Mobility of A Water Droplet on Liquid Phase of N-Octadecane Coated Hydrophobic Surface

Abstract: A water droplet behavior on the liquid n-octadecane film is investigated. The coating of hydrophobic surface by N-octadecane film provides exchange of wetting state on the surface. The polycarbonate surface is crystallized and the functionalized silica particles are placed on the resulting surface prior to thin film coating of n-octadecane. A high-speed camera is used to monitor dynamic characteristics of the droplet on the inclined film. The findings reveal that deposition of thin n-octadecane film on hydroph… Show more

“…The motion of liquid droplets is important to a broad range of process industries − and especially the petrochemical sector, where oil and water are often produced and transported together. , Several techniques can be exploited to make droplets move, such as electrostatic actuation, , surface energy gradient, , or external forcing by shear flow, − and several studies regarding the transportation of droplets have been performed either experimentally , or computationally. , Notably, most previous studies focused on the motion of droplets or bubbles in a cylindrical capillary. − For noncylindrical geometries, Horwitz et al studied the effect of the dimensionless parameters (Reynolds number and capillary number) and of the viscosity ratio between the droplet and the carrier fluid on droplet deformation in a square duct . More recently, Luo et al used a three-dimensional front-tracking finite-difference method to study the effects of the surfactant, including the reduced surface tension and the Marangoni stress, on the motion of a droplet in a square microchannel.…”

“…The motion of liquid droplets is important to a broad range of process industries 1−3 and especially the petrochemical sector, where oil and water are often produced and transported together. 4,5 Several techniques can be exploited to make droplets move, such as electrostatic actuation, 6,7 surface energy gradient, 8,9 or external forcing by shear flow, 10−13 and several studies regarding the transportation of droplets have been performed either experimentally 10,11 or computationally. 13,14 Notably, most previous studies focused on the motion of droplets or bubbles in a cylindrical capillary.…”

Janus Nanoparticle and Surfactant Effects on Oil Drop Migration in Water under Shear

“…The motion of liquid droplets is important to a broad range of process industries − and especially the petrochemical sector, where oil and water are often produced and transported together. , Several techniques can be exploited to make droplets move, such as electrostatic actuation, , surface energy gradient, , or external forcing by shear flow, − and several studies regarding the transportation of droplets have been performed either experimentally , or computationally. , Notably, most previous studies focused on the motion of droplets or bubbles in a cylindrical capillary. − For noncylindrical geometries, Horwitz et al studied the effect of the dimensionless parameters (Reynolds number and capillary number) and of the viscosity ratio between the droplet and the carrier fluid on droplet deformation in a square duct . More recently, Luo et al used a three-dimensional front-tracking finite-difference method to study the effects of the surfactant, including the reduced surface tension and the Marangoni stress, on the motion of a droplet in a square microchannel.…”

“…The motion of liquid droplets is important to a broad range of process industries 1−3 and especially the petrochemical sector, where oil and water are often produced and transported together. 4,5 Several techniques can be exploited to make droplets move, such as electrostatic actuation, 6,7 surface energy gradient, 8,9 or external forcing by shear flow, 10−13 and several studies regarding the transportation of droplets have been performed either experimentally 10,11 or computationally. 13,14 Notably, most previous studies focused on the motion of droplets or bubbles in a cylindrical capillary.…”

Janus Nanoparticle and Surfactant Effects on Oil Drop Migration in Water under Shear

Impact of high substrate temperature on pulsed laser deposited ZnO pillars: A technological route to investigate the structural, optical and superhydrophilic properties

Evaporation mediated translation and encapsulation of an aqueous droplet atop a viscoelastic liquid film