On the Effect of Hull Girder Flexibility on the Vertical Wave Bending Moment for Ultra Large Container Vessels

Currently, a number of very large container ships are being built and more are on order, and some concerns have been expressed about the importance of the reduced hull girder stiffness to the wave-induced loads. The main concern is related to the fatigue life, but also a possible increase in the glo...

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Main Authors: Andersen, Ingrid Marie Vincent, Jensen, Jørgen Juncher
Format: Article in Journal/Newspaper
Language:English
Published: American Society of Mechanical Engineers 2012
Subjects:
Arctic
Online Access:https://orbit.dtu.dk/en/publications/77603071-ad0e-49fb-9137-29a081e37066
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spelling ftdtupubl:oai:pure.atira.dk:publications/77603071-ad0e-49fb-9137-29a081e37066 2023-07-23T04:16:18+02:00 On the Effect of Hull Girder Flexibility on the Vertical Wave Bending Moment for Ultra Large Container Vessels Andersen, Ingrid Marie Vincent Jensen, Jørgen Juncher 2012 https://orbit.dtu.dk/en/publications/77603071-ad0e-49fb-9137-29a081e37066 eng eng American Society of Mechanical Engineers info:eu-repo/semantics/closedAccess Andersen , I M V & Jensen , J J 2012 , On the Effect of Hull Girder Flexibility on the Vertical Wave Bending Moment for Ultra Large Container Vessels . in Proceedings of the ASME 2012 31st International Conference on Ocean, Offshore and Arctic Engineering . American Society of Mechanical Engineers , pp. Paper OMAE2012-83043 , 31st ASME International Conference on Ocean, Offshore and Arctic Engineering , Rio de Janeiro , Brazil , 01/07/2012 . contributionToPeriodical 2012 ftdtupubl 2023-07-05T22:58:09Z Currently, a number of very large container ships are being built and more are on order, and some concerns have been expressed about the importance of the reduced hull girder stiffness to the wave-induced loads. The main concern is related to the fatigue life, but also a possible increase in the global hull girder loads as consequence of the increased hull flexibility must be considered. This is especially so as the rules of the classification societies do not explicitly account for the effect of hull flexibility on the global loads. In the present paper an analysis has been carried out for the 9,400 TEU container ship used as case-ship in the EU project TULCS (Tools for Ultra Large Container Ships). A non-linear time-domain strip theory is used for the hydrodynamic analysis of the vertical bending moment amidships in sagging and hogging conditions for a flexible and a rigid modelling of the ship. The theory takes into account non-linear radiation forces (memory effects) through the use of a set of higher order differential equations. The non-linear hydrostatic restoring forces and non-linear Froude-Krylov forces are determined accurately at the instantaneous position of the ship in the waves. Slamming forces are determined by a standard momentum formulation. The hull flexibility is modelled as a nonprismatic Timoshenko beam. Generally, good agreement with experimental results and more accurate numerical predictions has previously been obtained in a number of studies. The statistical analysis is done using the First Order Reliability Method (FORM) supplemented with Monte Carlo simulations. Furthermore, strip-theory calculations are compared to model tests in regular waves of different wave lengths using a segmented, flexible model of the case-ship and good agreement is obtained for the longest of the waves. For the shorter waves the agreement is less good. The discrepancy in the amplitudes of the bending moment can most probably be explained by an underestimation on the effect of momentum slamming in the ... Article in Journal/Newspaper Arctic Technical University of Denmark: DTU Orbit
institution Open Polar
collection Technical University of Denmark: DTU Orbit
op_collection_id ftdtupubl
language English
description Currently, a number of very large container ships are being built and more are on order, and some concerns have been expressed about the importance of the reduced hull girder stiffness to the wave-induced loads. The main concern is related to the fatigue life, but also a possible increase in the global hull girder loads as consequence of the increased hull flexibility must be considered. This is especially so as the rules of the classification societies do not explicitly account for the effect of hull flexibility on the global loads. In the present paper an analysis has been carried out for the 9,400 TEU container ship used as case-ship in the EU project TULCS (Tools for Ultra Large Container Ships). A non-linear time-domain strip theory is used for the hydrodynamic analysis of the vertical bending moment amidships in sagging and hogging conditions for a flexible and a rigid modelling of the ship. The theory takes into account non-linear radiation forces (memory effects) through the use of a set of higher order differential equations. The non-linear hydrostatic restoring forces and non-linear Froude-Krylov forces are determined accurately at the instantaneous position of the ship in the waves. Slamming forces are determined by a standard momentum formulation. The hull flexibility is modelled as a nonprismatic Timoshenko beam. Generally, good agreement with experimental results and more accurate numerical predictions has previously been obtained in a number of studies. The statistical analysis is done using the First Order Reliability Method (FORM) supplemented with Monte Carlo simulations. Furthermore, strip-theory calculations are compared to model tests in regular waves of different wave lengths using a segmented, flexible model of the case-ship and good agreement is obtained for the longest of the waves. For the shorter waves the agreement is less good. The discrepancy in the amplitudes of the bending moment can most probably be explained by an underestimation on the effect of momentum slamming in the ...
format Article in Journal/Newspaper
author Andersen, Ingrid Marie Vincent
Jensen, Jørgen Juncher
spellingShingle Andersen, Ingrid Marie Vincent
Jensen, Jørgen Juncher
On the Effect of Hull Girder Flexibility on the Vertical Wave Bending Moment for Ultra Large Container Vessels
author_facet Andersen, Ingrid Marie Vincent
Jensen, Jørgen Juncher
author_sort Andersen, Ingrid Marie Vincent
title On the Effect of Hull Girder Flexibility on the Vertical Wave Bending Moment for Ultra Large Container Vessels
title_short On the Effect of Hull Girder Flexibility on the Vertical Wave Bending Moment for Ultra Large Container Vessels
title_full On the Effect of Hull Girder Flexibility on the Vertical Wave Bending Moment for Ultra Large Container Vessels
title_fullStr On the Effect of Hull Girder Flexibility on the Vertical Wave Bending Moment for Ultra Large Container Vessels
title_full_unstemmed On the Effect of Hull Girder Flexibility on the Vertical Wave Bending Moment for Ultra Large Container Vessels
title_sort on the effect of hull girder flexibility on the vertical wave bending moment for ultra large container vessels
publisher American Society of Mechanical Engineers
publishDate 2012
url https://orbit.dtu.dk/en/publications/77603071-ad0e-49fb-9137-29a081e37066
genre Arctic
genre_facet Arctic
op_source Andersen , I M V & Jensen , J J 2012 , On the Effect of Hull Girder Flexibility on the Vertical Wave Bending Moment for Ultra Large Container Vessels . in Proceedings of the ASME 2012 31st International Conference on Ocean, Offshore and Arctic Engineering . American Society of Mechanical Engineers , pp. Paper OMAE2012-83043 , 31st ASME International Conference on Ocean, Offshore and Arctic Engineering , Rio de Janeiro , Brazil , 01/07/2012 .
op_rights info:eu-repo/semantics/closedAccess
_version_ 1772177617892409344

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