CFD Study of the Development of Vortices on a Ring Wing

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Presentation transcript:

CFD Study of the Development of Vortices on a Ring Wing Kyle Wright Embry-Riddle Aeronautical University Prescott, Arizona

Overview Background Introduction Geometry Mesh Wingtip Vortices Wingtip Devices Ring Wings Computational Fluid Dynamics (CFD) Introduction Geometry Mesh Solver & Boundary Conditions Results Conclusion

Background: Wing-Tip Vortices

Background: Wingtip Devices Wingtip Devices: aim to reduce wingtip vortices by decreasing vorticity magnitude and/or moving location away from wing surface to reduce induced drag Boeing 737 Winglet (Source: westjet.com)

Background: Ring Wings Wingtips wrap around to enclose entire wing Type of closed wing (cylindrical, joined, box wings) Has no actual wingtips Decreases induced drag to increase efficiency Selex Galileo – Asio Ring Wing UAV (Source: flightglobal.com)

Background: CFD Computational Fluid Dynamics Numerical method of solving partial differential equations for viscous fluid flow (Navier-Stokes Equations) Mesh or discretize flow domain into a structured or unstructured grid to create small finite volumes Numerically iterate through flow domain matrix with boundary conditions until solution has converged Aerodynamic Analysis Experiential Analysis Computational Fluid Dynamics Analysis Analytical Analysis

Introduction Goals Compare/Match CFD results to experimental work Show the development of wingtip vortices Experimental work done by Dr. Lance Traub and students inspired this CFD study, Re = 225,000, V∞ = 40 m/s, Chord = 0.1m≈4 in Tuft-grid in wake of ring wing (Source: Fletcher, Herman, “Experimental Investigation of Lift, Drag, and Pitching Moment of Five Annular Airfoils”, NACA TN4117, 1957 ) Ring Wing in 2x2ft blower wind tunnel (Source: Traub, Lance, “Experimental Investigation of Annular Wing Aerodynamics”, Journal of Aircraft, Vol. 46, No. 3, 2009, pp. 988-996)

Geometry (CATIA) Diameter – 8 in Chord Length – 4 in Aspect Ratio – 2

Mesh (GAMBIT) Average # tetrahedral volumes ≈ 362000

Solver (Fluent) & Boundary Conditions Pressure based solution from low experimental Reynolds number Viscous Model: Spalart-Allmaras (single equation) Density & Viscosity: 1.05 kg/m3 & 1.896e-5 kg/(m s) to match experimental Reynolds number Inlet: Velocity Inlet at 40 m/s with 0.5% turbulence intensity ratio Symmetry Velocity inlet Outflow outlet Wall – Top, Bottom, and Right faces 12 in 24 in

Results: Lift and Drag Coefficient Plots

Results: Velocity Pathlines

Results: Pressure Contour Plots, AoA = 14° x = 0 in x = 6 in x = 8 in x = 7 in x = 5 in x = 3 in x = 4 in x = 2 in Sweep surface plots for AoA = 14° (Pa)

Results: Pressure Contour Plots, AoA = 20° x = 6 in x = 7 in x = 8 in x = 5 in x = 3 in x = 0 in x = 2 in x = 4 in Sweep surface plots for AoA = 20° (Pa)

Conclusion CFD results followed lift and drag trends of experimental work, especially at lower AoA CFD results showed the development of two main vortices in the wake region of ring wing

Questions