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Filling a collapsible tube

Published online by Cambridge University Press:  22 October 2003

JOSE-MARIA FULLANA ,
FRANÇOIS CROS ,
PATRICE FLAUD  and
STÉPHANE ZALESKI
JOSE-MARIA FULLANA
Affiliation:
Laboratoires Innothéra, 7-9 Avenue Francois-Vincent Raspail, 91110 Arcueil, [email protected]
FRANÇOIS CROS
Affiliation:
Laboratoires Innothéra, 7-9 Avenue Francois-Vincent Raspail, 91110 Arcueil, [email protected]
PATRICE FLAUD
Affiliation:
Laboratoire de Biorhéologie et d'Hydrodynamique Physicochimique, CNRS, Université René Diderot (Paris 7), France
STÉPHANE ZALESKI
Affiliation:
Laboratoire de Modélisation en Mécanique, CNRS, Université Pierre et Marie Curie (Paris 6), France
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Abstract

We investigate experimentally and numerically the filling of a collapsible tube, motivated by venous hemodynamics in the lower limbs. The experiments are performed by filling an initially collapsed flexible tube, applying pressure through a hydraulic circuit. The tube law and the tube tension have been previously measured. The tube shape, the flow rate and the pressure at the two ends of the tube are measured continuously. The filling occurs in three stages: a rapid equilibration of the pressure near the tube entry with atmospheric pressure, a quasi-steady filling of the tube with a linearly rising pressure, and a final stage of tube inflation. Our numerical model is the classical one-dimensional collapsible tube equations. Excellent quantitative agreement is found between computations and experimental data. We show experimentally observed shapes near the tube end that indicate possible three-dimensional effects; however these effects do not impair significantly the ability of the one-dimensional model to describe the experiment. Travelling waves of large amplitude are observed in the simulations and the experiments.

Type
Papers
Information
Journal of Fluid Mechanics , Volume 494 , 10 November 2003 , pp. 285 - 296
Copyright
© 2003 Cambridge University Press

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