Review Article
Analysis of Fly Ash and Paramagnetic Nanoparticles with Hybrid Base Fluid Due to Applied Magnetic Dipole in a Stretching Sheet with Momentum Slip Condition: FEM Approach
Shahid Ali Khan1, Bagh Ali1, Yufeng Nie1* and Liaqat Ali2
1Department of Applied Mathematics, School of Science, Northwestern Polytechnical University, China
2School of Energy and Power, Xi’an Jiaotong University, China
Yufeng Nie, Department of Applied Mathematics, School of Science, Northwestern Polytechnical University, Dongxiang Road, Chang’an District, Xi’an 710129, China.
Received Date: April 10, 2020; Published Date: April 27, 2020
Abstract
In this article, a comprehensive analysis is performed for fly ash and paramagnetic ( T a ) nanoparticles with a hybrid base and micro polar fluid with momentum slip conditions over a stretching sheet. With the aid of the similarity transformation, the PDEs obtained are transmuted in the nonlinear ODE system, after which the numerical simulation is performed with the finite element method. The effect of physical parameters on velocity, micro rotation, and temperature are analyzed graphically. Results reveal that the velocity boundary layer thickness for fly ash nanoparticles is higher than paramagnetic and thermal conductivity of paramagnetic is higher than fly ash nanoparticles. The paramagnetic nanoparticles are, therefore, the best coolant. The comparison of the finite element method with previous researches is tabled and found in a good agreement.
Keywords: Magnetic dipole; Micro polar nanofluid flow; Slip condition; Finite element method 2010 MSC: 00-01; 99-00
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Shahid Ali Khan, Bagh Ali, Yufeng Nie, Liaqat Ali. Analysis of Fly Ash and Paramagnetic Nanoparticles with Hybrid Base Fluid Due to Applied Magnetic Dipole in a Stretching Sheet with Momentum Slip Condition: FEM Approach. Mod Concept Material Sci. 3(1): 2020. MCMS. MS.ID.000554.
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