Federated Digital Twins for Wind-Offshore

Objetivo

The objective of DTWO is to develop a federated digital twin (DT) integrating existing simulation assets and real-time data to transform them into virtual power plants delivering up-to-date energy system powered by offshore wind.

The core innovation of DTWO is to build the first-of-kind functional DT that does not require users to share commercially valuable data centrally, but instead offers them a customisable platform where users can spin up bespoke DTs drawing from a range of validated models and datasets to provide better decision support for complex investments decisions.

The fast offshore wind energy (OWE) development challenges our knowledge and tools, which were developed and tested for onshore conditions, smaller wind turbines (WT) and wind farms (WF), and energy system over smaller regions. It urges us to revisit theories and improve models of the OWE production system.

DTWO engages with existing EU digital initiatives, combines advanced research institutes and most influential industry partners, to update theories and improve modeling systems, with feedback loops between virtual and real-world systems. This includes integrating DestinE, considering weather with air-sea interaction in the presence of WF wakes, implementing full-scale turbulence models suitable for WTs taller than 200 meters, for both normal and extreme weather conditions. This feeds into calculation for siting conditions and energy yield, turbine health state and reliability predictions, grid interconnectivity and energy system, for both bottom-fixed and floating WTs and WFs of both historical and future scenarios. DTWO builds a software architecture with data and tool hubs integrating modules: Earth, Wakes, Siting, Turbines and Grids). DT modules and components are tested with use cases defined by Ørsted, Simens Gamesa Renewable Energy, Enfor, Vestas and TSO.

DTWO allows coordinated assessment of energy yield, WT performances, sector-coupled energy market suitable to large pan-Europe system.

Ámbito científico

• natural sciencescomputer and information sciencessoftware
• natural sciencesphysical sciencesclassical mechanicsfluid mechanicsfluid dynamics
• engineering and technologyenvironmental engineeringenergy and fuelsrenewable energywind power

Palabras clave

• Digital Twin
• Destination Earth
• Weather to Energy
• Offshore Wind Farm Wakes
• Siting
• Energy Yield
• Grid interconnection
• Energy Integration
• Structural Health
• Conditional Monitoring
• Extremes

Programa(s)

• HORIZON.2.5 - Climate, Energy and Mobility Main Programme
• HORIZON.2.5.2 - Energy Supply

Tema(s)

• HORIZON-CL5-2023-D3-02-14 - Digital twin for forecasting of power production to wind energy demand

Convocatoria de propuestas

HORIZON-CL5-2023-D3-02

Régimen de financiación

Coordinador

Participantes (12)