Domains of parametric roll amplification for different hull forms

Claudio A. Rodríguez; Marcelo A.S. Neves

doi:10.1007/978-1-4614-1043-0_6

Domains of parametric roll amplification for different hull forms

Claudio A. Rodríguez^*, Marcelo A.S. Neves

^*Corresponding author for this work

Naval Architecture, Ocean And Marine Engineering

Research output: Chapter in Book/Report/Conference proceeding › Chapter

5 Citations (Scopus)

Abstract

A new 6-DOF nonlinear mathematical model based on Taylor-series expansions with coupling terms defined up to the third-order is introduced and validatedl for head seas parametric rolling for the case of a fishing vessel and a container vessel. Additionally, a large and deep drafted cylindrical SPAR platform is also simulated. The nonlinear algorithm is systematically simulated for different wave conditions. Parametric amplification domains (PADs) are thus obtained for the three hulls. On a comparative basis some of their main characteristics are then examined: influence of coupling, relevance of third-order coupling terms, impact of roll/roll nonlinearities, influence of wave amplitude, and initial conditions. The main differences in the PADs for the three distinct floating vessels are then interpreted and aspects of interest for the modeling and simulation of different hull forms are discussed.

Original language	English
Title of host publication	Parametric Resonance in Dynamical Systems
Editors	Thor I. Fossen, Henk Nijmeijer
Place of Publication	New York, NY
Publisher	Springer New York
Pages	107-127
Number of pages	21
ISBN (Electronic)	9781461410430
ISBN (Print)	9781461410423
DOIs	https://doi.org/10.1007/978-1-4614-1043-0_6
Publication status	Published - 1 Jan 2012

Keywords

parametric roll amplification
wave amplitude
container ship
hull form
fishing vessel
parametric rolling
nonlinear mathematical model

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10.1007/978-1-4614-1043-0_6

Cite this

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abstract = "A new 6-DOF nonlinear mathematical model based on Taylor-series expansions with coupling terms defined up to the third-order is introduced and validatedl for head seas parametric rolling for the case of a fishing vessel and a container vessel. Additionally, a large and deep drafted cylindrical SPAR platform is also simulated. The nonlinear algorithm is systematically simulated for different wave conditions. Parametric amplification domains (PADs) are thus obtained for the three hulls. On a comparative basis some of their main characteristics are then examined: influence of coupling, relevance of third-order coupling terms, impact of roll/roll nonlinearities, influence of wave amplitude, and initial conditions. The main differences in the PADs for the three distinct floating vessels are then interpreted and aspects of interest for the modeling and simulation of different hull forms are discussed.",

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AB - A new 6-DOF nonlinear mathematical model based on Taylor-series expansions with coupling terms defined up to the third-order is introduced and validatedl for head seas parametric rolling for the case of a fishing vessel and a container vessel. Additionally, a large and deep drafted cylindrical SPAR platform is also simulated. The nonlinear algorithm is systematically simulated for different wave conditions. Parametric amplification domains (PADs) are thus obtained for the three hulls. On a comparative basis some of their main characteristics are then examined: influence of coupling, relevance of third-order coupling terms, impact of roll/roll nonlinearities, influence of wave amplitude, and initial conditions. The main differences in the PADs for the three distinct floating vessels are then interpreted and aspects of interest for the modeling and simulation of different hull forms are discussed.

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KW - wave amplitude

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KW - hull form

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Domains of parametric roll amplification for different hull forms

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Keywords

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