Optimization Methods Applied to Aerodynamic Flow Control

نویسندگان

  • Jérémie Labroquère
  • Régis Duvigneau
چکیده

This study deals with the use of optimization algorithms to determine efficient parameters of flow control devices. To improve the performance of systems characterized by detached flows and vortex shedding, the use of flow control devices such as oscillatory jets, are intensively studied, using numerical as well as experimental methods. However, the determination of efficient control parameters is still a bottleneck for industrial problems. Therefore, we propose to couple a global optimization algorithm with an unsteady flow simulation to derive efficient flow control rules. We consider as testcase the turbulent flow over a backward facing step, including a synthetic jet actuator. The aim is to reduce the time-averaged recirculation length behind the step by optimizing the jet blowing/suction amplitude and frequency. The Unsteady ReynoldsAveraged Navier-Stokes (URANS) equations are solved within a Mixed finite-Element/finiteVolume (MEV) framework using the near-wall low-Reynolds number one-equation SpalartAllmaras turbulence closure. The steady flow simulation without control is first validated by comparison with experimental and numerical data. Then, the optimization method EGO (Efficient Global Optimization), based on the construction of a Gaussian surrogate model, is coupled with the solver and applied to the unsteady flow with actuation. It is shown that the timeaveraged recirculation length can be shortened when suitable control parameters are used. ha l-0 07 42 94 0, v er si on 1 17 O ct 2 01 2 Author manuscript, published in "ECCOMAS European Congress on Computational Methods in Applied Sciences and Engineering 2012 (2012)"

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تاریخ انتشار 2012