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2019 | OriginalPaper | Chapter

37. 26th ITTC Parametric Roll Benchmark Study

Author : Arthur M. Reed

Published in: Contemporary Ideas on Ship Stability

Publisher: Springer International Publishing

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Abstract

The 26th ITTC Specialist Committee on Stability in Waves was assigned the task of conducting a benchmark of numerical simulation methods for the prediction of the parametric rolling of ships in head seas. The vessel chosen for the benchmark and the organizations which participated in the benchmark and their simulation tools are described. The results of the benchmark are presented.

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previous chapter Deterministic Validation of a Time Domain Panel Code for Parametric Roll

next chapter An Approach to the Validation of Ship Flooding Simulation Models

Each Session of the ITTC lasts three years, with four meetings of each committee, culminating with a general meeting in September of the last year of the Session.

The methodologies for performing the statistical analysis have been advanced since this study was performed, See Belenky et al. (2015) for more refined analysis techniques.

Belenky, V., V. Pipiras, and K. Weems (2015) “Statistical Uncertainty of Ship Motion Data.” Proc. 12th Int’l. Conf. Stability of Ships and Ocean Vehicles (STAB’15), pp. 891–902, Glasgow, UK.

Belenky, V. & K. M. Weems (2012) “Probabilistic Properties of Parametric Roll.” Chapter 6, In: Parametric Resonance in Dynamical Systems, Fossen, T. I. & H. Nijmeijer, eds., Springer, pp. 129–146.

Belenky, V., K. M. Weems & W.-M. Lin (2007) “A Probabilistic Procedure for Evaluating the Dynamic Stability and Capsizing of Naval Vessels, Phase 1: Technology Demonstration.” SAIC Report ASTD 08-017, 211 p.

Brunswig, J., R. Pereira & D. Kim (2006) “Validation of Parametric Roll Motion Predictions for a Modern Containership Design.” Proc. 9th Int’l Conf. Stability of Ships & Ocean Vehicles, Rio de Janeiro, Brazil, 14 p.

de Kat, J. O. & J. R. Paulling (2001) “Prediction of extreme motions and capsizing of ships and offshore vehicles.” Proc. 20th Int’l Conf. Offshore Mechanics & Arctic Engin., Rio de Janeiro, Brazil, 12 p.

Hashimoto H. & N. Umeda (2010) “A study on Quantitative Prediction of Parametric Roll in Regular Waves.” Proc. 11th Int’l Ship Stability Workshop, Wageningen, The Netherlands, 7 p.

Hashimoto H., N. Umeda & Y. Sogawa (2011) “Prediction of Parametric Rolling in Irregular Head Waves.” Proc. 12th Int’l Ship Stability Workshop, Washington, DC, USA.

Hooft, J. P. (1987) “Mathematical description of the manoeuvrability of high-speed surface ships.” MARIN report No. 47583-1-MO.

ITTC (2005) “The Specialist Committee on Stability in Waves, Final Report and Recommendations to the 24th ITTC.” Proc. 24th ITTC, Vol. II, pp. 369–407, Edinburgh, UK.

Kim, K. H. & Y. Kim (2010a) “Comparative Study on Ship Hydrodynamics Based on Neumann-Kelvin and Double-Body Linearizations in Time-Domain Analysis.” Int’l J. Offshore & Polar Engin., Vol. 20, No 4, pp. 265–274.

Kim, K. H., Y. Kim & M. S. Kim (2009) “Numerical Analysis on Motion Responses of Adjacent Multiple Floating Bodies by Using Rankine Panel Method.” Int’l J. Offshore & Polar Engin., Vol 19, No 2.

Kim, T. & Y. Kim (2010b) “Multi-level Approach of Parametric Roll Analysis.” Proc. ITTC Workshop on Seakeeping, Seoul, Korea, 21 p.

Kim, T. & Y. Kim (2011) “Numerical Study on Difference-Frequency-Induced Parametric Roll Occurrence.” Int’l J. Offshore & Polar Engin., Vol. 21, No. 1, pp. 1–10.

Kröger, H. P. (1986) “Rollsimulation von Schiffen im Seegang.” Schiffstechnik, Vol. 33

Levadou M. & R. Van’t Veer (2006) “Parametric Roll and Ship Design.” Proc. 9th Int’l Conf. Stability of Ships & Ocean Vehicles, Rio de Janeiro, Brazil.

