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Computational unsteady aerodynamics for lifting surfaces (1988)

Edwards, John W.

In: CASI

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Publication Date: 2013-08-31

Description: Two dimensional problems are solved using numerical techniques. Navier-Stokes equations are studied both in the vorticity-stream function formulation which appears to be the optimal choice for two dimensional problems, using a storage approach, and in the velocity pressure formulation which minimizes the number of unknowns in three dimensional problems. Analysis shows that compact centered conservative second order schemes for the vorticity equation are the most robust for high Reynolds number flows. Serious difficulties remain in the choice of turbulent models, to keep reasonable CPU efficiency.

Keywords: AERODYNAMICS

Type: VKI, Unsteady Aerodynamics, Volume 2; 120 p

Format: application/pdf

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Computational aeroelasticity challenges and resources (1989)

Edwards, John W.

In: CASI

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Publication Date: 2013-08-31

Description: In the past decade, there has been much activity in the development of computational methods for the analysis of unsteady transonic aerodynamics about airfoils and wings. Significant features are illustrated which must be addressed in the treatment of computational transonic unsteady aerodynamics. The flow regimes for an aircraft on a plot of lift coefficient vs. Mach number are indicated. The sequence of events occurring in air combat maneuvers are illustrated. And further features of transonic flutter are illustrated. Also illustrated are several types of aeroelastic response which were encountered and which offer challenges for computational methods. The four cases illustrate problem areas encountered near the boundaries of aircraft envelopes, as operating condition change from high speed, low angle conditions to lower speed, higher angle conditions.

Keywords: AERODYNAMICS

Type: Transonic Unsteady Aerodynamics and Aeroelasticity 1987, Part 2; p 631-637

Format: application/pdf

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Computational methods for unsteady transonic flows (1987)

Thomas, J. L. ; Edwards, John W.

In: CASI

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Publication Date: 2019-06-28

Description: Computational methods for unsteady transonic flows are surveyed with emphasis on prediction. Computational difficulty is discussed with respect to type of unsteady flow; attached, mixed (attached/separated) and separated. Significant early computations of shock motions, aileron buzz and periodic oscillations are discussed. The maturation of computational methods towards the capability of treating complete vehicles with reasonable computational resources is noted and a survey of recent comparisons with experimental results is compiled. The importance of mixed attached and separated flow modeling for aeroelastic analysis is discussed, and recent calculations of periodic aerodynamic oscillations for an 18 percent thick circular arc airfoil are given.

Keywords: AERODYNAMICS

Type: NASA-TM-89106 , NAS 1.15:89106 , AIAA PAPER 87-0107

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Computational methods for unsteady transonic flows (1987)

Thomas, James L. ; Edwards, John W.

In: Other Sources

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Publication Date: 2019-06-28

Description: Computational methods for unsteady transonic flows are surveyed with emphasis upon applications to aeroelastic analysis and flutter prediction. Computational difficulty is discussed with respect to type of unsteady flow; attached, mixed (attached/separated) and separated. Significant early computations of shock motions, aileron buzz and periodic oscillations are discussed. The maturation of computational methods towards the capability of treating complete vehicles with reasonable computational resources is noted and a survey of recent comparisons with experimental results is compiled. The importance of mixed attached and separated flow modeling for aeroelastic analysis is discussed and recent calculations of periodic aerodynamic oscillations for an 18 percent thick circular arc airfoil are given.

Keywords: AERODYNAMICS

Type: AIAA PAPER 87-0107

Format: text

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Transonic stability and control of aircraft using CFD methods (1988)

Edwards, John W. ; Batina, John T. ; Vinh, Lam-Son ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Implementation of a capability to calculate longitudinal short-period response in the CAP-TSD (Computational Aeroelasticity Program - Transonic Small Disturbance) finite-difference code is described. The code, developed recently at the NASA Langley Research Center, is capable of solving steady and unsteady flows about complete aircraft configurations and is used primarily for aeroelastic calculations in the critical transonic speed range. The longitudinal short-period equations of motion in state-space form have been coupled to the time-accurate lift and moment calculated by the program. Transient responses to an elevator pulse for free-flying aircraft demonstrate the new capability. A trim routine is also added to the code to obtain trim automatically during steady-state flow field convergence. Stability and control derivatives are estimated from the calculated transient response by a maximum likelihood estimation program. Results for a fighter configuration and a general aviation configuration are presented to assess the capability.

Keywords: AIRCRAFT STABILITY AND CONTROL

Type: AIAA PAPER 88-4374 , AIAA Atmospheric Flight Mechanics Conference; Aug 15, 1988 - Aug 17, 1988; Minneapolis, MN; United States

Format: text

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