COst REduction and increase performance of floating WIND technology

Informacje na temat projektu

COREWIND

Identyfikator umowy o grant: 815083

Strona internetowa projektu

DOI

10.3030/815083

Projekt został zamknięty

Data podpisania przez KE 3 Czerwca 2019

Data rozpoczęcia 1 Września 2019

Data zakończenia 31 Maja 2023

Finansowanie w ramach

SOCIETAL CHALLENGES - Secure, clean and efficient energy

Koszt całkowity

€ 5 031 858,75

Wkład UE

€ 5 031 858,75

5 031 858,75

Koordynowany przez

FUNDACIO INSTITUT DE RECERCA EN ENERGIA DE CATALUNYA
Spain

CORDIS oferuje możliwość skorzystania z odnośników do publicznie dostępnych publikacji i rezultatów projektów realizowanych w ramach programów ramowych HORYZONT.

Odnośniki do rezultatów i publikacji związanych z poszczególnymi projektami 7PR, a także odnośniki do niektórych konkretnych kategorii wyników, takich jak zbiory danych i oprogramowanie, są dynamicznie pobierane z systemu OpenAIRE .

Rezultaty

Review of the state of the art of mooring and anchoring designs, technical challenges and identification of relevant DLCs

Definition of the benchmark versus which developments in WP2 will be performed and will thus summarize current mooring and anchoring state of the art for floating wind projects currently installed or being engineered. Document will then identify the critical design parameters, constraints and key performance indicators. Finally design load cases for station keeping system will be specifically addressed in this document to complement WP1 output.

Floating Wind Installation Strategies

Most promising installation strategies and scenarios for platform mooring lines and cables are identified in terms of cost time and risk also with support by numerical methods Cost effectiveness of different installation techniques is assessed with respect to weather windows infrastructure vessels and other parameters

Review of the state of the art of dynamic cable system designs

Report defining state of the art in relation to dynamic cables for floating wind projects currently employed. Opportunities for technology exploitation for future development towards next level commercialization will also be identified.

LCOE, CAPEX and OPEX reduction: Key Performance Indicators and executive summary

LCOE CAPEX and OPEX reduction report including optimization scenarios due to industrialization and largescale production and results from the surveys and workshop

Identification and assessment of final exploitable results

Final analysis of innovations within the Project which may be considered as exploitable results At this stage clear decisions on innovations will be given

Report of initial kick-off meeting

Information about the Kick-off Meeting will be delivered. It will include intial tasks, discussions and actions decided to be taken into account.

Condition monitoring strategies for floating Wind O&M

Innovative Structural Health Monitoring SHM and remote Condition Monitoring CM technologies are investigated with a focus on floatingspecific aspects Relevant scenarios are developed and the influence and sensitivity of different SHMCM technologies on OM strategies and OPEX is assessed

Scientific and professional articles

A summary of all articles published within the Project will be given

Floating Wind O&M Strategies assessment

Advanced OM scheduling and planning methods which are adapted from fixedbottom offshore wind farms are developed for promising OM strategies defined in D41 Realistic scenarios with differences in vessel requirements accessibility and maintainability are analyzed in order to assess downtimes availability and OM costs considering experiences from existing floating wind farms

Methods for nonlinear forcing and wakes

Method description and generic validation of the developed methods for nonlinear wave forcing Reporting of the wake study for wakeinduced response effects at the wind farm level

Definition of the 15MW Reference Wind Turbine

Description and HAWC2 model of the 15MW reference wind turbine

Best practices for experimental modelling of mooring and cable dynamics for floating offshore wind

Report which attempts to capitalize the knowledge developed within WP5

Design load basis

Location, depth, met-ocean conditons, soil information, design load cases for the two 15MW floater-turbine concepts.

Identification of floating-wind-specific O&M requirements and monitoring technologies

Requirements for O&M of floating wind are examined considering floating-specific aspects such as differences in accessibility, maintainability, workability and technology, highlighting differences to current state-of-the-art O&M requirements. Moreover, floating-specific monitoring technologies (e.g. mooring system, dynamic cable) are identified in order to contribute to advanced, optimized O&M strategies.

Identification and assessment of first exploitable results

Preliminary analysis of innovations within the Project which may be considered as exploitable results.

