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Dynamic Stall Calculations Using a Navier-Stokes Solver

Dynamic Stall Calculations Using a Navier-Stokes Solver
Author: James E. Valdes
Publisher:
Total Pages: 120
Release: 1986
Genre:
ISBN:
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A Navier Stokes problem solver, is installed and verified on the Cray X/MP-48 computer and is used to calculate the flow field about a NACA 0012 airfoil oscillating in pitch. Surface pressure distributions and integrated lift, pitching moment, and drag coefficients versus angle of attack are compared to existing experimental data for two cases, involving deep dynamic stall and fully attached flow at and below a freestream Mach number of .3. The flow field about the oscillating airfoil is investigated through the study of contour plots of pressure, density, Mach number, and stream function. The effect of turbulence modeling is explored through use of the Baldwin Lomax model and a modification designed to prevent underprediction by repeating the deep stall simulation at one-tenth the experimental Reynolds number and Mach numbers of .3 and 5. The latter conditions are intended for comparison with the results of wind tunnel experiments.

Airfoil Dynamic Stall and Rotorcraft Maneuverability

Airfoil Dynamic Stall and Rotorcraft Maneuverability
Author:
Publisher:
Total Pages: 62
Release: 2000
Genre:
ISBN:
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The loading of an airfoil during dynamic stall is examined in terms of the augmented lift and the associated penalties in pitching moment and drag. It is shown that once stall occurs and a leading-edge vortex is shed from the airfoil there is a unique relationship between the augmented lift, the negative pitching moment, and the increase in drag. This relationship, referred to here as the dynamic stall function, shows limited sensitivity to effects such as the airfoil section profile and Mach number, and appears to be independent of such parameters as Reynolds number, reduced frequency, and blade sweep. For single-element airfoils there is little that can be done to improve rotorcraft maneuverability except to provide good static clmax characteristics and the chord or blade number that is required to provide the necessary rotor thrust. However, multi-element airfoils or airfoils with variable geometry features can provide augmented lift in some cases that exceeds that available from a single-element airfoil. The dynamic stall function is shown to be a useful tool for the evaluation of both measured and calculated dynamic stall characteristics of singleelement, multi-element, and variable geometry airfoils.

Unsteady Navier-Stokes Calculations in an Accelerated Reference Frame

Unsteady Navier-Stokes Calculations in an Accelerated Reference Frame
Author: T. E. Speer
Publisher:
Total Pages: 84
Release: 1984
Genre:
ISBN:
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The purpose of this project was to develop a numerical method capable of calculating the laminar flow about a two dimensional accelerating body using the incompressible Navier-Stokes equations. This problem arises in the calculation of the dynamic stall of an airfoil and in the calculation of pitching and heaving stability derivatives for an isolated airfoil. It is also a first step toward solving the three dimensional flow about a complete wing undergoing arbitrary motion at high angles of attack, including departure, spin, and post-stall maneuvers. Numerical calculations to date have not been satisfactory. Test cases presented are Stoke's first problem, a circular cylinder translating at a Reynold's number of 20, and a rotating stationary circular cylinder. Keywords include: Aerodynamics, Airfoils, Difference equations, Navier Stokes equations.

Dynamic Stall Computations Using a Zonal Navier-Stokes Model

Dynamic Stall Computations Using a Zonal Navier-Stokes Model
Author: Jack H Conroyd (Jr)
Publisher:
Total Pages: 212
Release: 1988
Genre:
ISBN:
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A zonal Navier-Stokes model, is installed and verified on the NASA Ames Cray X/MP-48 computer and is used to calculate the flow field about a NACA 0012 airfoil oscillating in pitch. Surface pressure distributions and integrated lift, pitching moment, and drag coefficient versus angle of attack are compared to existing experimental data for four cases and existing computational data for one case. These cases involve deep dynamic stall and fully detached flow at and below a freestream Mach number of .184. The flow field about the oscillating airfoil is investigated through the study of pressure, vorticity, local velocity and stream function. Finally, the effects of pitch rate on dynamic stall are investigated. Keywords: Theses, Computer programs, Dynamic stall, Navier Stokes, Unsteady aerodynamics. (jhd).

Aeronautical Engineering

Aeronautical Engineering
Author:
Publisher:
Total Pages: 538
Release: 1991
Genre: Aeronautics
ISBN:
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