Projektbeschreibung
Bahnbrechende intelligente Solarfenster zur Verringerung unseres ökologischen Fußabdrucks
Im Bereich der gebäudeintegrierten Photovoltaik ist es bisher noch nicht gelungen, eine transparente Photovoltaik-Fensterlösung zu entwickeln und auf den Markt zu bringen, die u. a. Anforderungen wie eine vollständige Transparenz sowie eine bestimmte aktive Lebensdauer und Energiegewinnung erfüllen kann. Ziel des EU-finanzierten Projekts Tech4Win ist daher die Entwicklung eines neuartigen transparenten Photovoltaik-Fensterkonzepts, das auf einer von einem Tandem inspirierten Struktur basiert. Letztere kombiniert eine anorganische Ultraviolett-selektive multifunktionale Beschichtung mit einer organischen Infrarot-selektiven Photovoltaik-Vorrichtung. Die Lösung wird es ermöglichen, erneuerbare Energie vor Ort zu geringeren Kosten zu erzeugen, ein hohes Maß an Transparenz zu gewährleisten und gleichzeitig den Einsatz kritischer Rohstoffe zu vermeiden.
Ziel
Tech4win proposes a very innovative transparent photovoltaic (PV) window concept that is based on the adoption of a tandem inspired structure combining an inorganic UV selective multifunctional coating (including UV filtering and UV selective PV functionalities), with an organic IR selective PV device. This will allow fully exploiting the IR efficiency and transparency potential of organic based solutions together with the robustness and stability of inorganic thin film concepts, combining sustainable and industrial compatible technologies with demonstrated potential for cost reduction, and avoiding the use of critical raw materials to ensure sustainable mass deployment. This “tandem inspired structure” will be able to generate on-site renewable energy (PCE ≥ 10%, with a long term goal ≥ 12%) guaranteeing a high-transparency degree (AVT ≥ 60% with a long term goal ≥ 70%, and CRI ≥ 70) and all by a competitive manufacturing costs. This novelty lies precisely in the capacity to protect the most active PV layer (IR selective organic solar cell) through the filtering of UV radiation, extending the lifetime of the PV hybrid device to ≥ 10 years (with a long term goal ≥ 25 years). To fulfil these objectives, a very well balanced multi-sectorial consortium comprising reference Research Centers in the different PV technologies involved in the window concept, together with high-tech European Companies from different sectors including relevant stakeholders involved in the value chain (Organic materials, Industrial Equipment developers, PV module producers and BIPV system manufacturers). This scenario constitutes an excellent business opportunity to satisfy the growing BIPV market to commercialize a unique cost-effective solar window solution, fully feasible as an active product capable to reach a challenging combination of efficiency, transparency and lifetime, with the design of a “Tech4Win” roadmap to place on the market a robust solar window in approximately 10 years.
Wissenschaftliches Gebiet
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energy
- engineering and technologyenvironmental engineeringmining and mineral processing
- engineering and technologymaterials engineeringcoating and films
- engineering and technologycivil engineeringarchitecture engineeringsustainable architecturesustainable building
Schlüsselbegriffe
Programm/Programme
Aufforderung zur Vorschlagseinreichung
Andere Projekte für diesen Aufruf anzeigenUnterauftrag
H2020-LC-SC3-2018-Joint-Actions-3
Finanzierungsplan
RIA - Research and Innovation actionKoordinator
08930 Sant Adria De Besos
Spanien