Bulletin of the American Physical Society
71st Annual Meeting of the APS Division of Fluid Dynamics
Volume 63, Number 13
Sunday–Tuesday, November 18–20, 2018; Atlanta, Georgia
Session D32: Applied CFD II
2:30 PM–4:40 PM,
Sunday, November 18, 2018
Georgia World Congress Center
Room: B404
Chair: Catherine Gorle, Stanford University
Abstract ID: BAPS.2018.DFD.D32.8
Abstract: D32.00008 : Low Reynolds number airfoil dynamics: three different flow patterns within a small range of angles of attack*
4:01 PM–4:14 PM
Presenter:
Bjoern F. Klose
(San Diego State Univ)
Authors:
Bjoern F. Klose
(San Diego State Univ)
Gustaaf B Jacobs
(San Diego State Univ)
Joseph D Tank
(Univ of Southern California)
Geoffrey R Spedding
(Univ of Southern California)
The effect of angles of attack on the flow over of a NACA 65(1)-412 airfoil at low Reynolds number is investigated. Direct numerical simulations in two and three dimensions are performed using a discontinuous-Galerkin spectral element method. Through analysis of lift, drag, and pressure coefficients, average velocity field, and Lagrangian Coherent Structures determined by the Finite-Time Lyapunov Exponent, we show that the flow bifurcates several times in a small range of angles of attack. The flow is in a laminar separated state with transition to turbulence in the wake for angles smaller than 7°. Increasing the angle leads to laminar reattachment of the flow at 8° incidence. Then, for angles of attack larger than 8° the separation bubble bifurcates to a sizable bubble at the leading section of the airfoil, followed by transition to a fully turbulent flow. At an angle of attack of 8°, a high lift coefficient at low drag marks a preferable state in terms of aerodynamic performance of the airfoil.
*We gratefully acknowledge funding by the Air Force Office of Scientific Research under FA9550-16-1-0392.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2018.DFD.D32.8
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