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30 degree injectors at hypervelocity conditions (1992)

Newfield, Mark E. ; Loomis, Mark P. ; Bogdanoff, David W. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Results are presented of the first high-speed propulsion-related experiments performed in the NASA-Ames 16-Inch Shock Tunnel, designed to simulate combustor inlet conditions at approximately Mach 14. Results demonstrate the capability of the tunnel for high-speed propulsion testing and yield data on the performance of 30-deg flush wall injectors tested in the tunnel. The experimental results are compared with those of a CFD analysis.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 92-3288

Format: text

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2

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A 3D finite element multigrid solver for the Euler equations (1992)

Morgan, K. ; Peraire, J. ; Peiro, J.

In: Other Sources

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Publication Date: 2019-08-28

Description: A low storage, computationally efficient algorithm for the solution of the compressible Euler equations on unstructured tetrahedral meshes is developed. The algorithm takes the form of a centered scheme with the explicit addition of a high accuracy artificial viscosity and the solution is advanced to steady state by means of a multistage timestepping method. The side-based data structure which is employed enables a clear connection to be established between the proposed algorithm and upwind cell vertex schemes for unstructured meshes. The computational efficiency of the procedure is improved by incorporating an unstructured multigrid acceleration procedure. A number of flows of practical interest are analyzed to demonstrate the numerical performance of the proposed approach.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 92-0449

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3

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A CFD validation roadmap for hypersonic flows (1992)

Marvin, Joseph G.

In: CASI

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Publication Date: 2019-07-13

Description: A roadmap for computational fluid dynamics (CFD) code validation is developed. The elements of the roadmap are consistent with air-breathing vehicle design requirements and related to the important flow path components: forebody, inlet, combustor, and nozzle. Building block and benchmark validation experiments are identified along with their test conditions and measurements. Based on an evaluation criteria, recommendations for an initial CFD validation data base are given and gaps identified where future experiments would provide the needed validation data.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-TM-103935 , A-92091 , NAS 1.15:103935 , Fluid Dynamics Panel Meeting and Symposium on Theoretical and Experimental Methods in Hypersonic Flows; May 04, 1992 - May 08, 1992; Torino; Italy

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4

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A comparative study of advanced shock-capturing schemes applied to Burgers' equation (1992)

Yang, H. Q. ; Przekwas, A. J.

In: Other Sources

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Publication Date: 2011-08-24

Description: A systematic evaluation is conducted of all extant numerical schemes for nonlinear scalar transport problems, and several advanced shock-capturing schemes are used to solve the nonlinear Burgers' equation in order to characterize their ability to resolve the sharp discontinuity, expansion zone, and propagation and collision features of shocks. For discontinuous functions, the Warming-Beam scheme generates preshock wiggles, while the Lax-Wendroff scheme generates postshock ones. Such limiters as the MUSCL or the superbee are more compressive than minimod or monotonic limiters. The performance of such TVD schemes as the upwind, the symmetric, and the Roe-Sweby, resemble each other.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Journal of Computational Physics (ISSN 0021-9991); 102; 1, Se; 139-159

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5

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A comparative study of scramjet injection strategies for high Mach numbers flows (1992)

Mcclinton, C. R. ; Bittner, R. D. ; Rogers, R. C. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: A simple method for predicting the axial distribution of supersonic combustor thrust potential is described. A complementary technique for illustrating the spatial evolution and distribution of thrust potential and loss mechanisms in reacting flows is developed. Wall jet cases and swept ramp injector cases for Mach 17 and Mach 13.5 flight enthalpy inflow conditions are numerically modeled and analyzed using these techniques. The visualization of thrust potential in the combustor for the various cases examined provides a unique tool for increasing understanding of supersonic combustor performance potential.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 92-3287

Format: text

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6

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A comparative study of two codes with an improved two-equation turbulence model for predicting jet plumes (1992)

Balakrishnan, L. ; Abdol-Hamid, Khaled S.

In: Other Sources

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Publication Date: 2019-07-13

Description: Compressible jet plumes were studied using a two-equation turbulence model. A space marching procedure based on an upwind numerical scheme was used to solve the governing equations and turbulence transport equations. The computed results indicate that extending the space marching procedure for solving supersonic/subsonic mixing problems can be stable, efficient and accurate. Moreover, a newly developed correction for compressible dissipation has been verified in fully expanded and underexpanded jet plumes. For a sonic jet plume, no improvement in results over the standard two-equation model was seen. However for a supersonic jet plume, the correction due to compressible dissipation successfully predicted the reduced spreading rate of the jet compared to the sonic case. The computed results were generally in good agreement with the experimental data.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 92-2604 , AIAA Applied Aerodynamics Conference; Jun 22, 1992 - Jun 24, 1992; Palo Alto, CA; United States

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7

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A comparison of artificial compressibility and fractional step methods for incompressible flow computations (1992)

Sindir, Munir ; Darian, Armen ; Chan, Daniel C.

