The aim of the project is to explore the potential for Underground Thermal Energy Storage (UTES)
in Denmark, analyse existing UTES plants, extract lessons learned, characterize geological
conditions
The objective of the PERFORM project is to improve geothermal plant performance. The main goals are: (1) to move from insights of a single doublet to collective and comprehensive knowledge and (2) to
Geothermal energy is the only non-weather demand renewable energy source in existence. ZoDrEx’s objective is to develop and demonstrate technologies to grant access to this vast renewable resource
The aim of the project is to exemplify and inform about heat pumps drawing heat from internal heat sources. The goal of the project is to develop a method and a modelling tool to support integration
This project will demonstrate a hierarchical control strategy for ventilation and heating systems in residential buildings. The strategy involves an aggregator which interacts with a group of
This project brings together experts from academia and industry to investigate the feasibility and business potential of an approximately 30 GW North Sea Wind Power Hub. This will lay the foundation
The objective of the BOSS project is to develop and install a large-scale battery energy storage and subsequently demonstrate and study how this can improve future energy systems based on wind and
SMARTCE2H project aims to demonstrate the technical and economic value of an advanced intelligent heat pump installation with its compact salt-hydrate thermal storage unit in residential communities
The SMART-MLA project is to develop cloud-based multi-layer aggregator ICT solutions to facilitate optimum demand response (DR) and grid flexibility to energy systems to utilize up to 100% renewable
The project aims at building a “power-to-gas” plant near Roslev. Denmark will benefit from this technology in a number of ways, such as the optimization of biogas plants and the reduction of CO2 relea
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