Coupled motion analysis and riser design of offshore floating installations
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| Course code: | SE-18 Coupled motion analysis and riser design of offshore floating installations |
| Duration: | 3 days |
| Dates: | On request |
| Venue: | On request |
| Course fee: | Upon enquiry |
Description
This 3 day course introduces the participants to the DeepC tool for carrying out both coupled floater motion analysis of individual lines in time domain. Modelling of the slender structure, set-up and execution of the analysis, as well as postprocessing the analysis results will be covered.
Learning objectives
The following topics will be covered:
- Concept modelling of riser/mooring system and vessels
- Environmental load modelling
- Coupled analysis, set up and execution
- The Seamless interaction with HydroD, Simo, Riflex
- Static configuration of vessel/mooring system
- Post processing of time series results
- Fatigue analysis of lines
- ULS code checking of steel risers
Target group
Structural engineers/naval architects involved in design or verification of floating offshore installations and the interaction with its risers and moorings.
| Prerequisite It is required that the participants are familiar with hydrodynamic analysis, riser design and non-linear analysis. No previous experience in use of Sesam is mandatory, but it is beneficial to have knowledge of HydroD equivalent to SE-06 Hydrodynamic analysis of offshore floaters - frequency domain. |