Numerical Analysis of the Effects of Periodic Gust Flow on the Wake Structure of Ventilated Supercavities

Wang, Wei; Zhang, Zhigang; He, Guanghua; Mo, Weijie

doi:10.1007/s11804-021-00192-4

Cited by 2 publications

(3 citation statements)

References 15 publications

(24 reference statements)

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“…Yang et al studied the effect of heating a hydrofoil surface on cavitation and found that transient cavitation occurs on the surface of the heated hydrofoil, and with the increase in temperature, the transient cavitation will become open-type cavitation . Wang et al studied the influence of periodic gust flow on the cavitation shape at the tail of ventilated supercavitation . Zhan et al studied the influence of lateral flow on supercavitation and concluded that the cavity morphology is symmetrical in the absence of lateral flow and asymmetrical in the presence of lateral flow, with the cavity morphology increasing with the velocity .…”

Section: Introductionmentioning

confidence: 99%

“… 16 Wang et al studied the influence of periodic gust flow on the cavitation shape at the tail of ventilated supercavitation. 17 Zhan et al studied the influence of lateral flow on supercavitation and concluded that the cavity morphology is symmetrical in the absence of lateral flow and asymmetrical in the presence of lateral flow, with the cavity morphology increasing with the velocity. 18 Fan et al studied the change in supercavitation when the projectile passes through different density regions and found that the diameter contraction of the projectile occurs through different density regions and in different locations and is related to the density degree.…”

Section: Introductionmentioning

confidence: 99%

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Influence of Periodic Disturbance Incoming Flow on the Supercavitation Phenomenon

Zeng,

Zhao,

Fan

et al. 2024

ACS Omega

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Previous studies on supercavitation flow have primarily focused on a standing water environment, neglecting the impact of periodic disturbance in a marine environment. Therefore, a series of periodic functions with different frequencies and amplitudes are defined to simulate the periodic disturbance, and a slender projectile is adopted to numerically study the effect of the periodic disturbance on the supercavitation phenomenon in this paper. Research results show that the cavity profile evolves periodically with the periodic disturbance of the external flow field. At the same time, as the frequency and amplitude increase, the minimum cavity shape gradually decreases to the point that the projectile cannot be wholly enveloped, and the maximum cavity profile gradually increases. Furthermore, the relationship between the cavity length (l i ) and the frequency (f) when the cavity cannot envelop the projectile is obtained (l i = −7.381f + 215.384). Meanwhile, the critical frequency range (7.16 ≤ f < 7.96) and amplitude range (1.1 ≤ am < 1.22) of the cavity to envelop the projectile are obtained. The key factors of periodic disturbances on supercavitation flow are revealed in this paper, which provides a theoretical foundation for maintaining supercavitation flow stability in an environment of periodic disturbance flow.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Influence of Periodic Disturbance Incoming Flow on the Supercavitation Phenomenon

Zeng,

Zhao,

Fan

et al. 2024

ACS Omega

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“…Besides, other flow characteristics had also been studied through numerical simulation methods. Wang et al (2021) established a computational model to investigate the effects of a periodic gust flow on the wake structure of ventilated supercavity. The conclusions demonstrated that the behavior of ventilated supercavity against unsteady incoming flow was more stable than the vapor cavity.…”

mentioning

confidence: 99%

Experimental and Numerical Research on the Formation Conditions and Entrainment Characteristics of Supercavity by Rear Jet Reflux

Liu

Xiang

Zhao

et al. 2022

JAFM

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Aiming at better controlling the ventilated supercavity flow for drag reduction, the experimental and numerical researches of supercavity by rear gas reflux are proposed in this paper. Several experiments with different test bodies have been carried out to study the formation and collapse conditions of jet-reflux supercavity. An opencirculation water tunnel for ultra-high-speed jet experiment and air jet system is employed to form jet-reflux supercavity around the bodies installed in the forward strut. The experiment results show that the supercavity can be maintained by the reflux of tail jet flow when an initial supercavity covering the jet outlet is formed. However, the supercavity will be destroyed when the jet intensity is further enhanced. Under the same jet coefficient, the scale of jet-reflux supercavity extends as the increase of the body length, while the critical jet coefficient for the collapse of the supercavity decreases as the increase of the body length. The multiphase flow model coupling the VOF model and the level-set method is applied to capture the air-water interface. Then, the flow field characteristics of the jet-reflux supercavity are analyzed and compared with the ventilated supercavity. The streamline inside the cavity presents considerable three-dimensional asymmetry inflating flow characteristics. The variation of the gas reflux coefficient along the axial direction is obtained, which indicates that a handful of reflux gas are required to sustain the head cavity. Therefore, the jet-reflux supercavity can be formed within a certain range of the tail jet intensity. Although jet intensities are not equal to each other, the scale of cavity head is roughly maintained under the same reflux coefficient. When the supercavity gets closed to the nozzle outlet, the maximum scale of cavity is decreased, which leads to a weaker reflux at the outlet. The cavity interface will be impinged by the high-speed gas and mixture liquid, which obviously causes deformation and final collapse. In order to improve the stability of the jet-reflux supercavity, it is necessary to use the gas re-directed structure to control the reflux.

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Numerical Analysis of the Effects of Periodic Gust Flow on the Wake Structure of Ventilated Supercavities

Cited by 2 publications

References 15 publications

Influence of Periodic Disturbance Incoming Flow on the Supercavitation Phenomenon

Influence of Periodic Disturbance Incoming Flow on the Supercavitation Phenomenon

Experimental and Numerical Research on the Formation Conditions and Entrainment Characteristics of Supercavity by Rear Jet Reflux

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