Swimming of an inertial squirmer and squirmer dumbbell through a viscoelastic fluid

Abstract: We investigate the hydrodynamics of a spherical and dumbbell-shaped swimmer in a viscoelastic fluid, modelled by the Giesekus constitutive equation. The ‘squirmer’, a model of a micro-swimmer with tangential surface waves at its boundaries, is simulated utilizing a direct-forcing fictitious domain method. We consider the competitive effects of the fluid inertia and elasticity on the locomotion of the swimmers. For the neutral squirmer, its speed increases monotonically with increasing Reynolds number in the Gi… Show more

“…Ouyang et al [38,39] combined multiple circular squirmers to form a rod squirmer, studied the hydrodynamic behavior of the rod squirmer in different rheological flows, and deduced the velocities of squirmers with different shapes. In addition, Ouyang et al [40] also used the method to study the fluid dynamics of a dumbbellshaped swimmer in a viscoelastic fluid, and found that dumbbell-shaped squirmer expended less energy in a viscoelastic fluid than Newtonian fluid, and neutral squirmer expended more energy than puller or pusher. Zantop and Stark [41] constructed a claviform squirmer by linearly arranging several spherical squirmers and introduced a new velocity model.…”

Study of sedimentation characteristics of an elliptical squirmer in a vertical channel

“…Ouyang et al [38,39] combined multiple circular squirmers to form a rod squirmer, studied the hydrodynamic behavior of the rod squirmer in different rheological flows, and deduced the velocities of squirmers with different shapes. In addition, Ouyang et al [40] also used the method to study the fluid dynamics of a dumbbellshaped swimmer in a viscoelastic fluid, and found that dumbbell-shaped squirmer expended less energy in a viscoelastic fluid than Newtonian fluid, and neutral squirmer expended more energy than puller or pusher. Zantop and Stark [41] constructed a claviform squirmer by linearly arranging several spherical squirmers and introduced a new velocity model.…”

Study of sedimentation characteristics of an elliptical squirmer in a vertical channel

Hydrodynamic behavior of inertial elongated microswimmers in a horizontal channel

Numerical study of collective motion of microswimmers in Giesekus viscoelastic fluids