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Results of an international benchmark study on numerical simulation of flooding and motions of a damaged ropax ship

Pekka Ruponen, Petri Valanto, Maria Acanfora, Hendrik Dankowski, Gyeong Joong Lee, Francesco Mauro, Alistair Murphy, Gennaro Rosano, Riaan van ‘t Veer

2022Applied Ocean Research41 citationsDOIOpen Access PDF

Abstract

Survivability of damaged ships, especially ro-ro/passenger (ropax) vessels, is of paramount interest. Nowadays, time-domain simulation of flooding and motions of damaged ships are more frequently performed to obtain a more realistic overview of the actual survivability in case of a flooding accident. An international benchmark study on simulation of flooding and motions of damaged ropax vessels was conducted within the EU Horizon 2020 project FLARE, using new dedicated model tests as a reference. The test cases include transient flooding in both calm water and in irregular beam seas, as well as gradual flooding and capsizing in beam seas. The studied damage case is a two-compartment collision damage, and the studied intact metacentric height values were lower than the statutory requirements to achieve also capsize cases. Numerical results were carefully compared against measurement data from the model tests. In transient flooding cases the capsize conditions were generally detected well by most codes. However, much variation was observed in the internal flooding and capsize mechanisms. For gradual flooding in beam seas, the results for capsize rate and time-to-capsize were characterized by significant variability among the codes. Results indicate that more research is needed to further improve the time-domain flooding simulation methods to correctly capture both transient flooding phenomena and motions of damaged ship in high waves.

Topics & Concepts

Flooding (psychology)Ship motionsComputer simulationTransient (computer programming)CollisionMarine engineeringTime domainEngineeringEnvironmental scienceSimulationComputer scienceComputer visionComputer securityHullOperating systemPsychologyPsychotherapistFluid Dynamics Simulations and InteractionsShip Hydrodynamics and ManeuverabilityStructural Integrity and Reliability Analysis