LES of transient flows controlled by DBD plasma actuator over a stalled airfoil |
| |
Authors: | K. Asada T. Nonomura H. Aono M. Sato K. Okada K. Fujii |
| |
Affiliation: | 1. Department of Aeronautics and Astronautics, The University of Tokyo, Sagamihara, Japan;2. Department of Space Flight Systems, Institute of Space and Astronautics Science, JAXA, Sagamihara, Japan;3. Engineering Solution Division, Ryoyu Systems Co. Ltd., Nagoya, Japan |
| |
Abstract: | Large-eddy simulations (LES) are employed to understand the flow field over a NACA 0015 airfoil controlled by a dielectric barrier discharge (DBD) plasma actuator. The Suzen body force model is utilised to introduce the effect of the DBD plasma actuator. The Reynolds number is fixed at 63,000. Transient processes arising due to non-dimensional excitation frequencies of one and six are discussed. The time required to establish flow authority is between four and six characteristic times, independent of the excitation frequency. If the separation is suppressed, the initial flow conditions do not affect the quasi-steady state, and the lift coefficient of the higher frequency case converges very quickly. The transient states can be categorised into following three stages: (1) the lift and drag decreasing stage, (2) the lift recovery stage, and (3) the lift and drag converging stage. The development of vortices and their influence on control is delineated. The simulations show that in the initial transient state, separation of flow suppression is closely related to the development spanwise vortices while during the later, quasi-steady state, three-dimensional vortices become more important. |
| |
Keywords: | large-eddy simulation compact finite difference scheme separated flow control dielectric barrier discharge plasma actuator burst-mode actuation |
|
|