Marquez, L., Le Sourne, H., & Rigo, P. (October 2022). Mechanical model for the analysis of ship collisions against reinforced concrete floaters of offshore wind turbines. Ocean Engineering, 261, 111987. doi:10.1016/j.oceaneng.2022.111987 Peer Reviewed verified by ORBi |
Ladeira, I.* , Marquez, L.* , Echeverry Jaramillo, S., Le Sourne, H., & Rigo, P. (2022). Review of methods to assess the structural response of offshore wind turbines subjected to ship impacts. Ships and Offshore Structures, 1-20. doi:10.1080/17445302.2022.2072583 Peer Reviewed verified by ORBi * These authors have contributed equally to this work. |
Marquez, L., Le Sourne, H., & Rigo, P. (2021). Ship Collision Events Against Reinforced Concrete Offshore Structures. In J. Amdahl & C. Guedes Soares, Proceedings of the 8th International Conference on Marine Structures (MARSTRUCT 2021, Trondheim, Norway, 7-9 Jun 2021) (1st edition). CRC Press/Balkema. Peer reviewed |
Ladeira, I., Echeverry Jaramillo, S., Le Sourne, H., & Rigo, P. (2021). Assessment of the energy balance gap for ship-FOWT collision simulations with LS-DYNA/MCOL [Paper presentation]. 8th International Conference on Marine Structures Marstruct, Trondheim, Norway. |
Marquez, L., Rigo, P., & Le Sourne, H. (05 March 2020). Crashworthiness of concrete structures for floating offshore wind turbines [Poster presentation]. BERA PhD Seminar on Wind Energy, Ghent, Belgium. |
Echeverry Jaramillo, S., Marquez, L., Rigo, P., & Le Sourne, H. (05 March 2020). Numerical Crashworthiness Analysis of a Spar Floating Offshore Wind Turbine Impacted by a Ship (influencing parameters) [Poster presentation]. BERA PhD day, Ghent, Belgium. |
Echeverry Jaramillo, S., Marquez, L., Rigo, P., & Le Sourne, H. (2020). Numerical Crashworthiness Analysis of a Spar Floating Offshore Wind Turbine Impacted by a Ship. In C. Guedes Soares (Ed.), Developments in the collision and grounding of ships and offshore structures. CRC Press, 2019. Peer reviewed |
Pire, T., Hsieh, J.-R., Le Sourne, H., & Rigo, P. (2018). Quick assessment of the punching resistance of an offshore wind turbine jacket impacted by a ship. In J. K. Paik, S. Ehlers, ... J. Ringsberg, Proceedings of the 3rd International Conference on SHips and Offshore Structures ICSOS2018. Peer reviewed |
Pire, T., Le Sourne, H., Echeverry Jaramillo, S., & Rigo, P. (2018). Analytical formulations to assess the energy dissipated at the base of an offshore wind turbine jacket impacted by a ship. Marine Structures, 59, 192-218. doi:10.1016/j.marstruc.2018.02.002 Peer Reviewed verified by ORBi |
Pire, T., Le Sourne, H., & Rigo, P. (04 December 2017). Assessment of the deformation by punching and at the baseof an offshore wind turbine jacket impacted by a ship [Poster presentation]. BERA PhD Seminar on Wind Energy, Ghent, Belgium. |