Ahmed Bouzid, Saad Chidami, Tristan Quentin Lailler, Adrián Carrillo García, Tarek Ould-Bachir and Jamal Chaouki
Article (2024)
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Abstract
Measuring temperature inside chemical reactors is crucial to ensuring process control and safety. However, conventional methods face a number of limitations, such as the invasiveness and the restricted dynamic range. This paper presents a novel approach using ultrasound transducers to enable accurate temperature measurements. Our experiments, conducted within a temperature range of 28.8 to 83.8 °C, reveal a minimal temperature accuracy of 98.6% within the critical zone spanning between 70.5 and 75 °C, and an accuracy of over 99% outside this critical zone. The experiments focused on a homogeneous environment of distilled water within a stainless-steel tank. This approach will be extended in a future research in order to diversify the experimental media and non-uniform environments, while promising broader applications in chemical process monitoring and control.
Uncontrolled Keywords
thermometry; water monitoring; ultrasound instrumentation; time-of-flight measurement; non-destructive testing; non-invasive testing
Subjects: |
2100 Mechanical engineering > 2100 Mechanical engineering 2100 Mechanical engineering > 2105 Hydraulics 2500 Electrical and electronic engineering > 2509 Control systems 2500 Electrical and electronic engineering > 2513 Data communications 2700 Information technology > 2706 Software engineering |
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Department: |
Department of Chemical Engineering Department of Computer Engineering and Software Engineering |
Research Center: | Other |
Funders: | NSERC / CRSNG |
Grant number: | RGPIN-2021-03935 |
PolyPublie URL: | https://publications.polymtl.ca/58573/ |
Journal Title: | Sensors (vol. 24, no. 11) |
Publisher: | MDPI |
DOI: | 10.3390/s24113404 |
Official URL: | https://doi.org/10.3390/s24113404 |
Date Deposited: | 05 Jun 2024 08:59 |
Last Modified: | 27 Sep 2024 04:17 |
Cite in APA 7: | Bouzid, A., Chidami, S., Lailler, T. Q., García, A. C., Ould-Bachir, T., & Chaouki, J. (2024). Innovative non-invasive and non-intrusive precision thermometry in stainless-steel tanks using ultrasound transducers. Sensors, 24(11), 3404 (17 pages). https://doi.org/10.3390/s24113404 |
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