Study for the Construction of Gas Leak Detection System in Nuclear Power Plants Using Ultrasound

Volume 15: Student Paper Competition Pub Date : 2022-08-08 DOI:10.1115/icone29-91695

Seigo Kai, Takeshi Moriya, Naruki Shoji, G. Endo, H. Takahashi, H. Kikura

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Abstract

On March 11, 2011, a serious accident occurred at the Fukushima Daiichi Nuclear Power Plant of Tokyo Electric Power Company Holdings, Inc. due to the Great East Japan Earthquake and tsunami. Currently, nitrogen gas is used to fill the reactor containment vessel, pressure vessel, and plant piping to prevent a hydrogen explosion. Gas leak detection technology is needed to maintain and control the integrity of nitrogen gas containment and to ensure plant safety, as well as to identify the leak location in the event of a leak and understand the nature of the leak before plugging the leak location. However, because of the high radiation environment in the plant, it is not practical for a person to enter the plant to detect gas leakage. Therefore, there is a need for a leak detection method for gases that can be used in a radiation environment, and that is compact, measurable, and can be loaded by robots. In this study, we focused on acoustic gas leak detection as a leak detection technique. The characteristics of ultrasound generated by gas leakage were investigated for the development of gas leak detection technology and source localization system in nuclear reactors.

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核电站气体泄漏超声检测系统的构建研究

2011年3月11日，受东日本大地震和海啸影响，东京电力控股公司福岛第一核电站发生严重事故。目前，氮气被用来填充反应堆安全壳、压力容器和工厂管道，以防止氢气爆炸。气体泄漏检测技术需要保持和控制氮气容器的完整性，确保工厂的安全，以及在发生泄漏时识别泄漏位置，并在封堵泄漏位置之前了解泄漏的性质。但由于电站内辐射环境高，让人进入电站内检测气体泄漏是不现实的。因此，需要一种可以在辐射环境中使用的气体泄漏检测方法，这种方法紧凑，可测量，并且可以由机器人装载。在本研究中，我们将声学气体泄漏检测作为一种泄漏检测技术。为开发核反应堆气体泄漏检测技术和气源定位系统，研究了气体泄漏产生的超声波特性。

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Volume 15: Student Paper Competition

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