Axisymmetric Motion Of A Second Order ViscousFluid In A Circular Straight Tube Under PressureGradients Varying Exponentially With Time

Artigo

Axisymmetric Motion Of A Second Order ViscousFluid In A Circular Straight Tube Under PressureGradients Varying Exponentially With Time

2006; WIT Press; Volume: 52; Linguagem: Inglês

10.2495/afm060411

ISSN

1746-4471

Autores

Fernando Carapau, Adélia Sequeira,

Tópico(s)

Fluid Dynamics and Vibration Analysis

Resumo

The aim of this paper is to analyze the axisymmetric unsteady flow of a nonNewtonian incompressible second order fluid in a straight rigid and impermeable tube with circular cross-section of constant radius. To study this problem, we use the one dimensional (1D) nine-directors Cosserat theory approach which reduces the exact three-dimensional equations to a system depending only on time and on a single spatial variable. From this system we obtain the relationship between mean pressure gradient and volume flow rate over a finite section of the tube. Assuming that the pressure gradient rises and falls exponentially with time, the 3D exact solution for unsteady volume flow rate is compared with the corresponding 1D solution obtained by the Cosserat theory using nine directors.

Ver no editor

Altmetric

PlumX

Entrar

Lembrar minha senha

Receber meu e-mail de confirmação

Axisymmetric Motion Of A Second Order ViscousFluid In A Circular Straight Tube Under PressureGradients Varying Exponentially With Time