Grid convergence study in the resistance calculation of a trimaran

Kang Chen; De-bo Huang; Yun-bo Li

doi:10.1007/s11804-008-7065-1

Journal of Marine Science and Application ›› 2008, Vol. 7 ›› Issue (3) : 174 -178. DOI: 10.1007/s11804-008-7065-1

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Grid convergence study in the resistance calculation of a trimaran

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Abstract

As a new type of hull form, trimaran has remarkable excellent performances and has drawn more and more attention. When the viscous CFD technology now available is applied to the research of resistance performance of trimaran, the spatial discretization would usually result in the grid error and uncertainty, and thus the considerable discrepancy between the numerical results and the experimental data. In order to ascertain how much the grid would affect the calculation, the grid convergence should be studied. A mathematical trimaran was chosen as an example, with the commercial code CFX for the simulation, VOF for surface treatment, and the grid study was carried out based on two different turbulence models. It was concluded that carrying out grid study is helpful in estimating the grid error and uncertainty, and indicating the direction of improving the credibility of the numerical calculation, and, in addition to grid errors and uncertainties, the turbulence modeling errors and uncertainties contribute to the simulation errors.

Keywords

trimaran resistance / CFD technology / grid convergence study / grid errors and uncertainties

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Kang Chen, De-bo Huang, Yun-bo Li. Grid convergence study in the resistance calculation of a trimaran. Journal of Marine Science and Application, 2008, 7(3): 174-178 DOI:10.1007/s11804-008-7065-1

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[1]	Huang Debo., et al. Zhu D., Lu C., Zhou L., et al. Recent development of high speed and high performance displacement vessels[C]. Proceedings of the 7th National Congress on Hydrodynamics and 19th National Conference on Hydrodynamics, 2005, Beijing: China Ocean Press, 1-8

[2]	Wilcox D. C. Turbulence modeling for CFD[M]. 1994, La Canada, CA: DCW Industries Inc, 83-92

[3]	Anderson J. D. Computational fluid dynamics: the basics with applications[M]. 1995, Columbus: McGraw-Hill Inc, 225-264

[4]	Zhang Z., Zhao F., Li Baiqi. Application of k-ω turbulence model to computation of viscous flow field around a ship[J]. Journal of Ship Mechanics, 2003, 7(1): 33-37

[5]	Li Y., Chen K., Huang Debo. Viscous resistance calculation for a trimaran and the comparison between different calculation methods[J]. Journal of Hydrodynamics, 2005, 20(4): 452-457

[6]	Stern F., Wilson R. V., Coleman H. W., et al. Comprehensive approach to verification and validation of CFD simulations-Part1: methodology and procedures[J]. Journal of Fluids Engineering, 2001, 123(4): 793-802

[7]	Stern F., Wilson R. V., Shao Jun. Quantitative V&V of CFD simulations and certification of CFD codes[J]. International Journal for Numerical Methods in Fluids, 2005, 50(11): 1335-1355

[8]	Chen K., Huang Debo. A study of effects of gridding and turbulence models in CFD on ship resistance calculation[J]. Journal of Harbin Engineering University, 2006, 27(Suppl.2): 9-15