Journal ArticleDOI
Hydrodynamic stability of flow between rotating porous cylinders with radial and axial flow
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In this paper, a linear stability analysis was carried out for axial flow between a rotating porous inner cylinder and a concentric, stationary, porous outer cylinder when radial flow is present for several radius ratios.Abstract:
A linear stability analysis was carried out for axial flow between a rotating porous inner cylinder and a concentric, stationary, porous outer cylinder when radial flow is present for several radius ratios. The radial Reynolds number, based on the radial velocity at the inner cylinder and the inner radius, was varied from −15 to 15, and the axial Reynolds number based on the mean axial velocity and the annular gap was varied from 0 to 10. Linear stability analysis for axisymmetric perturbations results in an eigenvalue problem that was solved using a numerical technique based on the Runge–Kutta method combined with a shooting procedure. At a given radius ratio, the critical Taylor number at which Taylor vortices first appear for radial outflow decreases slightly for small positive radial Reynolds numbers and then increases as the radial Reynolds number becomes more positive. For radial inflow, the critical Taylor number increases as the radial Reynolds number becomes more negative. For a given radial Reyn...read more
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Inertial particle motion in a Taylor Couette rotating filter
TL;DR: In this article, the authors simulated the motion of dilute, rigid, spherical particles in Taylor Couette flow using computational particle tracking in an analytic velocity field for flow just above the transition to supercritical Taylor vortex flow.
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Particle-fluid velocities and fouling in rotating filtration of a suspension
TL;DR: In this article, the authors used laser-based velocity measurement techniques to study the flow of dilute suspensions in a rotating filter separator consisting of a rigid, porous, polyethylene cylindrical filter rotating within an outer cylinrical shell, showing that the velocity field of the particles is very similar to that of the fluid indicating that the vortical structure readily entrains particles.
Journal ArticleDOI
Stability of Taylor–Couette flow in a finite-length cavity with radial throughflow
TL;DR: In this article, the authors investigate the impact of radial inflow and outflow on Taylor vortex flow and wavy vortex flow in a finite-length cavity via direct numerical simulation using a three-dimensional spectral method.
Journal ArticleDOI
Absolute and convective instability of cylindrical Couette flow with axial and radial flows
TL;DR: Theoretical methods and numerical simulations were used to determine the impact of axial and radial flows, homogeneous in the axial direction, on the first transition of Taylor-Couette flow in the framework of convective and absolute instabilities.
References
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Book
Mathematica: A System for Doing Mathematics by Computer
TL;DR: This book will be released simultaneously with Release 2.0 of Mathematica and will cover all the new features of Release 1.0 as mentioned in this paper, including 16 pages of full-color graphics.
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TL;DR: This new edition maintains the format of the original book and is the single most important user guide and reference for Mathematica--all users ofMathematica will need this edition.
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Stability of a Viscous Liquid Contained between Two Rotating Cylinders
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