The overall goal of the NORLED project is to develop an innovative and industrially feasible white LED technology able to surmount market barriers and meet consumer needs. The project will develop an
The purpose of the project was to develop materials and structures for compact, low cost fuel cells by a combination of solid state protonic conductors with the technology of thin films.
The project will produce new knowledge on thermal activation of building structures that will form the basis for developing new concepts for building energy optimisation. The project will also
The project will be realised by Beijing Solar Energy Research Institute Co. Ltd, China, and the Department of Civil Engineering, Technical University of Denmark. Focus will be on solar combi systems
The project is developing a nano-structured high efficiency solar cell. Unique production process ensures that costs will be competitive compared to cells with similar efficiency.
Novel electronic chips could be a cost-effective solution to the electronic bottleneck between data servers and computers. Advanced elec- tronics strengthen optical technologies to address the
Phase change materials (PCM) and surface struc- turing combined enable storing and release of heat in the concrete. This will remarkably reduce energy consumption in concrete buildings in the future.
There is an increasing demand for insulation, in- cluding energy saving windows. The project aims to develop a new generation of high-insulating window frames from composite material.
The purpose of this project is to disseminate information and knowledge about the use of solar cells in houses. In the project BIPV solutions has been developed, installed and tested in four new
The roofing layout for the new office building is designed with roof surface with single slope in one direction. All roof structures will be with aluminium sheet cladding sufficient for adding solar
The HotMEA consortium focuses on HT-PEM fuel cells. Denmark enjoys a position of strength in terms of HT-PEM and may become a leader in the field. The work comprises a broad spectrum from development
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 purpose of the project was to demonstrate that by using new technologies, materials and operation parameters, the heat losses, the heat flow rate and the total costs of district heating can be
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
Energy technology research development and demonstration of 2nd generation alkaline electrolysis by: Improved electrode efficiency. Higher operation temperature. Higher operation pressure. Improved
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