摘要
沟槽结构和超疏水壁面可有效减小湍流流动阻力。针对鲨鱼游动时表皮分泌黏液对鲨鱼表皮润湿性的影响,提出并研究具有更高减阻效果的超疏水沟槽结构。采用雷诺时均法和大涡模拟分别分析两种沟槽结构的减阻效果和机理。结果表明:未经疏水处理的刀刃形和锯齿形沟槽表面,减阻效果最高分别可达9.52%及13.70%,经超疏水处理后,减阻效果最高可达58.00%和63.00%,其更小的湍流涡团及脉动是进一步减阻原因。
The groove structure and superhydrophobic wall can effectively reduce the turbulent flow resistance.Considering the effect of the mucus secreted by a shark's epidermis on its wettability during swimming,a superhydrophobic groove structure with higher drag reduction effect is proposed and studied.Reynolds Averaged Navier-Stokes Equations(RANS)and Large Eddy Simulation(LES)are used to analyze the drag reduction effect and mechanism of the riblets structure.The results show that,without hydrophobic treatment,the drag reduction effect of the blade and sawtooth riblets surfaces can reach up to 9.52% and 13.70% respectively.After super-hydrophobic treatment,the drag reduction effect can escalate to 58.00% and 63.00%.Small turbulent vortex clusters and pulsations are the reason for the further drag reduction.
作者
姜洪鹏
白敏丽
王晨飞
毛可
吕继组
JIANG Hongpeng;BAI Minli;WANG Chenfei;MAO Ke;LU Jizu(School of Energy and Power Engineering,Dalian University of Technology,Dalian 116024,China)
出处
《热科学与技术》
CAS
CSCD
北大核心
2023年第6期606-614,共9页
Journal of Thermal Science and Technology
基金
国家自然科学基金资助项目(51876027,51806028,51806029)
中央高校基本科研业务费资助项目(DUT19JC09)。
关键词
湍流
大涡模拟
沟槽
超疏水
turbulence
large eddy simulation
riblets
superhydrophobic
