Modeling a 100% Renewable Electricity System - RES100
The project takes the perspective of a 100% renewable European electricity system, where hydropower will play a crucial role together with new technologies on the supply and demand side.
The project takes the perspective of a 100% renewable European electricity system, where hydropower will play a crucial role together with new technologies on the supply and demand side.
MultiStore will develop control and operation strategies for battery energy storage systems (BESS) and hydrogen energy storage systems (HESS) with the aim of maximizing their socio-economic benefits to further facilitate more VRES in the power grid.
NEMECYS will develop tools and procedures that help device manufacturers, integrators and health care providers to ensure cyber security by design for connected medical and diagnostic devices.
The goal of the NewLifT project is to establish knowledge and decision-making support for manufacturers and users of power transformers and facilitate introduction of new transformer insulting liquids (TILs).
NextGrid aims to develop solutions for the future operation of the power grid. In this project, grid companies' operations centres are being prepared for a future where the operation of the distribution grid is more complex and automated.
The NordicH2ubs project aims to understand the needs and challenges of creating and expanding hydrogen hubs and valleys in the Nordic countries towards 2030 and 2040.
System optimisation and stress testing in co-simulations
The main objective of PurPest is to control serious plant pests during import and to manage them in the field by developing a unique concept enabling pest detection in a timely and non-invasive manner. One goal is to increase the inspection of plants...
The Ready2Respond project will build an XR simulation/4 scenario-based game to engage pupils of maritime schools in Greece and Norway to new, engaging, playful real-case scenarios.
- Redox-mediated hybrid zinc-air flow batteries for more resilient integrated power systems.
Rethinking the way metal-air flow batteries operate could unlock the “Holy Grail” of energy storage.
Currently there is great interest from both private and public stakeholders to implement large energy storage systems combined with renewable intermittent energy sources in order to maximize the utilization of the produced electricity.