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Multifluid description of nonequilibrium plasmas

Conference ·
OSTI ID:419670
 [1]
  1. Univ. da Madeira (Portugal). Dept. de Fisica
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A multifluid hydrodynamics description of a multispecies nonequilibrium reacting plasma, regarding each species of the plasma as a separate fluid coexisting with the fluids made up of other species, is widely employed, in particular in the theory of a glow discharge, of a near-cathode region of an arc discharge, of plasma edge in fusion devices, and of flows of the ionized air past re-entry vehicles. The multifluid approach is a proper tool of hydrodynamics description in situations when collisions of particles of every species with particles of the same species are frequent, however coupling between different species is weak. It follows in order to give a self-consistent kinetic derivation of multifluid equations one should treat the Knudsen numbers characterizing collisions of particles of any species between themselves as small parameters and those characterizing collisions of particles of different species as parameters of order unity. Such a derivation is given in the present paper. The term of the Boltzmann equation for every species accounting for collisions with the particles of the same species is considered as leading, the terms accounting for collisions with the particles of other species are considered as small, along with the flow terms. The distribution function of each species in the first approximation is Maxwellian with its own mean velocity and temperature. Equations of continuity, momentum and energy for every species resulting in the framework of such an approach from the conventional Chapman-Enskog procedure coincide with those for a simple gas, presence of other species being taken into account in terms of external sources or sinks of mass, momentum, and energy. Explicit expressions describing these sources/sinks are obtained.

OSTI ID:
419670
Report Number(s):
CONF-960634--
Country of Publication:
United States
Language:
English

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Related Subjects

66 PHYSICS
70 PLASMA PHYSICS AND FUSION TECHNOLOGY
COLLISIONAL PLASMA
NON-EQUILIBRIUM PLASMA
PLASMA FLUID EQUATIONS
PLASMA SIMULATION
SELF-CONSISTENT FIELD