Litcius/Paper detail

Effects of Wavy Leading-Edge Protuberance on Hydrofoil Performance and Its Flow Mechanism

Jing Li, Chunbao Liu, Xiaoying Li

2021Journal of Marine Science and Engineering16 citationsDOIOpen Access PDF

Abstract

This paper examines the effects on a Clark-y three-dimensional hydrofoil of wavy leading-edge protuberances in a quantitative and qualitative way. The simulation is accompanied by a hybrid RANS-LES model in conjunction with Zwart-Gerber–Belamri model. Detailed discussions of the stable no-cavitating, unsteady cavitating flow fields and the control mechanics are involved. The force characteristics, complicated flow behaviors, cavitation–streamwise vortex interactions, and the cavitating flow instability are all presented. The results demonstrate that protuberances acting as vortex generators produce a continuous influx of boundary-layer vorticity, significantly enhancing the momentum transfer of streamwise vortices and therefore improving the hydrodynamics of the hydrofoil. Significant interactions are described, including the encouragement impact of cavitation evolution on the fragmentation of streamwise vorticities as well as the compartmentation effect of streamwise vorticities binding the cavitation inception inside the troughs. The variations in cavitation pressure are mainly due to the acceleration in steam volume. In summary, it is vital for new hydrofoils or propeller designs to understand in depth the effects of leading-edge protuberances on flow control.

Topics & Concepts

CavitationMechanicsVortexLeading edgeVorticityReynolds-averaged Navier–Stokes equationsBoundary layerWater tunnelFlow (mathematics)PhysicsSupercavitationClassical mechanicsTurbulenceCavitation Phenomena in PumpsHydraulic and Pneumatic SystemsFluid Dynamics Simulations and Interactions