Add to ORKGA disruption mitigation system is mandatory in ITER in order to reduce electromagnetic forces on the structures, mitigate heat loads and avoid the generation of runaway electrons which occurs during disruptions. Massive Gas Injection (MGI) is foreseen in ITER to trigger a "controlled " disruption in order to greatly reduce the potential damage on the tokamak com
Disruptions, the fast accidental losses of plasma current and stored energy in tokamaks, represent a...
This report presents the results of a preliminary failure modes and effects analysis (FMEA) of a can...
19th International Conference on Plasma-Surface Interactions in Controlled Fusion Devices (PSI), Uni...
Abstract. Disruption mitigation is mandatory for ITER in order to reduce forces, to mitigate heat lo...
Disruption mitigation is mandatory for ITER in order to reduce forces, to mitigate heat loads during...
Disruptions are a major concern for next-generation tokamaks, including ITER. Heat loads, electromag...
Disruptions on ITER present challenges to handle the intense heat flux, the large forces from halo c...
Disruptions in tokamaks seem to be unavoidable. Consequences of disruptions are (i) high heat loads ...
The goal of this research is to establish credible disruption mitigation scenarios based on the tech...
Disruption mitigation by massive gas injection (MGI) of Ne gas has been simulated using the 3D TOKES...
Disruptions are of significant concern to future devices, due to the large amount of energy released...
Disruption mitigation is of high priority for future tokamaks like ITER and DEMO. Massive gas inject...
A new Disruption Mitigation System (DMS) based on Massive Gas Injections (MGI) has been installed at...
In a tokamak, the poloidal magnetic field provided by the toroidal plasma current forms an essential...
The thermal and electromagnetic loads related to disruptions in ITER are substantial and require car...
Disruptions, the fast accidental losses of plasma current and stored energy in tokamaks, represent a...
This report presents the results of a preliminary failure modes and effects analysis (FMEA) of a can...
19th International Conference on Plasma-Surface Interactions in Controlled Fusion Devices (PSI), Uni...
Abstract. Disruption mitigation is mandatory for ITER in order to reduce forces, to mitigate heat lo...
Disruption mitigation is mandatory for ITER in order to reduce forces, to mitigate heat loads during...
Disruptions are a major concern for next-generation tokamaks, including ITER. Heat loads, electromag...
Disruptions on ITER present challenges to handle the intense heat flux, the large forces from halo c...
Disruptions in tokamaks seem to be unavoidable. Consequences of disruptions are (i) high heat loads ...
The goal of this research is to establish credible disruption mitigation scenarios based on the tech...
Disruption mitigation by massive gas injection (MGI) of Ne gas has been simulated using the 3D TOKES...
Disruptions are of significant concern to future devices, due to the large amount of energy released...
Disruption mitigation is of high priority for future tokamaks like ITER and DEMO. Massive gas inject...
A new Disruption Mitigation System (DMS) based on Massive Gas Injections (MGI) has been installed at...
In a tokamak, the poloidal magnetic field provided by the toroidal plasma current forms an essential...
The thermal and electromagnetic loads related to disruptions in ITER are substantial and require car...
Disruptions, the fast accidental losses of plasma current and stored energy in tokamaks, represent a...
This report presents the results of a preliminary failure modes and effects analysis (FMEA) of a can...
19th International Conference on Plasma-Surface Interactions in Controlled Fusion Devices (PSI), Uni...