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Numerical simulation of backward step and jet exhaust flows (1986)

Luh, R. C.-C. ; Lombard, C. K. ; Bardina, J. ; [et al.]

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Publication Date: 2019-06-28

Description: Preparatory to a continuing study of efficient, high resolution flow structure capture on patched mesh systems, turbulent flowfield solutions for a tactical missile base flow problem are computed on two first level composite grids of differing topologies. One mesh is of the wraparound character and the other is a step mesh on the Cartesian topology. A simplified Baldwin-Lomax algebraic eddy viscosity model is applied in the wake region. Results for the two meshes are compared with each other and with other computations reported in the literature. The totality of results suggest both mesh topology and resolution are important factors in the accuracy of predictive results as well as turbulence modeling. Related to interests in high altitude laminar flows bluff bodies such as the AOTV, the paper also presents results from a solution from laminar flow over a backward facing step and makes comparison with the available classical experiment of Chapman, et al.

Keywords: AERODYNAMICS

Type: AIAA PAPER 86-0432 , AD-A165682

Format: text

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Aerodynamic design modification of a hypersonic wind tunnel nozzle by CSCM with high order accuracy (1987)

Nagaraj, N. ; Lombard, C. K. ; Luh, R. C.-C. ; [et al.]

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Publication Date: 2019-06-28

Description: An improved version of the CSCM implicit Navier-Stokes solver with a flexible data structure has been applied, in conjunction with a sophisticated patched grid system, to the aerodynamic analysis of hypersonic axisymmetric contoured nozzles of the NASA-Ames 3.5-foot hypersonic wind tunnel. The results obtained are found to be in good agreement with experiment. Based on the analysis, a newly designed throat contour for the Mach 14 nozzle has been recommended.

Keywords: AERODYNAMICS

Type: AIAA PAPER 87-1896

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CSCM methodology for slot injection cooled cavity flow design in a high enthalpic stream (1987)

Nystrom, G. A. ; Luh, R. C.-C. ; Lombard, C. K. ; [et al.]

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Publication Date: 2019-06-28

Description: The CSCM method for the compressible Navier-Stokes equations is applied to study design factors in a slot injection cooled cavity flow in the side of a 2-D wedge body in a high enthalpy free stream. The flow geometry is being designed and will be tested in an arc jet tunnel at NASA-Ames Research Center. Objectives of the design are to provide adequate thermal protection for and minimize aero-optical distortion in the path above a window located in the bottom of the cavity. Among design issues, are the geometry of and flow conditions in the expanding section of the supersonic slot injection nozzle. Here, for straight walled nozzles, two geometries are considered for the upper nozzle lip between the hot, high speed outer flow and the colder, denser cooling flow. The two lip geometries - thick, square and thin, wedge - as the result of associated widely differing base/wake flows also exhibit different and interesting viscous-inviscid flow structures near the ramp termination to the cavity. For the thin lip case, the consequences on flow quality of off design nozzle conditions relative to matching pressure with the outer flow are explored.

Keywords: AERODYNAMICS

Type: AIAA PAPER 87-0518

Format: text

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