SOLBY2006 Solar energy in the energy frame – phase 2. The purpose of phase 2 was to implement a number of development and demonstration projects of solar thermal and photovoltaics for low energy
Based on the development projects under the Photovoltaics & Architecture main project, a catalogue has been published of current photovoltaic integration in Danish buildings.
Two DMFC generator modules 0.5 kW and 1.0 kW have been constructed for demonstration in UPS and battery charging applications. The overall goals defined in the Danish “DMFC Road Map” for 2008 has been
The demonstration plant includes the following elements: Container buildings for control and monitoring as well as housing of the process equipment. Two fully automated PEM-CHP fuel cell units of 2 kW
A calculation tool was developed for use of solar energy in renovation and new construction projects - BYG-SOL – for professional clients, local authorities, architects and consultants. The tool may
The focus on the Danish part of the IEA project SHC Task 32 Advanced Storage Concepts for Solar and Low Energy Buildings was on Subtask C: Storage Concepts Based on Phase Change Materials and on
The overall goal with the participation in IEA PVPS is to maintain and build upon the knowledge transfer to Denmark via the participation in the IEA PVPS work. By the participation a network is
The purpose of the project has been to examine the possibilities for PV in an industrialised building process. The project is an information gathering and development project with basis in knowledge
Under the Danish-Canadian project, Dantherm Power developed a fully integrated UPS system based on Canadian-based Ballard’s air-cooled LTPEM fuel cells. Eleven UPS units were installed to support
A novel concept for preparation of sulfonate containing fluorinated block copolystyrenes have been developed based on initial ATRP of fluorinated styrene monomers. The strategy depends on well defined
The project proved that PowerShade with an efficiency ratio in excess of 5% can be produced, and that future development will probably further increase its efficiency. The project also showed that the
The project aimed to improve stack technology for solid oxide fuel cell stacks (“SOFC”). The project developed and tested several improved stack components, including improved glass seals and
The concept of combining solar power, absorption cooling and natural gas-fired small-scale CHP in Strandby met expectations and could be replicated in other CHP plants. However, it is important to
The project developed new edge sealing for the DSC cell. Made from inert polymer, the sealing is mounted as laminate in controlled conditions. Laboratory experiments and cell exposure to accelerating
This project changed towards possible commercialisation. Consequently, project cooperation was terminated and part of the work transferred to project 6389 ‘Technical silicon for high-efficiency PV
The project goal was to develop stack materials, components and stack technology, including industrially relevant production methods. Further, the project was to perform tests and demonstration of
SERC was carried out during the period from primo 2007 until end of 2012 I cooperation with leading Danish and International research institutes plus a wide spectrum of industrial partners. The