The proposed project is structured in five work packages (WP), with an overview outlined below:
Lead: Vengatesan Venugopal from the University of Edinburgh; Contribute: University of Exeter, University of Bath, Dalian University of Technology, Zhejiang University
This WP will summarise and compare the key environmental parameters for the engineering design of ORE structures to provide the required data for robust structural designs (WP2), a coupled aero-hydro-servo-elastic numerical model (WP3) and fundamental variables for the resilience valuation of ORE systems (WP4).
Lead: Dezhi Ning from the Dalian University of Technology; Contribute: University of Exeter, University of Edinburgh, Zhejiang University
This WP will assess innovative design solutions to enhance coupled response characteristics, providing a resilient design in operation and extreme conditions.
Lead: Jun Zang from the University of Bath; Contribute: University of Exeter, University of Edinburgh, Dalian University of Technology, Zhejiang University
The work proposed here will use the expertise within the consortium to advance and validate computational models.
Lead: Philipp Thies from the University of Exeter; Contribute: University of Edinburgh, University of Bath, Dalian University of Technology
This WP will assess the increased resilience of FOW systems if innovative load mitigating measures are integrated into the design.
Lars Johanning from the University of Exeter; Contribute: Dalian University of Technology, University of Edinburgh, University of Bath, Zhejiang University
The activities of this project will be directly build into a ‘Research Bridge’ using the outcomes to exchanging the knowledge into the other themes, whilst using the bridge to inform the activities within this project to enable a joined-up interdisciplinary and international programme of work.