基于超声波带波导的分布式温度传感器

2024 IEEE Applied Sensing Conference (APSCON) Pub Date : 2024-01-22 DOI:10.1109/APSCON60364.2024.10466009

Arun Valabhoju

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引用次数: 0

摘要

超声波波导技术最常用于监测恶劣环境中的温度。一个波导可用作多个传感器。在本研究中，我们制作了一个由适当长度的反射器（孔）组成的薄带状波导，并在脉冲回波技术中使用了一个剪切波传感器（0.5 MHz）来传播 $S_{0}$ 波模式。带状波导安装在管道上，用于监测不同位置的温度。在一对反射器之间收集的飞行时间差 $\left(\delta T_{F}\right)$ 被用来与校准的 K 型热电偶在不同温度下测得的温度相关联。为校准波导传感器进行了一系列实验。结果表明，在测量铜管上多个位置的温度时，校准后的波导传感器和热电偶读数非常吻合。所开发的用于测量多个位置温度的单条波导传感器使用方便、经久耐用、价格低廉。即使在难以进入的区域，它也能跟踪温度。

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Ultrasonic Strip Waveguide-Based Distributed Sensor for Temperature Monitoring

Ultrasonic waveguide techniques are most familiar to monitor temperatures in the hostile environments. A single waveguide could be used as multiple sensors. In the present work, a thin strip waveguide comprising reflectors (holes) at appropriate gauge length was fabricated, and a shear wave transducer (0.5 MHz) was used in the pulse echo technique to propagate $S_{0}$ wave mode. The strip waveguide was mounted on the pipe to monitor temperatures at various locations. The Difference in flight time $\left(\delta T_{F}\right)$ collected between pair of reflectors was used to correlate with the temperatures measured by calibrated K-type thermocouple at various temperature instances. A set of experiments were carried out to calibrate waveguide sensor. It was observed that the calibrated wave guide sensor and thermocouple readings are good in agreement while measuring the temperatures at multiple locations on a Copper pipe. The developed single strip waveguide sensor for measuring temperatures at multiple locations is easy to use, durable, and affordable. It is suitable to track the temperatures even for difficult to access regions.

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来源期刊

2024 IEEE Applied Sensing Conference (APSCON)

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