GENERAL RESEARCH. ENERGY TRANSFER PROCESSES IN A PARTIALLY IONIZED, TWO-TEMPERATURE GAS,

Abstract

The elementary situation of convective energy transfer between parallel plates at different temperatures is analyzed for partially ionized, non-reacting, monatomic hydrogen wherein the electrons may be at a temperature different from that of the heavier species. The gas conditions considered are such that an ion sheath, less than a mean free path in spatial extent, forms on the fully catalytic colder surface. The numerical results obtained indicate that: (1) the gross features of the continuum solution are rather insensitive to the models of sheath and transition regions employed; (2) the energy transfer between ions and electrons due to the electric field external to the sheath is appreciable, particularly in its effects of reducing electron temperature; (3) thermal nonequilibrium effects on total heat transfer are not as great as might be anticipated, due to energy transfer between species by electric fields and the contribution of diffusional processes; (4) magnetic field effects on total heat transfer are less than the effect on electronic thermal conductivity would indicate and are lessened further by thermal nonequilibrium effects. (Author)

Document Details

Document Type

Technical Report

Publication Date

Mar 02, 1964

Accession Number

AD0433007

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