Boundary effects on dynamic centrifuge modelling of onshore wind turbines on liquefiable soils

IF 1.2 4区工程技术 Q4 ENGINEERING, GEOLOGICAL

International Journal of Physical Modelling in Geotechnics Pub Date : 2022-04-11 DOI:10.1680/jphmg.21.00085

D. Gaudio, J. Seong, S. Haigh, Giulia M. B. Viggiani, G. Madabhushi, R. Shrivatsava, Ravikant Veluvolu, P. Padhy

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引用次数: 3

Abstract

Centrifuge modelling is an effective tool to assess the response of reduced-scale structures subjected to earthquakes under increased gravity. Space limitations, however, force the model to be contained within relatively small boxes, whose boundaries may affect the seismic performance of the structure under consideration. In this paper, the influence of the proximity of the boundaries of an Equivalent Shear Beam (ESB) container during dynamic centrifuge tests of an onshore wind turbine resting on liquefiable soils is evaluated. To this end, numerical modelling of the ESB box was implemented in the Finite Element framework OpenSees, to replicate the results observed in the experiment. The hydraulic and mechanical soil parameters were calibrated against far-field centrifuge results only. From this calibration, the seismic performance of the raft foundation turned out to be in a good agreement with the experimental results for a seismic input capable of triggering liquefaction. A larger numerical model, where boundaries do not play any role, was then built, to compare its outcomes with those of the small model, thus allowing the effect of ESB boundaries to be assessed.

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可液化土壤上陆上风力发电机动态离心模型的边界效应

离心机建模是评估在重力增加的情况下，小型结构在地震作用下的响应的有效工具。然而，空间限制迫使模型包含在相对较小的盒子中，盒子的边界可能会影响所考虑结构的抗震性能。本文评估了在可液化土壤上进行陆上风力涡轮机动态离心试验时，等效剪切梁（ESB）容器边界附近的影响。为此，在有限元框架OpenSees中实现了ESB盒的数值建模，以复制实验中观察到的结果。水力和机械土壤参数仅根据远场离心机的结果进行校准。通过这次校准，筏板基础的抗震性能与能够触发液化的地震输入的实验结果非常一致。然后建立了一个更大的数值模型，其中边界不起任何作用，将其结果与小模型的结果进行比较，从而可以评估ESB边界的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Physical Modelling in Geotechnics ENGINEERING, GEOLOGICAL-

CiteScore

3.60

自引率

15.80%

发文量

期刊介绍： International Journal of Physical Modelling in Geotechnics contains the latest research and analysis in all areas of physical modelling at any scale, including modelling at single gravity and at multiple gravities on a centrifuge, shaking table and pressure chamber testing and geoenvironmental experiments.