Nonlinear convective stratified flow of Maxwell nanofluid with activation energy
作者: Misbah Ijaz , Muhammad Ayub
DOI: 10.1016/J.HELIYON.2019.E01121
关键词:
摘要: Abstract The aim of present article is to explore the novel aspects activation energy in nonlinearly convective flow Maxwell nanofluid driven by stretched inclined cylinder. Generalized forms Fourier's and Fick's law are utilized through Cattaneo-Christov double diffusion scheme. nanomaterial model used describe significant slip mechanism namely known as Brownian thermophoresis diffusions. Features stratification, non-uniform heat generation/absorption, binary chemical reaction considered for problem. Modified Arrhenius formula implemented. resulting nonlinear system cracked series solutions via homotopy technique. Effects different parameters on temperature, nanoparticle volume concentration velocity fields examined graphs tables. Numerical computations performed local Nusselt Sherwood numbers. Our analysis reveals that directly proportional with energy. Moreover stratification variables diminish temperature concentration. It also noticed higher estimation Deborah number declines profile fluid. outcomes compared previous published results found be good agreement limiting cases evolving parameters.
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