Applied Sciences (Nov 2021)

Development Length of Fluids Modelled by the gPTT Constitutive Differential Equation

  • Juliana Bertoco,
  • Rosalía T. Leiva,
  • Luís L. Ferrás,
  • Alexandre M. Afonso,
  • Antonio Castelo

DOI
https://doi.org/10.3390/app112110352
Journal volume & issue
Vol. 11, no. 21
p. 10352

Abstract

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In this work, we present a numerical study on the development length (the length from the channel inlet required for the velocity to reach 99% of its fully-developed value) of a pressure-driven viscoelastic fluid flow (between parallel plates) modelled by the generalised Phan–Thien and Tanner (gPTT) constitutive equation. The governing equations are solved using the finite-difference method, and, a thorough analysis on the effect of the model parameters α and β is presented. The numerical results showed that in the creeping flow limit (Re=0), the development length for the velocity exhibits a non-monotonic behaviour. The development length increases with Wi. For low values of Wi, the highest value of the development length is obtained for α=β=0.5; for high values of Wi, the highest value of the development length is obtained for α=β=1.5. This work also considers the influence of the elasticity number.

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