Lin, W.-M. & D. K. P. Yue (1990) “Numerical Solutions for Large-Amplitude Ship Motions in the Time-Domain.” Proc. 18th Symp. Naval Hydro., Ann Arbor, MI, USA, pp. 41–66.

Lin, W.-M., S. Zhang, K. Weems & D. Liut (2006) “Numerical Simulations of Ship Maneuvering in Waves.” Proc. 26th Symp. Naval Hydro., Rome, Italy.

MARIN (2005) “Parametric Roll Tests On C11 Post PANAMAX Container Vessel.” MARIN Report No. 17701-2-SMB, Vol. 1, 28 p.

MARIN (2009) “Parametric Roll Tests On C11 Post PANAMAX Container Vessel, Data Report.” MARIN Report No. 17701-2-SMB, Vol 2, 280 p.

Paulling, J. R. (2007) “On Parametric Rolling of Ships.” Proc. 10th Int’l Symp. Practical Design of Ships & Other Floating Structures, Houston, TX, USA, 9 p.

Petey, F. (1988) “Ermittlung der Kentersicherheit lecker Schiffe im Seegang aus Bewegungssimulationen.” Report Nr. 487, Institut für Schiffbau der Universität Hamburg

Reed, A. M. (2011) “26th ITTC Parametric Roll Benchmark Study.” Proc. 12th Int’l. Ship Stability Workshop, Washington, D.C, USA, pp. 195–204.

Shin, Y. S., V. L. Belenky, W.-M. Lin, K. M. Weems & A. H. Engle (2003) “Nonlinear Time Domain Simulation Technology for Seakeeping and Wave-Load Analysis for Modern Ship Design.” Trans. SNAME, Vol. 111, pp. 557–78.

Söding, H. (1982) “Leckstabilität im Seegang.” Report Nr. 429, Institut für Schiffbau der Universität Hamburg

Spanos, D. & A. Papanikolaou (2009a) “Benchmark Study on Numerical Simulation Methods for the Prediction of Parametric Roll of Ships in Waves.” Proc. 10th Int’l Conf. Stability of Ships & Ocean Vehicles, St. Petersburg, Russia, pp. 627–36.

Spanos, D. & A. Papanikolaou (2009b) “SAFEDOR International Benchmark Study on Numerical Simulation Methods for the Prediction of Parametric Rolling of Ships in Wave.” NTUA-SDL Report, Rev. 1.0, 60 p.

Spyrou, K. J. , N. Themelis & I. Tigkas (2004) “Benchmark Study of Numerical Codes for the Prediction of Intact Stability of Ships in Extreme Seas: Phase I.” Report of the Sub-Committee on Ship Stability in Waves to the 24th ITTC, 59 p.

Spyrou, K. J. , N. Themelis & I. Tigkas (2005) “Benchmark Study of Numerical Codes for the Prediction of Intact Stability of Ships in Extreme Seas: Results of ‘Phase II’.” Report of the Sub-Committee on Ship Stability in Waves to the 24th ITTC, 42 p.

Yen, T. G., D. A. Liut, S. Zhang, W.-M. Lin, & K. M. Weems (2008) “LAMP Simulation of Calm Water Maneuvers for a U. S. Navy Surface Combatant.” Proc. Workshop on Verification & Validation of Ship Maneuvering Simulation Methods, Copenhagen, Denmark.

Yen, T. G., S. Zhang, K. Weems & W.-M. Lin (2010) “Development and Validation of Numerical Simulations for Ship Maneuvering in Calm Water and in Waves.” Proc. 28th Symp. Naval Hydro., Pasadena, CA, USA.

Zhang, S., K. M. Weems & W.-M. Lin (2009) “Investigation of the Horizontal Drifting Effects on Ships with Forward Speed.” Proc. ASME 28th Int’l Conf. Ocean, Offshore & Arctic Engin., Honolulu, HI, USA.

Title: 26th ITTC Parametric Roll Benchmark Study
Author: Arthur M. Reed
Publisher: Springer International Publishing
Book: Contemporary Ideas on Ship Stability
Print ISBN: 978-3-030-00514-6

Electronic ISBN: 978-3-030-00516-0

Copyright Year: 2019
DOI: https://doi.org/10.1007/978-3-030-00516-0_37