The project aims to develop a 260-400 V Battery Management System (BMS) to operate large Li-ion nano-batteries in cars weighing up to six tons. Subsequently, the BMS will be tested in 10 prototype
The aim of this project was to show how a new urban area in the municipality of Høje Taastrup called Gammelsø can become carbon-neutral, including showing how district heating can be a central element
This project has financed Danish participation in the IEA SHC cooperation on solar cooling. The Danish contribution is a calculation model for the AC-Sun system, which uses new and revolutionary
For this project, The Technical University of Denmark (DTU) has analyzed a number of solar heating systems, examining the energy savings that can be obtained from different systems, houses and energy
The project aims to facilitate the design of passive houses in Denmark by adapting the German passive house design tool, PHPP, for use by Danish users of Be06. The project is undertaken in parallel
This project has developed a system of clusters of refrigerated cabinets run by solar energy. A flexible concept has been developed so that photovoltaics and a combined battery and ice storage ensure
This project has developed and tested a series of 1G mini-heat pumps of the brine/water type (geothermal heating type) which will become important in future low-energy houses. Three proto-types of a
The project aims to update a five-year old window knowledge system offering users an overview of available energy-efficient solutions for the design of new buildings and replacement of windows in
This project is first phase of a project aiming to determine energy savings in practice for different solar heating systems. Installers and solar collector manufacturers will be invited to install
The objective of the project is to fund Danish efforts in the EU Concerto Class 1 project, which in Denmark comprises 511 low-energy houses in Stenløse, a kindergarten and a senior citizens house. The
For this project, nine low-energy houses were evaluated to gather experience about their energy performance and the residents' experience with living in the houses. The project examined the technical
The project develops an entirely new type of frame/sill design in, for instance, glassfibre-reinforced polyester to create a light, strong, corrosion-resistant and energy-efficient window design in
The project comprises phase 1 of a fact-finding and development programme to ensure relevant offers of PV lessons. The objective is to offer architects, advisers, designers and craftsmen working with
The experience gained in Germany suggests that grid-connected PV units cannot use the standard design optimally under North European conditions. This project collects key data from Danish PV systems
The project plans and builds a newly developed standard house of low-energy class 1 (from project ENS-33031-0089), whose energy performance and indoor climate are documented by detailed measurements
The project develops a design complex for a district heating system, which, by using new technologies, materials and operating modes, will be able to lower total costs by so much that tomorrow’s low
The purpose of the project has been to make a book on the best examples of low-energy buildings in Denmark. The book was completed in autumn 2011 with Solar City Copenhagen as publisher and the Danish
From a power conversion point of view it has been demonstrated that solar cell segmentation can be performed and a high performance local cell controller can also be made. The project has developed so
The purpose of the project “Customized PEC modules” was to move from the production hand-made individual DSCs in the laboratory to the production of DSC modules in a semi-automated process. At the
The project will focus on establishing a foundation for the production of cost-efficient PVs and modules meeting the architectural requirements. The value chain from silicon crystals to the production