Inertial focusing dynamics of spherical particles in curved microfluidic ducts with a trapezoidal cross section
DOI10.1137/23M1613220MaRDI QIDQ6598400
Yvonne M. Stokes, Rahil N. Valani, B. Harding
Publication date: 5 September 2024
Published in: SIAM Journal on Applied Dynamical Systems (Search for Journal in Brave)
multiphase flowbifurcation analysiscusp bifurcationinertial migrationinertial liftcurved ductstrapezoidal cross sections
Dynamical systems in fluid mechanics, oceanography and meteorology (37N10) Bifurcations and instability for nonlinear problems in mechanics (70K50) Suspensions (76T20) Bifurcations in context of PDEs (35B32)
Cites Work
- Fast asymptotic-numerical method for coarse mesh particle simulation in channels of arbitrary cross section
- A RAYLEIGH–RITZ METHOD FOR NAVIER–STOKES FLOW THROUGH CURVED DUCTS
- Lateral force on a rigid sphere in large-inertia laminar pipe flow
- Inertial migration of a rigid sphere in three-dimensional Poiseuille flow
- Inertial migration of a sphere in Poiseuille flow
- The inertial lift on a spherical particle in a plane Poiseuille flow at large channel Reynolds number
- The inertial migration of non-neutrally buoyant spherical particles in two-dimensional shear flows
- Inertial migration of rigid spheres in two-dimensional unidirectional flows
- Bifurcations and Dynamics in Inertial Focusing of Particles in Curved Rectangular Ducts
- Dynamics of Small Particle Inertial Migration in Curved Square Ducts
- Inertial focusing of non-neutrally buoyant spherical particles in curved microfluidic ducts
- Effect of inertial lift on a spherical particle suspended in flow through a curved duct
- The lift on a small sphere in a slow shear flow
- Inertial focusing of spherical particles in curved microfluidic ducts at moderate Dean numbers
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