Numerical Simulation Study on the Transformation Process of Multiple Droplets into Liquid Films
2026-99-1833
To be published on 07/17/2026
- Content
- The numerical simulation of the transformation process of multiple droplets into liquid films is a complex problem involving multiphase flow, interface dynamics, and heat and mass transfer. It usually requires the combination of fluid mechanics, interface science, and numerical calculation methods. Based on the smooth particle fluid dynamics method, this paper establishes a multiphase fluid-solid coupling interaction model among droplets, surrounding air and solid walls, and studies the dynamic change process of multiple raindrops dispersed in different grooves. The results show that when the contact Angle is small, the boundaries of multiple raindrops do not come into contact. The multiple raindrops evolve in their respective grooves and eventually form multiple raindrops that approach the steady-state contact Angle. The second situation is that the boundaries of multiple raindrops do not come into contact, the raindrops start to fuse, and multiple raindrops form a larger one. At this point, the contact point of the gas-solid-liquid phase disappears, that is, the "regulating force" of the contact Angle is 0. This paper provides important numerical simulation references for flight safety, aerodynamic performance and anti-icing/de-icing technologies during the flight of aviation aircraft.
- Citation
- Huo, Y., Chen, Y., and Sun, C., "Numerical Simulation Study on the Transformation Process of Multiple Droplets into Liquid Films," 2025 International Conference on Aircraft Control and Navigation Technology (ACNT 2025), Zhenzhou, China, September 8, 2025, .