The IDE4L project will define, develop and demonstrate the entire system of distribution network automation, IT systems and applications for active network management. The IDE4L-DK Top-Up project is
An increasing amount of power electronic based units in electric power grids give rise to protection and control difficulties during disturbances. A solution is to install synchronous condensers
This project will conduct experimental research in order to identify the potential of a novel energy storage technology. The concerned technology is based on heat accumulation, in the phase transition
To fulfill the Danish Government's ambitious plan regarding renewable energy, some technical and economical hurdles have to be cleared. A major issue is energy storage. This project will present
It is possible to reduce the Cost of Energy from Wave Energy Converters by utilizing Digital Hydraulic Power Take Off. The project aims at solving the main technical hindrance for enabling wave energy
The purpose is to secure a strong Danish representation in the international committee working with standardization through IEC TC-114. The project secures, that Denmark will be able to influence and
The project will result in recommendations for integration of heat pumps in existing distribution grid, which otherwise risk to be overloaded. The recommendations will be based on analysis of
The project is part of the development of a tradition of cooperation for further development of wave energy, here, through the implementation of an exemplary development process. The project contains
In order to efficiently provide system services to the distribution grid, aggregators of flexible DER units require information about the topology of the grid. This information is currently not
The objective of the project is to develop a gyro electric converter unit for wave energy, and to test experimentally a 5 kW unit under realistic conditions.
The project will analyze the role of distributed energy storages in future energy systems. The goal is a more economical efficient integration of renewable energy. The project secures Danish
The aim of the project is to carry out a 360 degree feasibility study of a value chain for local production of liquefied bio gas to provide both the Samsø ferries and vehicles on land with fossil free
The objective of this proof of concept project is to investigate the WaveSpring technology and how it can benefit wave energy converters (WECs). It is expected that the results from the project will
The project extends DTU contribution in the FP7-project 'ELECTRARES´ connected at all voltage levels requires new approaches for control coordinating millions of devices. The project establishes
The objectives of the project are to design, test and develop cost efficient mooring solutions for large floating wave energy converters (WECs) and to build national competences in design and
As different renewable energy sources, like sun, wind and biomass, become more widespread as energy sources in the different energy grids in urban areas, the aim of the project is to investigate how
To develop new methods and solutions for design and dimensioning of the future cost-effective multi-carrier energy system (electricity/thermal/transpon) based on Nordhavn as a globally visible real