Redirigiendo al acceso original de articulo en 16 segundos...
ARTÍCULO
TITULO

Two-Dimensional Wave Interaction with a Rigid Body Floating near the Marginal Ice Zone

Bingbing Wan    
Yuyun Shi and Zhifu Li    

Resumen

The interaction problem of waves with a body floating near the marginal ice zone is studied, where the marginal ice zone is modeled as an array of multiple uniformly sized floating ice sheets. The linear velocity potential theory is applied for fluid flow, and the thin elastic plate mode is utilized to describe the ice sheet deflection. A hybrid method is used to solve the disturbed velocity potential; i.e., around the floating body, a boundary integral equation is established, while in the domain covered by ice sheets, the velocity potential is expanded into an eigenfunction series, and in the far-field with a free surface, a similar eigenfunction expansion is used to satisfy the radiation condition. The boundary integral equation and the coefficients of the eigenfunction expansions are solved together based on the continuous conditions of pressure and velocity on the interface between the sub-domains. Extensive results for the equivalent Young?s modulus of the ice sheet array and hydrodynamic force on the body are provided, and the effect of individual ice sheet length as well as wave parameters are investigated in detail.

 Artículos similares

       
 
Liang Sun, Zewang Yang, Mingsheng Chen and Fen Li    
To investigate the overtopping and slamming phenomena that occur in the interactions between waves and oscillating surge wave energy converters (OSWECs), a two-dimensional numerical wave flume was established using computational fluid dynamics (CFD) soft... ver más

 
Wenbo Pan, Meng He and Cheng Cui    
The dynamic response characteristics of a two-dimensional submerged floating tunnel (SFT) under random and freak waves were investigated in the present study. The results demonstrate that (1) the dynamic responses of the SFT under the freak wave are sign... ver más

 
Wenbo Pan, Cheng Cui and Meng He    
A freak wave is a spike in a random wave series and hence the local characteristics in the time-domain are of key importance. When freak waves act on moored floating structures, the dynamic responses of the structures in the time and frequency domains ch... ver más

 
Dianyong Liu, Chen Liang and Xiao Liang    
The results of laboratory experiments and numerical simulations were performed to investigate the interactions between the weakly three-dimensional waves in an ?X? configuration, which has a 16-degree approaching angle. In addition, another oblique two-d... ver más

 
Heng Liu and Veronica Eliasson    
Geometrical shock dynamics (GSD) is a model capable of efficiently predicting the position, shape, and strength of a shock wave. Compared to the traditional Euler method that solves the inviscid Euler equations, GSD is a reduced-order model derived from ... ver más
Revista: Aerospace