Research and Development of Viscous Fluid Dampers for Improvement of Seismic Resistance of Thermal Power Plants: Part 5 — Influence of Damper Properties on Lifetime

Volume 8: Seismic Engineering Pub Date : 2018-07-15 DOI:10.1115/PVP2018-84514

K. Aida, K. Minagawa, Go Tanaka, S. Fujita

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Abstract

In 2011, Great East Japan Earthquake that is the largest earthquake ever observed in Japan occurred. The earthquake had large energy, long duration and many aftershocks, and coal-fired thermal power plants were damaged by the earthquake [1]. Boiler structures in coal-fired thermal power plants are generally high-rise structures, and boilers are simply suspended from the top of the support structures in order to allow thermal expansion, so boilers easily vibrate [2]. In order to suppress vibration of boilers during earthquakes, stoppers are generally set between boilers and support structures. The stoppers are made of steel, and dissipate vibration energy by plastic deformation. However aseismic requirements for thermal power plants have been increased as a result of the Great East Japan Earthquake. Thus authors have developed a vibration control damper for coal-fired power plants. The damper is set instead of conventional stopper. Construction of the damper is similar to oil dampers, but inner fluid is viscous fluid. In PVP 2017, the basic performance of the proposed damper was presented [3–5]. In this paper, influence of damper properties on lifetime of the damper was investigated by seismic response analyses. In addition, lifetime of dampers for long period and long duration earthquake waves were investigated by seismic response analyses.

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提高火电厂抗震性能的粘性流体阻尼器的研究与开发:第5部分-阻尼器性能对寿命的影响

2011年，日本发生了有史以来最大的地震——东日本大地震。此次地震能量大、持续时间长、余震多，燃煤火力发电厂受到地震破坏。燃煤火电厂的锅炉结构一般为高层结构，为了允许热膨胀，锅炉简单地悬挂在支撑结构的顶部，因此锅炉容易发生振动。为了抑制地震时锅炉的振动，一般在锅炉与支撑结构之间设置挡板。止动器为钢制，通过塑性变形来耗散振动能。然而，由于东日本大地震，对火力发电厂的抗震要求增加了。为此，笔者研制了一种适用于燃煤电厂的振动控制阻尼器。该减振器取代了传统的挡板。阻尼器的结构类似于油阻尼器，但内部流体为粘性流体。在PVP 2017中，提出了该阻尼器的基本性能[3-5]。本文通过地震反应分析，研究了减振器性能对减振器寿命的影响。此外，通过地震反应分析研究了阻尼器在长周期和长持续地震波作用下的寿命。

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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Volume 8: Seismic Engineering

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