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1

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Nonequilibrium boundary layer at a stagnation point for a hydrogen-helium stream over ablating graphite (1974)

Davy, W. C. ; Liu, T.-M.

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Publication Date: 2011-08-16

Description: The nonequilibrium axisymmetric stagnation point boundary layer over an ablating graphite surface is considered. The external stream is a high temperature mixture of hydrogen and helium. Variable thermodynamic and transport properties are assumed. Lennard-Jones potential model is used to calculate the transport coefficients of each species. Although the mixture rules for viscosity of the gas mixture are used, the weighting functions are more sophisticated than those commonly employed. For the conductivity of the mixture, generalized Wassiljewa coefficients are used. Seven species with 28 dissociation/recombination reactions are considered. Hansen's model for the dissociation rate constants is employed. The recombination rate constants are obtained by invoking detailed balance principles assisted by the JANAF thermodynamic data and the Hansen-Pearson thermodynamic data for C3.

Keywords: THERMODYNAMICS AND COMBUSTION

Type: Acta Astronautica; 1; Mar

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2

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New thermodynamic functions for the C3 molecule. (1973)

Pearson, W. E. ; Davy, W. C.

In: Other Sources

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Publication Date: 2011-08-16

Description: When graphite is used as ablation material in heat shields, very often a prominent carbon species vaporized into the stream is C3. The thermodynamic properties of the C3 molecule are, therefore, important in calculating transport phenomena in the ablation flow field. The nature of the C3 thermodynamic functions has been in doubt because of the uncertain contribution of the bending mode vibrations to the total internal energy of the molecule. An approach for overcoming these difficulties is considered. The results of the computations are presented in the form of graphs and approximating functions.

Keywords: CHEMISTRY

Type: AIAA Journal; 11; Aug. 197

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3

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Real-gas flowfields about three-dimensional configurations (1985)

Davy, W. C. ; Lombard, C. K. ; Balakrishnan, A.

In: Other Sources

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Publication Date: 2011-08-19

Keywords: AERODYNAMICS

Type: Journal of Spacecraft and Rockets (ISSN 0022-4650); 22; 46-53

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4

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Radiation heat transfer in the wake of a hypersonic vehicle (1988)

Davy, W. C. ; Balakrishnan, A. ; Babikian, D. S. ; [et al.]

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Publication Date: 2019-06-28

Description: Radiation heat transfer (RHT) from the wake of a hypersonic vehicle to its afterbody is evaluated from Gnoffo and Greene's (1987) calculated wake flowfield and the radiative properties of ionized high-temperature air with the calculated nonequilibrium composition. The 4.2-m aeroassisted flight experiment at an altitude of 75 km and velocity of 8900 m/s causes a 0.1-m-thick layer initially at T = 10,000 K and P = 1 kN/sq m to separate from the shoulder of the forebody heat shield and spread aft to form a wake at approximately T = 5000 K and P = 20 N/sq m. Gas in the separated flow region at approximately T = 3000 K and P = 10 N/sq m, recirculates about the afterbody. It is shown that the radiating layer, recirculating gases, and wake are optically thin for purposes of making engineering RHT calculations. Directional, spectral, and spatial variations of the radiation incident upon the afterbody are presented.

Keywords: AERODYNAMICS

Type: AIAA PAPER 88-2634

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5

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Radiometric investigation of the wake flow of the forthcoming Aeroassist Flight Experiment (1991)

Babikian, D. S. ; Davy, W. C. ; Strawa, A. W. ; [et al.]

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Publication Date: 2019-06-28

Description: This paper describes the rationale for conducting the proposed radiation measurement in the afterbody region of the Aeroassist Flight Experiment (AFE) vehicle, the results of the calculations of expected radiation intensities performed to date, and the instrumentation for the measurement. The experiment, named the Afterbody Radiometry Experiment (ARE), is one of the experiments that will be carried on board the AFE vehicle. The paper collates the existing experimental data to show the possibility that there may be substantial radiative heating of the afterbody region of an Aeroassisted Space Transfer Vehicle, which necessitates an experiment of the kind proposed. Calculations of the radiative heating rate to the base of the AFE are, qualitatively, in fair agreement with previous experimental work, which indicated that the radiative heating of the base is about 5 percent of that at the stagnation point.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 91-1408

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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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Viscous real gas flowfields about three dimensional configurations (1983)

Davy, W. C. ; Balakrishnan, A.

