Litcius/Paper detail

Study on the Influence of Gradient Wind on the Aerodynamic Characteristics of a Two-Element Wingsail for Ship-Assisted Propulsion

Chen Li, Hongming Wang, Peiting Sun

2023Journal of Marine Science and Engineering12 citationsDOIOpen Access PDF

Abstract

It is well known that sail-assisted propulsion works under gradient wind conditions in the atmospheric boundary layer, and is an energy-saving device for fuel consumption. In order to study the aerodynamic characteristics of a wingsail in the atmospheric boundary layer above sea level, a transition SST turbulence model was used for numerical simulation of the wingsail with uniform and gradient wind conditions. We concluded that gradient wind conditions can delay the stall caused by an increased angle of attack. This is because the airflow on the suction surface of the wingsail in the spanwise direction exerts an acceleration towards the top of the wingsail. At the same time, supplementary airflow compresses the separated vortex, thus delaying the stall of the two-element wingsail. Under gradient wind conditions, the flow separation of the wingsail develops rapidly in the stall angles. Once a flat separation vortex is formed at the trailing edge of the wingsail, with the slow increase of flap deflection angle, flow separation rapidly expands and a deep stall occurs. Therefore, a small change of the flap deflection angle in the near-stall angles may lead to a deep stall of the wingsail, which should be avoided in engineering applications. Finally, the influence of the average speed of the gradient wind on the aerodynamic performance of the two-element wingsail was analyzed.

Topics & Concepts

Stall (fluid mechanics)MechanicsAerodynamicsFlow separationWind gradientBoundary layerVortexAirflowDeflection (physics)Angle of attackAerospace engineeringWind speedGeologyMeteorologyWind profile power lawPhysicsEngineeringMechanical engineeringOpticsAerodynamics and Fluid Dynamics ResearchAerospace Engineering and Energy SystemsShip Hydrodynamics and Maneuverability