Abstract

This research addresses changes in the aerodynamic properties of the airfoil caused by modifying the surface in the form of dimples. The first surface changes mentioned here the wing model has dimples that face inside and outward. Airfoil models that have been modified to illustrate variation lifting and dragging at varying angles of attack (AOA). Surface adjustments are made here by taking into account the various types and forms of dimples. When an airfoil reaches a certain angle of attack, dimples serve to reduce pressure drag because wake production begins owing to boundary layer separation. Dimples on an aeroplane wing function similarly to vortex producers. They cause turbulence, which slows down boundary layer splitting, decrease wake, and reduces pressure drag. It has helped to improve the lift and raise the AOA of the stall. Dimples on the surface of an aircraft wing do not considerably increase pressure drag due to the wing already has an aerodynamic form, but they may impact its aerodynamic properties when the airfoil is at AOA, which is one of the issues raised in this research. The outcomes legitimize the increment in the general lift and decrease in drag by the airfoil

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