The aim of the project is to reduce the average energy price for utility scale photovoltaic systems by increasing the harvested solar energy by using bifacial solar modules, reflectors, trackers and
The objective of the project is to ensure that Danish research institutions and companies active in the development, installation and operation of PV systems, are informed on the technical and
The overall purpose of the project is to increase the market for plastic solar cells by ensuring entrance of larger panels and systems through scalable electronics.
To develop more effective, safe and durable lenses for concentrated solar power. Efficiency and durability will be improved by using better materials than the current thermoplastics, and safety and to
The aim of the project is to work with Danish housing associations to organise sketch designs and realisation of building integration of PV solutions (BIPV). The total proposed implementation for roof
The purpose of the project is through applied research and development to demonstrate and develop a building-integratable, transparent PV module harvesting direct sunlight, acting as intelligent
An energy payback time less than 1 year for a complete polymer solar cell plant is now reality. DTU, EnergiMidt and Gaia Solar are now taking the next crucial step towards sustainable reliable energy
A ground breaking new technology for thermal stratification of solar hot water tanks has been invented December 2013. After only a few prototypes the technology offers competitive thermal performance
The project goal is to widen the application of solar cells on facades in urban spaces by refining the architectural expression via innovative building integrated solar cells by using built-in light
The project aims to develop and demonstrate a PV-panel which will both work as a balcony fence and at the same time produce energy to the electricity grid. The PV-panel will be building integrated, be
The aim of the project is to develop, demonstrate and commercialize new competitive building systems for commercial buildings based on the concept of combining concrete building components with thin
The proposed EUDP project will be realised as a new initiative based on results from the ongoing EUDP project “Low cost PV roof as a complete climate shield”, with the aim to develop a “Low cost
The project aims to develop and demonstrate a control strategy and a web-based control for optimal interaction between the solar collectors, solar cells, energy storage, heat pump and the building's
The purpose of the project is to follow the performance of two pit heat storages and one borehole storage implemented 2011-3013 in Denmark. In the project monitoring results and experiences from
The purpose is to develop and demonstrate a new efficient and flexible technology for fault localization/-diagnosis in PV systems. The technology is aimed the growing PV service market. Measurements
Heliac has invented and patented a foil that enables a reduction installation costs of solar fields from 500$⁄m2 to 2- 10$⁄m2 and reduce the overall cost by 80%. Proof-of-concept in lab scale was
The project will demonstrate that solar energy modules can transform an old multistory residential building into a beautiful self- sufficient architectural building getting free renewable electrical
In this project, a standalone PV reflector tower in which a reflector enhances the solar radiation on a vertical bifacial PV panel, is developed. The tower will supply power to measurements for road
The objective of the project is to ensure that Danish research institutions and companies active with development, installation and operation of Photovoltaic systems, are informed on the latest