研究了不同边缘的超声反向能量随其二维/三维几何形状和入射角的函数关系,并将其应用于管道出口的超声测温

Marie-Aude Ploix , Gilles Corneloup , Joseph Moysan , Jean-Philippe Jeannot
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引用次数: 1

摘要

目前正在研究用于未来第四代钠冷快堆的创新超声仪器。这里正在研究的一个潜在选择是通过超声波监测核心出口的钠温度。超声波装置的主要优点是它们可以在远离预期组件的地方使用。这个想法是向(圆柱形)组件头部发送一个掠入射的超声波光束,并测量两个完全相反的边缘之间的超声波飞行时间,以估计整个组件出口直径的平均温度。此外,掠入射可以考虑同时监测几个对齐的子组件的温度。需要考虑的主要问题之一是超声光束与浸入目标之间的相互作用,其中涉及镜面反射和/或衍射,这两种现象取决于入射角和目标几何形状。本文主要从实验的角度来研究这种相互作用。在不同入射角下,对“2D”(板)和“3D”(管)边缘的不同几何形状进行了测试和比较。最后的目的是确定一个最佳的超声配置,以执行温度测量在一个浸入管的出口。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation of ultrasonic backward energy from various edges as a function of their 2D/3D geometry and of the incidence angle, for application to ultrasonic thermometry at the outlet of a tube

Innovative ultrasonic instrumentation to be used for future Generation IV sodium-cooled fast reactors is currently being investigated. One potential option under study here is the monitoring of the sodium temperature at the outlet of the core by using ultrasound. The main advantage of ultrasonic setups is that they can be used far from the intended subassemblies. The idea is to send an ultrasonic beam at grazing incidence towards the (cylindrical) subassembly head, and to measure the ultrasonic time of flight between the two diametrically opposite edges, in order to estimate the mean temperature across the subassembly outlet diameter. Moreover, the grazing incidence could allow considering the simultaneous temperature monitoring of several aligned subassemblies. One of the main points to be considered is the interaction between the ultrasonic beam and the immersed target, which involves specular reflection and/or diffraction, both phenomena depending on the incidence angle and the target geometry. The present paper investigates this interaction, mainly from an experimental point of view. Different geometries of “2D” (plate) and “3D” (tube) edges are tested and compared under various incidence angles. The final aim is to identify an optimal ultrasonic configuration to perform thermometry at the outlet of an immersed tube.

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