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Numerical Study on the Internal Flow Field Characteristics of a Novel High-Speed Switching Control Valve.

Authors :
Ji, Hexi
Han, Jiazhen
Wang, Yong
Wang, Qixian
Yang, Sen
Xie, Yudong
Song, Yilong
Wang, Haibo
Source :
Actuators; Jun2024, Vol. 13 Issue 6, p213, 21p
Publication Year :
2024

Abstract

Modern laver fluffiness is achieved by applying high-speed gas to a laver, which is generated by the opening and closing of a laver fluffiness control valve in a fluffiness system. To address the problems of the slow response speed and poor stability of valves used in the laver processing industry at present, this paper proposes a novel principle of a high-speed switching control valve, which has the advantages of a fast response speed, high stability, and long service life. The structure and working principle of the control valve are introduced, and the calculation equation of the valve's flow area is established. The flow field inside the control valve with different openings was numerically calculated in this study using Fluent. The flow regulation characteristics and flow field performance of the control valve were also analyzed. The results show that, with an increase in the valve opening, the influence of the flow area at the valve throttle on the valve flow rate was weakened. When the valve was opened, a vortex appeared in both the upper and lower cavities, and jet flow occurred at the throttle of the middle flow channel. As the valve opening increased, the pressure in the upper cavity reduced, while the pressure in the lower cavity increased. The vortex in the flow field intensified, and the jet phenomenon at the valve throttle gradually disappeared. At the same time, the main stream in the lower cavity gradually changed from an annular flow to a direct flow toward the valve outlet. Furthermore, the impact, collision, and vortex formation of the fluid caused energy loss of the fluid, leading to a decrease in the outlet flow of the control valve. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
20760825
Volume :
13
Issue :
6
Database :
Complementary Index
Journal :
Actuators
Publication Type :
Academic Journal
Accession number :
178160750
Full Text :
https://doi.org/10.3390/act13060213