EcoSwingProject ID: 656024
Finanziato nell'ambito di:
H2020-EU.3.3. - SOCIETAL CHALLENGES - Secure, clean and efficient energy
H2020-EU.3.3.2. - Low-cost, low-carbon energy supply
H2020-EU.126.96.36.199. - Develop the full potential of wind energy
H2020-EU.188.8.131.52. - Develop efficient, reliable and cost-competitive solar energy systems
H2020-EU.184.108.40.206. - Develop geothermal, hydro, marine and other renewable energy options
EcoSwing - Energy Cost Optimization using Superconducting Wind Generators - World’s First Demonstration of a 3.6 MW Low-Cost Lightweight DD Superconducting Generator on a Wind Turbine
Dettagli del progetto
Costo totale:EUR 13 846 593,75
Contributo UE:EUR 10 591 733,64
Argomento (i):LCE-03-2014 - Demonstration of renewable electricity and heating/cooling technologies
Invito a presentare proposte:H2020-LCE-2014-2See other projects for this call
Meccanismo di finanziamento:IA - Innovation action
EcoSwing aims at world's first demonstration of a superconducting low-cost, lightweight drive train on a modern 3.6 MW wind turbine.
EcoSwing is quantifiable: The generator weight is reduced by 40% compared to commercial permanent magnet direct-drive generators (PMDD). For the nacelle this means a very significant weight reduction of 25%. Assuming series production, cost reduction for the generator can be 40% compared to PMDD. Finally, reliance on rare earth metals is down by at least two orders of magnitude.
This demonstration is enabled by the increasing maturity of industrial superconductivity. In an ambitious step beyond present activities, EcoSwing will advance the TRL from 4-5 to 6-7. We are shifting paradigms: Previously, HTS was considered for very big, highly efficient turbines for future markets only. By means of cost-optimization, EcoSwing targets a turbine of great relevance already to the present large-scale wind power market. The design principles of EcoSwing are applicable to markets with a wide range of turbine ratings from 2 MW to 10 MW and beyond.
Despite technological successes in superconductivity, turbine manufacturers and generator suppliers are hesitant to apply HTS into the wind sector, because of real and perceived risks. The environment inside a wind turbine has unique requirements to generators (parasitic loads and moments, vibration, amount of independent hours of operation). Therefore, a demonstration is required.
The consortium represents a full value chain from materials, over components, up to a turbine manufacturer as an end-user providing market pull. It features competent partners on the engineering, the cryogenic, and the power conversion side. Also ground-based testing before turbine deployment, pre-certification activities, and training are included.
EcoSwing can become tangible: The EcoSwing demonstrator will commence operation in 2018 on an existing very modern 3.6 MW wind turbine in Thyborøn, Denmark.
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