An adaptive moving mesh method for two-dimensional ideal magnetohydrodynamics

This paper presents an adaptive moving mesh algorithm for two-dimensional (2D) ideal magnetohydrodynamics (MHD) that utilizes a staggered constrained transport technique to keep the magnetic field divergence-free. The algorithm consists of two independent parts: MHD evolution and mesh-redistribution...

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Published in:	Journal of computational physics Vol. 220; no. 2; pp. 791 - 812
Main Authors:	Han, Jianqiang, Tang, Huazhong
Format:	Journal Article
Language:	English
Published:	Amsterdam Elsevier Inc 10-01-2007 Elsevier
Subjects:	Adaptive moving mesh method Algorithms Computational fluid dynamics Computational techniques Constrained transport Divergence-free Exact sciences and technology Finite volume method Fluid flow Magnetic fields Magnetohydrodynamics Mathematical methods in physics Mathematical models MHD Physics Two dimensional Finite volume method Divergence-free Magnetohydrodynamics Adaptive moving mesh method Constrained transport Alfven waves Total energy Adaptive algorithm MHD waves Adaptive method Finite volume methods Calculation methods Interpolation Shock waves Divergences Magnetic potential Calculation Magnetic fields Mesh method Magnetic properties
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Abstract	This paper presents an adaptive moving mesh algorithm for two-dimensional (2D) ideal magnetohydrodynamics (MHD) that utilizes a staggered constrained transport technique to keep the magnetic field divergence-free. The algorithm consists of two independent parts: MHD evolution and mesh-redistribution. The first part is a high-resolution, divergence-free, shock-capturing scheme on a fixed quadrangular mesh, while the second part is an iterative procedure. In each iteration, mesh points are first redistributed, and then a conservative-interpolation formula is used to calculate the remapped cell-averages of the mass, momentum, and total energy on the resulting new mesh; the magnetic potential is remapped to the new mesh in a non-conservative way and is reconstructed to give a divergence-free magnetic field on the new mesh. Several numerical examples are given to demonstrate that the proposed method can achieve high numerical accuracy, track and resolve strong shock waves in ideal MHD problems, and preserve divergence-free property of the magnetic field. Numerical examples include the smooth Alfvén wave problem, 2D and 2.5D shock tube problems, two rotor problems, the stringent blast problem, and the cloud–shock interaction problem.
AbstractList	This paper presents an adaptive moving mesh algorithm for two-dimensional (2D) ideal magnetohydrodynamics (MHD) that utilizes a staggered constrained transport technique to keep the magnetic field divergence-free. The algorithm consists of two independent parts: MHD evolution and mesh-redistribution. The first part is a high-resolution, divergence-free, shock-capturing scheme on a fixed quadrangular mesh, while the second part is an iterative procedure. In each iteration, mesh points are first redistributed, and then a conservative-interpolation formula is used to calculate the remapped cell-averages of the mass, momentum, and total energy on the resulting new mesh; the magnetic potential is remapped to the new mesh in a non-conservative way and is reconstructed to give a divergence-free magnetic field on the new mesh. Several numerical examples are given to demonstrate that the proposed method can achieve high numerical accuracy, track and resolve strong shock waves in ideal MHD problems, and preserve divergence-free property of the magnetic field. Numerical examples include the smooth Alfven wave problem, 2D and 2.5D shock tube problems, two rotor problems, the stringent blast problem, and the cloud-shock interaction problem. This paper presents an adaptive moving mesh algorithm for two-dimensional (2D) ideal magnetohydrodynamics (MHD) that utilizes a staggered constrained transport technique to keep the magnetic field divergence-free. The algorithm consists of two independent parts: MHD evolution and mesh-redistribution. The first part is a high-resolution, divergence-free, shock-capturing scheme on a fixed quadrangular mesh, while the second part is an iterative procedure. In each iteration, mesh points are first redistributed, and then a conservative-interpolation formula is used to calculate the remapped cell-averages of the mass, momentum, and total energy on the resulting new mesh; the magnetic potential is remapped to the new mesh in a non-conservative way and is reconstructed to give a divergence-free magnetic field on the new mesh. Several numerical examples are given to demonstrate that the proposed method can achieve high numerical accuracy, track and resolve strong shock waves in ideal MHD problems, and preserve divergence-free property of the magnetic field. Numerical examples include the smooth Alfvén wave problem, 2D and 2.5D shock tube problems, two rotor problems, the stringent blast problem, and the cloud–shock interaction problem.
Author	Tang, Huazhong Han, Jianqiang
Author_xml	– sequence: 1 givenname: Jianqiang surname: Han fullname: Han, Jianqiang email: jqhan@pku.edu.cn – sequence: 2 givenname: Huazhong surname: Tang fullname: Tang, Huazhong email: hztang@math.pku.edu.cn
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Keywords	Finite volume method Divergence-free Magnetohydrodynamics Adaptive moving mesh method Constrained transport Alfven waves Total energy Adaptive algorithm MHD waves Adaptive method Finite volume methods Calculation methods Interpolation Shock waves Divergences Magnetic potential Calculation Magnetic fields Mesh method Magnetic properties
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Snippet	This paper presents an adaptive moving mesh algorithm for two-dimensional (2D) ideal magnetohydrodynamics (MHD) that utilizes a staggered constrained transport...
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SubjectTerms	Adaptive moving mesh method Algorithms Computational fluid dynamics Computational techniques Constrained transport Divergence-free Exact sciences and technology Finite volume method Fluid flow Magnetic fields Magnetohydrodynamics Mathematical methods in physics Mathematical models MHD Physics Two dimensional
Title	An adaptive moving mesh method for two-dimensional ideal magnetohydrodynamics
URI	https://dx.doi.org/10.1016/j.jcp.2006.05.031 https://search.proquest.com/docview/1677965754 https://search.proquest.com/docview/29427763 https://search.proquest.com/docview/901675359
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