Analysis of the Force and Torque Arising During the Oscillatory Motion of a Joukowsky Foil in a Fluid

    Received 15 October 2023; accepted 18 December 2023; published 27 December 2023

    2024, Vol. 20, no. 1, pp.  79-93

    Author(s): Vetchanin E. V., Valieva A. R.

    The problem of describing the motion of a rigid body in a fluid is addressed by considering a symmetric Joukowsky foil. Within the framework of the model of an ideal fluid, the force and torque acting on an unsteady moving foil are calculated. The analytical results are compared with those obtained based on the numerical solution of the Navier – Stokes equations. It is shown that analytical expressions for the force and torque can be consistent with the results of numerical simulations using scaling and a delayed arguments.
    Keywords: motion of a body in a fluid, Joukowsky foil, complex potential, Kutta – Chaplygin condition, the Navier – Stokes equations
    Citation: Vetchanin E. V., Valieva A. R., Analysis of the Force and Torque Arising During the Oscillatory Motion of a Joukowsky Foil in a Fluid, Rus. J. Nonlin. Dyn., 2024, Vol. 20, no. 1, pp.  79-93
    DOI:10.20537/nd231210


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