We probed the time-varying flow field immediately downstream of a flexible tube conveying an aqueous flow, during flow-induced oscillation of small amplitude, at time-averaged Reynolds numbers (Re) in the range 300–550. Velocity vector components in the plane of a laser sheet were measured by high-speed (“time-resolved”) particle image velocimetry. The sheet was aligned alternately with both the major axis and the minor axis of the collapsing tube by rotating the pressure chamber in which the tube was mounted. The Womersley number of the oscillations was approximately 10. In the major-axis plane the flow fields were characterized by two jets that varied in lateral spacing. The rapid deceleration of flow at maximal collapse caused the jets momentarily to merge about one diameter into the downstream pipe, and strengthened and enlarged the existing retrograde flow lateral to each jet. Collapse also spread the jets maximally, allowing retrograde flow between them during the ascent from its minimum of the pressure at the end of the flexible tube. The minor-axis flow fields showed that the between-jet retrograde flow at this time extended all the way across the pipe. Whereas the retrograde flow lateral to the jets terminated within three diameters of the tube end at at all times, it extended beyond three diameters at for some 25% of the cycle including the time of maximal flow deceleration. Off-axis sheet positioning revealed the lateral jets to be crescent shaped. When the pressure outside the tube was increased, flattening the tube more, the jets retained a more consistent lateral position. These results illuminate the flows created by collapsible-tube oscillation in a laminar regime accessible to numerical modeling.
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December 2008
Research Papers
PIV Measurements of the Flow Field Just Downstream of an Oscillating Collapsible Tube
C. D. Bertram,
C. D. Bertram
Biofluid Mechanics Laboratory, Faculty of Engineering,
University of New South Wales
, Sydney 2052, Australia
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N. K. Truong,
N. K. Truong
Biofluid Mechanics Laboratory, and Graduate School of Biomedical Engineering,
University of New South Wales
, Sydney 2052, Australia
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S. D. Hall
S. D. Hall
School of Mechanical and Manufacturing Engineering,
University of New South Wales
, Sydney 2052, Australia
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C. D. Bertram
Biofluid Mechanics Laboratory, Faculty of Engineering,
University of New South Wales
, Sydney 2052, Australia
N. K. Truong
Biofluid Mechanics Laboratory, and Graduate School of Biomedical Engineering,
University of New South Wales
, Sydney 2052, Australia
S. D. Hall
School of Mechanical and Manufacturing Engineering,
University of New South Wales
, Sydney 2052, AustraliaJ Biomech Eng. Dec 2008, 130(6): 061011 (10 pages)
Published Online: October 14, 2008
Article history
Received:
December 13, 2007
Revised:
May 20, 2008
Published:
October 14, 2008
Citation
Bertram, C. D., Truong, N. K., and Hall, S. D. (October 14, 2008). "PIV Measurements of the Flow Field Just Downstream of an Oscillating Collapsible Tube." ASME. J Biomech Eng. December 2008; 130(6): 061011. https://doi.org/10.1115/1.2985071
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