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    • Thermocapillary migration of a fluid compound droplet
    Authors: Vinh T. Nguyen; Truong V. Vu; Phan H. Nguyen; Nang X. Ho; Binh D. Pham; Hoe D. Nguyen; Hung V. Vu;  Advisor: -;  Co-Author: - (2021)

    Compound and simple droplets have been studied and appeared in many life applications, e.g., drug processing and microfluidic systems. Many studies have been conducted on the thermocapillary effects on simple droplets, but similar studies on compound droplets are quite rare. Filling this missing gap, this paper presents the front-tracking-based simulation results of the thermocapillary effects on compound droplets in a certain limited domain. The compound droplet consists of a single inner core that is initially concentric with the outer one. Various dimensionless parameters including Reynolds number from 1 to 50, Marangoni number from 1 to 100, droplet radius ratio from 0.3 to 0.8, and viscosity ratios from 0.1 to 6.4 are varied to reveal their influences on the migration of a comp...
    • Marangoni Motion of a Droplet in a Constriction
    Authors: Vinh T. Nguyen; Truong V. Vu; Phan H. Nguyen;  Advisor: -;  Co-Author: - (2022)

    The present paper focuses on the motion due to the thermocapillary force of a droplet in a circular tube through the front-tracking-based simulation. The tube profile in the axial direction is generated with a sinusoidal function that induces a constriction with depth d at the middle. The droplet is slowed down as it migrates from the cold region (ahead of the constriction) to the hot region in the downstream. Various parameters including the Marangoni number Ma, the capillary number Ca and the depth of the constriction d are varied to better understand the thermocapillary motion of the droplet under the influence of the constriction. The simulation results show that when the Ma number increases, the influence factor of the constriction increases and the migration velocity of the dr...
    • Numerical analysis of deformation and breakup of a compound droplet in microchannels
    Authors: Nguyen, Cuong T.;  Advisor: Vu, Hung V.; Vu, Truong V.; Truong, Thuan V.; Ho, Nang X.; Pham, Binh D.; Nguyen, Vinh T.; Nguyen, Hoe D.;  Co-Author: - (2021)

    Compound droplets with different sizes are increasingly used in industrial production and academic research. This study aims to improve understanding of the dynamical behaviors of the compound droplet moving in microchannels. The compound droplet consisting of one inner core is initially concentric and placed at the entrance of a circular channel with a cone at the downstream region. Following this primary channel is a secondary channel that is circular and straight. Manipulation of the droplet is assisted by a flow introduced via the gap between two channels. The numerical results show that when passing through these confined channels, the droplet experiences a finite deformation or breakup mode. In each mode, the deformation or breakup of the compound droplet is also different whe...