Research & Collaboration
What makes us unique?
SuperGrid Institute owes its success to the people who make up our various research departments. Our teams come from diverse backgrounds in industry and academia, and their wealth of experience and skills make the Institute unique. Each individual brings specific expertise to the table.
This melting pot of knowledge offers opportunities for specialists from different fields to collaborate on new and innovative solutions to technical problems.
The Institute also benefits from close collaborative relationships with industry and academic institutions. The complementary strengths of our partners provide insights and innovative approaches to technical challenges. At the same time, we retain total independence in our research. Public-private investments and collaborative projects finance our work.
SuperGrid Institute’s state-of-the-art research facilities, test platforms and laboratories at the Villeurbanne and Grenoble sites are key to the success of our five research departments.
Latest scientific publications
SuperGrid Institute’s participation in PROMOTioN’s Work Package 9
SuperGrid Institute is proud to have been an active participant in the PROMOTioN project since 2016. This project is part of the European Union’s Horizon 2020 program and is made up of several work packages (WP) that share a common aim: developing meshed HVDC offshore grids that are both cost effective and reliable, through technological innovation. SuperGrid Institute is an active member of several Work Packages, including WP9 whose objective is to develop fault clearing strategies using Hardware-in-the-Loop (HIL) real-time simulation (RTS).
Structural Analysis and Modular Control Law for Modular Multilevel Converter (MMC)
This paper proposes an in-depth analysis from the control point of view of dynamic models of a Modular Multilevel Converter (MMC) for high-voltage direct current (HVDC) application.
New challenges for High voltage transmission
In able to fully integrate renewable energies and to stop to use fossil energy and nuclear power, there is a need to evolve the current electric grid in a new one called the supergrid. This new grid will be based on a mix of High Voltage AlternativeCurent (HVAC) and High voltage Direct Current (HVDC) junctions highly meshed with Gas Insulation Substation (GIS) as nodes. While HVAC GIS technologies are well mastered, HVDC ones are still at the beginning. One weakness of the equipment being dielectric insulators, industries may have to conceive new dielectric formulations or improved ones. This paper presents a list of properties and values to target for future dielectrics formulation. At the end, it highlights as well, the importance of health and environnement and how their consideration have to be at the same level of attention than the final properties of the dielectrics.
