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 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 considerable amount of power is used for pressurizing industrial processes such as fermentation processes. This project is aiming of recover power in an economical attractive way by utilizing the
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
This project supports an improved practice on public participation in infrastructure planning. The project has point of departure in Energinet.dk's planning and uses Danish experiences to develop and
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
Based on an interest of Energinet.dk, the aim of the project is to develop procedures and criteria for integrating environmental concerns in the administration of the ForskEL-programme. Through
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
Traditional Comressed Air Energy Storage (CAES) is seen as one of the most cost effective technologies for the bulk energy storage in the future flexible grid. The project will investigate the
The project will evaluate the potential of reducing harm caused by emission from gas fired engine based CHP plants. This is done by combining measurements on engines at different engine setting with
This project seeks to demonstrate the methane reduction at gas engine CHP plants is possibel with technology previosly used on large dual fuel engines. Methane emission from gas engines raise the
This project will identify and analyze the primary causes for formation particles in exhaust gas from gas engines at CHP plants. The project will be performed in close co-operation with manufacturers
Based on the results achieved in Phase 1 and 2 (the practical experiments and theoretical calculations of a 5x5 m energy membrane), this project shall further clarify and assess the technical and
The purpose of the project is to develop, design and demonstrate a total concept with solar heat, borehole storage and heat pump for electricity regulation and up to 100% reduction of fossil fuels on