Number of items: 3.
Feasibility of a dynamically stable rock armour layer scour protection for offshore wind farms.
De Schoesitter, P.and Audenaert, S. and Baelus , L. and Bolle , A. and Brown, A. and Das Neves , L. and Ferradosa , T. and Haerens, P. and Pinto , F. and Troch, P. and Whitehouse, R.J.S.
In: OMAE 2014, 8-13 June 2014, San Francisco, . (2014)
Large-Scale Experiments to Improve Monopile Scour Protection Design Adapted to Climate Change - The PROTEUS Project.
Arboleda Chavez, C.E.and Stratigaki, V. and Wu, M. and Troch, P. and Schendel, A. and Welzel, M. and Villanueva, R. and Schlurmann, T. and De Vos, L. and Kisacik, D. and Taveira Pinto, F. and Fazeres-Ferradosa, T. and Rosa Santos, P. and Baelus, L. and Szengel, V. and Bolle, A. and Whitehouse, R.J.S. and Todd, D.
Energies, 12 (9). (2019)
Optimising scour protection stability at offshore foundations.
Whitehouse, R.J.S.and Brown, A. and Audenaert, S. and Bolle, A. and de Schoesitter, P. and Haerens, P. and Baelus, L. and Troch, P. and das Neves, L. and Ferradosa, T. and Pinto, P.
In: ICSE 2014 (7th International Conference on Scour and Erosion), 2-4 December 2014, Perth, Western Australia. (2014)