液氮中超声传感器的低温测试

J. C. Chung, M. M. Lee, S. Chun, I. Yang
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引用次数: 0

摘要

超声波流量测量是适用于低温环境的流量测量技术之一。与管道流量计或科里奥利质量流量计不同,超声波流量计需要在超声波传感器前面安装波导。波导可以防止热传导从超声波传感器到低温液体,如液氮。超声波传感器通过对波导进行隔热处理,可以在规定的温度范围内保持其压电性。本研究通过对一对超声波传感器进行低温测试,观察超声波能否通过液氮正常传输。一个直径为300毫米(相当于12英寸)的流量计电池被用作液氮的容器。在流量计单元中安装了三对超声波传感器。在其内壁上还安装了光纤传感器来测量液氮的温度。结果,超声波通过前置放大器成功地在一对超声波传感器之间传输。光纤传感器可以测量液氮的温度,但没有使用KRISS的参考温标进行校准。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Low Temperature Testing of Ultrasound Sensors in Liquid Nitrogen
Ultrasonic flow metering is one of flow measurement techniques applicable to low temperature environment. Unlike pipe provers or Coriolis mass flowmeters, ultrasonic flowmeters require waveguides in front of ultrasound sensors. The waveguides can prevent heat conduction from the ultrasound sensors to low temperature liquids, such as liquid nitrogen. The ultrasound sensors can maintain its piezoelectricity within the specified temperature ranges by thermal insulation of the waveguides. In this study, low temperature testing on a pair of ultrasound sensors was performed to see if ultrasound waves could be transmitted normally through liquid nitrogen. A flowmeter cell with diameter of 300 mm (equivalently, 12”) was used as a container for liquid nitrogen. Three pairs of ultrasound sensors were installed in the flowmeter cell. Fiber-optic sensors were also attached on its inner wall to measure the temperature of liquid nitrogen. As a result, ultrasound waves were successfully transmitted between a pair of ultrasound sensors by using a preamplifier. The fiber-optic sensors could measure the temperature of liquid nitrogen although the sensors were not calibrated by the reference temperature scale at KRISS.
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