Resistive Superconducting Fault Current Limiter modelling applied to simulations of DC grids
This poster illustrates the benefit of using Resistive Superconductive Fault Current Limiters for the protection of Multio Terminal DC grids.
This poster illustrates the benefit of using Resistive Superconductive Fault Current Limiters for the protection of Multio Terminal DC grids.
The aims of this work were to study its behaviour and to compare its performances with other measuring methods.
A partnership agreement to find an alternative to the use of SF6 gas (most potent greenhouse gas) in existing electrical installations.
This paper presents its evaluation through simulations in a cable GIS termination under different conditions.
GIS cable terminations present a complexity of geometry and material assembly that makes their design challenging.
DC time constants in different parts are computed and presented in this paper for a cable GIS fluid filled connection assembly.
New DC interrupting principle adjusts the injected counter current to use the vacuum bottle’s interruption capability under optimum conditions.
In this paper, we focused on the electrical characterization of the helium magnetron plasma operated at average gas pressure (5 Pa) with a molybdenum target.
After 6 years’ work on designing, constructing and performing acceptance tests, our High Power Source test platform has been inaugurated.
Resistive superconducting fault current limiters constitute a promising solution for high voltage (HV) networks.