Numerical solution of shear-thinning and shear-thickening boundary-layer flow for Carreau fluid over a moving wedge

Autor: N. M. Bujurke, L. Sandhya, Ramesh B. Kudenatti
Rok vydání: 2020
Předmět:
Zdroj: Engineering with Computers. 38:523-538
ISSN: 1435-5663
0177-0667
DOI: 10.1007/s00366-020-01164-y
Popis: This paper investigates the linear stability of the flow in the two-dimensional boundary-layer flow of the Carreau fluid over a wedge. The corresponding rheology is analysed using the non-Newtonian Carreau fluid. Both mainstream and wedge velocities are approximated in terms of the power of distance from the leading edge of the boundary layer. These forms exhibit a class of similarity flows for the Carreau fluid. The governing equations are derived from the theory of a non-Newtonian fluid which are converted into an ordinary differential equation. We use the Chebyshev collocation and shooting techniques for the solution of governing equations. Numerical results show that the viscosity modification due to Carreau fluid makes the boundary layer thickness thinner. Numerical results predict an additional solution for the same set of parameters. Thus, a further aim was to assess the stability of dual solutions as to which of the solutions can be realized. This leads to an eigenvalue problem in which the positive eigenvalues are important and intriguing. The results from eigenvalues form tongue-like structures which are rather new. The presence of the tongue means that flow becomes unstable beyond the critical value when the velocity ratio is increased from the first solution.
Databáze: OpenAIRE
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