The project aims to prove that depleted oil and gas fields in the Danish North Sea can be utilized for safe, long-term carbon storage. The project also aims to show that due to the existence of large
The purpose of the project is to optimise a full-scale design of the GridScale storage technology achieving cost-effective large-scale power to power storage, covering both the 8-18 h duration
The project will develop, test and optimize hybrid energy storage systems. Three storage technol-ogies will be characterized in the laboratory. The performance of each technology will be used to
The aim of this project is to develop and test critical parameters for a technology that enables storing energy in water according to the well-known principle of Pumped Hydro Storage (PHS) – but in an
To support the development and dissemination of harmonized testing methods for state-of-the-art smart grid and energy systems integration solutions, that are based on algorithms, electronics and
ACTION aims to develop, implement, demonstrate and commercialize highly efficient and cost-effective active front-end converters that will be used at the grid interface of various electrical motor
The purpose of the FUSE project is to develop and demonstrate an urban electric vehicle charging infrastructure which will both satisfy the heterogeneous charging demand from the cities inhabitant
The project activities concern the involvement of Danish Technological Institute in the IEA-DHC Annex TS4 under the project leader of DTU Byg for the Danish participation group.
Smart Grid is central to the green transition in the field of energy. With Smart Grid, we can control electricity consumption so that we ensure that - even with the future increasing share of
A significant share of centrifugal pumps is still running direct on-line. The HiCoMMID project will develop solutions making it attractive for end users and OEMs to apply speed control to all their
The project is on rechargeable batteries for large scale energy storage, where a solution of vanadium is used to hold the energy. A danish produced stack (battery assembly) will be developed, and a
The CEEH will develop a system to support the planning of Denmark's future energy systems integrating both direct costs and indirect costs for environment, climate and health. The CEEH will apply a
The output of the project can be divided into three main areas: Firstly, results related to the further development and integration of existing tools and methodologies into coherent energy and
The project has shown that there is potential for particularly demand response energy consumption within the industry. If businesses offer this potential on markets it is required that the payment is
Danish greenhouses have a relatively high level of electricity consumption for grow light. Part of the electricity consumption is flexible, and the main purpose of the project was to find out if the
More than 500 households with electric heating participated in a demonstration project about demand response. Participants paid for electricity based on spot prices. The groups notified of the next