Numerical Simulation of Water Entry of Wedges in Waves Using A CIPBased Model  

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作  者:HU Zi-jun ZHAO Xi-zeng LI Meng-yu ZHAO Xin YAO Wen-wei SHAO Jie 

机构地区:[1]Zhejiang Institute of Hydraulic and Estuary,Hangzhou 310020,China [2]Ocean College,Zhejiang University,Zhoushan 316021,China

出  处:《China Ocean Engineering》2021年第1期48-60,共13页中国海洋工程(英文版)

基  金:supported by Foundation of Zhejiang Institute of Hydraulic and Estuary(Grant No.Haian A18003);the Science and Technology Plan Projects of Zhejiang water(Grant No.RB1803);Zhejiang Provincial Natural Science Foundation(Grant Nos.LQ19E090004 and LQ16E090004);the Science and Technology Plan Projects of Zhejiang Province(Grant No.2018F10026)and Tang Scholar.

摘  要:In this study,the water entry of wedges in regular waves is numerically investigated by a two-dimensional in-house numerical code.The numerical model based on the viscous Navier−Stokes(N−S)equations employs a high-order different method—the constrained interpolation profile(CIP)method to discretize the convection term.A Volume of Fluid(VOF)-type method,the tangent of hyperbola for interface capturing/slope weighting(THINC/SW)is employed to capture the free surface/interface,and an immersed boundary method is adopted to treat the motion of wedges.The momentum source function derived from the Boussinesq equation is applied as an internal wavemaker to generate regular waves.The accuracy of the numerical model is validated in comparison with experimental results in the literature.The results of water entry in waves are provided in terms of the impact force of wedge,velocity and pressure distributions of fluid.Considerable attention is paid to the effects of wave parameters and the position of wedge impacting the water surface.It is found that the existence of waves significantly influences the velocity and pressure field of fluid and impact force on the wedges.

关 键 词:Water entry water wave WEDGE internal wave maker CIP method VOF method 

分 类 号:P75[天文地球—海洋科学] P731.22

 

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