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Supergrid Architecture & Systems2023-02-02T16:41:52+01:00

Supergrid Architecture & Systems

Bruno Luscan, Supergrid Architecture & Systems Programme Director

“How should a supergrid system be technically designed and operated? The Supergrid Architecture and Systems research department aims to answer this question by developing control and protection concepts for HVDC systems, and by defining the requirements for the key components of the system.”

Bruno Luscan, Department Director – Supergrid Architecture & Systems

SuperGrid Institute’s experts work to overcome the technical challenges confronting DC grids. We develop technologies to control and protect the stability of HVDC and MVDC networks, which need to be much more dynamic than AC networks. Defining the requirements for the key components of DC grids or combined AC-DC power systems and designing and simulating the technical performance of these systems are key to our work.

We employ real-time, electromagnetic transient simulations with accurate, built-in models of power converter control systems to demonstrate how a system will perform when a new technology is integrated into the network (for example, a new protection strategy).

Managing the stability of a DC network requires the control systems to be much more dynamic than those used in AC networks.
SuperGrid Institute develop control and protection concepts for HVDC systems and define the requirements for key components of the system.
SuperGrid Institute carries out electromagnetic transient simulations with accurate, built-in models of power converter control systems and uses real-time simulation to demonstrate the system’s performance when a new technology is integrated into the network (for example, a new protection strategy).
Real-time simulation is an important step required to demonstrate the system’s performance when a new technology is integrated into the network (for example, a new protection system).
The architectural principles must also allow for the coexistence of technologies from different origins, and a step-by-step development process.
Determining the correct technical performance of future DC grids or combined AC-DC power systems is only possible through simulation.
Managing the stability of a DC network requires the control systems to be much more dynamic than those used in AC networks.

Recent publications

Our research department

High Voltage
Substation Equipment

Power Electronics
& Converters

High Voltage
Cable Systems

Power Storage
& Balancing

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