Traditional Comressed Air Energy Storage (CAES) is seen as one of the most cost effective technologies for the bulk energy storage in the future flexible grid. The project will investigate the
The project will evaluate the potential of reducing harm caused by emission from gas fired engine based CHP plants. This is done by combining measurements on engines at different engine setting with
This project seeks to demonstrate the methane reduction at gas engine CHP plants is possibel with technology previosly used on large dual fuel engines. Methane emission from gas engines raise the
The purpose of the project is improve the efficiency of Power Take off systems for Wave Energy Converters, by analysing and optimizing a new PTO-system with multiple pressure lines. This includes
This project will identify and analyze the primary causes for formation particles in exhaust gas from gas engines at CHP plants. The project will be performed in close co-operation with manufacturers
Based on the results achieved in Phase 1 and 2 (the practical experiments and theoretical calculations of a 5x5 m energy membrane), this project shall further clarify and assess the technical and
HI-CON A/S
ForskEL
2011
2011
As an initial step for FLOAT – a project on using UHPC for wave energy floaters - a study has been undertaken to investigate preliminary design of 2 types of floaters, essential properties of UHPFRC
The analysis of Local Village Heating has shown that the concept can be the most feasible common heating system for villages provided that there is a high building density, at least one large heat
Senior experts from 19 countries and the EU engaged in national and international RD&D efforts have collaborated on current issues through international workshops, information exchange networking and
The purpose of this wide communicative project was to attract awareness of EUDP by means of portraying 5 selected EUDP-projects in a series of 5 x 20 mins. documentary tv-programs for national Danish
The Danish wave power industry has in connection with this application created a partnership that aims to initiate, strengthen and develop cooperation, and develop a comprehensive joint strategy for
The next step in the development of the Wave Dragon technology is the deployment of a full-scale device in open sea. The development of a 1.5 MW Wave Dragon demonstrator will be based on experiences
The project aim at improving the exhaust system for vehicles. The technology should reduce the release of NOx and reduce use of fuel and CO2 release. Vehicles that use this technology can be
In the recent years many studies of how Denmark can be fossil free by 2050 it is agreed that district heating will play a crucial role. District heating is an important factor of phasing out fossil
The project will support Danish leadership in the Leading IEA expert Group on R&D Prioritization and Evaluation and thereby provide an arena for collaboration and knowledge sharing on strategic energy
The project will continue the Danish participation in the IEA Implementing Agreement ETSAP (Energy Technology Systems Analysis Programme), Annexes X and XI under the new Annex XII 'Policy Analysis
The aim was to make information about Danish energy research and its results available to users in Denmark and abroad and, through international co-operation, to make international research results
Through active participation in the ETDE Executive Committee and in the technical working group influence was exerted on the implementation of the agreement IEA Energy Technology Data exchange, so
Establishment of a data base of O&M data for Wave Dragon established in Nissum Bredning. Large uncertainty exists about fatigue impact on single components used in a wave device caused by repeated