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Ablation of Galileo Probe heat-shield models in a ballistic range (1985)

Park, C. ; Balakrishnan, A.

In: Other Sources

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Publication Date: 2011-08-19

Description: Several 1/24-scale models of the Galileo Probe made of carbon-phenolic materials were flown in a ballistic range to test their ablation characteristics. Mostly radiative or all-convective heating environments were produced by using argon or air as the test gas, respectively, to simulate the Jovian entry heating environments. The experimental results were compared with the theoretical predictions made using the computer codes of radiating shock layer environment (RASLE) and charring materials ablation (CMA). The experimental data obtained in argon agreed approximately with the theoretical predictions. The data for air agreed approximately with the theory when turbulence and surface roughness effects were accounted for. The data imply that the Galileo Probe heat shield was adequately designed.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA Journal (ISSN 0001-1452); 23; 301-308

Format: text

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2

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Application of a Reynolds stress turbulence model to the compressible shear layer (1990)

Sarkar, S. ; Balakrishnan, L.

In: Other Sources

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Publication Date: 2019-06-28

Description: Theoretically based turbulence models have had success in predicting many features of incompressible, free shear layers. However, attempts to extend these models to the high-speed, compressible shear layer have been less effective. In the present work, the compressible shear layer was studied with a second-order turbulence closure, which initially used only variable density extensions of incompressible models for the Reynolds stress transport equation and the dissipation rate transport equation. The quasi-incompressible closure was unsuccessful; the predicted effect of the convective Mach number on the shear layer growth rate was significantly smaller than that observed in experiments. Having thus confirmed that compressibility effects have to be explicitly considered, a new model for the compressible dissipation was introduced into the closure. This model is based on a low Mach number, asymptotic analysis of the Navier-Stokes equations, and on direct numerical simulation of compressible, isotropic turbulence. The use of the new model for the compressible dissipation led to good agreement of the computed growth rates with the experimental data. Both the computations and the experiments indicate a dramatic reduction in the growth rate when the convective Mach number is increased. Experimental data on the normalized maximum turbulence intensities and shear stress also show a reduction with increasing Mach number.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 90-1465

Format: text

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3

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Simulating AOTV heating environment in an arc jet (1986)

Winovich, W. ; Balboni, J. ; Balakrishnan, A.

In: Other Sources

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Publication Date: 2019-06-28

Description: The application of arc-jet facilities to the simulation of the combined radiative and convective heating environments calculated for AOTV return missions is presented. The AOTV mission requirement and design configuration determine the magnitude of the radiative and convective heating rates. This paper considers methods for obtaining radiation from the high temperature plasma in arc-jet flows. A computer code that predicts arc-heater performance was used to determine the effect of gas mixtures on arc-heater performance, with the intent of increasing the gas temperature and resultant radiative emission. Numerical radiation solutions were compared with direct measurements of the radiative intensity from the gas cap. Convective heating measurements were made as well. The arc-jet was operated at AOTV enthalpy and pressure levels for these measurements to assess the simulation capabilities for AOTV material development/testing. A parametric study is presented that defines the capability of the Interaction Heating Facility arc jet at Ames to simulate both the radiative and the convective heating for current AOTV configurations.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 86-1312

Format: text

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4

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A finite element solution algorithm for nonlinear thermal problems with severe gradients (1989)

Thornton, Earl A. ; Balakrishnan, Narayani

In: Other Sources

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Publication Date: 2019-06-28

Description: An implicit enthalpy - flux component finite element algorithm is presented for nonlinear thermal problems with severe gradients. The algorithm is formulated to permit efficient solution of nonlinear heat transfer problems for unstructured meshes with a large range of element sizes. Two transient conduction examples illustrate the effectiveness of the approach for problems with high temperatures and steep gradients.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 89-0520

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5

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Assessment and application of Reynolds stress closure models to high-speed compressible flows (1990)

Gatski, T. B. ; Abid, R. ; Speziale, C. G. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: The paper presents results from the development of higher order closure models for the phenomological modeling of high-speed compressible flows. The work presented includes the introduction of an improved pressure-strain correlationi model applicable in both the low- and high-speed regime as well as modifications to the isotropic dissipation rate to account for dilatational effects. Finally, the question of stiffness commonly associated with the solution of two-equation and Reynolds stress transport equations in wall-bounded flows is examined and ways of relaxing these restrictions are discussed.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 90-5247

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6

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Radiometer experiment for the aeroassist flight experiment (1985)

Balakrishnan, A. ; Arnold, J. O. ; Park, C. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: A forthcoming NASA flight experiment is described that provides an opportunity to obtain a large base of radiometric data for high-altitude, high-velocity thermochemically nonequilibrated-flow conditions. As a preliminary to the design of a radiometer for this experiment, an approximate method for predicting both equilibrium and nonequilibrium radiative surface fluxes is described. Spectral results for one trajectory state, a velocity of 10 km/sec at an altitude of 85 km, are presented. These results are then used to develop some of the instrument parameters that will be needed for designing of the three genre of radiometers that are proposed for this experiment.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 85-0967

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7

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Application of a Reynolds stress turbulence model to the compressible shear layer (1990)

Sarkar, S. ; Balakrishnan, L.

In: CASI

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Publication Date: 2019-06-28

Description: Theoretically based turbulence models have had success in predicting many features of incompressible, free shear layers. However, attempts to extend these models to the high-speed, compressible shear layer have been less effective. In the present work, the compressible shear layer was studied with a second-order turbulence closure, which initially used only variable density extensions of incompressible models for the Reynolds stress transport equation and the dissipation rate transport equation. The quasi-incompressible closure was unsuccessful; the predicted effect of the convective Mach number on the shear layer growth rate was significantly smaller than that observed in experiments. Having thus confirmed that compressibility effects have to be explicitly considered, a new model for the compressible dissipation was introduced into the closure. This model is based on a low Mach number, asymptotic analysis of the Navier-Stokes equations, and on direct numerical simulation of compressible, isotropic turbulence. The use of the new model for the compressible dissipation led to good agreement of the computed growth rates with the experimental data. Both the computations and the experiments indicate a dramatic reduction in the growth rate when the convective Mach number is increased. Experimental data on the normalized maximum turbulence intensities and shear stress also show a reduction with increasing Mach number.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-CR-182002 , NAS 1.26:182002 , ICASE-90-18 , AD-A227097

Format: application/pdf

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8

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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

Format: text

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