Uwe Langbecker scite author profile

Commercial shipping of containerized goods involves certain risks for human safety and environment. In order to actively manage these risks, they must be identified, analyzed, modeled, and quantified. This requires a systematical analysis of design and operation of container vessels. Within the EU-funded research project SAFEDOR, a Formal Safety Assessment has been applied to establish the current safety level of generic container ships and to identify potential cost-effective risk control options. This paper describes a structured approach to develop the underlying high-level risk model. It is structured as risk contribution tree consisting of a series of fault trees and event trees for the major accident categories. Statistical analysis of casualty data is used to estimate the probability of occurrence. Finally, the summation over all individual risk contributions yields the current risk profile for the operation of container vessels is presented as FN-curve.

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Multi-objective optimization of oil tanker design

Papanikolaou

Zaraphonitis

Boulougouris

et al. 2010

J Mar Sci Technol

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Parametric optimization was applied to a double-hull AFRAMAX tanker design in order to reduce oil-outflow probability and increase cargo carrying capacity, and the results are presented here. A multi-criteria optimization procedure was set up in modeFrontier ® using the cargo volume, the mean oil-outflow parameter and the steel weight of the cargo block as the objective functions. Calculations are based on a parametric geometric model of the ship created in NAPA ®, and on a structural model created in POSEIDON ®. Integration of the above software packages leads to an automated optimization procedure that provides improved feedback to the designer regarding the trade-off between the various design parameters and optimization criteria involved. The results obtained suggest notable improvements in transport capacity and oil-outflow performance for known, well-established yard designs. The presented work derives from a joint industrial project between Germanischer Lloyd (GL) and the Ship Design Laboratory of the National Technical University of Athens (NTUA-SDL), which continues the work done and coordinated by NTUA-SDL within the SAFEDOR project on the same subject

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Neutral Product Models for Ship Hull Geometry and Their Use in Data Exchange

Nowacki

Langbecker

Rehling

1996

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Adoption of 3D Hull Maintenance Software in Ship Operation

Langbecker¹,

Cabos²

2011

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Uwe Langbecker

Exact computation of pattern probabilities in random sequences generated by Markov chains

A risk model for the operation of container vessels

Multi-objective optimization of oil tanker design

Neutral Product Models for Ship Hull Geometry and Their Use in Data Exchange

Adoption of 3D Hull Maintenance Software in Ship Operation

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