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 scope of PV GRID is to address the large potential for stimulating commercial investment in PV in DK. The project purpose is to address identified barriers and assign possible solutions. A central
The project will focus on how to improve the integration of solar energy in urban planning with a high
architectural quality that respects the quality of the urban context.
Danmarks Tekniske Universitet (DTU)
ForskEL
2012
2014
The purpose is to achieve an energy pay-back time of less than one year for a complete grid-connected installation with polymer solar cells. The project comprises development of polymer solar modules
The original EUDP grant included support for the Danish participation in Task 41 participation in the 3-year project was more extensive than expected, as Denmark was responsible for Sub Task C
To develop and demonstrate a new solar energy prognosis for any location in Northern Europe for the coming 48 hours, based on the
newest DMI forecasts of direct and diffuse solar radiation. ”Solar PV
It is the goal of the PowerPipe project to develop a hybrid solar panel that will integrate the properties of
solar panels and solar cells in the same unit and thereby be able to supply a household
The main objective is to enable the Danish participation in a newly started project within the framework of the IEA- programme on solar heating and cooling. The title of the new task is Task 44
The purpose is to obtain a better understanding of the distribution of sunlight through time and space. Also, the project is aimed at improving forecast of the potentially available solar energy.
The objective is to demonstrate, that silicon purified with a new chemical method can be used for manufacturing of solar cells. A research lab with special purpose equipment dedicated this
The aim of the project is to innovative refine an own financed CSP prototype system to a stage of commercialization, and to demonstrate the technological, economic and environmental advancement, which
Silicon is today the most used photovoltaic material for solar cells, yet they are complicated and expensive to make. Different composition and micro structures for thin film solar cells made from the