Flow in a differentially rotated cylindrical drop at moderate Reynolds number
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Publication:5184600
DOI10.1017/S002211208400166XzbMath0559.76101MaRDI QIDQ5184600
George M. Harriott, Robert A. Brown
Publication date: 1984
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
steady axisymmetric flowsGalerkin finite-element approximationsmoderate Reynolds numbercomputer-implemented perturbation methodsdifferentially rotated cylindrical droptracking families of solutions
Related Items (3)
Midplane-symmetry breaking in the flow between two counter-rotating disks ⋮ Supercritical transition to turbulence in an inertially driven von Kármán closed flow ⋮ Influence of the geometry on the structure of the flow between a pair of corotating disks
Cites Work
- Calculation of flow between two rotating coaxial disks by differentiation with respect to an actual parameter
- A comparison of various mixed-interpolation finite elements in the velocity-pressure formulation of the Navier-Stokes equations
- Multiple solutions for flow between coaxial disks
- Computation of the flow between a rotating and a stationary disk
- Nearly Viscometric Flow in the Disk and Cylinder System. I: Theoretical
- Singular Perturbations of Bifurcations
- Numerical solutions for the time-dependent viscous flow between two rotating coaxial disks
- A flow reversal due to edge effects
- Perturbed bifurcation theory
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