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Consequence analyses of collision-damaged ships — damage stability, structural adequacy and oil spills

Artjoms Kuznecovs, Jonas W. Ringsberg, Anirudh Mallaya Ullal, Pavan Janardhana Bangera, Erland Johnson

2022Ships and Offshore Structures15 citationsDOIOpen Access PDF

Abstract

A ship collision accident may pose a threat to human lives, the environment and material assets. A damaged ship can suffer from the loss of ship stability, reduced global structural strength, and the loss of the integrity of internal tanks carrying polluting liquids. This study presents a methodology as a framework that can be used to analyze the related consequences of ship-ship collision events using simulations and evaluations. The methodology includes nonlinear finite element analyses of the collision event, a METOCEAN data analysis module, damage stability simulations, analyses of the damaged ship’s ultimate strength and structural integrity, oil spill drift simulations, and finally, an evaluation of the three abovementioned consequences. A case study with a chemical tanker subjected to collision demonstrates the methodology. The collision event was assumed to occur in the Kattegat area (between Sweden and Denmark) at a ship route intersection with high ship traffic density.

Topics & Concepts

CollisionMarine engineeringOil spillEvent (particle physics)Environmental scienceIntersection (aeronautics)Finite element methodStructural integrityEngineeringComputer scienceStructural engineeringTransport engineeringComputer securityEnvironmental engineeringQuantum mechanicsPhysicsStructural Integrity and Reliability AnalysisMaritime Transport Emissions and EfficiencyShip Hydrodynamics and Maneuverability
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