Research and Development of Viscous Fluid Dampers for Improvement of Seismic Resistance of Thermal Power Plants: Part 4 — Experimental Study on Environmental Applicability and Durability of Damper

Volume 8: Seismic Engineering Pub Date : 2018-07-15 DOI:10.1115/PVP2018-84556

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

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Abstract

A purpose of this study is an improvement of seismic proof construction for power plants to supply power stably at an emergency. At present, the most common type of power generation in Japan is thermal. In particular, coal-fire becomes base load power. A proposal of this study is that boiler structure is applied vibration control. The way is that a damper used viscous fluid is set instead of stopper between the boiler and the support structure. However, inside temperature of the boiler structure is higher than the environment of the general because it uses burning of coal and steam. Therefore, this paper shows that the damper has applicability for the environment of the boiler structure. Then it is necessary for structures to endure earthquake with long duration and long period component in Japan. The 2011 off the Pacific coast of Tohoku Earthquake had the largest energy in history of Japan with them. The damage occurred not only in Tohoku but also in far Tokyo and Osaka. Moreover, it is predicted that large earthquakes with them at the south Pacific coast of Japan occur. This paper shows that the developed damper is effective in earthquake with these characteristics by analyses and component tests.

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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4部分-阻尼器的环境适用性和耐久性试验研究

本文的研究目的是为了提高电厂在紧急情况下稳定供电的抗震结构。目前，日本最常见的发电方式是热能发电。特别是燃煤发电成为基负荷发电。本研究的一个建议是对锅炉结构进行振动控制。该方法是在锅炉与支撑结构之间设置一个粘性流体阻尼器代替挡板。但由于采用煤和蒸汽燃烧，锅炉结构内部温度高于一般环境。因此，本文表明该阻尼器对锅炉结构环境具有适用性。因此，日本的结构需要承受长持续时间和长周期构件的地震。2011年太平洋沿岸的东北地震产生了日本历史上最大的能量。破坏不仅发生在东北，也发生在遥远的东京和大阪。此外，据预测，日本南太平洋沿岸也会发生大地震。通过分析和构件试验，表明所设计的减振器在具有这些特性的地震中是有效的。

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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