Analytical benchmark for non-equilibrium radiation diffusion in finite size systems

Abstract: a b s t r a c tNon-equilibrium radiation diffusion is an important mechanism of energy transport in inertial confinement fusion, astrophysical plasmas, furnaces and heat exchangers. In this paper, an analytical solution to the non-equilibrium Marshak diffusion problem in a planar slab and spherical shell of finite thickness is presented. Using Laplace transform method, the radiation and material energy densities are obtained as functions of space and time. The variation in integrated energy densities and leaka… Show more

“…In the studies on linear diffusion and transport problems [23][24][25][26] or simpler nonlinear heat conduction problems [27], one can use classical strategy such as Laplace (Fourier) transformation for temporal (spatial) variant, or adopt some special function to obtain exact solution. But for scaled non-equilibrium radiation diffusion problems, it is rather difficult to construct exact solutions due to the strong nonlinearity and the scaling parameter.…”

Asymptotic-Preserving Discrete Schemes for Non-Equilibrium Radiation Diffusion Problem in Spherical and Cylindrical Symmetrical Geometries

“…In the studies on linear diffusion and transport problems [23][24][25][26] or simpler nonlinear heat conduction problems [27], one can use classical strategy such as Laplace (Fourier) transformation for temporal (spatial) variant, or adopt some special function to obtain exact solution. But for scaled non-equilibrium radiation diffusion problems, it is rather difficult to construct exact solutions due to the strong nonlinearity and the scaling parameter.…”

Asymptotic-Preserving Discrete Schemes for Non-Equilibrium Radiation Diffusion Problem in Spherical and Cylindrical Symmetrical Geometries

Integral Equations in the Kinetic Theory of Gases and Related Topics

Wide range scaling laws for radiation driven shock speed, wall albedo and ablation parameters for high-Z materials