共查询到20条相似文献,搜索用时 640 毫秒
1.
2.
管道抗震设计规范有关地震作用的综述 总被引:2,自引:0,他引:2
本文通过介绍中国、日本、美国、英国、挪威的相关管道抗震规范,阐述了目前管道应变设计和性能设计的理念、方法以及对地震作用输入的要求。通过比较各国管道抗震设计规范,保证震后管道维持其服务功能的抗震设计理念已经得到了全世界范围的认可。现在的管道设计正向性能设计的方向发展,并提出了两级抗震设防的方法。其中,第二级以管道不发生泄漏为抗震设防目标,对管道的地震安全性评价工作提出了更高的要求,管道设计需要的地震动和地面永久变形参数也越来越多。在目前管道工程的地震安全性评价工作中,存在概率方法和确定性方法这两种方法并举的局面。针对管道的抗液化和滑坡设计,地面永久位移可以利用分解的地震安全性评价概率方法得到。针对管道的抗断设计,断层未来位错量的估计方法现在仍以确定性方法为主,概率方法因为断层位错量沿着破裂带的分布较为复杂仍有待进一步研究。 相似文献
3.
埋地管道地震作用下的破坏因素源于地震引起的永久地面变形(PGD),其中管道-土体间相互作用决定土体位移作用到管体的大小。利用离心机试验技术模拟埋地管道在逆断层大位移下的反应特性,重点讨论断层与管道的交角、断层位移大小、管土相互作用、管径和埋深五个参数对管道破坏的影响水平。实验结果表明:上述参数对管道断层作用的反应均有明显影响,其中断层的位移量、管土相互作用、埋深和管径的影响更为显著。本文的研究结果对于管道经过断层区的抗震设计有十分重要的意义。 相似文献
4.
在地震作用下,抗震支吊架理应保障建筑机电工程设施和管道系统均具备良好的服役性能。因此,对抗震支吊架的抗震性能进行检测至关重要。本文以某典型地下室抗震支吊架为对象开展了顺管向地震模拟振动台试验,通过多工况试验对比分析了不同支吊架的位移和加速度的地震响应。试验结果表明:抗震支吊架显著降低了管道位移,减振率最高可达到96%,但对于加速度响应的抑制作用较小。易损性分析表明:采用成品支吊架时,管道系统在遭受相当于设防烈度的地震作用时会发生严重损伤,而采用抗震支吊架的管道系统能够保全其功能。 相似文献
5.
室内管道系统抗震研究综述 总被引:1,自引:0,他引:1
根据最新震害统计资料发现,非结构构件在地震中造成的经济损失远大于结构构件。非结构构件按照地震反应特征可分为位移敏感型构件和加速度敏感型构件。其中,位移敏感型构件的破坏多受层间位移角控制,主要采用拟静力试验进行研究;加速度敏感型构件的破坏多受楼面加速度的控制,主要采用振动台试验进行研究。室内管道系统是非结构构件的重要组成部分,室内管道系统中的立管和水平管分别属于位移敏感型和加速度敏感型构件。本文系统地论述了近年来国内外学者开展的关于室内管道系统的抗震研究工作,并对室内管道系统下一步的研究工作提出了建议。 相似文献
6.
长输管道抗震研究的新进展 总被引:2,自引:0,他引:2
本文主要从以下4个方面:地震对长输管道的危害、长输管道震害的研究方法、管道抗震分析和管道抗震的措施,介绍了近几年长输管道抗震方面的研究进展,指出了今后长输管道的研究方向。 相似文献
7.
架空管道的地震破坏及其分析方法研究 总被引:1,自引:0,他引:1
在对高架管道所作震害分析的基础上,通过对实际架空管道脉动和张拉实测结果的分析,从理论和实测角度给出了架空管道的地震反应分析方法及计算模型。 相似文献
8.
目前管道的抗震设计已从过去的弹性设计向塑性设计发展、从原来的应力设计向应变设计发展,相继提出了极限状态设计、性能设计和后果设计.日本将埋地供水管道按照两级地震动水平设计,一级地震动水平(GML1 规定的地震复发周期为100~200年,二级地震动水平(GML2 则规定为一直接发生在该城市的6.8级地震,相当于阪神地震那种情况. 相似文献
9.
