期刊论文详细信息
Nonlinear engineering: Modeling and application
Generalized second-order slip for unsteady convective flow of a nanofluid: a utilization of Buongiorno’s two-component nonhomogeneous equilibrium model
article
Seyed Mahdi Mousavi1  Saeed Dinarvand1  Mohammad Eftekhari Yazdi1 
[1] Mechanical Engineering Department, Central Tehran Branch, Islamic Azad University
关键词: Unsteady convective flow;    Nanofluid;    Buongiorno’s model;    Shrinking/stretching plate;    Second-order slip;    Dual solutions;    Nanoparticles concentration boundary condition;   
DOI  :  10.1515/nleng-2020-0005
来源: De Gruyter
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【 摘 要 】

The unsteady convective boundary layer flow of a nanofluid along a permeable shrinking/stretching plate under suction and second-order slip effects has been developed. Buongiorno’s two-component nonhomogeneous equilibrium model is implemented to take the effects of Brownian motion and thermophoresis into consideration. It can be emphasized that, our two-phase nanofluid model along with slip concentration at the wall shows better physical aspects relative to taking the constant volume concentration at the wall. The similarity transformation method (STM), allows us to reducing nonlinear governing PDEs to nonlinear dimensionless ODEs, before being solved numerically by employing the Keller-box method (KBM). The graphical results portray the effects of model parameters on boundary layer behavior. Moreover, results validation has been demonstrated as the skin friction and the reduced Nusselt number. We understand shrinking plate case is a key factor affecting non-uniqueness of the solutions and the range of the shrinking parameter for which the solution exists, increases with the first order slip parameter, the absolute value of the second order slip parameter as well as the transpiration rate parameter. Besides, the second-order slip at the interface decreases the rate of heat transfer in a nanofluid. Finally, the analysis for no-slip and first-order slip boundary conditions can also be retrieved as special cases of the present model.

【 授权许可】

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