Deliverables Documents, reports (15) LCOE assessment of the PivoBuoy Concept This key report will summarize the potential impact on LCOE of the innovations developed along the project The final report be issued at the end of the project but periodic reviews will be done since M6 every 6 monthsRefers to task 72 Initial Project Management Plan Initial Project Management Plan with a Gantt chart and a Work Breakdown Structure (WBS). It will include a schedule per task, responsible partner related subtasks, related deliverables, and dependencies on other tasks. Refers to task 1.2. Update of reliability, Health & Safety and Environmental Assessment This intermediate report will update the initial report with detailed identification of hazards and potential failure modes, identifying health & safety and environmental considerations. This will be issued in M15, just before the assembly, installation and testing. INTECSEA will lead the reliability and H&S aspects while PLOCAN will lead the environmental aspects. Intermediate deliverable of the tasks 6.1 (Hazard & Reliability Aspects), task 6.2 (H&S aspects) and Task 6.3 (environmental aspects). A final deliverable report will be submitted in M33 gathering all data produced along the reliability, Health & Safety and Environmental Assessment, conducted throughout the different phases of the project. Recommendations for the installation and operation of floating systems At the end of the testing period this deliverable will summarize the results and learning into a final public report providing best practices for the development of future floating wind farms The report will include learning gained both during the installation and commissioning of the PivotBuoy system as well as during the environmental monitoring operation and maintenance of the systemRefers to task 46 Industrialization plan for serial production of large farms This final deliverable will provide an Industrialization plan for serial production of PivotBuoy systems for large floating wind farms This plan will bring the learning gathered in WP3 in manufacturing assembling and installing the partscale demonstratorRefers to task 35 Optimal maintenance strategies for single point mooring systems This report will include the analysis of potential operation and maintenance strategies for single point mooring systems taking into account potential failures, weather conditions, accessibility and available vessels and infrastructure for maintaining the system. Refers to task 6.4. PivotBuoy Project final report: results, lessons learnt and best practices for the wind sector PivotBuoy Project final report summarising the results lessons learnt and best practices arising from the project and benefiting the whole floating wind sector This publicly available report will include a short description of the products and services developed during the project and the potential impact in the sector both in terms of LCOE as other relevant impacts eg on the environment job creation etcRefers to task 75 Test site environmental conditions Data to characterize the test site environmental conditions including metocean data (wave, wind and currents) as well as bathimetry, seabed conditions and other relevant information. Refers to task 4.1 Reliability, EHS and environmental considerations for large scale farms of floating wind platforms with single point mooring systems This final report summarising the work done in this WP6 The learning gathered in the project in terms of reliability health and safety and environmental impacts will be summarised into guidelines to be shared with the floating wind communityRefers to task 65 Benchmark of the PivotBuoy compared to other floating wind systems This deliverable will compare the simulated results for the large 10-20MW systems against other floating systems. Some benchmark projects for comparison are IEA task 3 (OC4, OC5, OC6), but additional data is expected to be available on existing solutions in the coming years. Refers to task 5.4 Preliminary design for 10-20MW systems This report will provide a preliminary design of the PivotBuoy for largescale 1020MW floating systems based on the updated design carried out on task 25 and simulations done in WP5 It will also bring the learning and experience gained during the design of the partscale prototype manufacturing assembly and installation into the new optimized designRefers to task 25 Initial Project Risk Management Plan A project risk management plan will be created at the start of the project and updated periodically along the project including risk identification, risk qualification / quantification, risk response planning. Refers to task 1.4. Socio-economic impact and LCA assessment This report will summarise the potential impact of PivotBuoy technology though the whole life cycle of a project performing a LCA analysis and also impact on the local economy in terms of potential job creation local value etc Refers to task 73 Final performance assessment (operational regime and under extreme sea conditions) & model validation This deliverable will include the validation of the numerical models with experimental data from the 13 tests at sea Comparison between numerical results to the experimental data eg motions loads turbine behaviour etc will be performed to validate and finetune the numerical simulation modelsRefers to task 55 Final Reliability, Health & Safety and Environmental Assessment of PivotBuoy system This final report issued in M33 just after the decommissioning will update the previous report with the results regarding reliability aspects identification of hazards and potential failure modes and corrective actions health safety and environmental considerations during the manufacturing assembly installation and testingINTECSEA will lead the reliability