1977
DOI: 10.1029/rg015i004p00429
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Mathematical structure of transport equations for multispecies flows

Abstract: In this review we attempt to present a unified picture of transport in multispecies gas mixtures. To accomplish this task, it is necessary to outline the mathematical structure of the transport equations. Starting from Boltzmann's equation, we derive a general system of transport equations using an approach that is valid for flow situations in which there are large temperature and drift velocity differences between the interacting species. However, this system of equations, which is obtained by taking velocity… Show more

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Cited by 339 publications
(344 citation statements)
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“…Blelly and Schunk, 1993, Figure 4d]. Of the two velocity correction terms for Coulomb collisions, ij goes to zero with increasing relative velocity much faster than ij [Schunk, 1977]. Thus, Coulomb collisions are ineffective at equalizing the ion temperatures when supersonic velocity differences exist, but frictional heating can still be important.…”
Section: 1002/2013ja019378mentioning
confidence: 99%
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“…Blelly and Schunk, 1993, Figure 4d]. Of the two velocity correction terms for Coulomb collisions, ij goes to zero with increasing relative velocity much faster than ij [Schunk, 1977]. Thus, Coulomb collisions are ineffective at equalizing the ion temperatures when supersonic velocity differences exist, but frictional heating can still be important.…”
Section: 1002/2013ja019378mentioning
confidence: 99%
“…im , and D (4) im for Coulomb and Maxwell molecule collisions are given by Schunk [1977] and Schunk and Nagy [2009]. For the hard sphere-like treatment of resonant ion-neutral interactions, the corresponding numbers are…”
Section: 1002/2013ja019378mentioning
confidence: 99%
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“…The set of transport equations (continuity, momentum, energy and heat flow) corresponding to this approach is derived from Schunk (1977). It solves the temporal evolution of the concentration, the field-aligned velocity, and the temperature and the fieldaligned heat flow of each species.…”
Section: Physical Modelsmentioning
confidence: 99%