The aim of this project is to develop and demonstrate a voltage regulation system that will increase the capacity of distribution networks to host more distributed generation and postpone the
Biocat 3 brings to commercial maturity a disruptive technology for robust, scalable, replicable and cost-efficient energy storage by storing the excess of renewable electricity in the gas grid.
The ever decreasing cost of PV and battery technology enhances the competitiveness of both technologies in the future renewable energy based system. The adoption of such system has been so rapid that
The general purpose of this project is to design, develop and optimize a system for converting biogas (CH4, CO2) and hydrogen into a syngas (CO, H2) in one innovative step (bio-reforming) by combining
The massive growth of offshore wing power will lead to large scale wake effects between the offshore wind farms, which affects both the energy production and the fluctuations in the wind power
A new project will develop cheap battery systems that, by integration with wind turbines and solar cells, will increase the stability of the electricity grid and facilitate a higher share of
Renewable energy to be stored in floating flywheels. Better magnets can help store renewable energy from solar cells and wind turbines in magnetic flywheels. The new technology for energy storage
The MultiCon project aims to foster a paradigm shift in wind energy by developing disruptive storage solutions based on a novel Power Management System which allows monitoring and control of batteries
To bring the technology readiness level from 6 to 8 by implementing preventive maintenance on BOP components, optimizing control systems, incorporate a final steam clean up, introduce a more cost
The project aims at utilising existing gas-fired CHP plants for balancing and peak-load services to the power markets. These types of plants most probably represent a much higher potential than
The project will develop a technology that enables the production of synthetic natural gas by using biogas and wind power. In this way the technology will create a connection between the electricity
XEL2Gas develops long-term storage of excess renewable electricity by a biorefinery concept integrated with excess CO2 production. The concept involves biological conversion of hydrogen and carbon
The objective of the project is to develop a new concept for upgrading biogas to natural gas by an electrochemical methanisation of the CO2 contained in the gas. The proposed concept is expected
Improved active network management and automation is necessary for future distribution grids. This project develops robust and cost-effective solutions to enhance the observability, controllability
This project addresses the security of future renewable power systems by further developing and integrating real time assessment methods into a state-of-the art hardware platform. This will
This project intends to develop a new algorithm that reduces the load shedding during emergency shutdowns, reducing the number of people and businesses disconnected from the grid.
The project’s
This project researches and develops a system for DSO's based on advance metering infrastructure to collect, visualize and using smart meter data in low voltage grids and evaluates the system in 1)