Wave drift forces on two ships in close proximity

Author

Kashiwagi, Masashi

Author_Institution

Res. Inst. for Appl. Mech., Kyushu Univ., Fukuoka

Volume

1

fYear

2004

fDate

9-12 Nov. 2004

Firstpage

578

Lastpage

584

Abstract

Numerical calculation methods are studied for evaluating the wave drift forces and moments on two ships located in close proximity. Hydrodynamic interactions are taken into account by solving the integral equation for the first-order velocity potentials on the whole wetted surface of both ships with a higher-order boundary-element method. The second-order steady forces on each ship are computed by the near-field method and a new far-field method applying the momentum-conservation principle in a fluid region encompassing only either ship. Good numerical accuracy is confirmed by computations for two identical ellipsoids. Computed results are also compared with measured ones for the side-by-side arrangement of a modified Wigley model and a rectangular barge model, and good agreement is found

Keywords

boundary-elements methods; hydrodynamics; integral equations; ocean waves; oceanographic techniques; ships; far-field method; first-order velocity potential; higher-order boundary-element method; hydrodynamic interaction; identical ellipsoid; integral equation; modified Wigley model; momentum-conservation principle; near-field method; numerical calculation method; rectangular barge model; second-order steady force; ship moments; wave drift force; Boats; Boundary element methods; Ellipsoids; Force measurement; Geometry; Hydrodynamics; Integral equations; Liquefied natural gas; Marine vehicles; Performance evaluation;

fLanguage

English

Publisher

ieee

Conference_Titel

OCEANS '04. MTTS/IEEE TECHNO-OCEAN '04

Conference_Location

Kobe

Print_ISBN

0-7803-8669-8

Type

conf

DOI

10.1109/OCEANS.2004.1402979

Filename

1402979