Parametric hydrodynamic analysis of ventilated supercavity dynamics under free-surface interaction: Combined effects of submergence depth, Froude number, and air entrainment
Key Points
Supercavity dynamics are significantly impacted by both submergence depth and Froude number, suggesting complex hydro-dynamic behaviors.
The analysis shows variations in air entrainment levels depending on the depth of submergence—affecting hydrodynamic stability.
Simulations conducted explore the interaction of free-surface dynamics, presenting findings on stability patterns in ventilated cavities.
The study highlights the need for understanding these interactions for improved design in underwater vehicles and hydrodynamic applications.
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Parametric hydrodynamic analysis of ventilated supercavity dynamics under free-surface interaction: Combined effects of submergence depth, Froude number, and air entrainment | Synapse