Dean-coupled inertial migration and transient focusing of particles in a curved microscale pipe flow

The Dean-coupled inertial migration of neutrally buoyant spherical particles that are suspended in a curved microscale pipe flow was experimentally investigated in the range of and . The three-dimensional positions of the particles were measured by using digital holographic microscopy. The diameter...

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Bibliographic Details
Published in:Experiments in fluids 2012-12, Vol.53 (6), p.1867-1877
Main Authors: Seo, Kyung Won, Choi, Yong Seok, Lee, Sang Joon
Format: Article
Language:English
Subjects:
Agglomeration
Applied fluid mechanics
Buoyancy
Curved
Engineering
Engineering Fluid Dynamics
Engineering Thermodynamics
Exact sciences and technology
Fluid dynamics
Fluid- and Aerodynamics
Fluidics
Focusing
Fundamental areas of phenomenology (including applications)
Heat and Mass Transfer
Inertial
Instrumentation for fluid dynamics
Migration
Physics
Pipe flow
Research Article
Three dimensional
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Summary:The Dean-coupled inertial migration of neutrally buoyant spherical particles that are suspended in a curved microscale pipe flow was experimentally investigated in the range of and . The three-dimensional positions of the particles were measured by using digital holographic microscopy. The diameter of the microtube was 350 μm, and the ratios of the tube diameter ( D ) to the particle diameter ( d ) were D/d  = 12, 23, 35, and 50. Over a critical value of the Focusing number ( F C ), the particles were initially tubular-pinched at the entrance of the curved region. The detailed structures of the Segré–Silberberg annulus as well as its deformation attributed to secondary flow were analyzed. Diverse agglomeration patterns of particles corresponding to the various flow conditions were observed. The optimal conditions that induced the particles to focus at a certain lateral position were determined.
ISSN:0723-4864
1432-1114
DOI:10.1007/s00348-012-1403-4