Litcius/Paper detail

Simulation of coalescence dynamics of droplets on surfaces with different wettabilities

Lei Xing, Jinyu Li, Minghu Jiang, Denghui Zhao

2022Physics of Fluids19 citationsDOI

Abstract

The head-on-collision coalescence dynamics for droplets on surfaces with different wettabilities was numerically investigated by using the method of coupled level set and volume of fluid, and a high-speed video experiment was used to validate the simulation results. The simulated coalescence behavior of droplets is consistent with the experiment results. We compared droplets with different Weber numbers (3.67 ≤ We ≤ 50) coalescing on solid surfaces of different wettabilities and contact angles (80° ≤ α ≤ 160°). The result is a regional division diagram that relates Weber number and contact angle based on different coalescence phenomena. The factors causing droplet deposition, air entrapment, bounce, and partial bounce during collision coalescence are described based on an analysis of interactions involving inertial forces, surface tension, and wall adhesion forces. Furthermore, the effect of Weber number and contact angle on droplet coalescence behavior is elaborated by analyzing the relationship between coalescence time and wettability radius under different Weber numbers and contact angles. Finally, through an energy analysis, we explain the maximum spreading radius and oscillation of droplets with different Weber numbers on solid surfaces with different wettabilities and in the process of head-on-collision coalescence.

Topics & Concepts

Coalescence (physics)Weber numberWettingMechanicsPhysicsSurface tensionCollisionContact angleClassical mechanicsBubbleOscillation (cell signaling)RADIUSThermodynamicsReynolds numberChemistryTurbulenceAstrobiologyComputer securityBiochemistryComputer scienceFluid Dynamics and Heat TransferSurface Modification and SuperhydrophobicityFluid Dynamics Simulations and Interactions