Numerical analysis of liquid flow measurement using multipath ultrasonic phased array flowmeter

•A theoretical study of using the phased array transducer in flow metering to obtain robust and accurate results.•Reducing the number of the used transducer in multipath ultrasonic flowmeter using the phased array transducer.•Investigating effect of flow field on Multipath ultrasonic phased array fl...

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Bibliographic Details
Published in:Ultrasonics 2023-02, Vol.128, p.106859-106859, Article 106859
Main Authors: Mohammad Nouri, Nowrouz, Sakhavi, Noureddin
Format: Article
Language:English
Subjects:
Flow measurement
Multipath ultrasonic flowmeter
Numerical integration
Phased array transducer
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Summary:•A theoretical study of using the phased array transducer in flow metering to obtain robust and accurate results.•Reducing the number of the used transducer in multipath ultrasonic flowmeter using the phased array transducer.•Investigating effect of flow field on Multipath ultrasonic phased array flowmeters. In this paper, multipath ultrasonic flowmeter using phased array transducer is introduced to measure the flowrate. In the proposed flowmeter, the path velocities are achieved by dynamic beam steering via phased array sensor then numerical integration is used to calculate the flowrate. Turbulent flow profile through a straight pipe, flow field downstream of single bend, and double bend are studied in this paper. For each case, the influence of the number of paths, beam angle, and installation angle on the performance of the proposed flowmeter is discussed. Because of symmetric velocity profile for turbulent flow through the straight pipe, relative errors are not dependent on the installation angle and its minimum value is obtained 0.03 % under [±56.6°, 0] path arrangement. Relative errors after single and double bend depend on the installation angle due to the asymmetric flow field. In 3-path configuration, for velocity profile after single bend and double bend, the minimum error range is 1.35 % and 2.38 % under [±55o, 0] and [±45o, 0] path arrangement, respectively. In 5-path arrangement, after single bend and double bend, the minimum error range is achieved by 0.14 % and 1.03 % under [±70o, ±35o, 0] and [±65o, ±25o, 0], respectively. The validity of multipath ultrasonic phased array flowmeter after the single bend in Re = 2 × 105 to 106 has been examined with the computational fluid dynamics simulation. The maximum absolute relative error under [±55o,0] and [±70o,±35o,0] was achieved at about 3 % and 1.8 % respectively.
ISSN:0041-624X
1874-9968
DOI:10.1016/j.ultras.2022.106859