Development of an Energy-Efficient and Highly Sensitive Thermal Microsensor for Measuring Flow Rates of Fluids

IF 1.6 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC
D. F. Valencia-Grisales, Claudia Reyes-Betanzo
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Abstract

A calorimetric-based thermal sensor is precisely designed to measure volumetric flow rates in water, air, and nitrogen. Extensive simulations of the sensor's performance are conducted using COMSOL Multi-physics® software. In order to validate the simulation results, a comprehensive comparative analysis is carried out, utilizing the well-established one-dimensional model proposed by Nguyen and Dötzel, The sensor's construction incorporates high-quality materials such as titanium, phosphorus-doped amorphous hydrogenated silicon carbide (P-doped a-SiC:H), aluminum, and borosilicate glass substrates, ensuring robustness and reliability. The measurement range investigated spans from the flow rates of $0\ \mu\mathrm{l}/\text{min}$ to $45\ \mu\mathrm{l}/\text{min}$ for water, while for air and nitrogen, a broader range of 0 ml/min to 187 ml/min is considered. The evaluation of results showcases a low power consumption of approximately 7.6 mW, underlining the sensor's energy efficiency. Furthermore, the sensor exhibits remarkable sensitivities, with values reaching 54.89 mV/(mm/s)/mW for water flow and 8.9 mV/(m/s)/mW for gases, underscoring its exceptional performance across various applications.
开发用于测量流体流速的高能效、高灵敏度热微型传感器
基于热量计的热传感器设计精确,可测量水、空气和氮气中的体积流量。使用 COMSOL Multi-physics® 软件对传感器的性能进行了大量模拟。为了验证模拟结果,利用 Nguyen 和 Dötzel 提出的成熟的一维模型进行了全面的比较分析。传感器的结构采用了高质量的材料,如钛、掺磷非晶氢化碳化硅(P-掺杂 a-SiC:H)、铝和硼硅玻璃基板,确保了坚固性和可靠性。所研究的测量范围包括:水的流速从 0 (毫升/分钟)到 45 (毫升/分钟);空气和氮气的流速从 0 毫升/分钟到 187 毫升/分钟。结果评估显示,该传感器的功耗较低,约为 7.6 mW,突出了其能源效率。此外,该传感器还具有出色的灵敏度,水流灵敏度达到 54.89 mV/(mm/s)/mW,气体灵敏度达到 8.9 mV/(m/s)/mW,在各种应用中都表现出卓越的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
IEEE Instrumentation & Measurement Magazine
IEEE Instrumentation & Measurement Magazine 工程技术-工程:电子与电气
CiteScore
4.20
自引率
4.80%
发文量
147
审稿时长
>12 weeks
期刊介绍: IEEE Instrumentation & Measurement Magazine is a bimonthly publication. It publishes in February, April, June, August, October, and December of each year. The magazine covers a wide variety of topics in instrumentation, measurement, and systems that measure or instrument equipment or other systems. The magazine has the goal of providing readable introductions and overviews of technology in instrumentation and measurement to a wide engineering audience. It does this through articles, tutorials, columns, and departments. Its goal is to cross disciplines to encourage further research and development in instrumentation and measurement.
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