Digital Models for floating offshore wind

A decription and explanation of the open and agnostic digital tools developed to enhance and ease design installation and operation of the floating offshore wind farms will be given It will include details of the functionalities and user manual of the Digital Twin and BIM toolbox developed within WP4

Final market assessment and development needs

Recommendations and industrialization considerations of the innovations will be given In addition next steps on market and Research will be defined in order to ensure its applicability and market impact

Preliminary market assessment and development needs

Revision of current state of existing standards and guidelines for FOWT and others offshore activities; by the gaps and challenges identifications new standard updates will be given.

Design practices and guidelines for mooring, anchoring systems design

Consolidating the findings of WP2 a report to inform best practices recommendations and design guidelines considering implications of different mooring and anchoring options within the context of next level commercial scale floating wind farms This will include technology roadmapping for challenges identified within the work scope undertaken to inform the industry on necessary next steps to achieve ambitions for floating wind within the envisaged timescales

Creation of the project corporate identity

Explanation of the corporate identity of the Project. It will include a project logo (full colour, grayscale and black and white versions), a project slogan, social media design, newsletter design and templates for official communications, including MS PowerPoint presentations, MS Word documents and the project deliverables.

Identification and assessment of intermediate exploitable results

Intermediate analysis of innovations within the Project which may be considered as exploitable results. At this stage, it will be analysed if new innovations have been obtained or if previous detected are still relevant.

Advanced HIL development for 15 MW turbine dynamics integration

Detailed report describing the calibration and validation of the HIL including WT Trust forces and the main WT moments developed over the rotor

General frame of the analysis and description of the FOWAT tool

Description report of the reference scenario including wind farm sites and configuration and FOWAT tool including LCA module description

Methods for multiple floaters and dynamic cables at farm level

Model description of approach for multiple floaters, dynamic cable effects and shared mooring at wind farm level. The implementation into the numerical models is described and examples with the two floater designs are given.

Stochastic multi-objective optimization problem of electrical interconnection within an floating offshore wind farm

This deliverable will report the results obtained by the optimization algorithm as well as the methodology developed to enhance the electrical layout minimizing costs loads and other decision aspects as the amount of Dynamic and static cable required

Integrated FOWT test report

Detailed report describing test plan setup results and conclusions from the integrated FOWT tests

Design recommendations and impact of mooring and dynamic cables into integrated modelling and structural design

The critical load cases for the floaterturbine configurations are reported Guidelines on how the detailed mooring solutions of WP2 and cable solutions of WP3 can be incorporated into global response modelling Investigation on how the mooring and cable dynamics affect the detailed structural design

Design practices and guidelines for dynamic cable systems design

Consolidating the findings of WP3 a report to inform best practice and cost implications of cable options within the context of next level commercial scale floating wind farms This will include technology roadmapping for challenges identified within the work scope undertaken to inform the industry on necessary next steps to achieve ambitions for floating wind within the envisaged timescales

Final report of Social Media Campaign

Update and final conclusions for all news and publications will be carried out Also the analysis of the number of followers visits retweets views etc will be given in order to analyse the impact of the communication and dissemination of the project Including a final evaluation of benefits and impact of it

Exploration of innovations and breakthroughs of station keeping systems for FOWT

Deliverable D23 delivers innovations of station keeping systems from component to system level First reduction of ultimate loads and maximum tensions is investigated through performance assessment of new elastic mooring and damper solutions Second combinations of mooring types materials and anchors are considered in order to reduce the total amount of material and overall footprint Third reduction of mooring line fatigue loads in operational conditions is investigated through wind turbine controller tuning Finally conventional mooring materials are used for the purpose of analyzing the impact of shared anchors and shared mooring lines on ultimate loads and potential resonance effects

Initial report of Social Media Campaign

A summary of all news, publications will be given. Also, the analysis of the number of followers, visits, retweets, views, etc will be given in order to analyse the impact of the communication and dissemination of the project.

