Eficiencia de un amortiguador de columna de líquido considerando una excitación sísmica de alto contenido de frecuencias e incertidumbre

Obras y proyectos Pub Date : 2021-06-01 DOI:10.4067/s0718-28132021000100067

G. Espinoza, J. Saavedra, Kristel Gajardo, Álvaro Suazo, C. Cifuentes

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引用次数: 1

Abstract

the efficiency measured as reduction of main system displacement and on the root mean square (RMS) displacement of the structure is analysed. An equivalent statistical linearization is performed to include the non-linear nature of the TLCD. The optimal TLCD parameters are the frequency ratio and the pressure drop coefficient. TLCD optimization is performed by minimizing the standard deviation reduction of mainframe displacement. The uncertainty is entered into the mass ratio, length ratio, and head loss coefficient. The behaviour of the efficiency is analysed, measured as a percentage reduction of the displacement when including an optimal TLCD and the RMS of the displacement, before the inclusion of uncertainty in the aforementioned parameters. It is found that the introduction of uncertainty in the period of the structure produces the highest sensitivity in the optimal parameters of the TLCD, the efficiency and the RMS of the displacement of the structure. This occurs mainly in rigid structures and with a small mass ratio. On the other hand, an uncertainty in the mass ratio, and length ratio of the TLCD does not produce variations in the efficiency or in the RMS of displacement of the structure.

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考虑高频率和不确定性地震激发的液柱阻尼器的效率

分析了以减少主系统位移和结构均方根位移为衡量指标的效率。执行等效的统计线性化，以包括TLCD的非线性性质。最佳的TLCD参数为频率比和压降系数。TLCD优化是通过最小化主机位移的标准差减小来实现的。不确定度计入质量比、长度比和水头损失系数。在包含上述参数的不确定性之前，分析了效率的行为，以包含最佳TLCD和位移的RMS时的位移减少百分比进行测量。研究发现，结构周期不确定性的引入对TLCD最优参数、结构位移效率和均方根的灵敏度最高。这主要发生在刚性结构和质量比小的结构中。另一方面，TLCD的质量比和长度比的不确定性不会对结构的效率和位移均数产生影响。

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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Obras y proyectos

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