Experimental investigation on the history force acting on oscillating fluid spheres at low Reynolds number
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Publication:3554666
DOI10.1063/1.1779051zbMath1187.76004OpenAlexW2081657665MaRDI QIDQ3554666
Mohamed Souhar, Mohammed Abbad
Publication date: 22 April 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.1779051
Related Items (3)
Transient deformation and drag of decelerating drops in axisymmetric flows ⋮ Experimental study of oscillatory motion of particles and bubbles with applications to Coriolis flow meters ⋮ Grain-resolved simulation of micro-particle dynamics in shear and oscillatory flows
Cites Work
- Unsteady drag on a sphere at finite Reynolds number with small fluctuations in the free-stream velocity
- The unsteady motion of a drop moving vertically under gravity
- The force exerted on a body in inviscid unsteady non-uniform rotational flow
- The boundary layer on a spherical gas bubble
- Unsteady force on a spherical bubble at finite Reynolds number with small fluctuations in the free-stream velocity
- Flow past a sphere with an oscillation in the free-stream velocity and unsteady drag at finite Reynolds number
- The force on a bubble, drop, or particle in arbitrary time-dependent motion at small Reynolds number
- A note on the force on an accelerating spherical drop at low-Reynolds number
- Flow due to an oscillating sphere and an expression for unsteady drag on the sphere at finite Reynolds number
- The Motion of High-Reynolds-Number Bubbles in Inhomogeneous Flows
- Flow about a fluid sphere at low to moderate Reynolds numbers
- A note on the history force on a spherical bubble at finite Reynolds number
- Accelerated flows past a rigid sphere or a spherical bubble. Part 1. Steady straining flow
- An Interior Trust Region Approach for Nonlinear Minimization Subject to Bounds
- On the deformation and drag of a falling viscous drop at low Reynolds number
- The motion of a spherical liquid drop at high Reynolds number
- Unsteady flow about a sphere at low to moderate Reynolds number. Part 1. Oscillatory motion
- Forces on a sphere accelerating in a viscous fluid
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