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Offshore Wind and the European Supergrid Joe Corbett, Head of Technical Services Mainstream Renewable Power Representing: Friends of the Supergrid.

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Presentation on theme: "Offshore Wind and the European Supergrid Joe Corbett, Head of Technical Services Mainstream Renewable Power Representing: Friends of the Supergrid."— Presentation transcript:

1 Offshore Wind and the European Supergrid Joe Corbett, Head of Technical Services Mainstream Renewable Power Representing: Friends of the Supergrid

2

3 Offshore Wind Installations 2010 Source: EWEA http://www.ewea.org/index.php?id=1861 http://www.ewea.org/index.php?id=1861

4 Offshore Generation Location up to 2010

5 Foundation Design Evolution

6 Offshore Research Hywind – Spar Type Floating Foundation  Norway 200m  Statoil Blue H – Tension Leg Platform (TLP)  Netherlands 100m Windfloat – Semi Submersible  Portugal 40m Offshore Wind Accelerator  Carbon Trust + 8 Developers  Wind Analysis  Electrical and Foundation Design  Operation and Maintenance

7 Offshore Trends Turbine Size Trend Source EWEA Principle Power’s Windfloat Design

8 Move Offshore Single European electricity market Security and sustainability of supply Carbon neutral Europe by 2050 Why the Supergrid?

9 Supergrid Phase 1 – Design Drivers Offshore Wind  25-30 GW 2020 in the North Sea (UK, Germany, Belgium) UK Network Congested North Germany – High Wind Penetration Hydro balance capability

10 TUOS : 1,55 - 4,67 c/kWh Socialised: 0.23 c/kWh Supergrid Phase 1 - Cost Project Financing:  €28 billion (2010 value)  30 % RoE  6 year building time, 40 years of operation  23GW of Wind Generation Connected  Capacity factor:  40% - if the wind alone trades on the system  90% - when wind and other energy/service providers use the network

11 Technology Today (2015): HVDC – VSC  1 GW  Losses < 1.5% HVDC Cables  XLPE – 300kV  MI (Oil) – 500kV

12 Supergrid Technology (2015): The SuperNode – Hybrid AC/DC Design HVDC based on VSC (Voltage Source Converter) technology

13 Technology Developments Improved Converter Design  <<< Losses  >>> Power Cable  >>> XLPE Voltage Capability Multi-Terminal Wide Area Control System System Dynamics  Inertia  Fault Performance DC Switchgear Onshore Transmission  GIL  Superconductivity

14 Policy and regulatory aspects at a glance Master Plan: Entso-e One Operator: ISO One Grid Code: Entso-e One Regulator: ACER

15 www.friendsofthesupergrid.eu Thank you for your attention

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