Prediction of roll motion using fully nonlinear potential flow and ikeda’s method

Alexandersson, Martin; Kjellberg, Martin; Mao, W.; Ringsberg, Jonas W

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Prediction of roll motion using fully nonlinear potential flow and ikeda’s method

Alexandersson, Martin

RISE Research Institutes of Sweden, Safety and Transport, Maritime department. Chalmers University of Technology, Sweden. (SSPA)ORCID iD: 0000-0002-9360-078x

Kjellberg, Martin

RISE Research Institutes of Sweden, Safety and Transport, Maritime department. (SSPA)ORCID iD: 0009-0009-0240-9268

Mao, W.

Chalmers University of Technology, Sweden.

Ringsberg, Jonas W

Chalmers University of Technology, Sweden.

2021 (English)In: Proceedings of the International Offshore and Polar Engineering Conference, International Society of Offshore and Polar Engineers , 2021, p. 1670-1679Conference paper, Published paper (Refereed)

Abstract [en]

Getting the best possible accuracy with the lowest possible computational cost is an important factor in the early design stage of ships. Potential flow-based analysis presents such a solution for seakeeping analyses. The accuracy of roll motion in potential flow is however not so good, due to the large influence from vicsous roll damping, which is missing in these calculations. This paper proposes a hybrid method, as a solution to this problem, where the viscous roll damping from Ikeda’s semi-empirical method is injected into an existing 3D unsteady fully nonlinear potential flow (FNPF) method. The hybrid method is investigated using roll decay tests with the KVLCC2 test case. This investigation shows that the accuracy of simulated roll motions is significantly improved and also shows good agreement with the corresponding roll decay model tests.

Place, publisher, year, edition, pages

International Society of Offshore and Polar Engineers , 2021. p. 1670-1679

Keywords [en]

Boundary element methods, Fully nonlinear potential flow (FNPF), Ikeda’s method, KVLCC2, Roll-damping, Roll-decay, Damping, Potential flow, Rolls (machine components), Computational costs, Early design stages, Flow-based analysis, Fully nonlinear potential flow, Hybrid method, Roll damping, Roll motions, Semi-empirical methods, Arctic engineering

National Category

Vehicle and Aerospace Engineering

Identifiers

URN: urn:nbn:se:ri:diva-57274Scopus ID: 2-s2.0-85115217531ISBN: 9781880653821 (print)OAI: oai:DiVA.org:ri-57274DiVA, id: diva2:1616611

Conference

31st International Ocean and Polar Engineering Conference, ISOPE 2021, 20 June 2021 through 25 June 2021

Note

Funding details: Trafikverket; Funding text 1: The authors would like to acknowledge Trafikverket (Swedish Transport Administration) and Lighthouse, swedish maritime competence centre (www.lighthouse.nu) for providing the resources to prepare this paper and also thank all personnel at SSPA that have been involved in the creation of the model test results: building the ship models and conducting the experiments.

Available from: 2021-12-03 Created: 2021-12-03 Last updated: 2025-02-14Bibliographically approved

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Alexandersson, Martin Kjellberg, Martin

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