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This presentation was given on Tuesday, June 16th at the VII International Conference on Computational Methods in Marine Engineering (Marine 2015).
 
This presentation was given on Tuesday, June 16th at the VII International Conference on Computational Methods in Marine Engineering (Marine 2015).
  
[[File:Draft_García-Espinosa_745184031_8253_marine_2015_mooring.png|link=Draft_García-Espinosa_745184031_1770_MARINE_2015_Mooring.pptx]]
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[[File:Draft_García-Espinosa_745184031_8253_marine_2015_mooring.png|link=File:Draft_García-Espinosa_745184031_1770_MARINE_2015_Mooring.pptx]]
  
 
[[Media:Draft_García-Espinosa_745184031_1770_MARINE_2015_Mooring.pptx|marine_2015_mooring.png]]
 
[[Media:Draft_García-Espinosa_745184031_1770_MARINE_2015_Mooring.pptx|marine_2015_mooring.png]]

Revision as of 22:19, 5 March 2018

ABSTRACT

The complexity of the dynamic response of offshore marine structures requires advanced simulations tools for the accurate assessment of the seakeeping behaviour of these devices. This presentation introduces a new time-domain model for solving the dynamics of moored floating marine devices, specifically offshore wind turbines, subjected to non-linear environmental loads. Different application examples are presented,including a GVA, and the OC3 and OC4 platforms.

PRESENTATION

This presentation was given on Tuesday, June 16th at the VII International Conference on Computational Methods in Marine Engineering (Marine 2015).

Draft García-Espinosa 745184031 8253 marine 2015 mooring.png

marine_2015_mooring.png

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Published on 04/03/18
Submitted on 04/03/18

Licence: CC BY-NC-SA license

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