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Experimental and Numerical Evaluation of the Cavitation Performances of Self-Excited Oscillating Jets

Yuanyuan Zhao1, Fujian Zhao2, Guohui Li3, Wei Xu4,*, Xiuli Wang2,*

1 School of the Environment and Safety Engineering, Jiangsu University, Zhenjiang, 212013, China
2 Research Center of Fluid Machinery Engineering and Technology, Jiangsu University, Zhenjiang, 212013, China
3 GongQing Institute of Science and Technology, Jiujiang, 332020, China
4 School of Energy and Power Engineering, Jiangsu University, Zhenjiang, 212013, China

* Corresponding Authors: Wei Xu. Email: email; Xiuli Wang. Email: email

Fluid Dynamics & Materials Processing 2024, 20(8), 1883-1901. https://doi.org/10.32604/fdmp.2024.047298

Abstract

Self-excited oscillating jets (SOJ) are used in several practical applications. Their performances are significantly affected by structural parameters and the target distance. In this study, a geometric model of the SOJ nozzle accounting for multiple structural parameters is introduced, then the related cavitation performances and the optimal target distance are investigated using a Large-Eddy Simulation (LES) approach. Results are also provided about an experiment, which was conducted to validate the simulation results. By analyzing the evolution of the vapor volume fraction at the nozzle outlet, a discussion is presented about the effect of the aforementioned structural parameters on the cavitation performances and the target distance. It is shown that the distribution of cavitation clouds at the outlet of the SOJ nozzle displays a non-monotonic trend (first increasing, then decreasing). Under working conditions with an inlet pressure of 4 MPa, a SOJ nozzle outlet/ inlet diameter ratio (D/D) of 1.2, and a chamber diameter ratio (D/L) close to 1.8, the nozzle outlet cavitation performance attains a maximum. The optimal structural parameters correspond to the optimal target distance, which is near 50 mm. The experiments have revealed that the SOJ nozzle with the above parameters displays a good cavitation erosion effect at the target distance of 50 mm, in satisfactory agreement with the numerical simulation results.

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APA Style
Zhao, Y., Zhao, F., Li, G., Xu, W., Wang, X. (2024). Experimental and numerical evaluation of the cavitation performances of self-excited oscillating jets. Fluid Dynamics & Materials Processing, 20(8), 1883-1901. https://doi.org/10.32604/fdmp.2024.047298
Vancouver Style
Zhao Y, Zhao F, Li G, Xu W, Wang X. Experimental and numerical evaluation of the cavitation performances of self-excited oscillating jets. Fluid Dyn Mater Proc. 2024;20(8):1883-1901 https://doi.org/10.32604/fdmp.2024.047298
IEEE Style
Y. Zhao, F. Zhao, G. Li, W. Xu, and X. Wang, “Experimental and Numerical Evaluation of the Cavitation Performances of Self-Excited Oscillating Jets,” Fluid Dyn. Mater. Proc., vol. 20, no. 8, pp. 1883-1901, 2024. https://doi.org/10.32604/fdmp.2024.047298



cc Copyright © 2024 The Author(s). Published by Tech Science Press.
This work is licensed under a Creative Commons Attribution 4.0 International License , which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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