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Heat and Mass Transport Analysis of MHD Rotating Hybrid Nanofluids Conveying Silver and Molybdenum Di-Sulfide Nano-Particles under Effect of Linear and Non-Linear Radiation

Hassan, Ali ; Hussain, Azad ; Arshad, Mubashar ; [et al.]

MDPI AG ; 2022

In: Energies Vol. 15, No. 17 ( 2022-08-28), p. 6269-

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In: Energies, MDPI AG, Vol. 15, No. 17 ( 2022-08-28), p. 6269-

Abstract: This article is an attempt to explore the heat transfer features of the steady three-dimensional rotating flow of magneto-hydrodynamic hybrid nanofluids under the effect of nonlinear radiation over the bi-directional stretching surface. For this purpose, two different nano-particles, namely silver (Ag) and molybdenum di-sulfide (MoS2), were selected. Three different conventional base fluids were utilized to form desired hybrid nanofluids such as water (H2O), engine oil (EO), and ethylene glycol (EG). We obtained steady three-dimensional highly nonlinear partial differential equations. These highly nonlinear partial differential equations cannot be solved analytically, so these equations were handled in MATLAB with the BVP-4C technique with convergence tolerance at 10−6. The graph depicts the effect of the magnetization effect, thermal radiation, and stretching ratio on rotating hybrid nanofluids. Additionally, the impact of thermal radiation on the heat coefficient of three different hybrid nanofluids is being investigated. The augmentation in magnetization decreases the primary velocity, whereas the increment in radiation enhances the primary velocity. The stretching ratio and the presence of higher magnetic forces increase the temperature profile. The concentration profile was enhanced with an increment in the magnetic field, stretching, and rotation ratio. The maximum Nusselt number was achieved for the Ag-MoS2/EO hybrid nanofluid. It was concluded that augmentation in nonlinear radiation enhances the heat transfer coefficient for the examined cases (I) and (II) of the hybrid nanofluids. The Nusselt number doubled for both the examined cases under nonlinear radiation. Moreover, it was discovered that Ag-MoS2/water produced the best heat transfer results under nonlinear radiation. Therefore, the study recommends more frequent exploration of hybrid nanofluids (Ag-MoS2/water) when employing nonlinear radiation to analyze the heat transfer coefficient.

Type of Medium: Online Resource

ISSN: 1996-1073

URL: Article

DOI: 10.3390/en15176269

Language: English

Publisher: MDPI AG

Publication Date: 2022

detail.hit.zdb_id: 2437446-5

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Magneto-Hydrodynamic Flow above Exponentially Stretchable Surface with Chemical Reaction

Arshad, Mubashar ; Hussain, Azad ; Elfasakhany, Ashraf ; [et al.]

MDPI AG ; 2022

In: Symmetry Vol. 14, No. 8 ( 2022-08-15), p. 1688-

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In: Symmetry, MDPI AG, Vol. 14, No. 8 ( 2022-08-15), p. 1688-

Abstract: This article is focused on investigating the convective magneto-hydrodynamic single-phase flow for comparative analysis of two different base fluids above an exponentially stretchable porous surface under the effect of the chemical reaction. The Buongiorno fluid model is incorporated to observe the Thermophoresis and Brownian diffusion in this study. Boussinesq approximation for temperature and concentration are accounted for flow to be naturally convective. In this study, water and ethanol are assumed for comparative analysis. Additionally, to achieve the outcomes of the designed three-dimensional flow boundary value, problem technique is employed to simulate the problem in MATLAB. Increase in the magnetic field, thermophoresis diffusion, temperature exponent, and Prandtl number expand thermal boundary, whereas contraction is observed with an increase in porosity. Shear stress rates in respective directions have decreased with an increase in the stretching ratio of the surface. Moreover, through comparison, reasonably enhanced Nusselt number is observed for water under influence of study parameters while the Nusselt number abruptly decreases for ethanol. High mass coefficients are observed for both examined fluids.

Type of Medium: Online Resource

ISSN: 2073-8994

URL: Article

DOI: 10.3390/sym14081688

Language: English

Publisher: MDPI AG

Publication Date: 2022

detail.hit.zdb_id: 2518382-5

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