The aim of the project is to demonstrate a full scale pit heat storage (60.000 m3 ) in combination with a large solar collector field (35.000 m2) and heat pumps (3 MW).
The main goal was to improve solar architecture as well as better qualified architects and better communication and interaction between architects, engineers, manufacturers and clients.
MicroShades are window glass panes with built-in shading based on geometric screening of solar rays, shading direct solar irradiation from the outside while having a clear outlook from the inside. The
The use of air-conditioning in Denmark is strongly increasing. Most new office buildings are equipped with airconditioning plants. Furthermore the new building regulations means an increasing need for
The project wishes to develop and test season heat storage for solar heating plant based on a salt hydrate. A line of experimental and theoretical studies shall help define how the heat storage is
The purpose is to build a 500 kW wave energy demonstrator for the North Sea, as a first very important step towards commercialisation of wave energy. The EUDP funds mainly cover the very extensive
The project aims at developing and demonstrating a new fluent and isolated selling construction for the 10.000m3 water heating storage in Marstal Fjernvarme. The solution is expected to be implemented
The aim of the project is to measure the collector efficiency and investigate the state of a few old solar collectors for solar heating plants. The collectors, which will be investigated, have been in
This Solar Thermal Action Plan is a follow up on the Solar Thermal Strategy, which showed large potentials for utilization of solar thermal in Denmark. In the Action Plan it is shown how the ambitious
The project is based on a previously tested 1:40 model of a new type of wave energy converter, which has so far shown good properties. The objective of the project is to measure loads on the
The goal of the project is the continued development and validation of a PowerShade window and facade element, which is a strong solar shading and a semi-transparent solar cell. The core technology is
The project aims over a three year period to install approximately 1 MWp of grid connected PV systems on a selection of the municipal buildings targeting coverage of all major building applications, e
The first step is to combine a hydrodynamic model of the waves with a dynamic model for the mechanical and hydraulic PTO system to achieve an understanding of the principles behind optimising energy
Optimization of power production and reliability of the Wave Star prototype in Hanstholm. The funding is given as a temporary additional per production hour, and is activated by attainment of
The project will test the abilities of the wave wing as an energy absorber. The test will be performed in the wave tank at AAU following preparation of measuring setup, component list and plan for
The objective of the project is to document and demonstrate the economic, functional and aesthetical potential of thin-film PV installations under Northern European conditions.
The project generated important knowledge about practical light measurements, but also an awareness of the need to characterise light and PV cells with varying spectral light distribution. To address