Network DC: Pioneering the future of Britain’s Power Grid
Discover how Network DC is improving Britain’s energy grid with DC circuit breakers (DCCBs)
Discover how Network DC is improving Britain’s energy grid with DC circuit breakers (DCCBs)
This paper investigate the impact of combined temperature & humidity on epoxy durability using weight measurement, dynamic scanning calorimetry & dielectric spectroscopy.
The goal is to know better how these materials behave over time under different steady electro-thermal stresses, which is crucial for developing more reliable HVDC cable systems.
The aim of this work is to investigate the influence of dielectric barriers on the breakdown voltage in pressurized ai rinsulated rod-plane gaps.
Such generation of HVDC cables aims at fostering the resilience and reliability of the European transmission grid.
Marie-Hélène talks to us about the current projects within her team and the major challenges ahead for the future of the energy transition.
Qualification of a 10kV MVDC cable system, highlighting its advantages in energy efficiency, power capacity & operational flexibility.
SuperGrid Institute validates its resistive superconducting fault current limiter technology combined with a mechanical circuit breaker for HVDC
Subsea Smart Hubs joint project: improving the cost & risk effectiveness of alternative inter-array cabling solutions for floating wind farms
SuperGrid Institute will be working with partners from across Europe to shape the future of transmission & distribution grids.