Final newsflash

Preparation of a last Newsflash in line with key project outputs through its network and the networks provided by the project partners

Video

A video will be produced to disseminate the project activities and key outcomes It will feature the main deployments and benefits of the outcomes as well as their final cost reduction potential

Final flyers

An updated onepage flyer will be created presenting project results objectives achieved tests performed among others to be distributed by all the project partners in meetings events and workshops

Initial Flyers

A one-page flyer will be created presenting the basic information of the project asobjectives, duration, partners involved and website page to be distributed by all the project partners in meetings, events and workshops.

First newsflash

A Newsflash in line with key project objectives and information about the starting work and intial results will be given.

Intermediate newsflash

A newsflash with Project key advances and milestones to be disseminated will be developed and shared

Website launched and set-up of social media profiles

Project website and social media profiles ready.

Public design and FAST models of the two 15MW floater-turbine configurations

The two floater and tower designs are described. Their FAST models are provided. Both are in a public format that allows use in the consortium and outside the consortium. Hereby confidentiality issues for later dissemination are avoided.

Open experimental database for numerical modelling and future research

Structured and standardized database with the main tests conducted in WP5

Publikacje

Mooring Fatigue Verification of the WindCrete for a 15 MW Wind Turbine

Autorzy: Pau Trubat; Climent Molins; Daniel Alarcón; Valentin Arramounet; Mohammad Youssef Mahfouz
Opublikowane w: ASME 2021 3rd International Offshore Wind Technical Conference, Numer 1, 2021, ISBN 978-0-7918-8476-8
Wydawca: American Society of Mechanical Engineers (ASME)
DOI: 10.1115/iowtc2021-3553

Suspended cable model for layout optimisation purposes in floating offshore wind farms

Autorzy: J.i. Rapha; J.L. Domínguez-García
Opublikowane w: Journal of Physics: Conference Series, Numer EERA DeepWind 2021, 2021
Wydawca: IOP Publishing

"""Assessment of mooring configurations for the IEA 15MW floating offshore wind turbine"""

Autorzy: Qi Pan, Mohammad Youssef Mahfouz and Frank Lemmer
Opublikowane w: Journal of Physics: Conference Series, Numer EERA DeepWind 2021, 2021, ISSN 1742-6596
Wydawca: IOP Publishing
DOI: 10.1088/1742-6596/2018/1/012030

Verification of SIMPACK-MoorDyn coupling using 15 MW IEA Activefloat and WindCrete

Autorzy: Mohammad Youssef Mahfouz, Tabea Roser, Po Wen Cheng
Opublikowane w: 2021, ISSN 1742-6596
Wydawca: IOP Publishing

Uncertainties assessment in real-time hybrid model for ocean basin testing of a floating offshore wind turbine

Autorzy: Miguel Somoano, Tommaso Battistella, Sergio Fernández-Ruano and Raúl Guanche
Opublikowane w: Journal of Physics: Conference Series, Numer EERA DeepWind’2021, 2021, ISSN 1742-6596
Wydawca: IOP Publishing

Dynamics of two floating wind turbines with shared anchor and mooring lines

Autorzy: Ozan Gözcü, Stavros Kontos and Henrik Bredmose
Opublikowane w: Journal of Physics: Conference Series, Numer 2265, 2022, Strona(/y) 042026
Wydawca: IOP Publisher
DOI: 10.1088/1742-6596/2265/4/042026

Mooring optimization using ML techniques

Autorzy: Trubat Casal, Pau; Herrera Batista, Adrian; Molins i Borrell, Climent
Opublikowane w: ASME 2022 4th International Offshore Wind Technical Conference, Numer IOWTC2022-98217, 2023, Strona(/y) 1-10, ISBN 978-0-7918-8661-8
Wydawca: ASME
DOI: 10.1115/iowtc2022-98217

Dynamic cable model for layout optimisation purposes in Floating Offshore Wind Farms

Autorzy: J.I. Rapha; J.L. Domínguez-García
Opublikowane w: Presentation at EERA DeepWind 2021, 2021
Wydawca: SINTEF

Key innovations for floating wind cost reduction: the COREWIND project

Autorzy: J.L. Domínguez
Opublikowane w: Presentation in EERA DeepWind 2023, 2023
Wydawca: SINTEF

Guidelines for Cluster-Based Control Development in Floating Offshore Wind Farms

Autorzy: H. Del Pozo
Opublikowane w: Presentation in WESC 2023, 2023
Wydawca: EAWE

