测资料中记录到的阶变型异常图像进行分析，对异常成因进行探讨，希望对观测数据异常判断、数据预处理及地震预测预报的应用研究，提供一定参考。  相似文献   

宝昌地震台VP型宽频带垂直摆倾斜仪干扰因素分析     

贾昕晔  贾彦杰  白少奇  闫纪文 《地震地磁观测与研究》2018,39(5):131-135

选取2014年、2016年5月、2017年1-9月宝昌地震台VP型宽频带垂直摆倾斜仪观测资料，针对观测山洞湿度、雷电、人为因素等干扰，与正常时段光滑、噪声低的正弦固体潮观测曲线进行对比分析，通过对干扰因素进行分析与排除，可提高形变观测资料质量，为准确识别震兆异常提供参考。  相似文献   

水动力条件对沉积物-水界面氧通量的影响   总被引：2，自引：0，他引：2  

郑阳华  邹浩东  何强  李宏  张青  陈德敏  艾海男 《湖泊科学》2018,30(6):1552-1559

氧环境决定了水体沉积物中各种生命所需元素的最终归趋，沉积物-水界面是水相与沉积物相氧传递的重要场所，而水动力条件是影响沉积物-水界面氧传递的重要因素.选择三峡库区一级支流御临河为研究对象，根据长年监测数据建立实验室模型，采用声学多普勒流速测试仪及微电极测试系统构建了非侵入式涡度相关测试系统，探究了不同水动力条件对沉积物-水界面氧通量的影响.结果表明：水体静止状态下沉积物-水界面溶解氧浓度随时间的增加而减少，非静止状态下随时间的增加而增加；沉积物-水界面氧通量随水体流速的增加而增加.根据氧通量求解对应流速下垂直涡动扩散系数并进行线性拟合，当水体流速为0.01~0.14 m/s时，垂直涡动扩散系数与水体流速的相关性最好，此时沉积物-水界面氧通量的传递以涡动扩散为主导.  相似文献   

中国东北及邻区竖直向地震动强度包络函数参数的确定及其衰减关系     

张美玲  张天雷  杜秋男  张永刚  王建勋  高东辉 《地震地磁观测与研究》2020,41(4):11-17

选用2008—2019年中国东北及邻区27次地震竖直向105条强震动记录，以三段式强度包络函数模型为目标，利用加权最小二乘回归方法，尝试建立了东北及邻区竖直向地震动时程强度包络函数参数的衰减公式，以使我国的地震动区域划分更具有普遍性。同以往的研究类似，上升段持时t₁和平稳段持时t_s的确定方法采用了70%能量持时法。所选地震的震级为3.3—5.8级，最大震中距为371 km。基于土层场地的竖直向记录，通过与我国目前常用的时程强度包络函数参数的衰减关系进行对比分析发现，t₁与震级之间有明显的相关性，实际应用中应考虑震级对t₁的影响；地震整体持时较短造成t_s上升趋势随距离的增加而变缓；下降段由衰减系数c的变化可见，记录整体衰减较快。  相似文献   

Vertical vibration of a rigid strip footing on viscoelastic half-space     

Changjie Zheng  Lubao Luan  George Kouretzis  Xuanming Ding 《国际地质力学数值与分析法杂志》2020,44(14):1983-1995

This paper presents an analytical method for modeling the dynamic response of a rigid strip footing subjected to vertical-only loads. The footing is assumed to rest on the surface of a viscoelastic half-space; therefore, effects of hysteretic soil damping on the impedance of the foundation and the generated ground vibrations are considered in the solution. To solve the mixed boundary value problem, we use the Fourier transform to cast a pair of dual integral equations providing contact stresses, which are solved by means of Jacobi orthogonal polynomials. The resulting soil and footing displacements and stresses are obtained by means of the Fourier inverse transform. The solution provides more realistic estimates of footing impedance, compared to existing solutions for elastic soil, as well as of the attenuation of ground vibrations with distance of the footing. The latter is important for the estimation of machine vibration effects on nearby structures and installations.  相似文献   

