The flow inside a horizontal annulus due to the inner cylinder rotation is studied. The bottom of the annular space is partially blocked by a plate parallel to the axis of rotation, thereby destroying the circumferential symmetry of the annular space geometry. This flow configuration is encountered in the drilling process of horizontal petroleum wells, where a bed of cuttings is deposited at the bottom part of the annulus. The velocity field for this flow was obtained both numerically and experimentally. In the numerical work, the equations which govern the three-dimensional, laminar flow of both Newtonian and power-law liquids were solved via a finite-volume technique. In the experimental research, the instantaneous and time-averaged flow fields over two-dimensional meridional sections of the annular space were measured employing the particle image velocimetry (PIV) technique, also both for Newtonian and power-law liquids. Attention was focused on the determination of the onset of secondary flow in the form of distorted Taylor vortices. The results showed that the critical rotational Reynolds number is directly influenced by the degree of obstruction of the flow. The influence of the obstruction is more perceptible for Newtonian than for non-Newtonian liquids. The more severe is the obstruction, the larger is the critical Taylor number. The height of the obstruction also controls the width of the vortices. The calculated steady-state axial velocity profiles agreed well with the corresponding measurements. Transition values of the rotational Reynolds number are also well predicted by the computations. However, the measured and predicted values for the vortex size do not agree as well. Transverse flow maps revealed a complex interaction between the Taylor vortices and the zones of recirculating flow, for moderate to high degrees of flow obstruction.
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January 2006
Special Section On The Fluid Mechanics And Rheology Of Nonlinear Materials At The Macro, Micro And Nano Scale
Taylor-Couette Instabilities in Flows of Newtonian and Power-Law Liquids in the Presence of Partial Annulus Obstruction
B. V. Loureiro,
B. V. Loureiro
Department of Mechanical Engineering,
Pontifícia Universidade Católica do Rio de Janeiro
, Rua Marquês de São Vicente 225, Gávea, Rio de Janeiro, RJ, 22453-900, Brazil
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P. R. de Souza Mendes,
P. R. de Souza Mendes
Department of Mechanical Engineering,
Pontifícia Universidade Católica do Rio de Janeiro
, Rua Marquês de São Vicente 225, Gávea, Rio de Janeiro, RJ, 22453-900, Brazil
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L. F. A. Azevedo
L. F. A. Azevedo
Department of Mechanical Engineering,
Pontifícia Universidade Católica do Rio de Janeiro
, Rua Marquês de São Vicente 225, Gávea, Rio de Janeiro, RJ, 22453-900, Brazil
Search for other works by this author on:
B. V. Loureiro
Department of Mechanical Engineering,
Pontifícia Universidade Católica do Rio de Janeiro
, Rua Marquês de São Vicente 225, Gávea, Rio de Janeiro, RJ, 22453-900, Brazil
P. R. de Souza Mendes
Department of Mechanical Engineering,
Pontifícia Universidade Católica do Rio de Janeiro
, Rua Marquês de São Vicente 225, Gávea, Rio de Janeiro, RJ, 22453-900, Brazil
L. F. A. Azevedo
Department of Mechanical Engineering,
Pontifícia Universidade Católica do Rio de Janeiro
, Rua Marquês de São Vicente 225, Gávea, Rio de Janeiro, RJ, 22453-900, BrazilJ. Fluids Eng. Jan 2006, 128(1): 42-54 (13 pages)
Published Online: September 29, 2005
Article history
Received:
September 20, 2004
Revised:
September 29, 2005
Citation
Loureiro, B. V., de Souza Mendes, P. R., and Azevedo, L. F. A. (September 29, 2005). "Taylor-Couette Instabilities in Flows of Newtonian and Power-Law Liquids in the Presence of Partial Annulus Obstruction." ASME. J. Fluids Eng. January 2006; 128(1): 42–54. https://doi.org/10.1115/1.2136930
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