Inclined magnetized and energy transportation aspect of infinite shear rate viscosity model of Carreau nanofluid with multiple features over wedge geometry
Shah, Syed Zahir Hussain and Fathurrochman, Irwan and Ayyub, Assad and Altamirano, Gilder Cieza and Rizwan, Ali and Núñez, Rafaél Artidoro Sandova and Sabir, Zulqarnain and Yeskindirova, Manshuk (2021) Inclined magnetized and energy transportation aspect of infinite shear rate viscosity model of Carreau nanofluid with multiple features over wedge geometry. Heat Transfer Wiley, 51 (2). pp. 16221648.
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Abstract
Heat transference in fluid mechanism has a deep influence in real‐life applications like hot‐mix paving,recovery of energy, concrete heating, heat spacing, refineries, distillation, autoclaves, reactors, air conditioning, and so forth. In this attempt, findings related to energy exchange with features of infinite shear rate viscosity model of Carreau nanofluid by placing inclined magnetic dipole over the wedge are made. The main role in the transportation of heat is exercised by incorporating facts of radiation, nonuniform heat sink source, Brownian motion, thermophoresis, and chemical reaction. The mathematical system of the infinite shear rate viscosity model of Carreau nanofluid gives a system of partial differential equations and furthermore, these are moved into ordinary differential equations. A numerical procedure is applied via shooting/bvp4c to obtain numerical results. Inclined magnetic dipole gives a lower velocity of Carreau nanofluid. Due to the relaxation time factor velocity of Carreau fluid gets down. A* causes to generate the heat internally, so due to this, temperature increases rapidly. The increasing rate of temperature is found very high for the growing Hartmann number. The rate of mass transport becomes low for gradual increment in the parameter of thermophoresis, wedge angle, and Prandtl. Inclined magnetic dipole gives a lower velocity of Carreau nanofluid. Due to the relaxation time factor, the velocity of the Carreau fluid goes down. The absence and presence of magnetic numbers have no influence on velocity, temperature, and concentration files for Le, Rd, θf, γ, We, β, Pr, Nb, Nt, A
Item Type:  Article  

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Uncontrolled Keywords:  Brownian motion, Carreau nanofluid, inclined magnetic dipole, infinite shear rate viscosity, wedge geometry  
Subjects:  H Social Sciences > H Social Sciences (General)  
Divisions:  Fakultas Tarbiyah > Manajemen Pendidikan Islam  
Depositing User:  Mrs Maisona Maisona  
Date Deposited:  03 Mar 2022 11:14  
Last Modified:  03 Mar 2022 11:14  
URI:  http://repository.iaincurup.ac.id/id/eprint/679 
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