回填土不确定性对场地地震反应的影响          下载免费PDF全文

张海  陈贺  尤红兵  李克强 《地震工程学报》2019,41(2):370-377

选取某核电场地控制性钻孔的厚度、剪切波速、密度等实际勘探数据,通过改变回填土剪切波速,分析了回填土不确定性对场地地震动参数的影响。研究结果表明:在回填土层厚度不变和模型总厚度不变的情况下,地表的水平向峰值加速度随着回填土剪切波速的增大而减小,但水平向峰值加速度增幅逐渐减小;回填土剪切波速到达一定的波速就不再影响地表水平峰值加速度;随着回填土剪切波速的增加,整个反应谱的谱值都普遍减小。  相似文献   

近场地震下竖向刚度不同的混合结构动力性能分析   总被引：1，自引：0，他引：1       下载免费PDF全文

马肖彤  包超  张立新  徐芳泽  陆华 《地震工程学报》2019,41(4):860-865

近场地震的动力特性明显不同于远场地震,因此有必要对结构在近场地震作用下的动力性能展开研究。以上部钢结构-下部混凝土结构这类竖向刚度不同的加层混合结构为研究对象,对其在近场脉冲型地震、近场无脉冲型地震及远场地震作用下的动力响应进行研究。结果表明:在多遇、设防、罕遇地震作用下,近场脉冲型地震会使结构的层间位移角、层间剪力、加速度等动力响应均放大并出现超限的情况,而且都比罕遇地震作用下结构的响应增大更明显;在进行近场区加层混合框架结构的设计和建设时,近场脉冲效应会使结构存在不满足规范的情况,有必要对竖向刚度不同的加层混合结构在近场区的适用性进行深入研究。  相似文献   

多通道瞬变电磁法频率域比值算法及视电阻率计算研究          下载免费PDF全文

张文伟  真齐辉  底青云 《地球物理学报》2018,61(10):4171-4181

视电阻率在电磁法勘探中起重要作用，可以作为初步解释结果，多通道瞬变电磁法通过大地脉冲响应的峰值时刻定义视电阻率.鉴于传统方法计算峰值时刻视电阻率需要恢复完整大地脉冲响应，本文通过研究大地脉冲响应及其频谱特征，提出一种新的频率域比值法.利用参考谱及其与一般谱的伸缩因子计算一般谱的峰值时刻，进而得到视电阻率.该方法只需大地脉冲响应单个频点幅度谱，从而不用估计整个大地脉冲响应.实际计算时，可以用大地脉冲响应多个频点幅度谱得到平均视电阻率.模拟数据与实测数据结果表明，在一维介质中，频率域比值法可以得到合理的视电阻率.  相似文献   

饱和土体-地下综合管廊结构地震响应分析          下载免费PDF全文

蒋录珍  李双飞  石文倩  安军海  陈艳华 《地震工程学报》2018,40(6):1224-1230

将土体视为固-液两相介质,基于饱和土体有效应力原理,建立饱和土体-地下综合管廊结构体系相互作用动力模型:在地应力平衡的静力状态下采用Duncan-Chang非线性弹性本构模型,在地震波作用的动力状态下采用Davidenkov非线性黏弹性本构模型;考虑饱和土体黏弹性动力人工边界条件,将地震动作用转化为作用在人工边界节点上的动力荷载。模型考察不同地震波时程、地震波加速度峰值、入射角度、孔隙率以及地应力场的影响,得出如下结论:(1)地震波的卓越周期与场地卓越周期相近时引起结构上的变形最大;随着地震波加速度峰值的增大结构变形增大;随着地震波入射角度的增加结构变形增大,地震波斜入射情况下产生的行波效应使得结构变形最大。(2)土体材料的孔隙水压力是影响地震中结构变形的主要因素之一。(3)将土体材料考虑为单相介质时结构上的变形要比考虑为固-液两相介质时大得多,直接将饱和土体场地中得到的地震波等效荷载施加到单相土介质-结构动力相互作用模型上,能够得到与完全基于有效应力法一致的结果。  相似文献   

西北太平洋上层海洋对台风响应的个例研究     

张志伟 《海洋通报》2019,38(5):562-568

基于数字台风网、欧洲中心ERA-Interim、美国国家海洋与大气局以及中国Argo实时资料中心的资料研究了西北太平洋上层海洋对台风"奥鹿"的响应。研究结果表明,当"奥鹿"移动速度在2 m/s以下时,强风应力产生的Ekman泵是上层海洋响应的主要机制,移动速度越慢,Ekman抽吸速率(EPV)越大,海表温度(SST)降温持续时间短,冷尾迹出现在台风中心位置处。当"奥鹿"移动速度达到6 m/s以上时,持续风应力驱动的惯性泵是主导机制,SST降温持续时间长,冷尾迹出现在台风路径的右侧。惯性泵比Ekman泵持续的时间长,但Ekman泵影响深度比惯性泵大得多。在"奥鹿"经过西北太平洋时,混合层深度(MLD)变浅并伴随着"冷抽吸"作用的出现。上层海洋中"冷抽吸"现象较"热泵"现象影响深度深,持续时间长,在"奥鹿"过境后可持续20天以上。  相似文献   

Dynamic modeling and vibration suppression for an offshore wind turbine with a tuned mass damper in floating platform     

