黏性流体液滴撞击超疏水壁面奇异射流的试验与模拟  

作　　者：刘海龙[1] 王建成 沈学峰 郑诺 王军锋[1] LIU Hailong;WANG Jiancheng;SHEN Xuefeng;ZHENG Nuo;WANG Junfeng(School of Energy and Power Engineering,Jiangsu University,Zhenjiang 212013,China)

机构地区：[1]江苏大学能源与动力工程学院,镇江212013

出　　处：《中国表面工程》2023年第1期124-134,共11页China Surface Engineering

基　　金：国家自然科学基金资助项目(51876086)。

摘　　要：液滴在特定条件下撞击超疏水壁面会形成奇异射流现象,该现象产生机理及调控机理有待进一步研究.基于高速显微数码摄像技术,研究不同黏度(0.9~27.7 mPa.s)牛顿流体液滴撞击超疏水壁面(静态接触角为158°)的动态行为,归纳奇异射流发生的相图.通过水平集相界面追踪法,建立液滴撞击超疏水壁面的有限元数值模型.研究结果表明:对于中低黏度(甘油质量分数小于67 wt.%)的液滴,奇异射流现象发生在特定的We数区间.随着液滴黏度的增大,发生奇异射流的We数阈值提高.当液滴的黏度大于14.2 mPa·s后,即使继续提高液滴撞击速度(We>100),奇异射流现象不再出现.奇异射流的产生与回缩阶段液滴内空腔的形成有关,且发生射流时空腔底部有很大的压力集中区.黏度的改变会影响液滴内空腔底部气液交界处的界面形态.随着黏度增加,空腔底部气液相界面将由上凸形转变为下凹形,无法形成向上的射流.奇异射流主要发生于Re在700~1000的区域,且在该区间内奇异射流发生的We数区域较宽,可为液滴动力学行为调控提供理论依据.The impact of liquid droplets on surfaces has fascinated scientists for over a century,motivated by a variety of applications such as additive manufacturing,spray cooling,and more recently,epidemic prevention and control.Previous research has shown that when water droplets gently impact a superhydrophobic surface,they can shoot out a small diameter but extremely high velocity jet,called a singular jet.Pure water is one of the most widely used working fluids in industry.However,the evolution of their internal flow field structure,velocity vector,and pressure distribution have yet to be fully studied.The impact and singular jet behaviors of droplets on superhydrophobic surfaces are investigated using a high-speed imaging system.We prepared Newtonian working fluids with viscosities of 0.9-27.7 mPas by proportioning the glycerol/water solution.Using the nanosilica deposition technique,superhydrophobic surfaces were prepared with a static contact angle of approximately 158°.To simulate the impact process of droplets on superhydrophobic surfaces,a numerical model was constructed based on finite element scheme coupled with a level-set method.The simulation and experimental results showed good agreement.The impact conditions for the occurrence of the singular jet behavior of viscous fluid droplets are summarized.The experimental results showed that when pure water droplets hit superhydrophobic surfaces in the lower We number range,entrained bubbles can be observed,which also directly lead to the occurrence of a singular jet.However,when the viscosity of the droplet is greater than 14.2 mPa·s,even if the impact velocity is enhanced(We>100),the singular jet behavior no longer appears.From the We-Re phase diagram,it can be observed that the singular jet behavior mainly occurs in the region with Re=700-1000.The range of We numbers for the singular jet is wider.However,no singular jet phenomenon occurred in the regions where Re<300 or Re>1100.The experimental results also showed that the viscous force reduced the maximum je

关 键 词：液滴撞击 牛顿流体 奇异射流 水平集法 

分 类 号：TG156[金属学及工艺—热处理] TB114[金属学及工艺—金属学]