A novel experimental approach to study drop-particle collisions

IF 1 4区工程技术 Q4 ENGINEERING, CHEMICAL

Atomization and Sprays Pub Date : 2024-02-01 DOI:10.1615/atomizspr.2024051301

Jean-Baptiste Le Gac, Carole Planchette

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引用次数: 0

Abstract

Free drop-particle collisions occurring in air are experimentally produced by combining a stream of drops and a stream of particles, which results from the selective and ultra-fast hardening of another regular drop stream. The set-up offers the possibility to accurately vary the drop and particle diameter, the collision eccentricity and the relative drop-particle velocity. First observations obtained with drop Weber numbers ranging from 30 to 300, drop Reynolds number between 390 and 4600, and with typical equilibrium contact angle of 70° evidence the existence of full deposition, separation and bouncing events. For off-center separation, a liquid ligament forms between the particle and the outlying drop cap that fragments due to excessive stretching, a phenomenon similar to what can be observed for drop-drop collisions. In contrast, for head-on collisions and intermediate inertia, a lamella first forms, whose constrained recoil leads to liquid protuberance(s) that eventually pinch(es)-off. These outcomes can be distinguished using a bi-dimensional regime map built on the impact parameter and the drop Weber number. Despite remarkable similarities with binary drop collisions, important differences are observed especially for low and moderate eccentricities.

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研究液滴-粒子碰撞的新型实验方法

空气中发生的自由液滴-粒子碰撞是通过将液滴流和粒子流结合在一起实验产生的，粒子流是由另一股规则液滴流的选择性超快速硬化产生的。这种装置可以精确地改变液滴和粒子的直径、碰撞偏心率以及液滴和粒子的相对速度。在液滴韦伯数介于 30 到 300 之间、液滴雷诺数介于 390 到 4600 之间、典型平衡接触角为 70°的条件下获得的首次观测结果表明，存在完全沉积、分离和反弹现象。在偏离中心的分离过程中，粒子和外围的液滴帽之间会形成一条液体韧带，该韧带会因过度拉伸而断裂，这种现象与液滴间的碰撞类似。与此相反，在正面碰撞和中等惯性的情况下，首先会形成薄片，其受限的反冲力会导致液体突起，最终掐断。这些结果可以通过基于碰撞参数和液滴韦伯数的二维状态图来区分。尽管与双液滴碰撞有明显的相似之处，但还是观察到了重要的差异，尤其是在低偏心率和中等偏心率的情况下。

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来源期刊

Atomization and Sprays 工程技术-材料科学：综合

CiteScore

2.10

自引率

16.70%

发文量

审稿时长

1.7 months

期刊介绍： The application and utilization of sprays is not new, and in modern society, it is extensive enough that almost every industry and household uses some form of sprays. What is new is an increasing scientific interest in atomization - the need to understand the physical structure of liquids under conditions of higher shear rates and interaction with gaseous flow. This need is being met with the publication of Atomization and Sprays, an authoritative, international journal presenting high quality research, applications, and review papers.