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CORDIS - EU research results
CORDIS

Next Generation 12+MW Rated, Robust, Reliable and Large Offshore Wind Energy Converters for Clean, Low Cost and Competitive Electricity

CORDIS provides links to public deliverables and publications of HORIZON projects.

Links to deliverables and publications from FP7 projects, as well as links to some specific result types such as dataset and software, are dynamically retrieved from OpenAIRE .

Deliverables

Released report on handling and installation (opens in new window)

Released report on handling and installation of 14+MW turbines, and the necessary equipment for the installation Partners will develop detailed logistics and installation plans, develop relevant method statements based on Task 2.3 outcomes and achieve preliminary release of method statements by external MWS. Verifiable indicator of success: Clear list and description of necessary equipment.

Reports opt. fixed/floating substructures (opens in new window)

Reports on optimised fixed and floating substructures for 14+MW WEC JBO and the partners will assess implications of floating and fixed foundations including challenges and innovation potential for this new turbines generation. Due to the increased size a number of factors have to be taken into account in the upscaling of different types of foundations. Verifiable indicator of success: The reports are printed and distributed to the partners and relevant stakeholders.

Corrective maintenance manual (opens in new window)

14+MW generic WEC corrective maintenance procedures, including requirements on equipment (e.g. vessels) with recommended intervention strategies. WEC scheduled and corrective maintenance requires the mobilisation of vessels, equipment, and technicians to the offshore wind farm, and must be executed in variable and unpredictable weather. Method statements must be defined for preventative and corrective maintenance to ensure rapid, safe, and efficient intervention Verifiable indicator of success: A set of maintenance procedures and recommendations on intervention strategies

First communication material developed (opens in new window)

ReaLCoE will develop a set of traditional and wellestablished communication material to communicate the project aims and technical aspects in clear plain language Provision of regular communication activities linked to project milestones includeDevelopment of the project websitePreparation of project brochure and postersRegular publications and webcasts to scientific and industrial audienceTargeted promotion of project through social media channels partners websites and communication channels mainstream media as appropriateVerifiable indicator of success The milestones named above are in place and running

Risk mitigation plan (opens in new window)

Quality and risk management are essential for a successful project implementation The EB assists the coordinator in the monitoring of the project progress and ensuring a high quality of work through implementing the following actions in cooperation with the coordinator and the WP leaders Verifiable indicator of success A risk mitigation plan has been developed and can be accessed

Dissemination /exploitation strategy roadmap (opens in new window)

Dissemination and exploitation strategy and replication roadmap The primary aim is the coordination of the dissemination and exploitation of the knowledge, data and project results. It will include dissemination activities following the exploitation strategy, identification of target user groups and definition of partners to implement dissemination through the channels foreseen.Due date M86 Verifiable indicator of success: Elaboration of a replication roadmap identifying best practices and proposing replication paths

VVT and Certification Plan (opens in new window)

VVT and certification plan (M15) The creation of a VVT and certification plan requires a roadmap targeting appropriate guidelines, testing environment, testing scope as well as certification scope and standards. Verifiable indicator of success: All relevant aspects for the Set-up of a verification, validation, testing (VVT) and certification plan have been analysed and the plan is in place.

Publications

Virtual load sensors based on calibrated wind turbine strain sensors for damage accumulation estimation: a gap-filling technique

Author(s): Bruno Rodrigues Faria1, Nikolay Dimitrov1, Victor Perez2, Athanasios Kolios1, Asger Bech Abrahamsen1 1DTU Wind And Energy Systems, Technical University of Denmark, Roskilde, Denmark 2GE Vernova Offshore Wind, Barcelona, Spain
Published in: WindEurope 2025, Issue Yearly, 2025
Publisher: WindEurope

Development of a new validation and certification strategy for a 12+ MW WEC

Author(s): Karin Eustorgi
Published in: Wind Energy Science Conference 2019, 2019
Publisher: WESC 2019

Simulative comparison of installation concepts for offshore wind farms.

Author(s): Oelker, S., Alla, A. A., Rippel, D., & Freitag, M.
Published in: ISOPE International Ocean and Polar Engineering Conference, Issue June 2022, 2022, ISBN 978-1-880653-81-4
Publisher: ISOPE

Applying a WEC Digital Twin

Author(s): Aljoscha SANDER, Moritz VON STIETENCRON
Published in: Wind Energy Science Conference 2019, 2019
Publisher: WESC 2019

7.3_Stock-Williams: ReaLCoE Design for Maintenance (opens in new window)

Author(s): Stock-Williams, Clym
Published in: Wind Energy Science Conference 2019, 2019
Publisher: WESC 2019
DOI: 10.5281/zenodo.3360243

Simulation-Based Economic Evaluation of the Operational Phase of Offshore Wind Turbines

Author(s): Stephan Oelker, Abderrahim Ait-Alla, Marco Lewandowski, Melanie Löffler, Michael Freitag
Published in: Proceedings of the Twenty-ninth (2019) International Ocean and Polar Engineering Conference, Issue June 2019, 2019, ISBN 188065385-2
Publisher: International Society of Offshore and Polar Engineers (ISOPE)

Transport, Craning, Installation, and Commissioning for 12MW+ OWF

Author(s): Wessel Deijl, Novita Saraswati, Aljoscha Sander
Published in: Wind Energy Science Conference 2019, 2019
Publisher: WESC 2019

4.2_Eecen: Flexibility options for offhore wind farms (opens in new window)

Author(s): Eecen, Peter
Published in: Wind Energy Science Conference 2019, 2019
Publisher: WESC 2019
DOI: 10.5281/zenodo.3357004

Site-specific design loads on fixed bottom and floating offshore substructures for a conceptual design of a 15+MW wind turbine and sensitivity to design parameters

Author(s): Thanasis Barlas1, Flemming Rasmussen1, Michael Schuld2, Antoine Bocquet2, Gerrit Haake3, Ingo Bolm3, Jean Claude Messager4, Rafael Madureira4, Alistair Lee4, Barbara Lee4 1DTU Wind and Energy Systems, Denmark 2GE Vernova, Germany 3JBO, Germany 4Principle Power, France/Portugal
Published in: WindEurope 2024, Issue Yearly, 2024
Publisher: WindEurope

Vortex-induced vibrations of wind turbines: From single blade to full rotor simulations (opens in new window)

Author(s): Georg Raimund Pirrung, Christian Grinderslev, Niels Nørmark Sørensen, Riccardo Riva
Published in: Renewable Energy, Issue 226, 2024, Page(s) 120381, ISSN 0960-1481
Publisher: Pergamon Press Ltd.
DOI: 10.1016/j.renene.2024.120381

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