Type-II superconductors are expected to be extensively used in the designing of DC power grids due to their reduced use of space, high transport current capability, and nearly zero resistive losses. Nevertheless, these systems will have to share the right of way of the currently installed AC network, reducing the costs of development associated to the superconducting cables without the need of increasing the right of way. Under the theoretical framework of the critical state model and the numerical solution of Maxwell equations in the magneto quasi-steady approach, in this paper we present a comprehensive study of the effects of applying an AC transverse magnetic field to a type-II SC wire of rounded cross section it utilized for direct cur...
The use of superconducting wire within AC power systems is complicated by the dissipative interactio...
In recent years, the $H$ formulation of Maxwell's equations has become the de facto standard for sim...
The authors develop a numerical method for calculating the transverse resistivity of superconducting...
Type-II superconductors are expected to be extensively used in the designing of DC power grids due t...
Numerical simulations of a type-II superconducting wire subject to an ac transport current and osci...
Remarkable features on the magnetic moment of type-II superconducting wires of cylindrical shape, su...
The macroscopic electromagnetic behaviour of a type-II superconducting wire for alternating current ...
A round straight superconducting wire has been used as numerical prototype for pursuing a comprehens...
This thesis contributes to the broad understanding of the macroscopic electromagnetic behaviour of t...
Numerical simulations of geometrical and electromagnetic effects on the distributions of the magneti...
The ac losses induced by an alternating transport current in type-II superconductors is a well-known...
Superconductors used in magnet technology could carry extreme currents because of their ability to k...
This thesis aims to understand the macroscopic electromagnetic behaviour of type-II superconducting ...
The use of superconducting wire within AC power systems is complicated by the dissipative interactio...
In recent years, the $H$ formulation of Maxwell's equations has become the de facto standard for sim...
The authors develop a numerical method for calculating the transverse resistivity of superconducting...
Type-II superconductors are expected to be extensively used in the designing of DC power grids due t...
Numerical simulations of a type-II superconducting wire subject to an ac transport current and osci...
Remarkable features on the magnetic moment of type-II superconducting wires of cylindrical shape, su...
The macroscopic electromagnetic behaviour of a type-II superconducting wire for alternating current ...
A round straight superconducting wire has been used as numerical prototype for pursuing a comprehens...
This thesis contributes to the broad understanding of the macroscopic electromagnetic behaviour of t...
Numerical simulations of geometrical and electromagnetic effects on the distributions of the magneti...
The ac losses induced by an alternating transport current in type-II superconductors is a well-known...
Superconductors used in magnet technology could carry extreme currents because of their ability to k...
This thesis aims to understand the macroscopic electromagnetic behaviour of type-II superconducting ...
The use of superconducting wire within AC power systems is complicated by the dissipative interactio...
In recent years, the $H$ formulation of Maxwell's equations has become the de facto standard for sim...
The authors develop a numerical method for calculating the transverse resistivity of superconducting...
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