Summary
The FloTEC project will demonstrate the potential for floating tidal stream turbines to provide low-cost, high-value energy to the European grid mix. The FloTEC project has 5 core objectives:
1. Demonstrate a full-scale prototype floating tidal energy generation system for optimised energy extraction in locally varying tidal resources;
2. Reduce the Levelised Cost of Energy of floating tidal energy from current estimated €250/MWh to €200/MWh, through both CAPEX and OPEX cost reductions in Scotrenewables Tidal Technology;
3. Develop potential of tidal energy generation towards flexible, baseload generation, through the integration of energy storage.
4. Demonstrate the potential for centralised MV power conversion to provide a generic, optimised low-cost solution for tidal arrays
5. Progress tidal energy towards maturity and standard project financing by reducing cost and risk, improving reliability, and developing an advanced financing plan for first arrays.
This will be realised through the construction of a M2-SR2000 2MW turbine - which will incorporate the following innovations:
50% greater energy capture through enlarged rotors with a lower rated speed;
Automated steel fabrication;
Centralised MV power conversion
Integrated Energy Storage
Mooring load dampers
Composite Blade Manufacturing
The SR2000-M2 will be deployed alongside the existing SR2000-M1 at EMEC to form a 4MW floating tidal array, serving as a demonstration platform for commercially viable tidal stream energy as a baseload supply.
1. Demonstrate a full-scale prototype floating tidal energy generation system for optimised energy extraction in locally varying tidal resources;
2. Reduce the Levelised Cost of Energy of floating tidal energy from current estimated €250/MWh to €200/MWh, through both CAPEX and OPEX cost reductions in Scotrenewables Tidal Technology;
3. Develop potential of tidal energy generation towards flexible, baseload generation, through the integration of energy storage.
4. Demonstrate the potential for centralised MV power conversion to provide a generic, optimised low-cost solution for tidal arrays
5. Progress tidal energy towards maturity and standard project financing by reducing cost and risk, improving reliability, and developing an advanced financing plan for first arrays.
This will be realised through the construction of a M2-SR2000 2MW turbine - which will incorporate the following innovations:
50% greater energy capture through enlarged rotors with a lower rated speed;
Automated steel fabrication;
Centralised MV power conversion
Integrated Energy Storage
Mooring load dampers
Composite Blade Manufacturing
The SR2000-M2 will be deployed alongside the existing SR2000-M1 at EMEC to form a 4MW floating tidal array, serving as a demonstration platform for commercially viable tidal stream energy as a baseload supply.
Unfold all
/
Fold all
More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/691916 |
| Start date: | 01-01-2016 |
| End date: | 31-08-2021 |
| Total budget - Public funding: | 22 044 231,50 Euro - 9 782 380,00 Euro |
Cordis data
Original description
The FloTEC project will demonstrate the potential for floating tidal stream turbines to provide low-cost, high-value energy to the European grid mix. The FloTEC project has 5 core objectives:1. Demonstrate a full-scale prototype floating tidal energy generation system for optimised energy extraction in locally varying tidal resources;
2. Reduce the Levelised Cost of Energy of floating tidal energy from current estimated €250/MWh to €200/MWh, through both CAPEX and OPEX cost reductions in Scotrenewables Tidal Technology;
3. Develop potential of tidal energy generation towards flexible, baseload generation, through the integration of energy storage.
4. Demonstrate the potential for centralised MV power conversion to provide a generic, optimised low-cost solution for tidal arrays
5. Progress tidal energy towards maturity and standard project financing by reducing cost and risk, improving reliability, and developing an advanced financing plan for first arrays.
This will be realised through the construction of a M2-SR2000 2MW turbine - which will incorporate the following innovations:
50% greater energy capture through enlarged rotors with a lower rated speed;
Automated steel fabrication;
Centralised MV power conversion
Integrated Energy Storage
Mooring load dampers
Composite Blade Manufacturing
The SR2000-M2 will be deployed alongside the existing SR2000-M1 at EMEC to form a 4MW floating tidal array, serving as a demonstration platform for commercially viable tidal stream energy as a baseload supply.
Status
CLOSEDCall topic
LCE-03-2015Update Date
26-10-2022
Images
No images available.
Geographical location(s)
Structured mapping
Unfold all
/
Fold all
Search
Organisations
-
| ORBITAL MARINE POWER LIMITED (Coördinator)
-
| ABB LIMITED
-
| DP Energy Ireland Limited
-
| EDF ENERGY R&D UK CENTRE LIMITED
-
| EIRECOMPOSITES TEORANTA (EC)
-
| ELECTRICITE DE FRANCE (EDF)
-
| HARLAND AND WOLFF HEAVY INDUSTRIES LIMITED
-
| NATIONAL UNIVERSITY OF IRELAND GALWAY (NUI Galway)
-
| RKS
-
| SKF (U.K) LIMITED
-
| SKF GMBH
-
| SKF MARINE GMBH
-
| TECHNOLOGY FROM IDEAS LIMITED
-
| THE EUROPEAN MARINE ENERGY CENTRE LIMITED
-
| UNIVERSITY COLLEGE CORK - NATIONAL UNIVERSITY OF IRELAND, CORK