Training

The Stability of Ship and Offshore Structures – Level 1 course covers intact and deterministic damaged stability topics. The software of reference used in the course is GHS (GeneralHydrostatics).

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Seakeeping is a vast subject, in this course it will be approached from an integrated-with-stability angle.   While seakeeping computations do not require stability per-se, an inteeegratead approach allows the use of the same model for stability analysis and seakeeping calculations and, more importantly, introduces the next generation Probabilistic Stability rule soon to come into effect.

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This course, intended for naval architects and ship designers, covers the preparation of a full probabilistic damaged stability analysis, as per SOLAS regulations. Cargo & passenger vessels are both addressed..

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Modelling the interactions of multiple vessels in a wide variety of configurations when latched together or resting on each other.

Applications include:
onboard load monitor for tug-barge units;
detailed simulation of loading and unloading floating objects by partially submerging the carrier;
complex salvage procedure modeling;
ice breaker simulation;
dry docking;
articulated floating structures.

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From basic hull design to parametric structural modelling, weight estimate, to FE-based structural analysis, particpants are taken through the different steps of the first ship design loop, in an integrated software workflow

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From FE model preparation and verification, to loading, hydrostatic equilibrium, to structural solution and limit-state evaluation.

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Hydrostatics, stability , strength and Seakeeping. This training workshop is intended for beginners and intermediate GHS users, but will be a very useful refresher for anyone using or working with GHS.

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