Impact Assessment of Structural Health Monitoring on the Floating Offshore Wind O&M Costs

Autorzy: Marie-Antoinette Schwarzkopf, Friedemann Borisade
Opublikowane w: Floating Offshore Wind 2022 conference in Aberdeen, UK, 2022
Wydawca: Ramboll

Self-adjusting Floating Wind farm layout

Autorzy: M.Y. Mahdouz
Opublikowane w: Presentation in WESC 2023, 2023
Wydawca: EAWE

Control of Waked Floating Offshore Wind Farms for Motion Equalization

Autorzy: H. Del Pozo
Opublikowane w: Presentation in WESC 2023, 2023
Wydawca: EAWE

IMPACT OF MOORING AND CABLE DYNAMICS ON THE STRUCTURAL DESIGN OF TWO CONCRETE PLATFORMS

Autorzy: Pau Trubat
Opublikowane w: Presentation in WESC 2023, 2023
Wydawca: EAWE

Offshore Large Component Exchange for Floating Wind – Case studies

Autorzy: Denis Matha, Marie-Antoinette Schwarzkopf, Friedemann Borisade
Opublikowane w: Presentation of WP4 results at FOWT 2021 conference, 2021
Wydawca: Ramboll

Asymmetric mooring system for dynamic layout of floating wind farm

Autorzy: Mohammad Youssef Mahfouz; Frank Lemmer; Po Wen Cheng
Opublikowane w: Wind Energy Science Conference (WESC) 2021, 2021
Wydawca: EAWE

Assessment of mooring pretension on the IEA 15MW floating offshore wind turbine

Autorzy: Qi Pan, Po wen Cheng
Opublikowane w: Wind Energy Science Conference (WESC) 2021, 2021
Wydawca: EAWE

Improving competitiveness of floating offshore wind through cost-reduction

Autorzy: J.L. Domínguez
Opublikowane w: Presentation in WESC 2023, 2023
Wydawca: EAWE

Investigation of the aerodynamic response of the Activefloat 15MW floating wind turbine with hybrid wind tunnel testing

Autorzy: A. Fontanella
Opublikowane w: Presentation in WESC 2023, 2023
Wydawca: EAWE

Assessment of sustainable solutions for floating offshore wind through an LCOE/LCA tool developed in the context of COREWIND

Autorzy: J.I. Rapha
Opublikowane w: Presentation in WESC 2023, 2023
Wydawca: EAWE

Floating offshore wind farm layout optimisation

Autorzy: J.I. Rapha
Opublikowane w: Presentation in WESC 2023, 2023
Wydawca: EAWE

Concept Study of a Sailing Offshore Wind Turbine

Autorzy: L Willeke
Opublikowane w: MsThesis, 2021
Wydawca: Univerity of Stuttgart
DOI: 10.18419/opus-11435

CFD analysis of the installation of floating wind SPAR substructure in waves

Autorzy: S. Aliyar
Opublikowane w: Presentation in WESC 2023, 2023
Wydawca: EAWE

Chain and nylon mooring lines for floating offshore wind foundations: numerical modelling validation

Autorzy: A. Rodriguez-Luis, M. Somoano, P. Desiré, S. Fernandez-Ruano, R. Guanche
Opublikowane w: Poster at WindEurope Annual Event 2021, 2022
Wydawca: WindEurope

Floating offshore wind farm micro-siting for LCOE minimisation in variable depth sites

Autorzy: J.I. Rapha, N. Tzarknias, J.L. Domínguez-García
Opublikowane w: Poster in Wind Europe Annual Event, 2022
Wydawca: Wind Europe

T&I Challenges on the US West Coast – Morro Bay Case Study

Autorzy: Denis Matha, Friedemann Borisade
Opublikowane w: Floating Wind Solutions 2023 conference in Houston, USA, 2023
Wydawca: Ramboll

Comparison of loads from HAWC2 and OpenFAST for the IEA Wind 15 MW Reference Wind Turbine

