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Financement de l’UE (6 803 004 €) : Évaluation de la capacité de survie, voies de redUction des coûts et évaluation environnementale des fermes flottantes d’énergie solaire installées hors sol Hor01/12/2023 Programme de recherche et d'innovation de l'UE « Horizon »
Vue d’ensemble
Texte
Évaluation de la capacité de survie, voies de redUction des coûts et évaluation environnementale des fermes flottantes d’énergie solaire installées hors sol
Europe is currently in a transition away from its dependency on Russian gas towards a fully renewable, reliable, and low-cost energy system by 2050. To achieve this target, large-scale renewable energy projects are essential. However, the transition is limited by several factors such as onshore space availability to deploy GW-scale projects, supply chain disruptions, and concerns from various stakeholders around visual pollution and space use. Offshore floating PV (OFPV) can deliver hundreds of GWs in Europe by 2050 while resolving above challenges. In areas with a fast-expanding offshore wind sector (e.g. North Sea), OFPV can be combined with wind inside multi-source farms. This enables the extraction of up to 9x more energy per km2 and better utilization of the infrastructure due to 10-20% more full-load hours, while leaving space for other stakeholders as fewer wind parks and electrical infrastructure are needed for the same amount of electricity production. In parts of the Mediterranean and the Black Sea with low wind resources, also stand-alone OFPV can help to achieve high penetration of renewable energy. Nautical SUNRISE will remove the last barriers of OFPV to deliver these benefits. A 5 MW grid-connected, multi-year offshore demonstration of a highly competitive OFPV system and its components inside a commercial wind farm will provide the trust needed for the upscaling of the technology. Prior to the demonstration, its technical reliability will be validated in the most extreme conditions through laboratory measurements, wave-wind tank tests, and modelling studies. The cost reduction achieved through design improvements will be quantified in concrete business cases and should enable an LCOE of <148 €/MWh, making OFPV financially viable. Additionally, the measurement campaign at the OFPV demonstration, large-scale environmental modelling, and life-cycle assessment including circularity will help to understand the overall effect on the environment.
| Bridon International Ltd. | ? |
| Bekaert Wire Rope Industry N.V. | 10 551,00 € |
| Blunova S.p.A. | 136 296 € |
| Blusolar Servizi Srl | 0,00 € |
| Fundacio Institut de Recerca en Energia de Catalunya | 271 781 € |
| Inesc Tec - Instituto de Engenhariade Sistemas e Computadores, Tecnologia e Ciencia | 118 781 € |
| Katholieke Universiteit Leuven | 278 469 € |
| Oxford PV Germany GmbH | 300 453 € |
| RWE Offshore Wind GmbH | 404 669 € |
| Sintef AS | 411 773 € |
| Sintef Ocean AS | 467 281 € |
| Solarduck B.V. | 2 005 089 € |
| Stichting Deltares | 533 000 € |
| Stichting Dutch Marine Energy Centre | 786 018 € |
| Universiteit Hasselt | 150 094 € |
| Wavec/Offshore Renewables - Centro de Energia Offshore Associação | 928 750 € |
https://cordis.europa.eu/project/id/101135639
Cette annonce se réfère à une date antérieure et ne reflète pas nécessairement l’état actuel. L’état actuel est présenté à la page suivante : Bridon International Ltd., Doncaster, Royaume Uni.