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Chemical Engineering Communications Volume 58, 1987 - Issue 1-6
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Original Articles

CREEPING FLOW AROUND AND THROUGH A PERMEABLE SPHERE MOVING WITH CONSTANT VELOCITY TOWARDS A SOLID WALL

ALKIVIADES C. PAYATAKES Department of Chemical Engineering, University of Patras, and Institute of Chemical Engineering and High Temperature Chemical Processes, Patras, GR 261 10, Greece
&
GEORGE DASSIOS Department of Mathematics, University of Patras, Patras, GR 261 10, Greece
Pages 119-138 | Received 17 Nov 1986, Accepted 15 Jan 1987, Published online: 25 Apr 2007

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P. Stephen Williams. (1994) Particle Trajectories in Field-Flow Fractionation and SPLITT Fractionation Channels. Separation Science and Technology 29:1, pages 11-45.
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V.N. BURGANOS, A.C. MICHALOPOULOU, G. DASSIOS & A.C. PAYATAKES. (1992) CREEPING FLOW AROUND AND THROUGH A PERMEABLE SPHERE MOVING WITH CONSTANT VELOCITY TOWARDS A SOLID WALL: A REVISION. Chemical Engineering Communications 117:1, pages 85-88.
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Articles from other publishers (19)

Rodrigo B. Reboucas & Michael Loewenberg. (2022) Resistance and mobility functions for the near-contact motion of permeable particles. Journal of Fluid Mechanics 938.
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Rodrigo B. Reboucas & Michael Loewenberg. (2021) Near-contact approach of two permeable spheres. Journal of Fluid Mechanics 925.
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Xuechao Liu, Haibo Huang & Xi-Yun Lu. (2019) Lattice Boltzmann study of effective viscosities of porous particle suspensions. Computers & Fluids.
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M. S. Faltas & Shreen El-Sapa. (2018) Rectilinear oscillations of two spherical particles embedded in an unbounded viscous fluid. Microsystem Technologies 25:1, pages 39-49.
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V.N. Burganos. 2017. Comprehensive Membrane Science and Engineering. Comprehensive Membrane Science and Engineering 17 56 .
E.I. Saad. (2015) Axisymmetric motion of a spherical porous particle perpendicular to two parallel plates with slip surfaces. Canadian Journal of Physics 93:7, pages 784-795.
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Liang Wang, Lian-Ping Wang, Zhaoli Guo & Jianchun Mi. (2015) Volume-averaged macroscopic equation for fluid flow in moving porous media. International Journal of Heat and Mass Transfer 82, pages 357-368.
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Sondes Khabthani, Antoine Sellier, Lassaad Elasmi & François Feuillebois. (2012) Motion of a solid particle in a shear flow along a porous slab. Journal of Fluid Mechanics 713, pages 271-306.
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V.N. Burganos. 2010. Comprehensive Membrane Science and Engineering. Comprehensive Membrane Science and Engineering 29 74 .
George E. Kapellos, Terpsichori S. Alexiou & Alkiviades C. Payatakes. (2007) Hierarchical simulator of biofilm growth and dynamics in granular porous materials. Advances in Water Resources 30:6-7, pages 1648-1667.
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R.M Wu, G.W Tsou & D.J Lee. (2000) Estimate of sludge floc permeability. Chemical Engineering Journal 80:1-3, pages 37-42.
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Shing Bor Chen & Xiangnan Ye. (2000) Boundary effect on slow motion of a composite sphere perpendicular to two parallel impermeable plates. Chemical Engineering Science 55:13, pages 2441-2453.
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R.M Wu, G.W Tsou & D.J Lee. (2000) Estimation of the interior permeability of polymer-flocculated sludge flocs. Advances in Environmental Research 4:2, pages 163-167.
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R.M. Wu & D.J. Lee. (1999) Highly porous sphere moving through centerline of circular tube filled with Newtonian fluid. Chemical Engineering Science 54:23, pages 5717-5722.
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Shing Bor Chen & Aiping Cai. (1999) Hydrodynamic Interactions and Mean Settling Velocity of Porous Particles in a Dilute Suspension. Journal of Colloid and Interface Science 217:2, pages 328-340.
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R.M. Wu & D.J. Lee. (1998) Hydrodynamic drag force exerted on a highly porous sphere moving towards an impermeable plate. Chemical Engineering Science 53:20, pages 3571-3578.
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Shing Bor Chen. (1998) Electrostatic Interaction and Hindered Diffusion of Ion-Penetrable Spheres in a Slit Pore. Journal of Colloid and Interface Science 205:2, pages 354-364.
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Shing Bor Chen. (1998) Axisymmetric motion of multiple composite spheres: Solid core with permeable shell, under creeping flow conditions. Physics of Fluids 10:7, pages 1550-1563.
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A.C. Michalopoulou, V.N. Burganos & A.C. Payatakes. (1993) Hydrodynamic interactions of two permeable particles moving slowly along their centerline. Chemical Engineering Science 48:16, pages 2889-2900.
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