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Hypersonic Combustor Model Inlet CFD Simulations and Experimental Comparisons (1995)

TokarcikPolsky, S. ; Edwards, Thomas A. ; Deiwert, G. S. ; [et al.]

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Publication Date: 2019-07-18

Description: Numerous two-and three-dimensional computational simulations were performed for the inlet associated with the combustor model for the hypersonic propulsion experiment in the NASA Ames 16-Inch Shock Tunnel. The inlet was designed to produce a combustor-inlet flow that is nearly two-dimensional and of sufficient mass flow rate for large scale combustor testing. The three-dimensional simulations demonstrated that the inlet design met all the design objectives and that the inlet produced a very nearly two-dimensional combustor inflow profile. Numerous two-dimensional simulations were performed with various levels of approximations such as in the choice of chemical and physical models, as well as numerical approximations. Parametric studies were conducted to better understand and to characterize the inlet flow. Results from the two-and three-dimensional simulations were used to predict the mass flux entering the combustor and a mass flux correlation as a function of facility stagnation pressure was developed. Surface heat flux and pressure measurements were compared with the computed results and good agreement was found. The computational simulations helped determine the inlet low characteristics in the high enthalpy environment, the important parameters that affect the combustor-inlet flow, and the sensitivity of the inlet flow to various modeling assumptions.

Keywords: Fluid Mechanics and Thermodynamics

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The NASA Ames Hypersonic Combustor-Model Inlet CFD Simulations and Experimental Comparisons (1995)

Deiwert, G. S. ; Edwards, Thomas A. ; Venkatapathy, E. ; [et al.]

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Publication Date: 2019-07-17

Description: Computations have been performed on a three-dimensional inlet associated with the NASA Ames combustor model for the hypersonic propulsion experiment in the 16-inch shock tunnel. The 3-dimensional inlet was designed to have the combustor inlet flow nearly two-dimensional and of sufficient mass flow necessary for combustion. The 16-inch shock tunnel experiment is a short duration test with test time of the order of milliseconds. The flow through the inlet is in chemical non-equilibrium. Two test entries have been completed and limited experimental results for the inlet region of the combustor-model are available. A number of CFD simulations, with various levels of simplifications such as 2-D simulations, 3-D simulations with and without chemical reactions, simulations with and without turbulent conditions, etc., have been performed. These simulations have helped determine the model inlet flow characteristics and the important factors that affect the combustor inlet flow and the sensitivity of the flow field to these simplifications. In the proposed paper, CFD modeling of the hypersonic inlet, results from the simulations and comparison with available experimental results will be presented.

Keywords: Fluid Mechanics and Thermodynamics

Type: 6th International AIAA Aerospace Plane and Hypersonic Technologies Conference; Apr 10, 1995 - Apr 14, 1995; Chatanooga, TN; United States

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The NASA Ames 16-Inch Shock Tunnel Nozzle Simulations and Experimental Comparison (1995)

Delwert, G. S. ; Papadopoulos, P. ; Edwards, Thomas A. ; [et al.]

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Publication Date: 2019-07-18

Description: The 16-Inch Shock Tunnel at NASA Ames Research Center is a unique test facility used for hypersonic propulsion testing. To provide information necessary to understand the hypersonic testing of the combustor model, computational simulations of the facility nozzle were performed and results are compared with available experimental data, namely static pressure along the nozzle walls and pitot pressure at the exit of the nozzle section. Both quasi-one-dimensional and axisymmetric approaches were used to study the numerous modeling issues involved. The facility nozzle flow was examined for three hypersonic test conditions, and the computational results are presented in detail. The effects of variations in reservoir conditions, boundary layer growth, and parameters of numerical modeling are explored.

Keywords: Fluid Mechanics and Thermodynamics

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