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Preliminary communication

https://doi.org/10.7225/toms.v11.n01.012

Probabilistic Analysis Approach of Uncertainties in Fatigue Life Simulations of an Oil Tanker Vessel

Ozgur Ozguc ; Istanbul Technical University, Faculty of Naval Architecture and Ocean Engineering, Turkey


Full text: english pdf 1.326 Kb

page 156-168

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Abstract

Fatigue damage is known to occur more commonly in certain ship types and hull construction element categories. The significance of prospective fatigue damage is proportional to the number of potential damage points of the investigated type for the ship structure in question, as well as the consequences of such damage. The present study introduces an overview of different fatigue analysis methods and provides advice on the accuracy of different methods for different locations on a vessel and a ranking of the methods. A probabilistic analysis of hopper knuckle fatigue analysis is supported by example uncertainty calculations, using four different fatigue methods for the hopper knuckle of an oil tanker vessel. The calculation of bias and uncertainty is supported by creating input to PROBAN tool, where the uncertainty calculations are being performed. The calculations show that the resulting fatigue damage distributions vary significantly. The median (50%) varies between 0.7 and 1.1 for the four methods, where 1.0 is the assumed correct damage for the calculations. The most probable damage varies between 0.4 and 0.9 for the four methods.

Keywords

Probabilistic method, Uncertainty, Bias, Fatigue capacity, Tanker hull structure

Hrčak ID:

283839

URI

https://hrcak.srce.hr/283839

Publication date:

20.4.2022.

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