Numerical simulation of non-newtonian flows through ducts with axisymmetric expansions using power-law model
Keywords:
Numerical simulation, axisymmetric abrupt expansion, non-Newtonian flowAbstract
This work presents a method to simulate incompressible non-Newtonian flows through a duct with axisymmetric sudden expansion, with emphasis to the expansion ratios. The governing equations are solved using the finite-differences explicit Runge-Kutta time-stepping scheme in nondimensional form in which continuity and momentum are solved simultaneously along the grid points. The power-law model is applied to predict pseudoplastic and dilatant behavior. Numerical results for some expansions ratios are presented for Re=20 and show a good agreement with the theory for these flows. Palavras-Chave: Numerical simulation, axisymmetric abrupt expansion, non-Newtonian flow.Downloads
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Published
2008-02-07
How to Cite
Manica, R., & Bortoli, Álvaro L. de. (2008). Numerical simulation of non-newtonian flows through ducts with axisymmetric expansions using power-law model. VETOR - Journal of Exact Sciences and Engineering, 13(2), 67–77. Retrieved from https://periodicos.furg.br/vetor/article/view/676
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