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 purpose of the project was to create 3 architectural well functioning PV retrofit low-cost solutions. This was done in collaboration with well-known and estimated architect firms and Danish
The project, 'Transparent PV modules - shading devices of the future' is based on the vision of a shading device which is energy producing, sun shading and transparent. This solar cell can be achieved
Organic solar cells hold promise as a sustainable energy source and for energy cost reduction. They represent a cost-efficient alternative to silicon-based cells. However, current technologies still
The objective of the project is to collect knowledge and experiences with building integrated photovoltaic power systems internationally and provide a comprehensive analysis and supplementary research
The project report describes the design and construction of a 1-1.5KW high efficiency Grid connected Building integrated Photovoltaic Power Generator for use in Houses or larger Photovoltaic Plants
Within the project, the most promising design of PV/T components have been identified: 1) A water-heating collector with the PV cells acting as absorber in a direct thermal contact with water piping