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Finite Difference Solution of 1D Magnetohydrodynamic Channel Flow with Slipping Walls
Date
2018-06-08
Author
Arslan, Sinem
Tezer, Münevver
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https://hdl.handle.net/11511/75263
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In this study, the MHD flow of an electrically conducting fluid is considered in a long channel (pipe) of rectangular cross-section along with the z-axis. The fluid is driven by a pressure gradient along the z-axis. The flow is steady, laminar, fully-developed and is influenced by an external magnetic field applied perpendicular to the channel axis. So, the velocity field V=(0,0,V) and the magnetic field B=(0, B_{0}, B) have only channel-axis components V and B depending only on the plane coordinates x an...
Finite Difference Solutions of 2D Magnetohydrodynamic Channel Flow in a Rectangular Duct
Arslan, Sinem (Springer, Cham, 2021-01-01)
FINITE DIFFERENCE METHOD SOLUTION OF MAGNETOHYDRODYNAMIC FLOW IN CHANNELS WITH ELECTRICALLY CONDUCTING AND SLIPPING WALLS
Arslan, Sinem; Tezer, Münevver; Department of Mathematics (2018-5-28)
In this thesis, the laminar, steady and fully developed magnetohydrodynamic (MHD) flow is considered in a pipe (channel) along with the z-axis under an external magnetic field applied perpendicular to the pipe. The velocity and the induced magnetic field depend only on the plane coordinates x and y on the cross-section of the pipe (duct) when the flow reaches to fully-developed case. This results in two-dimensional MHD duct flow. When the lateral channel walls are extended to infinity the flow is considered...
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S. Arslan and M. Tezer, “Finite Difference Solution of 1D Magnetohydrodynamic Channel Flow with Slipping Walls,” 2018, Accessed: 00, 2021. [Online]. Available: https://hdl.handle.net/11511/75263.
