The consortium will improve the energy collectors and energy efficiency on the most weight and cost-efficient wave energy system currently in development. The EUDP project targets the primary CAPEX
Silver's use in PV cell metallization is contributing to a future silver shortage, hence necessitating a shift towards alternatives like copper. However, copper plating presents challenges including
This project will strengthen the Danish participation in the IEA PVPS task 15: Enabling Framework for the Acceleration of BIPV & Fase 2, 2020-2023, where DTU Fotonik wants to participate in the
The aim of the project is to develop and demonstrate an interlayer foil based on structural colors for making an efficient, cost effective and angle independent way of coloring PV panels for building
The project aims to develop and demonstrate a novel type of prefabricated standard building elements called “iTB” or “integrated Triple energy Building elements” for the building industry. These iTB
The purpose of this project is to implement the next phase in the Exowave strategy, which is to be able to establish a 250 MW wave power plant together with an offshore wind farm before 2030 in Danish
The purpose of this project is to make Crestwing completely ready for its first commercially viable device. With the final demonstration of Crestwing’s 30-meter, 65 tons prototype “Tordenskiold”, the
The project will define the market status, core technical issues for development, and the train-ings/standards needs for cost-effective and reliable solar water heater technologies (mostly PV solar
The project will expand the Danish participation in IEA PVPS Task 13 with the purpose of informing about the potential and challenges concerning new photovoltaic concepts, including floating PV 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 aim of the UnitSun project is to develop the worlds most advanced prefabricated PV integrated façade system utilizing all the benefits of the prefabrication approach to the construction market for
Project FSSE aims to develop a concentrated solar capture (CSP) system with storage and a high temperature Organic Rankine Cycle Unit (ORC) that can be utilized on demand to produce carbon neutral
New PV module and inverter technology replace old well-known solutions potentially introducing new failure modes. To mitigate such risk factors and support continued deployment of utility scale PV
The objective of this project is to develop, design, build, test, optimize and commission FPPs first full-scale wave PTO system. The resulting PTO design will be used to build four identical PTO units
The first purpose is to optimize and demonstrate Exowave wave energy concept in a coastal offshore environment, where the produced seawater under high pressure is led ashore and converted to fresh
The Ocean Energy Systems (OES) Task 10, Part II continues the work on verification and validation of numerical models of Wave Energy Converters (WECs) previously supported by EUDPJ.nr. 64017-05197.
The aim of the PlateCell project is to develop and demonstrate roll-2-roll electrodeposition of thin film photovoltaics based on the earth-abundant and non-toxic, CZTS, semiconductor with at least 8%
The project will be the Danish part of the recently started IEA (International Energy Agency) SHC (Solar Heating & Cooling Programme) Task 64 on Solar Process Heat. The key components of solar heating
The objective of the PV-Rock-Roof project is to develop a cost-effective, aestetical and energy saving roof-cover where a new type of photovolatic (PV) module is glued to the insulation without need
The objective of the project is to develop a combined hardware and software solution that can efficiently act as a tool for doing fast and accurate drone-based luminescence inspection of solar plants