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Assessment of a two-temperature kinetic model for dissociating and weakly ionizing nitrogen (1988)

Park, Chul

In: Other Sources

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Publication Date: 2011-08-19

Keywords: THERMODYNAMICS AND STATISTICAL PHYSICS

Type: Journal of Thermophysics and Heat Transfer (ISSN 0887-8722); 2; 8-16

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2

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Titan atmospheric composition by hypervelocity shock-layer analysis (1991)

Park, Chul ; Nelson, H. F. ; Whiting, Ellis E.

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Publication Date: 2011-08-19

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Thermophysics and Heat Transfer (ISSN 0887-8722); 5; 157-165

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Estimation of excitation energy of diatomic molecules in expanding nonequilibrium flows (1992)

Park, Chul

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Publication Date: 2019-06-28

Description: The energy contained in the highly excited vibrational and rotational states in a diatomic gas in a thermochemical nonequilibrium state during expansion is estimated. The estimation is made on the assumption that the populations of the vibrational and rotational states, when normalized by their respective equilibrium values, are describable by simple functions containing no more than four arbitrary parameters. A cubic polynomial, a logarithmic-cubic polynomial, and a bimodal step function are used for this purpose. The four parameters are determined by imposing conditions known at the ground state and the dissociation limit and the mass conservation law. The energy in excess of that accounted for by assuming a Boltzmann distribution of these states, defined here as excess excitation energy, is calculated for N2, O2, NO, CO, OH, and H2. A calculation made for a typical nozzle flow shows that the excess energy may reach 6 percent of the total enthalpy of the flow, and that the flow velocity may decrease by as much as 4 percent due to the nonequilibrium excitation phenomenon.

Keywords: THERMODYNAMICS AND STATISTICAL PHYSICS

Type: AIAA PAPER 92-0805

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Titan atmospheric composition by hypervelocity shock layer analysis (1989)

Park, Chul ; Nelson, H. F. ; Whiting, Ellis E.

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Publication Date: 2019-06-28

Description: The Cassini Mission, a NASA/ESA cooperative project which includes a deployment of probe into the atmosphere of Titan, is described, with particular attention given to the shock radiometer experiment planned for the Titan probe for the analysis of Titan's atmosphere. Results from a shock layer analysis are presented, demonstrating that the mole fractions of the major species (N2, CH4, and, possibly Ar) in the Titan atmosphere can be successfully determined by the Titan-probe radiometer, by measuring the intensity of the CN(violet) radiation emitted in the shock layer during the high velocity portion of the probe entry between 200 and 400 km altitude. It is shown that the sensitivity of the CN(violet) radiation makes it possible to determine the mole fractions of N2, CH4, and Ar to about 0.015, 0.003, and 0.01, respectively, i.e., much better than the present uncertainties in the composition of Titan atmosphere.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: AIAA PAPER 89-1770

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