SustEnergy aims to develop a dedicated life cycle assessment (LCA) model targeted to assessment of integrated energy technologies. The model is based on the existing LCA model EASETECH developed by
The Annex project aims to increase the knowledge, identify critical aspects and possible solutions concerning the Energy Flexibility that buildings can provide and the means to exploit and control
The future Danish electricity system will be based on renewable energy, calling for large-scale energy storage. This project will store electricity as methane by developing an efficient Power2Gas
The objective of the project is to develop and demonstrate a novel information security product for protecting Industrial Control Systems (ICS), e.g. SCADA systems, against cyber-attacks. The product
The project is to investigate the future integrated energy system from the market perspective and to build proper market mechanism for the wholesale market, short-term market and investment market for
The Cloud Battery Management System (BMS) project will develop cloud based battery data analysis and demonstrate that the use of big data and artificial intelligence can significantly improve the
The objective is to develop the communication process and the tools/methods adequate for the DSO to deploy to avoid that the trade on the electricity markets is not threatening the supply security.
The long-term goals of OES Task 10 are:
1. To assess the accuracy and establish confidence in the use of numerical WEC models
2. To determine a range of validity of existing computational modelling
The COPE project will provide a cost efficient and secure solution for the design and operation of
100% renewable based energy systems with power to heat (P2H) and power to gas (P2G).
The project will improve the understanding among stakeholders - industry, government, nongovernmental organizations, and research - of what policies, institutions, market designs and consumer
Wind farm control is a hot topic, to improve operations and integration of wind farms in the grid. With that, the individual wind turbine controllers come into focus again. In PowerKey, we enlarge the
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 long-term goals of OES are:
1. To assess and establish confidence in the use of Wave Energy Converters
2. To engage and integrate Danish industry in international initiatives
3. To identify
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