基于分子模拟方法的纳米气泡溃灭过程分析  被引量：1

作　　者：张雪松 范振忠 仝其雷 付沅峰 Zhang Xue-Song;Fan Zhen-Zhong;Tong Qi-Lei;Fu Yuan-Feng(Key Laboratory of Enhanced Oil and Gas Recovery,Ministry of Education,Northeast Petroleum University,Daqing 163318,China)

机构地区：[1]东北石油大学,提高油气采收率教育部重点实验室,大庆163318

出　　处：《物理学报》2024年第20期231-242,共12页Acta Physica Sinica

摘　　要：采用分子动力学模拟方法研究纳米气泡逐渐凹陷并发展至溃灭的过程,本文主要研究冲击速度和气泡尺寸对纳米气泡溃灭的动力学特性影响机制.结果表明:纳米气泡溃灭大体上经历三个阶段.首先是气泡外侧水分子压缩阶段,然后是冲击波导致液膜稳定结构被破坏阶段,最终发展至气泡完全溃灭阶段;在冲击速度较大时,较小尺寸气泡在更强的冲击效果作用下,气泡溃灭时间更短;纳米气泡溃灭后高速射流后在速度等高线右端形成凸起,随着气泡尺寸和冲击速度增大,凸起程度就越大,水分子向气泡中心汇集,在气泡上方和下方形成涡旋结构,有效的增强了流体内部传质作用;随着气泡尺寸和冲击速度的增大,气泡周围密度也逐渐增大,气泡完全时溃灭时局部密度可达1.5 g/cm^(3)附近;当气泡体系衰减至一半时,出现水锤冲击效应,随着气泡尺寸和冲击速度的增大,水锤冲击作用愈发明显,对于u_(p)=3.0 km/s,D=10 nm的纳米气泡结构塌陷后射流水锤冲击所形成的局部压强可达30 GPa.This study employs molecular dynamics simulations to investigate the process of nanobubble gradual indentation and eventual collapse.The research primarily focuses on the mechanisms by which impact velocity and bubble size influence the dynamic characteristics of nanobubble collapse.The results indicate that nanobubble collapse generally proceeds through three stages.Initially,there is a compression phase of water molecules surrounding the bubble,followed by a phase where the shock wave disrupts the stable structure of the liquid film,and finally,the complete collapse of the bubble.At higher impact velocities,smaller bubbles collapse more rapidly due to stronger shock effects.Post-collapse,a high-speed jet forms a protrusion on the right end of the velocity contour.The degree of protrusion increases with bubble size and impact velocity.Water molecules converge towards the bubble center,forming vortex structures above and below the bubble,effectively enhancing internal mass transfer.As bubble size and impact velocity increase,the density around the bubble gradually rises,reaching approximately 1.5 g/cm^(3)in localized areas upon complete collapse.When the bubble system decays to half its original size,a water hammer effect occurs.This effect becomes more pronounced with increasing bubble size and impact velocity.For a nanobubble structure with u_(p)=3.0 km/s and D=10 nm,the local pressure formed by the water hammer impact of the jet after collapse can reach 30 GPa.

关 键 词：纳米气泡 分子模拟 气泡溃灭 水锤冲击 

分 类 号：O35[理学—流体力学]