江苏油田腐蚀钢管抗震性能试验研究 总被引:2,自引:1,他引:1
对在高温高压恶劣环境中工作的原油集输管道进行了材质机械性能和结构强度的试验研究。结果表明:①腐蚀管道材质的强度极限应力σb和屈服极限应力σs的变化很小,故材质的机械性能无明显变化;②腐蚀管道焊缝的强度极限庆力仅为管材强度极限应力的55.13%;③腐蚀管道因局部点蚀造成的管壁穿孔,使管道的结构强度大幅度下降,塑性降低,延伸率减小,抗震性能明显削弱。试验研究结果给出了油田已建管道震害预测工作的评判依据 相似文献
10.
强烈地震引起的地面永久性大变形是导致埋地供水管线损坏的主要威胁之一。该研究借鉴链式结构的设计思想,基于传统承插式管道接口形式,研发了一种新型管道抗震接口,其可支持一定的轴向伸缩自由变形。当接口变形量达至极限状态时,接口发生自锁现象并能提供较高的抗拉承载力,进而带动相邻管道滑移,以抵消断层错动引起的变形量。针对新型抗震接口开展了轴向力学性能试验,并建立了跨断层下的管线数值模型;同时,数值结果与相关全尺寸试验进行对比验证。该研究以土体压实条件和断层穿越管道位置作为关键变量,研究了加固前后断层错动下承插式管道的力学响应。研究结果表明:提出的抗震接口能够有效地提高管道抵抗地面大变形能力,并且提高接口的轴向抗拉拔能力是提升管道抗断层错动能力的关键;对于松砂土跨断层下的承插式管道接口震损较为严重;断层穿越管道不同的位置会造成不同的接口变形规律;国内规范中管道接口的转角限值过于保守,不利于对跨断层承插式管道安全性能进行合理验算。 相似文献
11.
液化场地地下管线地震反应研究述评 总被引:1,自引:1,他引:0
本文简要介绍了地下管线的震害特征和主要影响因素。对国内外在液化场地地下管线方面的研究现状从试验研究和理论分析2个方面进行了论述并探讨了液化场地地下管线反应需进一步研究的一些问题。 相似文献
12.
地下管道震害预测实用方法的研究 总被引:2,自引:2,他引:2
本文根据震害调查分析和试验研究结果,建立了由环境因素和管道结构参对地下管道震害进行二级多因素模型综合评判的方法,文中给出了计算,评价构成二级评判因素地震烈,场地类型,工作状态和结构种类正态模糊范数ak的方法,并在地下管道震害关联分析和试验基础上,给出了二级模糊评判的权向量,本文为面广量大的已那建下管道的震害预测工作提供了一套方便实用的计算方法。 相似文献
13.
Earthquake response of underground lifeline engineering is investigated by the method of ultrasonic model experiments in this
paper. From general field conditions, two models of underground lifeline engineering, one for non-uniform field and the other
for uniform field, are designed based on the similarity principle. Besides analysis of seismic phases, a series of analyses
especially on particle vibration are carried out. The results show that:
The shorter the epicentral distance, the greater are the intensity variation and the change rate of intensity variation of
earthquake ground motion, so the more disadvantageous to underground pipelines. In soft covering layer, compressional waves
mainly cause radial flexures deformation, but shear wave result in axial dilation deformation of the pipelines; when the thickness
of the covering layer is smaller (less than seismic wave length), the rhythmic variation of the intensity of earthquake ground
motion is controlled mainly by the wave length of seismic waves in the bedrock. The property of the covering layer has considerable
effect on earthquake ground motion. For different covering layers, their effect on each component of earthquake ground motion
is not the same.
Owing to the effect of wave propagation, the ground is in different states of particle vibration at different times, and there
is considerable difference in phase and intensity of particle vibration between two different covering layers near their junction
line or surface. Because underground lifelines tend to vibrate with the particles of the earth around it, this results in
different deformation of underground pipelines under different conditions. So, it is necessary to take corresponding anti-seismic
countermeasures for pipelines according to their practical situations.
