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
A main result of the Low Cost Active House BIPV project is to realise a demonstration campaign with 3 MWp, low cost BIPV solutions in connection to low energy class 2020, energy neutral and plus
Combining silicon solar cells and high efficiency solar cells into one cost-efficient, high-efficiency solar cell has been a dream of the solar industry for decades. However, differences in the
Grid side converter (GSC) is the key for PV integration. GSCs are still not capable of advanced control features that enable the full control of PV systems with fault ride through, reactive power
The purpose of Task 15 is to accelerate the use of building integrated photovoltaic (BIPV). By identifying aesthetic, economic, regulatory and technical issues new approaches can be developed so BIPV
The aim of the project is continued Danish participation in IEA SHC Task 46: "Solar Resource Assessment and Forecasting". Studies of directional irradiances at DTU will be continued and expanded to a
The aim of the project is – through exchange of international knowledge – to develop and promote large solar heating plants. Denmark is in front in this field and the project gives good opportunities
The objective is to initiate and manage a new IEA-SHC task conc. development of international standards and harmonization of national/regional certification schemes for solar thermal products in order
The main objective of Renewable FlowStorage (RFS) project is to develop vanadium redox flow battery (VRFB) for storing electricity for domestic residentials with PVs.
The aim for this project is to develop and demonstrate that by utilizing the right combination of state-of-the-art technologies it is possible to achieve near self-sufficiency on an annual basis
The project will develop and design an aesthetic energy producing cover for roof ventilation units. The PVcover is constructed of modules so they fit most ventilation units and can be integrated as
The purpose of the project is to develop technical, solid, aesthetical, and architectonically qualified solutions for integration of solar cells in roofs and facades made of flat brick tiles. The
Solar Combined Heat Power "Solar CHP" systems shall be fully intergrated in large Commercial buildings as an energy efficient and economically attractive replacement for fossil fuels.The project shall
The aim of this project is to develop and test a new concept for thermal solar collectors in a solar district heating plant and verify the benefits of the new type of solar collectors.
The proposed project is realised based on previous EUDP- BIPV RTD woek aiming at futher cost reductions of BIPV and PV mounting solutions together with a completely new BIPV product, which can be
The plant Solar Power plant is installed with the purpose to supply Broenderslev Citicens with district heat at a lower cost than the present natural gas fired generatorsets/boilers, and to reduce CO2