A liquid metal film offers unique properties to withstand the large thermal load on a Plasma-Facing Components (PFCs) in a nuclear reactor but the interaction between this conductive fluid and the tokamak magnetic fields leads to Magnetohydrodynamic (MHD) phenomena that influence the flow features. To properly design the PFCs is necessary to accurately predict these features and heat transfer for free surface MHD flow. In the first part of this work, the general purpose CFD code ANSYS CFX 18.2 is validated for MHD thin film flow with isolated walls, up to a Hartmann Number and for several values of the characteristic width/thickness ratio, comparing the results with the analytical relation developed by Shishko. For all the cases considered,...
The flow of an electrically conducting fluid in an array of square ducts, separated by arbitrary thi...
Computational results were obtained for fully developed free convection MHD flow in a vertical squar...
In fusion reactor blanket design, liquid metals are attractive working fluids since it is possible t...
Liquid metals offer unique properties and their use in a nuclear fusion reactor, both as confined fl...
In order to counter adverse effects resulting from the impingement of high energy plasmas on solid m...
The attractiveness of liquid metal blankets depends strongly on the degree of which peak pressures a...
The idea of using fast flowing liquid metal streams or ”liquid walls”, as plasma facing components (...
Free surface plasma facing components (PFCs) offer the potential to solve the lifetime issues limiti...
In the designing of the present reactor tokamak the value of the Hartmann boundary layer in a strong...
The design of breeding blankets represents the major challenge for fusion reactor engineering becaus...
Magnetohydrodynamic flows of liquid metals in thin conducting ducts of various geometries in the pre...
In this paper, the 3D MHD flow through an orifice with asymmetric contraction is investigated. This ...
Liquid metal free-surface flows provide an option of a renewable surface for heat absorption, remova...
When an incompressible fluid flows through a contraction in a conduit, the increase in the kinetic e...
Over the past several years, as part of the APEX and ALPS projects, liquid metal magnetohydrodynamic...
The flow of an electrically conducting fluid in an array of square ducts, separated by arbitrary thi...
Computational results were obtained for fully developed free convection MHD flow in a vertical squar...
In fusion reactor blanket design, liquid metals are attractive working fluids since it is possible t...
Liquid metals offer unique properties and their use in a nuclear fusion reactor, both as confined fl...
In order to counter adverse effects resulting from the impingement of high energy plasmas on solid m...
The attractiveness of liquid metal blankets depends strongly on the degree of which peak pressures a...
The idea of using fast flowing liquid metal streams or ”liquid walls”, as plasma facing components (...
Free surface plasma facing components (PFCs) offer the potential to solve the lifetime issues limiti...
In the designing of the present reactor tokamak the value of the Hartmann boundary layer in a strong...
The design of breeding blankets represents the major challenge for fusion reactor engineering becaus...
Magnetohydrodynamic flows of liquid metals in thin conducting ducts of various geometries in the pre...
In this paper, the 3D MHD flow through an orifice with asymmetric contraction is investigated. This ...
Liquid metal free-surface flows provide an option of a renewable surface for heat absorption, remova...
When an incompressible fluid flows through a contraction in a conduit, the increase in the kinetic e...
Over the past several years, as part of the APEX and ALPS projects, liquid metal magnetohydrodynamic...
The flow of an electrically conducting fluid in an array of square ducts, separated by arbitrary thi...
Computational results were obtained for fully developed free convection MHD flow in a vertical squar...
In fusion reactor blanket design, liquid metals are attractive working fluids since it is possible t...
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