In: CASI

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Publication Date: 2013-08-29

Description: We have applied and compared the efficiency and accuracy of two commonly used numerical methods for the solution of Navier-Stokes equations. The artificial compressibility method augments the continuity equation with a transient pressure term and allows one to solve the modified equations as a coupled system. Due to its implicit nature, one can have the luxury of taking a large temporal integration step at the expense of higher memory requirement and larger operation counts per step. Meanwhile, the fractional step method splits the Navier-Stokes equations into a sequence of differential operators and integrates them in multiple steps. The memory requirement and operation count per time step are low, however, the restriction on the size of time marching step is more severe. To explore the strengths and weaknesses of these two methods, we used them for the computation of a two-dimensional driven cavity flow with Reynolds number of 100 and 1000, respectively. Three grid sizes, 41 x 41, 81 x 81, and 161 x 161 were used. The computations were considered after the L2-norm of the change of the dependent variables in two consecutive time steps has fallen below 10(exp -5).

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA. Goddard Space Flight Center, Tenth Workshop for Computational Fluid Dynamic Applications in Rocket Propulsion, Part 1; p 147-171

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8

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A compressible boundary layer algorithm for use with SINDA '85 (1992)

Vandewall, Allan ; Sakowski, Barbara ; Darling, Douglas

In: CASI

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Publication Date: 2013-08-31

Description: It is useful to interface a high-speed-flow solution and SINDA to analyze the thermal behavior of systems that include both conduction and high speed flows. When interfacing a high-speed-flow solution to SINDA, it may be necessary to include the viscous effects in the energy equations. Boundary layer effects of interest include heat transfer coefficients (including convection and viscous dissipation) and friction coefficients. To meet this need, a fast, uncoupled, compressible, two-dimensional, boundary layer algorithm was developed that can model flows with and without separation. This algorithm was used as a subroutine with SINDA. Given the core flow properties and the wall heat flux from SINDA, the boundary layer algorithm returns a wall temperature to SINDA and boundary layer algorithm are iterated until they predict the same wall temperature.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: The Fourth Annual Thermal and Fluids Analysis Workshop; p 117-130

Format: application/pdf

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9

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A compressible Navier-Stokes solver with two-equation and Reynolds stress turbulence closure models (1992)

Morrison, Joseph H.

In: CASI

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Publication Date: 2019-06-28

Description: This report outlines the development of a general purpose aerodynamic solver for compressible turbulent flows. Turbulent closure is achieved using either two equation or Reynolds stress transportation equations. The applicable equation set consists of Favre-averaged conservation equations for the mass, momentum and total energy, and transport equations for the turbulent stresses and turbulent dissipation rate. In order to develop a scheme with good shock capturing capabilities, good accuracy and general geometric capabilities, a multi-block cell centered finite volume approach is used. Viscous fluxes are discretized using a finite volume representation of a central difference operator and the source terms are treated as an integral over the control volume. The methodology is validated by testing the algorithm on both two and three dimensional flows. Both the two equation and Reynolds stress models are used on a two dimensional 10 degree compression ramp at Mach 3, and the two equation model is used on the three dimensional flow over a cone at angle of attack at Mach 3.5. With the development of this algorithm, it is now possible to compute complex, compressible high speed flow fields using both two equation and Reynolds stress turbulent closure models, with the capability of eventually evaluating their predictive performance.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-CR-4440 , NAS 1.26:4440

Format: application/pdf

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10

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A compressible near-wall turbulence model for boundary layer calculations (1992)

Zhang, H. S. ; Lai, Y. G. ; So, R. M. C.

In: CASI

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Publication Date: 2019-06-28

Description: A compressible near-wall two-equation model is derived by relaxing the assumption of dynamical field similarity between compressible and incompressible flows. This requires justifications for extending the incompressible models to compressible flows and the formulation of the turbulent kinetic energy equation in a form similar to its incompressible counterpart. As a result, the compressible dissipation function has to be split into a solenoidal part, which is not sensitive to changes of compressibility indicators, and a dilational part, which is directly affected by these changes. This approach isolates terms with explicit dependence on compressibility so that they can be modeled accordingly. An equation that governs the transport of the solenoidal dissipation rate with additional terms that are explicitly dependent on the compressibility effects is derived similarly. A model with an explicit dependence on the turbulent Mach number is proposed for the dilational dissipation rate. Thus formulated, all near-wall incompressible flow models could be expressed in terms of the solenoidal dissipation rate and straight-forwardly extended to compressible flows. Therefore, the incompressible equations are recovered correctly in the limit of constant density. The two-equation model and the assumption of constant turbulent Prandtl number are used to calculate compressible boundary layers on a flat plate with different wall thermal boundary conditions and free-stream Mach numbers. The calculated results, including the near-wall distributions of turbulence statistics and their limiting behavior, are in good agreement with measurements. In particular, the near-wall asymptotic properties are found to be consistent with incompressible behavior; thus suggesting that turbulent flows in the viscous sublayer are not much affected by compressibility effects.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: California State Univ., The Fifth Symposium on Numerical and Physical Aspects of Aerodynamic Flows; 14 p

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