and HS aspects while PLOCAN will lead the environmental aspectsIt is the final deliverable of the tasks 61 Hazard Reliability Aspects task 62 HS aspects and Task 63 environmental aspects Websites, patent fillings, videos etc. (3) Project videos A video will be produced to present the final project results to the interested public In M12 WAVEC will produce a first video introducing the technology goals challenges and deliverablesRefers to task 85 End of Project workshop Engagement event with target stakeholders summarising and profiling the PivotBuoy project The final report will also summarise the general outcomes of the Stakeholder consultation meetingsRefers to task 84 Project website Launch of the project’s website which will be the central communication tool during the project. Refers to task 8.2. Other (2) Techno-economic model This deliverable will include a report describing the techno-economic model which will be built for the assessment of PivotBuoy concept. Refers to task 7.1 Identification of failure modes and initial reliability, Health & Safety and Environmental Assessment of the PivotBuoy System A preliminary report with the initial Hazard Idenfication (HAZID) and potential failure modes. It will also include initial Health & Safety and environmental considerations to make sure this important aspects are considered early in the design process. INTECSEA will lead the reliability and H&S aspects while PLOCAN will lead the environmental aspects. It is the initial deliverable of the tasks 6.1 (Hazard & Reliability Aspects), task 6.2 (H&S aspects) and Task 6.3 (environmental aspects). An intermediate report will be issued in M15, prior to the assembly and installation to update the initial assessment. Publications Conference proceedings (13) Next steps for the PivotBuoy proven concept to reduce the LCoE of Floating Offshore Wind Author(s): Carlos Casanovas, CTO, X1 Wind Alex Raventos, XEO, X1 Wind María Verges, Systems Engineering Manager, X1 Wind Guillermo García, Offshore Engineer, X1 Wind Published in: 2021 Publisher: Floating Offshore Wind Turbines DOI: 10.5281/zenodo.7944295 How can an innovative single point mooring system reduce the LCOE of Floating Offshore Wind? A showcase of recent outcomes from the PivotBuoy project (for UK) Author(s): Joao Neves, Strategy & BD Director, X1 Wind Published in: 2022 Publisher: Floating Offshore Wind DOI: 10.5281/zenodo.7945149 PivotBuoy®: An advanced system for cost-effective and reliable mooring, connection, installation and operation of floating wind Author(s): Alex Raventos, CEO & Co-founder, X1 Wind Published in: 2019 Publisher: Wind Europe 2019 2 - 4 April, Bilbao How can an innovative single point mooring system reduce the LCoE of Floating Offshore Wind? A showcase of recent outcomes from the PivotBuoy project Author(s): Carlos Casanovas, CTO, X1 Wind Alex Raventos, XEO, X1 Wind Published in: 2021 Publisher: Jornadas Técnicas ENERMAR DOI: 10.5281/zenodo.7944361 Proyecto PIVOTBUOY: demostración de un sistema avanzado para la reducción de coste de la eólica en aguas profundas Author(s): Carlos Casanovas, CTO, X1 Wind Alex Raventos, XEO, X1 Wind María Verges, Systems Engineering Manager, X1 Wind Published in: 2019 Publisher: Jornadas Técnicas ENERMAR DOI: 10.5281/zenodo.7941892 Development of an innovative Single Point Mooring System to reduce the LCoE Author(s): Carlos Casanovas, CTO, X1 Wind Alex Raventos, XEO, X1 Wind María Verges, Systems Engineering Manager, X1 Wind Published in: 2020 Publisher: Floating Offshore Wind Turbines DOI: 10.5281/zenodo.7944248 A case Study of a Single Point Mooring system with a TLP Author(s): Carlos Casanovas, CTO, X1 Wind Published in: 2023 Publisher: Floating Offshore Wind Turbines DOI: 10.5281/zenodo.7944545 Preliminary assessment of yaw alignment on a single point moored downwind floating platform Author(s): Albert M. Urbán, DTU Laura Voltà, DTU W. H. Lio, DTU Rocio Torres, X1 Wind Published in: 2021 Publisher: IOP Publishing DOI: 10.1088/1742-6596/2018/1/012043 A weathervanning solution to decrease the LCOE of floating offshore wind Author(s): Carlos Casanovas, CTO, X1 Wind Published in: 2022 Publisher: WindEurope DOI: 10.5281/zenodo.7944497 How can an innovative single point mooring system reduce the LCOE of Floating Offshore Wind? A showcase of recent outcomes from the PivotBuoy project (for USA) Author(s): Joao Neves, Strategy & BD Director, X1 Wind Published in: 2022 Publisher: Floating Wind Solutions DOI: 10.5281/zenodo.7944522 PivotBuoy: Single Point Mooring wind turbine floating platform numerical modelling and verification Author(s): Albert Meseguer, DTU Carlos Casanovas, X1 Wind Christos Galinos, DTU Rocio Torres, X1 Wind Katherine Dykes, DTU Published in: 2019 Publisher: Wind Europe 2019 26 - 28 November, Copenhagen Development of a Second Generation Floating Platform for Offshore Wind Author(s): Carlos Casanovas, CTO, X1 Wind Alex Raventos, CEO, X1 Wind María Verges, Systems Engineering Manager, X1 Wind Rocío Torres, Dynamic Analysis Engineer, X1 Wind Published in: 2019 Publisher: Floating Offshore Wind Turbines DOI: 10.5281/zenodo.7945103 Development of a Cost-effective and Reliable Mooring System for Floating Offshore Wind Author(s): Carlos Casanovas, CTO, X1 Wind Alex Raventos, XEO, X1 Wind Hedy Mahmoudi, BD Analyst, X1 Wind Rocío Torres, Dynamic Analysis Engineer, X1 Wind Published in: 2021 Publisher: WindEurope DOI: 10.5281/zenodo.7944245 Intellectual Property Rights Patent (1) FLOATING STRUCTURE FOR OFFSHORE WIND TURBINE Application/Publication number: 18 746288 Date: 2018-06-19 Applicant(s): EXPONENTIAL RENEWABLES SL Trademark (1) PivotBuoy Application/Publication number: M 3730903 Date: 2018-08-03 Applicant(s): EXPONENTIAL RENEWABLES SL Searching for OpenAIRE data... 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