On the Diffusive Limits of Radiative Heat Transfer System I: Well-Prepared Initial and Boundary Conditions
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Publication:5038511
DOI10.1137/21M1455267zbMATH Open1506.35230arXiv2007.13209OpenAlexW3045350677WikidataQ114073956 ScholiaQ114073956MaRDI QIDQ5038511
Author name not available (Why is that?)
Publication date: 7 October 2022
Published in: (Search for Journal in Brave)
Abstract: We study the diffusive limit approximation for a nonlinear radiative heat transfer system that arises in the modeling of glass cooling, greenhouse effects and in astrophysics. The model is considered with the reflective radiative boundary conditions for the radiative intensity, and periodic, Dirichlet and Robin boundary conditions for the temperature. The global existence of weak solutions for this system is given by using a Galerkin method with a careful treatment of the boundary conditions. Using the compactness method, averaging lemma and Young measure theory, we prove our main result that the weak solution converges to a nonlinear diffusion model in the diffusive limit. Moreover, under more regularity conditions on the limit system, the diffusive limit is also analyzed by using a relative entropy method. In particular, we get a rate of convergence. The initial and boundary conditions are assumed to be well-prepared in the sense that no initial and boundary layer exist.
Full work available at URL: https://arxiv.org/abs/2007.13209
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