Abstract
Brownian motion and thermophoresis diffusions are the fundamental ideas of abnormal upgrading in thermal conductivity via binary fluids (base fluid along with nanoparticles). The influence of Brownian motion and thermophoresis are focused on in the Buongiorno model. In this problem, we considered the Buongiorno model with Brownian motion and thermophoretic effects. The nonlinear ordinary differential equations are recovered from the partial differential equations of the boundary flow via compatible similarity transformations and then employed to the Keller-box scheme for numerical results. The physical quantities of our concern including skin friction, Nusselt number, and Sherwood number along with velocity, temperature and concentration profile against involved effects are demonstrated. The impacts of the involved flow parameters are drawn in graphs and tabulated forms. The inclination effect shows an inverse relation with the velocity field. Moreover, the velocity profile increases with the growth of the buoyancy effect.
Highlights
Nanofluids set up a subclass of atomic liquids intended to work at the nanoscale
The flow of micropolar fluid over an inclined surface with different effects has been studied by Das [26]
Formulation we focus on the micropolar type nanofluid flow over an inclined surface by considering an HereHere we focus on the micropolar type nanofluid flow over an inclined surface by considering an angle γ
Summary
Nanofluids set up a subclass of atomic liquids intended to work at the nanoscale. Nanofluids constitute the relation between bulk materials and molecular structure. Studied the effects of internal heat generation and suction on mixed convective nanofluid flow through slanted surfaces They found that the increment in the volume fraction of the copper water nanofluid diminishes the velocity field. Ziaei-Rad et al [5] inspected the similarity solution of the boundary layer nanofluid flow over an inclined surface They found that the energy transport increases with increasing the suction. The flow of micropolar fluid over an inclined surface with different effects has been studied by Das [26] He discussed the energy and mass transport in this article. Rafique et al [32] probed the energy and mass transport of micropolar nanofluid flow over an inclined stretching surface They found that the velocity profile diminishes with the increment in the inclination and magnetic effect. It is informal to practice, much quicker, friendly to program, and effective
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