《Applied Ocean Research》2019

The worldwide demand for renewable energy is increasing rapidly. Wind energy appears as a good solution to copy with the energy shortage situation. In recent years, offshore wind energy has become an attractive option due to the increasing development of the multitudinous offshore wind turbines. Because of the unstable vibration for the barge-type offshore wind turbine in various maritime conditions, an ameliorative method incorporating a tuned mass damper (TMD) in offshore wind turbine platform is proposed to demonstrate the improvement of the structural dynamic performance in this investigation. The Lagrange's equations are applied to establish a limited degree-of-freedom (DOF) mathematical model for the barge-type offshore wind turbine. The objective function is defined as the suppression rate of the standard deviation for the tower top deflection due to the fact that the tower top deflection is essential to the tower bottom fatigue loads, then frequency tuning method and genetic algorithm (GA) are employed respectively to obtain the globally optimum TMD design parameters using this objective function. Numerical simulations based on FAST have been carried out in typical load cases in order to evaluate the effect of the passive control system. The need to prevent the platform mass increasing obviously has become apparent due to the installation of a heavy TMD in the barge-type platform. In this case, partial ballast is substituted for the equal mass of the tuned mass damper, and then the vibration mitigation is simulated in five typical load cases. The results show that the passive control can improve the dynamic responses of the barge-type wind turbine by placing a TMD in the floating platform. Through replacing partial ballast with a uniform mass of the tuned mass damper, a significant reduction of the dynamic response is also observed in simulation results for the barge-type floating structure.  相似文献   

Nonlinear dynamic tests of a reinforced concrete frame building at different damage levels     

Seyedsina Yousefianmoghadam  Mingming Song  Mohammad Ebrahim Mohammadi  Brittany Packard  Andreas Stavridis  Babak Moaveni  Richard L. Wood 《地震工程与结构动力学》2020,49(9):924-945

This paper discusses the dynamic tests of a two-story infilled reinforced concrete (RC) frame building using an eccentric-mass shaker. The building, located in El Centro, CA, was substantially damaged prior to the tests due to the seismic activity in the area. During the testing sequence, five infill walls were removed to introduce additional damage states and to investigate the changes in the dynamic properties and the nonlinear response of the building to the induced excitations. The accelerations and displacements of the structure under the forced and ambient vibrations were recorded through an array of sensors, while lidar scans were obtained to document the damage. The test data provide insight into the nonlinear response of an actual building and the change of its resonant frequencies and operational shapes due to varying damage levels and changes of the excitation amplitude, frequency, and orientation.  相似文献   

基于反应位移法的复杂软土盾构隧道横断面抗震分析          下载免费PDF全文

刘前  刘瑜  梁建文  巴振宁  吴泽群  王智恺 《地震工程学报》2020,42(5):1217-1224

采用反应位移法，利用ABAQUS软件建立梁-弹簧有限元模型，进行复杂软土场地中盾构隧道横断面抗震分析，并结合天津滨海Z2线软土盾构隧道进行计算。研究表明，在地震作用下，最大弯矩值和剪力值一般出现在拱肩位置，最大轴力值一般出现在拱腰附近；处于复杂地层附近的隧道结构内力值较大，应加强该位置处的抗震构造措施或在选线时尽量避免复杂场地。本文对复杂软土场地中盾构隧道横断面抗震设计具有一定参考价值。  相似文献   

地下结构抗震设计的改进等效反应加速度法     

禹海涛  张正伟  李攀 《岩土力学》2020,41(7):2401-2410

对地下结构横向抗震分析中的等效反应加速度法进行综合分析。结合算例，以动力时程法为基准，全面评价了等效反应加速度法的适用性；进而深入分析其误差来源，并做针对性改进优化，通过引入动力响应调整系数β，提出了一种改进等效反应加速度法；结合算例分析，评价了改进等效反应加速度法对不同工况的适用性。结果表明：等效反应加速度法计算所得结构内力及变形均偏小；且计算精度随地层剪切波速的增大整体呈上升趋势，但几乎不受结构埋深的影响；同时，明确了等效反应加速度法的误差源自于其忽略了地下结构对其周围土体动力响应的干扰作用，改进优化后提出了改进等效反应加速度法；相比现有等效反应加速度法，改进等效反应加速度法具有更广泛的适用性及更优的计算精度，可为地下结构抗震设计和分析提供新的计算方法。  相似文献   

Analytical solution of seismic response of base-isolated structure with supplemental inerter     

Kun Ye  Shuai Shu  Liang Hu  Hongping Zhu 《地震工程与结构动力学》2019,48(9):1083-1090

Closed-form solutions are derived for the modal characteristics and seismic response of a base-isolated structure equipped with additional inerters. By simplifying the structure-isolator-inerter system in terms of the two-degree-of-freedom (2DOF) model, the modal frequencies, mode shapes, damping ratios, and participation factors of the system are derived. Consequently, analytical seismic response solutions are formulated by the modal superposition method. Utilizing these analytical solutions, an extensive parametric study has been carried out to investigate the effect of supplement inerters on both the modal characteristics and seismic response of the structure-isolator-inerter system. There is a critical inertance leading to the zero second modal participation factor (ie, the disappearance of the second modal response). The associated critical inertance ratio is derived in closed form as well. Moreover, it is observed that the reduction of deformation of isolators by increasing the inertance may be offset by the increase in relative displacements of the superstructure. To circumvent this adverse effect, an optimal range of inertance is identified whereby both the deformation of isolators and the relative displacement of the superstructure are mitigated concurrently.  相似文献