Flow around an impulsively arrested circular cylinder
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Publication:5303355
DOI10.1063/1.2754346zbMath1182.76688OpenAlexW2022977019MaRDI QIDQ5303355
Gregory J. Sheard, Kerry Hourigan, Thomas Leweke, Mark C. Thompson
Publication date: 18 March 2010
Published in: Physics of Fluids (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1063/1.2754346
Related Items (8)
Flow dynamics and wall shear-stress variation in a fusiform aneurysm ⋮ Stability of the wakes of cylinders with triangular cross-sections ⋮ Dynamics and heat transfer in a quasi-two-dimensional MHD flow past a circular cylinder in a duct at high Hartmann number ⋮ Influence of slip on the three-dimensional instability of flow past an elongated superhydrophobic bluff body ⋮ Short-wave instabilities on a vortex pair of unequal strength circulation ratio ⋮ Horizontal convection: effect of aspect ratio on Rayleigh number scaling and stability ⋮ Cylinders with square cross-section: wake instabilities with incidence angle variation ⋮ Pressure-driven flow past spheres moving in a circular tube
Cites Work
- Formulation of a Galerkin spectral element--Fourier method for three-dimensional incompressible flows in cylindrical geometries
- High-order splitting methods for the incompressible Navier-Stokes equations
- Numerical solutions for impulsively started and decelerated viscous flow past a circular cylinder
- Sphere–wall collisions: vortex dynamics and stability
- Vortex dynamics associated with the collision of a sphere with a wall
- Numerical study and physical analysis of the pressure and velocity fields in the near wake of a circular cylinder
- Bénard-von Kármán instability: transient and forced regimes
- Three-dimensional Floquet stability analysis of the wake of a circular cylinder
- From spheres to circular cylinders: the stability and flow structures of bluff ring wakes
- High-resolution simulations of the flow around an impulsively started cylinder using vortex methods
- The evolution of a subharmonic mode in a vortex street
- Spectral/hp Element Methods for Computational Fluid Dynamics
- Nonlinear particle tracking for high-order elements.
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