Boltzmann framework for polyatomic gases: review on well-posedness, higher integrability and physical relevance
Abstract
This paper reviews results on the scalar Boltzmann equation for a single-component polyatomic gas with continuous internal energy. For the space homogeneous problem, L1-theory is established, for solutions with initial strictly positive mass and bounded energy, which enables to solve the Cauchy problem for initial data with L12+-moments using the comparison principle for ODEs. Then, deriving entropy-based estimates, Lp-integrability properties of the solution are explored, p∈ (1,∞]. All these analytical results hold under a specific assumption on the collision kernel corresponding to cut-off and hard-potentials type. A mean to verify physical applicability of the model is to evaluate the corresponding Boltzmann collision operator and to derive models for transport coefficients in terms of the collision kernel parameters. Comparison with experimental data for polytropic gases determines values of these parameters showing the physical relevance of the collision kernel.
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