NUMERICAL INVESTIGATION OF NON-NEWTONIAN DROPLET-DROPLET COLLISIONS USING VOLUME OF FLUID (VOF) AND THE LOCAL FRONT RECONSTRUCTION METHOD (LFRM)

IF 1 4区 工程技术 Q4 ENGINEERING, CHEMICAL Atomization and Sprays Pub Date : 2024-04-01 DOI:10.1615/atomizspr.2024051762
Cristina García Llamas, Merve Durubal, Arie Huijgen, Kay Buist, J. A. M. Kuipers, Maike Baltussen
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Abstract

Droplet-droplet interactions of highly viscous liquid suspensions have a major impact in industrial processes such as spray drying, fuel combustion or waste treatment. The efficiency of these processes depends heavily on the morphology of the droplets after the collision (i.e., surface area and volume). Although often encountered, the physical mechanisms overning merging and break-up of non-Newtonian droplets are largely unknown. It is therefore of paramount importance to gain a better understanding of the complex physics dominating the collision of non-Newtonian droplets. In this research, we investigate numerically the collision of droplets using the Local Front Reconstruction Method (LFRM) and the Volume of Fluid (VOF) method. The coalescence and stretching separation regime are studied using a xanthan solution, whose shear thinning rheology is described with the Carreau-Yasuda model. The capabilities of the two methods to capture the complex topological changes are assessed by a one-to-one comparison of the numerical results with experiments for near head-on collisions at various We numbers.
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利用流体体积法(vof)和局部前沿重构法(lfrm)对非牛顿液滴-液滴碰撞进行数值研究
高粘度液体悬浮液的液滴间相互作用对喷雾干燥、燃料燃烧或废物处理等工业过程具有重大影响。这些过程的效率在很大程度上取决于碰撞后液滴的形态(即表面积和体积)。非牛顿液滴的合并和破裂的物理机制虽然经常出现,但在很大程度上还不为人所知。因此,更好地理解主导非牛顿液滴碰撞的复杂物理机制至关重要。在这项研究中,我们使用局部前沿重构法(LFRM)和流体体积法(VOF)对液滴碰撞进行了数值研究。我们使用黄原胶溶液研究了凝聚和拉伸分离机制,黄原胶溶液的剪切稀化流变是用 Carreau-Yasuda 模型描述的。通过将数值结果与不同 We 数下的近距离正面碰撞实验结果进行一对一比较,评估了这两种方法捕捉复杂拓扑变化的能力。
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来源期刊
Atomization and Sprays
Atomization and Sprays 工程技术-材料科学:综合
CiteScore
2.10
自引率
16.70%
发文量
54
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.
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