Simulation and experimental study of the sensor emitting frequency for ultrasonic tomography system in a conducting pipe

Goh, Chiew Loon and Abdul Rahim, Ruzairi and Rahiman, Hafiz Fazalul and Tee, Zhen Cong and Abdul Wahad, Yasmin (2017) Simulation and experimental study of the sensor emitting frequency for ultrasonic tomography system in a conducting pipe. Flow Measurement and Instrumentation, 54 . pp. 158-171. ISSN 09555986

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Official URL: https://doi.org/10.1016/j.flowmeasinst.2017.01.003

Abstract

Ultrasonic tomography techniques provide flow visualization capability, non-invasively and non-intrusively, to enhance the understanding of complex flow processes. There is limited ultrasonic research in tomography imaging systems in the tomogram analysis of fluid flow in a conducting pipe because of a high acoustic impedance mismatch, which means that very little ultrasonic energy can be transmitted through the interface. The majority of industrial pipelines are constructed from metallic composites. Therefore, the development and improvement of ultrasonic measurement methods to accommodate a stainless steel pipe are proposed in this paper. Experimental and simulation distribution studies of the ultrasonic emitting frequency in acrylic versus stainless steel pipes were studied, measured and analyzed. During the simulation, ultrasonic transducers were placed on the surface of the investigated pipe to inspect the ultrasonic sensing field. The distribution of the sound wave acoustic pressure was simulated based on the physical dimensions and parameters of the actual experimental hardware set-up. We developed ultrasonic acoustic models using the finite element method with COMSOL software, and experiments were carried out to validate the simulation results. Finally, by performing the static phantoms tests, a feasibility study of ultrasonic tomography system was presented to investigate the void fraction of liquid column inside a stainless steel pipe.

Item Type:Article
Uncontrolled Keywords:Ultrasonic tomography; acoustic pressure; fluid flow; conducting vessel
Subjects:Q Science > QC Physics
Divisions:Faculty of Electrical and Electronic Engineering > Department of Robotic and Mechatronic Engineering
ID Code:9341
Deposited By:Mr. Mohammad Shaifulrip Ithnin
Deposited On:13 Aug 2018 11:14
Last Modified:13 Aug 2018 11:14

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