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Publication Date: 2019-06-28

Description: Laminar, real gas hypersonic flowfields over a three dimensional configuration are computed using an unsteady, factored implicit scheme. Local chemical and thermodynamic properties are evaluated by an equilibrium composition method. Transport properties are obtained from individual species properties and application of a mixture rule. Numerical solutions are presented for an ideal gas and equilibrium air for free-stream Mach numbers of 13 and 15 and at various angles of attack. The effect of real gas is to decrease the shock-layer thickness resulting from decreased shock-layer temperatures and corresponding increased density. The combined effects of viscosity and real gas are to increase the subsonic layer near the wall.

Keywords: AERODYNAMICS

Type: AIAA PAPER 83-1511

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8

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CAG12 - A CSCM based procedure for flow of an equilibrium chemically reacting gas (1985)

Davy, W. C. ; Lombard, C. K. ; Green, M. J.

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Publication Date: 2019-06-28

Description: The Conservative Supra Characteristic Method (CSCM), an implicit upwind Navier-Stokes algorithm, is extended to the numerical simulation of flows in chemical equilibrium. The resulting computer code known as Chemistry and Gasdynamics Implicit - Version 2 (CAG12) is described. First-order accurate results are presented for inviscid and viscous Mach 20 flows of air past a hemisphere-cylinder. The solution procedure captures the bow shock in a chemically reacting gas, a technique that is needed for simulating high altitude, rarefied flows. In an initial effort to validate the code, the inviscid results are compared with published gasdynamic and chemistry solutions and satisfactorily agreement is obtained.

Keywords: AERODYNAMICS

Type: AIAA PAPER 85-0927

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9

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Galileo probe forebody entry thermal protection - Aerothermal environments and heat shielding requirements (1980)

Wilson, J. F. ; Davy, W. C. ; Nicolet, W. E.

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Publication Date: 2019-07-13

Description: Solutions are presented for the aerothermal heating environments and the material thermal response for the forebody heatshield on the candidate 242 kg Galileo probe entering the modeled nominal and cold-dense Jovian atmospheres. In the flowfield analysis, a finite difference procedure was employed to obtain benchmark predictions of pressure, radiation and convective heating rates (both laminar and turbulent) and the corresponding wall blowing obtained under the steady state approximation. The fluxes over the probe flank were found to be in a range where spallation is an important mass loss mechanism. The predicted heating rates were also used as boundary conditions for a charring materials ablation which was used to predict thermochemical based surface recession, mass loss and bondline temperatures. The contingency factor of 30% currently employed by NASA was found to be insufficient for entry into the cold-dense atmosphere.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: ASME PAPER 80-ENAS-24 , Intersociety Environmental Systems Conference; Jul 14, 1980 - Jul 17, 1980; San Diego, CA

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10

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Forebody and base region real-gas flow in severe planetary entry by a factored implicit numerical method. I - Computational fluid dynamics (1980)

Green, M. J. ; Lombard, C. K. ; Davy, W. C.

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Publication Date: 2019-07-13

Description: A new code for the simulation of full (forebody and base region) flowfields about bluff bodies in the hypersonic regime of severe planetary entry is described. The present 'maximally conservative, maximally differenced' formulation of the unsteady compressible Navier-Stokes equations for 2-D axisymmetric 3-D flow is contrasted for stability with previous formulations of Viviand, Kutler, et al, and Thomas and Lombard. Discrete metric relations peculiar to the axisymmetric finite volume formulation are presented along with a general discussion of their relations to and consequences of failure to close computational cells. A computational mesh of curvilinear coordinate topology singular in the flow regime is presented that permits aligned capturing of the major physical features of the complex flowfield.

Keywords: AERODYNAMICS

Type: AIAA PAPER 80-0065 , Aerospace Sciences Meeting; Jan 14, 1980 - Jan 16, 1980; Pasadena, CA

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