Numerical Simulation of Droplet Behavior under Varying Density Ratios Using Finite Volume-Front Tracking Method

Dondi Kurniawan; Yulia Venti Yoanita; Sinung Tirtha Pinindriya; Eli Kumolosari; Angga Darma Prabowo; M. Rangga Saputra

doi:10.47355/avia.v6i2.137

Authors

Dondi Kurniawan University of Lampung
Yulia Venti Yoanita Universitas PGRI Yogyakarta
Sinung Tirtha Pinindriya Pusat Riset Teknologi Penerbangan – BRIN
Eli Kumolosari Institut Teknologi Dirgantara Adisutjipto
Angga Darma Prabowo University of Lampung
M. Rangga Saputra Automotive Vocational Technology Study Program, Faculty of Engineering, University of Lampung, Indonesia

DOI:

https://doi.org/10.47355/avia.v6i2.137

Abstract

The study of droplet dynamics is very important to understand the mechanism of heat, mass, and momentum transfer in two phases. One approach to studying this phenomenon is through numerical simulation. The front tracking method is one of the techniques often used in numerical simulation of droplets to handle phase interactions in multiphase flows. This study aims to study the characteristics of droplets when they collide with surfaces with varying density values. The modeling used in this study is an interface diffusion approach using 2 types of fluids that have different properties. The domain used is Square Box-Staggered Grid. The software used is MATLAB R2024a. The results of the study indicate that the density ratio has a significant effect on the spreading factor, apex height, spreading velocity and pressure.

Numerical Simulation of Droplet Behavior under Varying Density Ratios Using Finite Volume-Front Tracking Method

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