The purpose of the Technology Collaboration Program for Ocean Energy Systems (OES) under the International Energy Agency (IEA) is to exchange information on Ocean Energy Activities in member countries
The project focuses on “Power-to-Heat and Heat Integrated Carnot Batteries for Zero Carbon (industrial) heat supply”, a critical area of investigation for advancing sustainable and resilient energy
The project covers Danish participation in the ExCo activities of the IEA Industrial Energy-related Technologies and System TCP. The activities from the Danish delegates will be concerned with work in
The purpose of the Danish participation in the IEA Technology Collaboration Programme on Heat Pumping Technologies is to promote and implement projects of interest to Denmark and the Danish business
PHESS aims to finalize the development of MacroCaps' patented supercapacitor, establish a number of modular cable-free 1 MW modular rack systems, and conduct tests under real operating conditions
Demonstration and optimization of a semi-scale, single-feedstock biogas plant capable of converting briquetted wheat straw to biogas with a total energy efficiency of 95%.
The purpose of the project is to ensure Danish participation in IEA DHC Annex TS6. The Annex is fo-cused on "Status Assessment, Ageing, Lifetime Prediction, and Asset Management of District Heating
AMMONOX focuses on developing a sustainable and economically attractive, ammonia-based process for a) enhancing the productivity of biogas plants based on manure, b) minimizing NOx emissions from gas
Loss of methane from biogas plants has detrimental environmental effects and reduces the efficiency and economic output of the biogas production. The aim of this project is to reduce the methane loss
This project proposes a bioenergy concept in which cast seaweed collected from beaches will be used as substrate in co-digestion with manure and other wastes in biogas plants for energy production
The vision of the present project is an online Predictive Corrosion Monitoring System (PCMS) that through measurements of few, significant flue gas components can predict and hence optimise the
This project identifies the economic and technical potential and barriers for increased power production and reduced loss of heat on district heat production by means of reduced temperatures and local
In order to reduce emission of the green-house gas CO2, power plants shall increase the use of biomass as fuel in the future. This challenges, however, the flue gas cleaning for the environmentally
The project has focus on spectroscopy analysis of Cl-compounds important in biomass gasification. The project is developed in collaboration between Technical University of Denmark and University
The focus of the project is to investigate if there are potential flexible energy reserves in serverrooms and telesites that can be implemented and exploites as manual energy reserves in the
RTLabOS will be a new type of integration platform for PowerLabDK, enabling research in next generation SCADA systems with real-time control capabilities, improved configuration management and
This project investigates the demand response potential of a modern building based on the intelligent control of the building operations and the consumption of its residents. User-driven innovation
The ability to store surplus electricity derived from renewable sources will lead to a more efficient and well-balanced energy production benefitting the Danish energy consumer. The proposed project
MegaBalance is to conduct an assessment of the potential for large scale energy storage & balancing with hydrogen in Denmark in the period 2015-2050. Focus will be on central production and conversion