Experimental study on the location detection method of deionized water freezing front based on microwave resonance theory

Han Shi; Mengjie Song; Dong Rip Kim; Peng Lu; Xuan Zhang; Long Zhang

doi:10.1016/j.measurement.2024.115859

Experimental study on the location detection method of deionized water freezing front based on microwave resonance theory

Han Shi, Mengjie Song^*, Dong Rip Kim, Peng Lu, Xuan Zhang, Long Zhang

^*此作品的通讯作者

机械与车辆学院

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

Ice accumulation is a natural phenomenon in cold climates, but it causes serious issues to various industries. To accurately detect the thickness of ice on a horizontal cold plate, a capacitance-coupled split-ring resonator is employed. The impact of the average height of static and dynamic freezing front on the resonator at −20 °C was investigated experimentally. The sensor is capable of detecting freezing fronts up to a maximum height of approximately 20 mm. The height of the static freezing front can be sensitively detected within the range of 0–5.4 mm, with an average error of the sensor less than 0.53 mm. Furthermore, the height of the dynamic static can be detected with a higher degree of accuracy within 0–8.4 mm, the average detection error is 0.37 mm. This technology can serve as a point of reference for the field of anti-icing.

源语言	英语
文章编号	115859
期刊	Measurement: Journal of the International Measurement Confederation
卷	242
DOI	https://doi.org/10.1016/j.measurement.2024.115859
出版状态	已出版 - 1月 2025

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title = "Experimental study on the location detection method of deionized water freezing front based on microwave resonance theory",

abstract = "Ice accumulation is a natural phenomenon in cold climates, but it causes serious issues to various industries. To accurately detect the thickness of ice on a horizontal cold plate, a capacitance-coupled split-ring resonator is employed. The impact of the average height of static and dynamic freezing front on the resonator at −20 °C was investigated experimentally. The sensor is capable of detecting freezing fronts up to a maximum height of approximately 20 mm. The height of the static freezing front can be sensitively detected within the range of 0–5.4 mm, with an average error of the sensor less than 0.53 mm. Furthermore, the height of the dynamic static can be detected with a higher degree of accuracy within 0–8.4 mm, the average detection error is 0.37 mm. This technology can serve as a point of reference for the field of anti-icing.",

keywords = "Dynamic freezing front, Ice thickness detection, Microwave resonance, Scatter parameter, Split-ring resonant sensor, Static freezing front",

author = "Han Shi and Mengjie Song and Kim, {Dong Rip} and Peng Lu and Xuan Zhang and Long Zhang",

note = "Publisher Copyright: {\textcopyright} 2024 Elsevier Ltd",

year = "2025",

month = jan,

doi = "10.1016/j.measurement.2024.115859",

language = "English",

volume = "242",

journal = "Measurement: Journal of the International Measurement Confederation",

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T1 - Experimental study on the location detection method of deionized water freezing front based on microwave resonance theory

AU - Shi, Han

AU - Song, Mengjie

AU - Kim, Dong Rip

AU - Lu, Peng

AU - Zhang, Xuan

AU - Zhang, Long

PY - 2025/1

Y1 - 2025/1

N2 - Ice accumulation is a natural phenomenon in cold climates, but it causes serious issues to various industries. To accurately detect the thickness of ice on a horizontal cold plate, a capacitance-coupled split-ring resonator is employed. The impact of the average height of static and dynamic freezing front on the resonator at −20 °C was investigated experimentally. The sensor is capable of detecting freezing fronts up to a maximum height of approximately 20 mm. The height of the static freezing front can be sensitively detected within the range of 0–5.4 mm, with an average error of the sensor less than 0.53 mm. Furthermore, the height of the dynamic static can be detected with a higher degree of accuracy within 0–8.4 mm, the average detection error is 0.37 mm. This technology can serve as a point of reference for the field of anti-icing.

AB - Ice accumulation is a natural phenomenon in cold climates, but it causes serious issues to various industries. To accurately detect the thickness of ice on a horizontal cold plate, a capacitance-coupled split-ring resonator is employed. The impact of the average height of static and dynamic freezing front on the resonator at −20 °C was investigated experimentally. The sensor is capable of detecting freezing fronts up to a maximum height of approximately 20 mm. The height of the static freezing front can be sensitively detected within the range of 0–5.4 mm, with an average error of the sensor less than 0.53 mm. Furthermore, the height of the dynamic static can be detected with a higher degree of accuracy within 0–8.4 mm, the average detection error is 0.37 mm. This technology can serve as a point of reference for the field of anti-icing.

KW - Dynamic freezing front

KW - Ice thickness detection

KW - Microwave resonance

KW - Scatter parameter

KW - Split-ring resonant sensor

KW - Static freezing front

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JO - Measurement: Journal of the International Measurement Confederation

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Experimental study on the location detection method of deionized water freezing front based on microwave resonance theory

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