Browsing by Subject "Sessile droplets"
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Item Open Access Numerical study on the dispersion and deposition of particles in evaporating sessile droplets(2022-09) Erdem, Ali KeremEvaporating sessile droplets including dispersed particles are utilized in the coating, printing, and biomedical applications. Modeling this problem is a challenging process, therefore different assumptions are used in the literature. It is important to have a model which covers both pinned and moving contact line regimes for the droplet, thus whole evaporation process and deposition profile can be understood. Therefore, in this work, a numerical and mathematical model is derived to simulate two-dimensional symmetric thin evaporating sessile droplets whose contact line is firstly pinned and then moving. This model is derived by combining different models in literature with the help of lubrication theory and rapid vertical diffusion assumption. This model includes a temporal change in the droplet’s surface height, contact line dynamics, particle dispersion, and deposition. The finite difference method is used in the numerical solution. Cases including pinned and moving contact lines in the literature are solved separately by different numerical algorithms developed in this work and these algorithms were combined. This new algorithm first solves a mathematical model in the pinned contact line regime. When the contact angle goes below the defined limit, the second part of the algorithm solves the mathematical model in the moving contact line regime until 95 percent of the total particle mass is deposited. A parametric study has been done with the developed algorithm. A set of parameters is defined and chosen parameters are changed to see their effects. It is observed that increasing the Marangoni number and Capillary number, increased particle accumulation near the center. Decreasing evaporation number and increasing Damkohler number result in more uniform particle deposition.