Numerical study on the cavity dynamics of water entry and exit for a high-speed projectile crossing a wave

Zhou, Biaojun; Zhao, Zijie; Dai, Qi; Yao, Weiguang; Liu, Xiaohan; Zhang, Yufei; Wang, Anhua; Zhang, Hui

doi:10.1063/5.0212804

Physics of Fluids

2024

DOI: 10.1063/5.0212804

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Numerical study on the cavity dynamics of water entry and exit for a high-speed projectile crossing a wave

Biaojun Zhou,

Zijie Zhao,

Qi Dai

et al.

Abstract: The high-speed projectile moving near the sea level will significantly suffer from the effects of waves. The water entry and exit of a high-speed projectile crossing a wave are investigated by detached-eddy simulation. Three simulations with different altitudes through the wave are conducted to analyze the altitude's influence on the cavity dynamics. To validate the numerical model, a water-entry experiment is carried out in a wave tank for comparison. The projectile crossing the wave forms a cavity channel fr… Show more

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Cited by 4 publications

References 43 publications

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Numerical study on the water entry of trailing cylinder after Worthington jet in tandem configuration

Yang,

Cui,

Lyu

et al. 2024

Ocean Engineering

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Numerical study on the water entry of trailing cylinder after Worthington jet in tandem configuration

Yang,

Cui,

Lyu

et al. 2024

Ocean Engineering

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Numerical study of vehicle motion during water exit under combined lifting force and wave action

Huang,

Dai,

Zhu

2024

Physics of Fluids

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During the retrieval process of the deep-sea mining vehicle (DSMV), the stability of the retrieval system is strongly influenced by the interaction between the vehicle body and the surrounding seawater due to the vehicle's complex shape and wave motion. Naturally, the negative side effects of significant changes in the vehicle's attitude and the water exit position can only increase retrieval's challenge. To investigate the characteristic of the flow field of the DSMV, this study employs the computational fluid dynamics method based on the Reynolds-averaged Navier–Stokes equations integrating the volume-of-fluid multiphase flow model with a fifth-order Stokes-wave model to explore the attitude and displacement changes of the vehicle during the water exit process in the ocean wave environment. The results indicate that the wave phase and lifting force are the major effect factors in the DSMV's water exit process. An appropriate lifting force under a specific wave phase can effectively reduce attitude changes and positional drift of the DSMV during water exit, thereby enhancing recovery efficiency and stability.

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Experimental investigation on the cavity sealing transformation of elliptical cylinders during water entry

Wang,

Liu,

Zhou

et al. 2024

Physics of Fluids

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The water-entry cavity sealing of elliptical cylinders is systematically investigated with experimental methods, which features the inconsistent lengths of major and minor axes. By comparing with the cylinder entering water, the effects of aspect ratio and Froude number on the cavity sealing are analyzed to reveal the mechanism of sealing mode transformation among deep, transition, and surface seals. In the deep seal mode, the water-entry cavity of cylinders pinches off at a singularity, but the minor-axis cavity of elliptical cylinders shows an oval hole when the cavity in the major axis pinches off. During the water entry of elliptical cylinders, the water hardly splashes in the major axis but mostly splashes in the minor axis. Thus, the minor-axis cavity is larger than the major-axis cavity in the surface seal. Especially, when the splash crown seals to the tail plane, the transition seal mode occurs with surface and deep seals successively appearing. The shedding cavity in the deep seal of cylinders is penetrated by a central water column, while the shedding cavity of elliptical cylinders merges with the downward jet and splits into two separate halves. As the aspect ratio increases, the minor-axis splash crown obtains more kinetic energy and gradually expands outwards. Consequently, the deep seal happens later with a larger pinch-off depth, but the surface seal occurs faster with a smaller cavity volume. Therefore, the sealing mode transformation sequentially undergoes surface, transition, and deep seals, which is contrary to the mode transformation with the increment of Froude number.

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Numerical study on the cavity dynamics of water entry and exit for a high-speed projectile crossing a wave

Cited by 4 publications

References 43 publications

Numerical study on the water entry of trailing cylinder after Worthington jet in tandem configuration

Numerical study on the water entry of trailing cylinder after Worthington jet in tandem configuration

Numerical study of vehicle motion during water exit under combined lifting force and wave action

Experimental investigation on the cavity sealing transformation of elliptical cylinders during water entry

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