Autorzy: Jennifer Rinker, Evan Gaertner, Frederik Zahle, Witold Skrzypiński, Nikhar Abbas, Henrik Bredmose, Garrett Barter, Katherine Dykes
Opublikowane w: Journal of Physics: Conference Series, Numer 1618, 2020, Strona(/y) 052052, ISSN 1742-6588
Wydawca: Institute of Physics
DOI: 10.1088/1742-6596/1618/5/052052

Investigation of the floating IEA wind 15-MW RWT using vortex methods Part II: Wake impact on downstream turbines under turbulent inflow

Autorzy: Néstor Ramos‐García; Sergio González Horcas; Antonio Pegalajar‐Jurado; Stavros Kontos; Henrik Bredmose
Opublikowane w: Wind Energy, Numer 10991824, 2022, ISSN 1099-1824
Wydawca: John Wiley & Sons Ltd
DOI: 10.1002/we.2738

Investigation of the floating IEA Wind 15 MW RWT using vortex methods Part I: Flow regimes and wake recovery

Autorzy: Néstor Ramos-García,Stavros Kontos,Antonio Pegalajar-Jurado,Sergio González Horcas,Henrik Bredmose
Opublikowane w: Wind Energy, Numer Vol 25 (3), 2021, Strona(/y) 468-504, ISSN 1099-1824
Wydawca: Wiley
DOI: 10.1002/we.2682

A passively self‐adjusting floating wind farm layout to increase the annual energy production

Autorzy: Mohammad Youssef Mahfouz; Po‐Wen Cheng
Opublikowane w: Wind Energy, Numer 26 (3), 2022, Strona(/y) 251-265, ISSN 1099-1824
Wydawca: John Wiley & Sons
DOI: 10.1002/we.2797

Response of the IEA Wind 15 MW – WindCrete and Activefloat floating wind turbines to wind and second-order waves

Autorzy: Mohammad Youssef Mahfouz, Climent Molins, Pau Trubat, Sergio Hernández, Fernando Vigara,Antonio Pegalajar-Jurado, Henrik Bredmose, and Mohammad Salari
Opublikowane w: Wind Energy Science, 2021, ISSN 2366-7443
Wydawca: Copernicus GmbH (Copernicus Publications)
DOI: 10.5194/wes-2021-11

A control-oriented wave-excited linear model for offshore floating wind turbines

Autorzy: A. Fontanella, M. Al, D. van der Hoek, Y. Liu, J.W. van Wingerden, M. Belloli
Opublikowane w: Journal of Physics: Conference Series, Numer 1618, 2020, Strona(/y) 022038, ISSN 1742-6588
Wydawca: Institute of Physics
DOI: 10.1088/1742-6596/1618/2/022038

Non-centralized hierarchical model predictive control strategy of floating offshore wind farms for fatigue load reduction

Autorzy: Hector Del Pozo; J.L. Domínguez-García
Opublikowane w: Renewable Energy, Numer Vol 187, 2022, Strona(/y) 248-256, ISSN 0960-1481
Wydawca: Pergamon Press Ltd.
DOI: 10.1016/j.renene.2022.01.046

Simulation of mooring Lines in complex bathymetries using a finite element method

Autorzy: Paula Desiré; Álvaro Rodríguez-Luis; Raúl Guanche
Opublikowane w: Ocean Engineering, Numer 272, 2023, Strona(/y) 113827, ISSN 1873-5258
Wydawca: Elsevier
DOI: 10.1016/j.oceaneng.2023.113827

Digital tools for floating offshore wind turbines (FOWT): A state of the art

Autorzy: Alexandra Ciuriuc; José Ignacio Rapha; Raúl Guanche; José Luis Domínguez-García
Opublikowane w: Energy Reports, Numer Vol 8,, 2022, Strona(/y) 1207-1228, ISSN 2352-4847
Wydawca: Elsevier
DOI: 10.1016/j.egyr.2021.12.034

Validation of drift motions for a semi-submersible floating wind turbine and associated challenges

Autorzy: M Y Mahfouz, R Faerron-Guzmán, K Müller, F Lemmer, P W Cheng
Opublikowane w: Journal of Physics: Conference Series, Numer 1669, 2020, Strona(/y) 012011, ISSN 1742-6588
Wydawca: Institute of Physics
DOI: 10.1088/1742-6596/1669/1/012011

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