|Research Interest: ||-Boundary layer receptivity and transition under the effect of surface roughness, excrescences and centrifugal forces, using numerical and/or semi-analytical methods|
-Large eddy simulations of the atmospheric boundary layer interacting with various surface roughness elements, including wind farms and moving vehicles
-Computational aeroacoustics and large eddy simulations for the prediction of noise generated by launch vehicles during liftup.
|Publications: ||Sescu, A., & Thompson, D. (2014). On the Growth of Görtler Vortices Excited by Distributed Roughness Elements. AIAA Aviation 2014, Paper 2014-2885. Atlanta, GA. |
Sescu, A., & Meneveau, C. (2013). Towards an Effective Roughness Length Model for Thermally Stratified ABL Interacting with Wind Farms. AGU Fall Meeting. San Francisco, CA.
Sescu, A., Visbal, M., & Rizzetta, D. (2013). Numerical Investigation of Boundary Layer Receptivity to Free-stream Disturbances and Surface Excrescences. 66th Annual Meeting of the APS Division of Fluid Dynamics. Pittsburgh, PA.
Pechan, T., & Sescu, A. (2013). High-Lift Airfoils with Moving Surfaces. Mid-South Annual Science and Engineering Conference. Oxford, MS.
Pechan, T., & Sescu, A. (2013). High-lift and Flow Separation Control Via Moving Wall Effects: Numerical and Experimental Investigation. ASME 2013 International Mechanical Engineering Congress & Exposition. San Diego, CA.
|Total Publications by this Author: 48|