RUNE is short for - Reducing Uncertainty of Near-shore wind resource Estimates using onshore lidars. The key project aim is to reduce the uncertainty of offshore wind resources in Danish near-shore
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 overall target for this project is to develop an industrialized concept for Building Integrated Solar PV-BIPV that visualizes a number of added values, minimizes additional costs and thus paves
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
The purpose of the project is to analyse and develop advanced filter solutions based on combinations of passive filters and active filters in wind power plants. The use of passive filters is almost
In the BIPV Quality Cities project the total amount of PV systems with special focus on BIPV Quality, Solar Watch online monitoring and a combined focus electricity savings will amount to 3.850 kWp.
The main purpose of the planned Phase III (PVIB-III) is establishment of 1,5 – 2 MW of additional capacity primarily in terms of a large utility scale PV power plant of at least 1,5 MW. Thus very
This project aims at improving the forecast of wind and waves for storm conditions offshore. We explore coupling strategies for the atmospheric, wave and ocean modeling using WRF (WRF-LES), MIKE 21 SW
This project focuses on the integration of photovoltaics (PVs) with thermoelectric generators (TEGs) and microchannel heat exchangers (µHX) in two parallel phases: low-thickness solar power systems
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
Currently, individual wind turbines can estimate their possible power of during down-regulation. For large offshore wind power plants, the sum of those signals is larger than the possible power of the
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
This project utilize the wind and wave energy conversion platform, Poseidon37, for pioneering theoretical and experimental work on modeling and understanding combined floating wind and wave energy
The project vision is to provide wind power with similar grid system interaction characteristics as the conventional generation units. The new technical solutions developed in this project will expand
This project aims to support the integration and higher penetration of PV systems into the electrical power systems by advanced grid condition monitoring and grid control, Diagnostics and failure
In this project, validated thermal models will be developed and used for a proposed condition monitoring method of wind turbine generators, using thermal imaging. The live thermal data will be