1. Recommended Collision Integrals for Transport Property Computations Part 2: Mars and Venus Entries.
- Author
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Wright, Michael J., Hwang, Helen H., and Schwenke, David W.
- Subjects
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INTEGRALS , *VISCOSITY , *SEPARATION (Technology) , *POLARIZATION (Nuclear physics) , *PLASMA gases - Abstract
A review of the best-available data for calculating a complete set of binary collision integrals for the computation of the mixture transport properties (viscosity, thermal conductivity, ordinary and thermal diffusion) of 17-species weakly ionized CO2-N2 mixtures is presented. The fidelity of the data varies considerably, but most of the atom-atom interactions are derived from a b initio methods that are estimated to be accurate to within 5%. The remaining important interactions between neutral species are estimated to be accurate to within about 30% over the temperature range of interest (300-20,000 K) to Mars and Venus reentry plasmas. Collision integrals for important ion-neutral interactions are computed using a modified Tang-Toennies potential and have an estimated accuracy of ±25%, whereas those between trace species are approximated via the polarization (Langevin) potential model. The accuracy and valid temperature range for electron-neutral interactions vary considerably due to scarcity of the required cross section data. [ABSTRACT FROM AUTHOR]
- Published
- 2007
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