A Galerkin Finite Element Method for the Reconstruction of a Time-Dependent Convection Coefficient and Source in a 1D Model of Magnetohydrodynamics

Author:

Koleva Miglena N.1ORCID,Vulkov Lubin G.2

Affiliation:

1. Department of Mathematics, Faculty of Natural Sciences and Education, “Angel Kanchev” University of Ruse, 8 Studentska Str., 7017 Ruse, Bulgaria

2. Department of Applied Mathematics and Statistics, Faculty of Natural Sciences and Education, “Angel Kanchev” University of Ruse, 8 Studentska Str., 7017 Ruse, Bulgaria

Abstract

The mathematical analysis of viscous magnetohydrodynamics (MHD) models is of great interest in recent years. In this paper, a finite element Galerkin method is employed for the estimation of an unknown time-dependent convection coefficient and source in a 1D magnetohydrodynamics flow system. In this inverse problem, two integral observations are posed and used to transform the inverse problem to a non-classical direct problem with a non-local parabolic operator. Then, the non-classical strongly coupled parabolic system is studied in various settings. The equivalence of the inverse problem (IP) and the direct one are proven. The Galerkin procedure is analyzed to proove the existence and uniqueness of the solution. The finite element method (FEM) has been developed for the solution of the variational problem. Test examples are discussed.

Funder

European Union-NextGenerationEU, through the National Recovery and Resilience Plan of the Republic of Bulgaria

Publisher

MDPI AG

Reference34 articles.

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2. Landav, L.D., Bell, J., Kearsley, M., Pitaevski, L., Lifshitz, E., and Sykes, J. (2013). Electrodynamics of Continuous Media, Elsevier.

3. Adjoint-based parameter and state estimation in 1-D magnetohydrodynamics (MHD) flow system;Ren;J. Optim. Manag. Optim.,2018

4. Optimal control asymptotics of a magnetohydrodynamic flow;Tsyba;Comp. Math. Math. Phys.,2009

5. Comparison of the simplified and full MHD models for laminar incompressible flow past a circular cylinder;Yu;Appl. Math. Model.,2017

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