Hydrodynamic force and torque acting on a micron-sized spherical particle attached to a surface with large-scale concave roughness in linear shear flow and the possibility of detachment

Abstract: This work studies the detachment of a micron-sized spherical particle from a surface with concave roughness in a linear shear flow. The concave roughness is described as regularly spaced hollow hemispheres below a flat surface and is characterised by two dimensionless parameters, i.e. dimensionless asperity distance and asperity size ratio. The hydrodynamic force and torque on the particle are calculated by performing lattice Boltzmann simulations for particle Reynolds numbers ranging from 0.02 to 40. Empirica… Show more

“…25 It also has good accuracy for the micron-scale fluid simulation. 26 Therefore, the LB model is supposed to be very suitable for analyzing droplet evaporation in pits at the micron-scale. In summary, although researchers have offered many works on the experimental and simulation analyses of the droplet evaporation, further studies on the evaporation process of a micron-size droplet in the pit are needed.…”

“…The LB simulation, as a relatively recent mesoscopic scale simulation method, can establish complex pixel pit structures and coupling of multiple physical fields . It also has good accuracy for the micron-scale fluid simulation . Therefore, the LB model is supposed to be very suitable for analyzing droplet evaporation in pits at the micron-scale.…”

Lattice Boltzmann Study of Microdroplet Evaporation Process in Pixel Pits

“…25 It also has good accuracy for the micron-scale fluid simulation. 26 Therefore, the LB model is supposed to be very suitable for analyzing droplet evaporation in pits at the micron-scale. In summary, although researchers have offered many works on the experimental and simulation analyses of the droplet evaporation, further studies on the evaporation process of a micron-size droplet in the pit are needed.…”

“…The LB simulation, as a relatively recent mesoscopic scale simulation method, can establish complex pixel pit structures and coupling of multiple physical fields . It also has good accuracy for the micron-scale fluid simulation . Therefore, the LB model is supposed to be very suitable for analyzing droplet evaporation in pits at the micron-scale.…”

Lattice Boltzmann Study of Microdroplet Evaporation Process in Pixel Pits

Optimizing the inclination angle of the swirl chamber in dry powder inhalers for improved carrier particle retention