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An efficient method for estimating neighboring steady-state numerical solutions to the Euler equations (1991)

Hou, Gene W. ; Korivi, Vamshi M. ; Taylor, Arthur C., III

In: Other Sources

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Publication Date: 2019-06-28

Description: The paper concentrates on a linear approximation method for predicting the changes occurring in steady-state numerical solutions of the Euler equations as a consequence of small changes in the independent variables which control the problem. The importance of proper boundary-condition treatment and other issues concerning the problem are covered along with the importance of proper algorithm selection for a fully supersonic inviscid flow. The method is applied to a subsonic nozzle involving variation of the pressure on the outflow boundary and to a supersonic inlet involving variation of the inflow Mach number. In the subsonic test case, the comparisons between the predicted and conventional numerical solutions are shown to be good, while in the supersonic test case, the agreement between the approximation method and conventional numerical solution starts out well but rapidly degenerates at some point in the flowfield as the perturbation of the boundary conditions is increased.

Keywords: AERODYNAMICS

Type: AIAA PAPER 91-1680

Format: text

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An incremental strategy for calculating consistent discrete CFD sensitivity derivatives (1992)

Korivi, Vamshi Mohan ; Hou, Gene W. ; Newman, Perry A. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: In this preliminary study involving advanced computational fluid dynamic (CFD) codes, an incremental formulation, also known as the 'delta' or 'correction' form, is presented for solving the very large sparse systems of linear equations which are associated with aerodynamic sensitivity analysis. For typical problems in 2D, a direct solution method can be applied to these linear equations which are associated with aerodynamic sensitivity analysis. For typical problems in 2D, a direct solution method can be applied to these linear equations in either the standard or the incremental form, in which case the two are equivalent. Iterative methods appear to be needed for future 3D applications; however, because direct solver methods require much more computer memory than is currently available. Iterative methods for solving these equations in the standard form result in certain difficulties, such as ill-conditioning of the coefficient matrix, which can be overcome when these equations are cast in the incremental form; these and other benefits are discussed. The methodology is successfully implemented and tested in 2D using an upwind, cell-centered, finite volume formulation applied to the thin-layer Navier-Stokes equations. Results are presented for two laminar sample problems: (1) transonic flow through a double-throat nozzle; and (2) flow over an isolated airfoil.

Keywords: AERODYNAMICS

Type: NASA-TM-104207 , NAS 1.15:104207 , AVSCOM-TR-92-B-006

Format: application/pdf

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Sensitivity analysis, approximate analysis, and design optimization for internal and external viscous flows (1991)

Hou, Gene W. ; Taylor, Arthur C., III ; Korivi, Vamshi M.

In: Other Sources

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Publication Date: 2019-06-28

Description: A gradient-based design optimization strategy for practical aerodynamic design applications is presented, which uses the 2D thin-layer Navier-Stokes equations. The strategy is based on the classic idea of constructing different modules for performing the major tasks such as function evaluation, function approximation and sensitivity analysis, mesh regeneration, and grid sensitivity analysis, all driven and controlled by a general-purpose design optimization program. The accuracy of aerodynamic shape sensitivity derivatives is validated on two viscous test problems: internal flow through a double-throat nozzle and external flow over a NACA 4-digit airfoil. A significant improvement in aerodynamic performance has been achieved in both cases. Particular attention is given to a consistent treatment of the boundary conditions in the calculation of the aerodynamic sensitivity derivatives for the classic problems of external flow over an isolated lifting airfoil on 'C' or 'O' meshes.

Keywords: AERODYNAMICS

Type: AIAA PAPER 91-3083

Format: text

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4

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Discrete shape sensitivity equations for aerodynamic problems (1991)

Taylor, Arthur C., III ; Hou, Gene J.-W. ; Korivi, Vamshi M.

In: Other Sources

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Publication Date: 2019-06-28

Description: Intensive research and development in Computational Fluid Dynamics (CFD) has recently produced many powerful CFD codes to simulate complex aerodynamic phenomena. However, in order to enhance the usefulness of these CFD codes for design practice, development of design sensitivity equations compatible to these codes becomes very important. This paper represents a part of such an effort to develop a sensitivity analysis methodology that enables the sensitivity equations to be implemented into existing CFD codes with minimal code modification. The methodology is based upon a preelimination procedure which accounts for consistently linearized boundary conditions. Formulations of both the direct differentiation and the adjoint variable methods will be presented in the paper.

Keywords: AERODYNAMICS

Type: AIAA PAPER 91-2259

Format: text

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5

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Methodology for calculating aerodynamic sensitivity derivatives (1992)

Hou, Gene W. ; Taylor, Arthur C., III ; Korivi, Vamshi M.

In: Other Sources

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Publication Date: 2019-07-12

Keywords: AERODYNAMICS

Type: AIAA Journal (ISSN 0001-1452); 30; 10; 2411-241

Format: text

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6

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Recent advances in steady compressible aerodynamic sensitivity analysis (1992)

Taylor, Arthur C., III ; Newman, Perry A. ; Jones, Henry E. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Sensitivity analysis methods are classified as belonging to either of the two broad categories: the discrete (quasi-analytical) approach and the continuous approach. The two approaches differ by the order in which discretization and differentiation of the governing equations and boundary conditions is undertaken. The discussion focuses on the discrete approach. Basic equations are presented, and the major difficulties are reviewed in some detail, as are the proposed solutions. Recent research activity concerned with the continuous approach is also discussed.

Keywords: AERODYNAMICS

Type: ; 20 p.|Institute for Mathematics and Its Applications, Workshop on Flow Control; Nov 01, 1992; Minneapolis, MN; United States

Format: text

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