Axisymmetric Swirling Motion of Viscoelastic Fluid Flow Inside a Slender Surface of Revolution
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IAENG Engineering Letters
Abstract
Motived by the aim of modelling the
behavior of swirling flow motion, we present a 1D
hierarchical model for an Rivlin-Ericksen fluid with
complexity n = 2, flowing in a circular straight tube
with constant and no constant radius. Integrating
the equation of conservation of linear momentum over
the tube cross-section, with the velocity field approximated
by the Cosserat theory, we obtain a onedimensional
system depending only on time and on a
single spatial variable. The velocity field approximation
satisfies both the incompressibility condition and
the kinematic boundary condition exactly. From this
new system, we derive the equation for the wall shear
stress and the relationship between average pressure
gradient, volume flow rate and swirling scalar function
over a finite section of the tube. Also, we obtain
the corresponding partial differential equation for the
swirling scalar function.
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IAENG Engineering Letters, Issue 4, Volume 17, pp. 238-245, 2009.