DocumentCode
3023646
Title
Numerical Simulation of Multi-path Ultrasonic Flowmeter: Ultrasonic Path Error Analysis
Author
Fei, Liu ; Cunfu, He ; Bin, Wu ; Jingpin, Jiao
Author_Institution
Coll. of Mech. Eng. & Appl. Electron. Technol., Beijing Univ. of Technol., Beijing, China
fYear
2010
fDate
18-25 July 2010
Firstpage
58
Lastpage
62
Abstract
The precision of ultrasonic flowmeter is mainly depending on ultrasonic path adaptability for velocity profile of pipe, especially for the special cases, such as ultrasonic flowmeter located near the elbow of pipe. In this paper, the flow fields of some typical pipes were numerically calculated with commercial CFD software, and the velocity profiles in different section of pipe were investigated. Based on the simulated velocity profile, flow rate in special section of the double bend pipe was measured using different ultrasonic path configuration methods, such as Gaussian-path, Jacobianpath and diametral-path. According to the error of the measured flow rate, it is easy to get the optimal layout of ultrasonic path for the particular velocity profile. It is proved that the numerical simulation of flow field is useful for the optimization of the ultrasonic paths of flowmeter.
Keywords
computational fluid dynamics; error analysis; flow measurement; flow simulation; flowmeters; pipe flow; ultrasonic measurement; Gaussian-path; Jacobian-path; commercial CFD software; diametral-path; double bend pipe; flow fields; flow rate; multipath ultrasonic flowmeter; numerical simulation; optimal layout; pipe elbow; pipe section; simulated velocity profile; ultrasonic path adaptability; ultrasonic path configuration methods; ultrasonic path error analysis; Acoustics; Elbow; Fluids; Layout; Numerical simulation; Ultrasonic variables measurement; Velocity measurement; multi-path; numerical simulation; ultrasonic flowmeter; velocity profile;
fLanguage
English
Publisher
ieee
Conference_Titel
Sensor Device Technologies and Applications (SENSORDEVICES), 2010 First International Conference on
Conference_Location
Venice
Print_ISBN
978-1-4244-7474-5
Type
conf
DOI
10.1109/SENSORDEVICES.2010.18
Filename
5632109
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