深海滑坡灾害的物质点法模拟     

董友扣  马家杰  王栋  RANDOLPH Mark 《海洋工程》2019,37(5):141-147

深海滑坡可以沿着斜坡搬运大量沉积物,是危害巨大的海洋地质灾害之一。评估深海滑坡的流滑机制并量化分析其对海底结构物的冲击对海洋资源的开发利用至关重要。采用物质点法对滑坡的滑动特性进行了总应力分析。设计了三组不同的土体、海床参数,展现了三种不同的滑动形态:延展、块体和扩张。随后复现了流滑体对部分暴露管线的冲击过程,并对冲击力的稳定值进行了分析,分析中考虑了流滑体的惯性、抗剪强度和静压力的影响。研究表明,物质点法能够用于模拟深海滑坡的流滑过程及其对海底结构物的冲击,可以为海洋工程中的实际设计工作提供服务。  相似文献   

利用大地水准面模型计算垂线偏差的方法及精度分析     

李伟超  张兴福  陈智伟  崔家武 《大地测量与地球动力学》2019,39(8):843-848

根据大地水准面与垂线偏差的关系，设计合理的计算方案，给出利用大地水准面模型计算垂线偏差的简化公式，并通过模拟计算探讨大地水准面相对精度、取点间距和已知点选取及个数对计算结果的影响。利用GEOID12B模型分别计算GSVS2011、GSVS2014项目中各测站点和美国西部区域（40°~45°N，100°~105°W，分辨率为1′）的垂线偏差，并与GSVS项目垂线偏差实测值和DEFLEC12B模型值进行比较。结果表明，垂线偏差南北分量和东西分量的计算精度均优于±0.5″，说明利用相对精度为cm甚至亚cm级的大地水准面模型可获取较高精度的垂线偏差。  相似文献   

Variability in the vertical hyporheic water exchange affected by hydraulic conductivity and river morphology at a natural confluent meander bend          下载免费PDF全文

Jinxi Song  Guotao Zhang  Weize Wang  Qi Liu  Weiwei Jiang  Weiqiang Guo  Bin Tang  Haifeng Bai  Xinyi Dou 《水文研究》2017,31(19):3407-3420

River confluences and their associated tributaries are key morphodynamic nodes that play important roles in controlling hydraulic geometry and hyporheic water exchange in fluvial networks. However, the existing knowledge regarding hyporheic water exchange associated with river confluence morphology is relatively scarce. On January 14 and 15, 2016, the general hydraulic and morphological characteristics of the confluent meander bend (CMB) between the Juehe River and the Haohe River in the southern region of Xi'an City, Shaanxi Province, China, were investigated. The patterns and magnitudes of vertical hyporheic water exchange (VHWE) were estimated based on a one‐dimensional heat steady‐state model, whereas the sediment vertical hydraulic conductivity (K_v) was calculated via in situ permeameter tests. The results demonstrated that 6 hydrodynamic zones and their extensions were observed at the CMB during the test period. These zones were likely controlled by the obtuse junction angle and low momentum flux ratio, influencing the sediment grain size distribution of the CMB. The VHWE patterns at the test site during the test period mostly showed upwelling flow dominated by regional groundwater discharging into the river. The occurrence of longitudinal downwelling and upwelling patterns along the meander bend at the CMB was likely subjected to the comprehensive influences of the local sinuosity of the meander bend and regional groundwater discharge and finally formed regional and local flow paths. Additionally, in dominated upwelling areas, the change in VHWE magnitudes was nearly consistent with that in K_v values, and higher values of both variables generally occurred in erosional zones near the thalweg paths of the CMB, which were mostly made up of sand and gravel. This was potentially caused by the erosional and depositional processes subjected to confluence morphology. Furthermore, lower K_v values observed in downwelling areas at the CMB were attributed to sediment clogging caused by local downwelling flow. The confluence morphology and sediment K_v are thus likely the driving factors that cause local variations in the VHWE of fluvial systems.  相似文献