Use of natural instabilities for generation of streamwise vortices in a laminar channel flow

Use of natural instabilities for generation of streamwise vortices in a laminar channel flow

An analysis of pressure-gradient-driven flows in channels with walls modified by transverse ribs has been carried out. The ribs have been introduced intentionally in order to generate streamwise vortices through centrifugally driven instabilities. The cost of their introduction, i.e. the additional...

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Bibliographic Details
Published in:Theoretical and computational fluid dynamics Vol. 31; no. 3; pp. 233 - 250
Main Authors: Moradi, H. V., Budiman, A. C., Floryan, J. M.
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-06-2017
Springer
Springer Nature B.V
Subjects:
Amplitudes
Analysis
Channel flow
Classical and Continuum Physics
Computational fluid dynamics
Computational Science and Engineering
Engineering
Engineering Fluid Dynamics
Fluid flow
Formations
Instability
Laminar flow
Original Article
Ribs
Vortex motion
Vortices
Wavelengths
United States
Laminar channel flow
Transverse grooves
Vortex instability
Viscosity-driven instability
Mixing enhancement
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Summary:An analysis of pressure-gradient-driven flows in channels with walls modified by transverse ribs has been carried out. The ribs have been introduced intentionally in order to generate streamwise vortices through centrifugally driven instabilities. The cost of their introduction, i.e. the additional pressure losses, have been determined. Linear stability theory has been used to determine conditions required for the formation of the vortices. It has been demonstrated that there exists a finite range of rib wave numbers capable of creating vortices. Within this range, there exists an optimal wave number which results in the minimum critical Reynolds number for the specified rib amplitude. The optimal wave numbers marginally depend on the rib positions and amplitudes. As the formation of the vortices can be interfered with by viscosity-driven instabilities, the critical conditions for the onset of such instabilities have also been determined. The rib geometries which result in the vortex formation with the smallest drag penalty and without interference from the viscosity-driven instabilities have been identified.
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ISSN:0935-4964
1432-2250
DOI:10.1007/s00162-016-0418-5