Statistics – Computation
Scientific paper
Mar 1983
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1983apj...266..242m&link_type=abstract
Astrophysical Journal, Part 1, vol. 266, Mar. 1, 1983, p. 242-247.
Statistics
Computation
7
Astrophysics, Computational Fluid Dynamics, Hydrodynamics, Particle Diffusion, Radiative Transfer, Viscosity, Flow Equations, Fluid Flow, Particle Acceleration, Relativistic Particles, Stress Tensors
Scientific paper
Diffusion limit radiation stress intensity tensor term size and radiating fluid dynamical equation term size estimates are presented, with emphasis on radiative viscosity effects. A complete parallelism is demonstrated between radiation and material terms, and Castor's (1972) comoving frame radiation energy and momentum equations, augmented by Buchler's (1979, 1982) acceleration terms, are shown to provide a completely consistent treatment of all effects associated with both radiation viscosity and the equivalent inertia of radiation enthalpy and radiant energy flux. Questions arising in connection with radiative viscous dissipation are discussed, and it is noted that in certain physically reasonable situations, the radiative viscous dissipation function may be only O(v-squared/c-squared) relative to the dominant radiative term in the radiating fluid gas-energy equation.
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