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Methodology for the simulation of a ship's damage stability and ultimate strength conditions following a collision

Artjoms Kuznecovs, Martin Schreuder, Jonas W. Ringsberg

2021Marine Structures22 citationsDOIOpen Access PDF

Abstract

This paper presents a methodology called SHARC developed for the simulation and analysis of a ship's damage stability and ULS conditions following a collision. SHARC combines three types of methods: advanced nonlinear finite element simulations that simulate the collision scenario, a dynamic damage stability simulation tool called SIMCAP, and a modified Smith method for the ULS analysis of a collision-damaged ship structure. The novelty of the presented methodology is that it can be used for real-time simulations to study the ingress of water through the damage opening of a struck vessel and how it affects the ship's stability, structural integrity (ULS) and survival capability against, e.g., capsizing. The results for an intact and a damaged oil tanker under noncorroded and corroded structural conditions and various sea states are presented to demonstrate the features of SHARC.

Topics & Concepts

CollisionFinite element methodStability (learning theory)Structural engineeringNonlinear systemStructural integrityEngineeringMarine engineeringComputer simulationComputer scienceSimulationComputer securityQuantum mechanicsMachine learningPhysicsStructural Integrity and Reliability AnalysisFluid Dynamics Simulations and InteractionsShip Hydrodynamics and Maneuverability
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