Genesis of the Kutta condition
An empirical study of the transient flow which produces the Kutta-condition flow-field
P. van Pelt (TU Delft - Aerospace Engineering)
Leo L.M. Veldhuis – Mentor (TU Delft - Flight Performance and Propulsion)
Marc Gerritsma – Graduation committee member (TU Delft - Aerodynamics)
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Abstract
The Kutta condition is a boundary condition applied at a wing’s trailing edge (TE), which enables the calculation of the fluid-dynamic lift produced by a wing in potential flow. This condition is actually a stable equilibrium resulting from a transient flow. The main question of this research is: how is the Kutta condition flow-field created when a wing is brought in motion from rest? This is investigated using an experimental apparatus, in which a wing model is accelerated from rest and the transient TE flow is analysed using high-speed Particle Image Velocimetry techniques. Initially, fluid moves from the airfoil’s pressure side, along the TE, towards the suction side, and a boundary layer is created. Then, boundary layer stagnation occurs, a vortex separates from the TE, and a transformation in the presence and locations of stagnation/separation occurs. The observed process confirms classical theories which describe the creation of the Kutta condition flow-field.