Industrial Doctoral Centre in Offshore Renewable Energy

IDCORE is an EPSRC funded doctoral training centre aiming to train fifty Engineering Doctorate (EngD) students over a nine year period. It is a collaborative partnership between The University of Edinburgh, University of Exeter, Strathclyde University, and the Scottish Association for Marine Science (SAMS). The IDCORE programme will train world-class industrially focussed research engineers who will, with the help of sponsoring companies, accelerate the deployment of offshore wind, wave and tidal-current technologies in order to meet the UK's ambitious offshore renewable energy targets.

https://www.idcore.ac.uk/

Country

United Kingdom

Marine Energy Documents Related to Industrial Doctoral Centre in Offshore Renewable Energy

Title	Author	Date Sort ascending	Type of Content	Technology	Collection Method	Engineering
Coupled CFD-MBD numerical modeling of a mechanically coupled WEC array	Li, X., Xiao, Q., Zhou, Y.	July 2022	Journal Article	Wave, Point Absorber	Lab Data, Modeling, Scale Device	Array Effects, Hydrodynamics, Power Take Off
Numerically Modelling the Spatial Distribution of Weather Windows: Improving the Site Selection Methodology for Floating Tidal Platforms	McDowell, J., Jeffcoate, P., Bruce, T.	September 2018	Conference Paper	Current, Tidal
Floating Tidal Energy Site Assessment Techniques for Coastal and Island Communities	Jeffcoate, P., McDowell, J., Hook, M.	September 2018	Conference Paper	Current, Tidal
New Mechanical Features for Time-Domain WEC Modelling in InWave	Ogden, D., Pascal, R., Combourieu, A.	June 2018	Conference Paper	Wave	Modeling	Performance, Structural
Advanced concrete materials for offshore floating structures	Ewart, L., Barltrop, N., Thies, P.	June 2018	Conference Paper	Wave	Modeling	Materials, Substructure
A model to map levelised cost of energy for wave energy projects	Frost, C. , Findlay, D., Macpherson, E.	February 2018	Journal Article	Wave	Modeling
Lessons Learned from 3 Years of Failure: Validating an FMEA with Historical Failure Data	Kenny, C., Findlay, D., Thies, P.	August 2017	Conference Paper	Wave, Attenuator	Field Data, Scale Device	Power Take Off, Structural
The power-capture of a nearshore, modular, flap-type wave energy converter in regular waves	Wilkinson, L., Whittaker, T., Thies, P.	June 2017	Journal Article	Wave, Oscillating Wave Surge Converter	Lab Data	Performance
Development of a Condition Monitoring System for an Articulated Wave Energy Converter	Kenny, C., Findlay, D.	September 2016	Conference Paper	Wave
Reliability and O&M sensitivity analysis as a consequence of site specific characteristics for wave energy converters	Gray, A., Dickens, B., Bruce, T.	September 2004	Journal Article	Wave, Attenuator