Characterization of High Temperature Superconductor Cables for Magnet Toroidal Field Coils of the DEMO Fusion Power Plant
Bayer, Christoph M.
Characterization of High Temperature Superconductor Cables for Magnet Toroidal Field Coils of the DEMO Fusion Power Plant - KIT Scientific Publishing 2017 - 1 electronic resource (VII, 198 p. p.)
Open Access
Nuclear fusion is a key technology to satisfy the basic demand for electric energy sustainably. The official EUROfusion schedule foresees a first industrial DEMOnstration Fusion Power Plant for 2050. In this work several high temperature superconductor sub-size cables are investigated for their applicability in large scale DEMO toroidal field coils. Main focus lies on the electromechanical stability under the influence of high Lorentz forces at peak magnetic fields of up to 12 T.
Creative Commons
English
KSP/1000062054 9783731506058
10.5445/KSP/1000062054 doi
Magnet toroidal field coil Nuclear fusion HochtemperatursupraleitungDEMO Reactor Kernfusion High temperature superconductors DEMO Reaktor Toroidalfeldspulen
Characterization of High Temperature Superconductor Cables for Magnet Toroidal Field Coils of the DEMO Fusion Power Plant - KIT Scientific Publishing 2017 - 1 electronic resource (VII, 198 p. p.)
Open Access
Nuclear fusion is a key technology to satisfy the basic demand for electric energy sustainably. The official EUROfusion schedule foresees a first industrial DEMOnstration Fusion Power Plant for 2050. In this work several high temperature superconductor sub-size cables are investigated for their applicability in large scale DEMO toroidal field coils. Main focus lies on the electromechanical stability under the influence of high Lorentz forces at peak magnetic fields of up to 12 T.
Creative Commons
English
KSP/1000062054 9783731506058
10.5445/KSP/1000062054 doi
Magnet toroidal field coil Nuclear fusion HochtemperatursupraleitungDEMO Reactor Kernfusion High temperature superconductors DEMO Reaktor Toroidalfeldspulen