Flow of wormlike micelle solutions past a confined circular cylinder
Autor: | Jonathan P. Rothstein, Geoffrey R. Moss |
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Rok vydání: | 2010 |
Předmět: |
Pressure drop
Materials science Elastic instability business.industry Applied Mathematics Mechanical Engineering General Chemical Engineering Mechanics Condensed Matter Physics Pipe flow Cylinder (engine) law.invention Deborah number Condensed Matter::Soft Condensed Matter Physics::Fluid Dynamics Optics Particle image velocimetry law Flow birefringence Potential flow around a circular cylinder General Materials Science business |
Zdroj: | Journal of Non-Newtonian Fluid Mechanics. 165:1505-1515 |
ISSN: | 0377-0257 |
DOI: | 10.1016/j.jnnfm.2010.07.014 |
Popis: | In this paper, we present the results of an investigation into the flow of a series of viscoelastic wormlike micelle solutions past a confined circular cylinder. Although this benchmark flow has been studied in great detail for polymer solutions, this paper reports the first experiments to use a viscoelastic wormlike micelle solution as the test fluid. The flow kinematics, stability and pressure drop were examined for two different wormlike micelle solutions over a wide range of Deborah numbers and cylinder to channel aspect ratios. A combination of particle image velocimetry and pressure drop measurements were used to characterize the flow kinematics, while flow-induced birefringence measurements were used to measure the micelle deformation and alignment in the flow. The pressure drop was found to decrease initially due to the shear thinning of the test fluid before increasing at higher flow rates as elastic effects begin to dominate the flow. Above a critical Deborah number, an elastic instability was observed for just one of the test fluids studied, the other remained stable for all Deborah number tested. Flow-induced birefringence and velocimetry measurements showed that observed instability originates in the extensional flow in the wake of the cylinder and appears not as periodic counter-rotating vortices as has been observed in the flow of polymer solutions past circular cylinders, but as a chaotic rupture event in the wake of the cylinder that propagates axially along the cylinder. Reducing the cylinder to channel aspect ratio and the degree of shearing introduced by the channel walls had a weak impact on the stability of the flow. These measurements, when taken in conjunction with previous work on flow of wormlike micelle solutions through a periodic array of cylinders, definitively show that the instability can be attributed to a breakdown of the wormlike micelle solutions in the extensional flow in the wake of the cylinder. |
Databáze: | OpenAIRE |
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