Particle impaction on a cylinder in a crossflow as function of Stokes and Reynolds numbers
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Publication:3075778
DOI10.1017/S0022112010002946zbMath1205.76268OpenAlexW2024004345MaRDI QIDQ3075778
Steinar Kragset, N. E. L. Haugen
Publication date: 17 February 2011
Published in: Journal of Fluid Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1017/s0022112010002946
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Cites Work
- An immersed boundary method to solve fluid-solid interaction problems
- An immersed boundary technique for simulating complex flows with rigid boundary
- Boundary conditions for direct simulations of compressible viscous flows
- A ghost-cell immersed boundary method for flow in complex geometry.
- An immersed boundary method with formal second-order accuracy and reduced numerical viscosity
- An accurate Cartesian grid method for viscous incompressible flows with complex immersed boundaries
- On the preferential concentration of solid particles in turbulent channel flow
- Pseudospectral element model for free surface viscous flows
- Experiments on the flow past a circular cylinder at low Reynolds numbers
- IMMERSED BOUNDARY METHODS
- Two-dimensional simulation of unsteady heat transfer from a circular cylinder in crossflow
- Self-similar clustering of inertial particles and zero-acceleration points in fully developed two-dimensional turbulence
- Comparison between two finite-difference schemes for computing the flow around a cylinder
- Three-dimensional wake transition
- Mechanisms for particle transfer and segregation in a turbulent boundary layer
- Spatial development of particle-laden turbulent pipe flow
- Numerical solutions for steady flow past a circular cylinder at Reynolds numbers up to 100
- An immersed-boundary finite volume method for simulations of flow in complex geometries
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