The Chinese version of this paper appeared in the Chinese edition ofActa Seismologica Sinica,14, 104–110, 1992.
This paper is part of the research supported by Funds of Doctoral Faculty of National Education Committee. 相似文献
14.
Walter W. Chen Ban-jwu Shih Yi-Chih Chen Jui-Huang Hung Howard H. Hwang 《Soil Dynamics and Earthquake Engineering》2002,22(9-12):1209-1214
In order to study the damage patterns of natural gas and water pipelines in the Ji-Ji earthquake, a GIS database and analysis procedures were established. Repair statistics was obtained from major natural gas companies and the Taiwan Water Supply Corporation (TWSC), and entered into the system. Then, repair rates (RR) were calculated. Previously, damage was analyzed without considering the corresponding pipeline material and diameters. In this study, new attempts were made to collect more data including those related to the composition of pipelines to provide a more detailed analysis of the relationship between earthquake forces and the resulting damage. Statistical analysis was also conducted to understand the correlation between RR and seismic parameters such as the peak ground acceleration, peak ground velocity, and spectrum intensity. 相似文献
15.
Seismic ground faulting is the greatest hazard for continuous buried pipelines.Over the years,researchers have attempted to understand pipeline behavior mostly via numerical modeling such as the finite element method.The lack of well-documented field case histories of pipeline failure from seismic ground faulting and the cost and complicated facilities needed for full-scale experimental simulation mean that a centrifuge-based method to determine the behavior of pipelines subjected to faulting is best to verify numerical approaches.This paper presents results from three centrifuge tests designed to investigate continuous buried steel pipeline behavior subjected to normal faulting.The experimental setup and procedure are described and the recorded axial and bending strains induced in a pipeline are presented and compared to those obtained via analytical methods.The influence of factors such as faulting offset,burial depth and pipe diameter on the axial and bending strains of pipes and on ground soil failure and pipeline deformation patterns are also investigated.Finally,the tensile rupture of a pipeline due to normal faulting is investigated. 相似文献
16.
17.
地下地震动频谱特点研究 总被引:6,自引:0,他引:6
本以美国加州强震观测计划(CSMIP)的6个岩土工程台阵的429条地表和地下地震动程为数据基础,按照各台阵场地土层分布情况将台阵分为七层和“上层/基岩”两类。对于同一类场地,将其中的各次地震,按照震级的大小将其分为三类;对于同一类地震,首先计算各地震的水下分量5%阻尼的反应谱以及相应的标准反应谱,并得到各深度测点相对于最深处测点的反应谱比值,分析比较两类场地下各深度反应谱的特点,另外,傅里叶谱也是本分析的一部分,通过对不同深度地下地震动的反应谱和傅氏谱的比较,得到了一些较有意义的结论,以供工程参考。 相似文献
18.
19.
Introduction The 21st century is the time for the exploitation and utilization of underground spaces. It is astrategic way to defeat the severe challenge that human are now confronting with, such as the lackof land, contamination of environment, traffic jam, waste of sources, and so on. The exploitationand utilization of underground space has become a global tendency, and a significant sign inevaluating the speed of modernization of cities. Facing the challenge, it is significantly necess… 相似文献
20.
Masanobu Shinozuka George Deodatis Ruichong Zhang Apostolos S. Papageorgiou 《Soil Dynamics and Earthquake Engineering》1999,18(3):182
State of the art in modeling, synthetics, statistical estimation, and engineering applications of strong ground motion is reported in this paper. In particular, models for earthquake wave motion are presented, in which uncertainties both in the earth medium and the seismic source are taken into consideration. These models can be used to synthesize realistic strong earthquake ground motion, specifically near-field ground motion which is quite often not well recorded in real earthquakes. Statistical estimation techniques are also presented so that the characteristics of spatially-correlated earthquake motion can be captured and consequently used in investigating the seismic response of such large scale structures as pipelines and long-span bridges. Finally, applications of synthesized strong ground motion in a variety of engineering fields are provided. Numerical examples are shown for illustration. 相似文献