Measurement of interfacial shear stress in gas–liquid two-phase stratified flow
Affiliation
Hebei University; National and Local Joint Engineering Research Center for Measuring Instruments and Systems; University of ChesterPublication Date
2023-10-26
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Gas–liquid two-phase stratified flow exists in many industrial processes. Although the flow pattern is simple, the interfacial shear prediction of stratified flow is still the focus of the study. The calculation of the shear stress at the gas–liquid interface is closely related to the measurement of the void fraction and pressure drop of the stratified flow. In this study, a new method for the calculation of interfacial shear stress of gas–liquid two-phase stratified flow is proposed. Differential pressure measurement and planar laser-induced fluorescence technology are combined to obtain important parameters for stratified flow under low-speed flow conditions (Ql = 0.10–0.25 m3/h, Qg = 0.35–1.00 m3/h). The interfacial shear stress is successfully calculated using macroparameters. The uncertainty associated with the calculated parameters using the proposed method is 2.67%, and this study verifies the accuracy of the linear relationship. The method provides a new way to obtain the interfacial shear stress of gas–liquid stratified flow.Citation
Fang, L., Ge, B., Li, Z., Sun, X., Han, B., Faraj, Y., & Zhao, N. (2023). Measurement of interfacial shear stress in gas–liquid two-phase stratified flow. Journal of Applied Physics, 134(16), article-number 164703. https://doi.org/10.1063/5.0168677Publisher
American Institute of PhysicsJournal
Journal of Applied PhysicsAdditional Links
https://pubs.aip.org/aip/jap/article/134/16/164703/2918574/Measurement-of-interfacial-shear-stress-in-gas?searchresult=1Type
articleDescription
This article may be downloaded for personal use only. Any other use requires prior permission of the author and AIP Publishing. This article appeared in (Fang, L., Ge, B., Li, Z., Sun, X., Han, B., Faraj, Y., & Zhao, N. (2023). Measurement of interfacial shear stress in gas–liquid two-phase stratified flow. Journal of Applied Physics, 134(16), article-number 164703) and may be found at (https://doi.org/10.1063/5.0168677).ISSN
0021-8979EISSN
1089-7550ae974a485f413a2113503eed53cd6c53
10.1063/5.0168677