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Relaxation and approximate factorization methods for the unsteady full potential equation (1984)

Gorski, J. ; Shankar, V. ; Ide, H.

In: Other Sources

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Publication Date: 2019-06-28

Description: The unsteady form of the full potential equation is solved in conservation form, using implicit methods based on approximate factorization and relaxation schemes. A local time linearization for density is introduced to enable solution to the equation in terms of phi, the velocity potential. A novel flux-biasing technique is applied to generate proper forms of the artificial viscosity, to treat hyperbolic regions with shocks and sonic lines present. The wake is properly modeled by accounting not only for jumps in phi, but also for jumps in higher derivatives of phi obtained from requirements of density continuity. The far field is modeled using the Riemann invariants to simulate nonreflecting boundary conditions. Results are presented for flows over airfoils, cylinders, and spheres. Comparisons are made with available Euler and full potential results.

Keywords: AERODYNAMICS

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A fast, time-accurate unsteady full potential scheme (1985)

Osher, S. ; Gorski, J. ; Shankar, V. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: The unsteady form of the full potential equation is solved in conservation form by an implicit method based on approximate factorization. At each time level, internal Newton iterations are performed to achieve time accuracy and computational efficiency. A local time linearization procedure is introduced to provide a good initial guess for the Newton iteration. A novel flux-biasing technique is applied to generate proper forms of the artificial viscosity to treat hyperbolic regions with shocks and sonic lines present. The wake is properly modeled by accounting not only for jumps in phi, but also for jumps in higher derivatives of phi, obtained by imposing the density to be continuous across the wake. The far field is modeled using the Riemann invariants to simulate nonreflecting boundary conditions. The resulting unsteady method performs well which, even at low reduced frequency levels of 0.1 or less, requires fewer than 100 time steps per cycle at transonic Mach numbers. The code is fully vectorized for the CRAY-XMP and the VPS-32 computers.

Keywords: COMPUTER PROGRAMMING AND SOFTWARE

Type: AIAA PAPER 85-1512 , Computational Fluid Dynamics Conference; Jul 15, 1985 - Jul 17, 1985; Cincinnati, OH

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Computation of supersonic flows over three-dimensional configurations (1985)

Riba, W. L. ; Shankar, V. ; Gorski, J. J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: An aerodynamic prediction technique based on the steady form of the full-potential equation has been applied to a variety of three-dimensional supersonic flow problems exhibiting embedded subsonic regions. A conservative switching scheme is employed to transition from the supersonic relaxation algorithm, and vice versa. Numerical solutions are obtained for a number of complex configurations, including advanced tactical fighter, Langley canard-wing fighter configuration, isolated shuttle orbiter, and mated shuttle orbiter configuration with external tank. The computed results are in good agreement with available experimental data.

Keywords: AERODYNAMICS

Type: AIAA PAPER 85-0272 , Journal of Aircraft (ISSN 0021-8669); 22; 1079-108

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