The objective of the project 'Industrialisation of polymer solar cells' is to establish low-cost, massproduction of solar cells in Denmark, and furthermore to demonstrate the potential of polymer
The goal for this demonstration project to undergo an independent validation of wave energy machine "Rolling Upright" in the wave tank under controlled conditions, and in doing so have developed a
LEANCON Wave Energy
ForskVE
2012
2016
This ForskEL project will document the energy production of the wave energy converter MAWEC in real production mode. The overall project description is the same as in PSO project "Advanced Wave Energy
The purpose of the project is to design, build and test a 2 kW wave energy grid connected Lever Operated Pivoting Float LOPF buoy in the sea. The goal is to collect operational data on electric
RESEN ENERGY ApS
ForskEL
2011
2012
Wave energy, Lever Operated Pivoting Float LOPF, study of new taut moored buoy concept with direct electrical output. It will cover: Basic static theoretical optimisation of LOPF concept, design of
This project aims to support the integration and higher penetration of PV systems into the electrical power systems by advanced grid condition monitoring and grid control, Diagnostics and failure
Eco-friendly production of plastic solar cells in Denmark. Plastic solar cells are almost capable of competing with commercial solar cells. The processing method has environmental consequences in
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
As a follow-up to PV Island Bornholm, Phase I project targeting implementation of 1 MWp of PV on the island of Bornholm, it is proposed to establish a phase II targeting an additional 1 MWp. The
In the proposed PV-Boost-2015 project coordinated by Gate 21 it is intended to realise 700 kWp innovative BIPV systems in zero energy and low energy class1 and 0 buildings in 7 dif-ferent cities in
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
We will develop a complete residential PV system for grid connection, all in one 230 V AC, 50 Hz, 270-350 W module, with substantial testing to realize a system with the required performance of more
The objective of this project was to initiate a new IEA-SHC task for large scale solar heating systems. The aim of the task is to exchange experiences concerning large scale solar heating systems and
Danish lead in new IEA-SHC task for large solar heating systems. - Optimise large scale solar heating systems - focus on design and operation of combined systems including heat pumps and seasonal
The project shall demonstrate a heat pump seasonal storage connected to the upcoming 35.000 m2 solar plant in relation to Donninglund Fjernvarme. EUDP has in 2009 granted 12. mio. kr. to the project
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 main objective is to enable the Danish participation in a newly started project within the framework of the IEA-SHC programme (solar heating and cooling). The title of the new task is Task 44
The project Energy efficient prefab. facade- and roof element has as purpose to design, develop and demonstrate an cost effective building element with integrated photovoltaic through the use of pre