Analysis of pure nanofluid (GO/engine oil) and hybrid nanofluid (GO–Fe<sub>3</sub>O<sub>4</sub>/engine oil): Novel thermal and magnetic features

Ahmad, Sohail; Ali, Kashif; Ashraf, Muhammad; Khalifa, Hamiden Abd El-Wahed; ElSeabee, Fayza Abdel Aziz; Din, El Sayed M. Tag El

doi:10.1515/ntrev-2022-0486

Cited by 24 publications

(2 citation statements)

References 33 publications

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“…Nawaz et al [19] studied the hybrid Williamson nanofluid following the non-Fourier heat conduction and Forchheimer porous medium. The most recent study is by Sohail et al [20] examined the thermal and flow characteristics of the hybrid and single-phase GO EO / and Fe O GO EO…”

Section: Introductionmentioning

confidence: 99%

Irreversibility analysis and thermal radiative of Williamson (ZnO+MOS ₂/C ₃ H ₈ O ₂) hybrid nanofluid over a porous surface with a suction effect

Ahmed,

Ali,

Zafar

et al. 2023

Phys. Scr.

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The current approach considered the suction/inject flow of a Williamson hybrid nanoliquid in porous medium under the effect of the thermal radiative flow towards a convectively heated streching sheet. propylene glycol (PG) (C_3 H_8 O_2) is employed as the base liquid in this study, and the nanoparticles are Molybdenum disulfide (MOS_2)and Zinc Oxide (ZnO). The primary contribution of this study is to discuss heat transmission via thermal radiation, suction/injection, and the porous parameter on the flow of a William hybrid nanoliquid. The current problem is evaluated using the connective and suction/injection, and it is moedlled using higher-order nonlinear PDEs that are turned into highly nonlinear ODEs using the similarity transformation method. The Bvp4c technique is used on these generating ODEs for the mumerical technique in the methodology section. In the discussion section, the significant of several flow parameters on the velocity, energy, entropy generation and Bejan number of the hybrid nanofluid are plotted against various flow parameters. A significant drop in the velocity field is supported by the WilliamsonWe, Unsteadyβ, and porosityγ factors. The temperature profile is significantly raised by the Biot numberBi, thermal radiationRd, and suction factorS.Moreover, it has been found that entropy increases with radiationRd but reduces in Brinkman number Br against the bejan number profile.The analysis of physical quantities requires the use of numerical data. Our results for a few specific situations were compared with previously published data to establish the validity of the current study, and it was discovered that they were in strong agreement

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Section: Introductionmentioning

confidence: 99%

Irreversibility analysis and thermal radiative of Williamson (ZnO+MOS ₂/C ₃ H ₈ O ₂) hybrid nanofluid over a porous surface with a suction effect

Ahmed,

Ali,

Zafar

et al. 2023

Phys. Scr.

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“…Some works have already been devoted to the study of the use of hybrid nanoparticles in lubricating oils. For instance, Ahmad et al [15] investigated the thermal and magnetic characteristics of a nanofluid in motor oil (EO) with graphene oxide (GO), and the hybrid nanofluid GO-Fe 3 O 4 /EO under the same effect of the induced applied magnetic field. They observed that the hybrid GO-Fe 3 O 4 /EO composition provided the thermal stability of the nanofluids at high temperature.…”

Section: Introductionmentioning

confidence: 99%

Thermal Transport and Rheological Properties of Hybrid Nanofluids Based on Vegetable Lubricants

Ribeiro,

Taha-Tijerina,

Gomez

et al. 2023

Nanomaterials

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Nanofluids based on vegetal oil with different wt.% of carbon nanotubes (CNT), hexagonal boron nitride (h-BN), and its hybrid (h-BN@CNT) were produced to investigate the effects of these nano-additives on the thermal conductivity and rheological properties of nanofluids. Stable suspensions of these oil/nanostructures were produced without the use of stabilizing agents. The dispersed nanostructures were investigated by SEM, EDS, XRD, and XPS, while the thermal conductivity and rheological characteristics were studied by a transient hot-wire method and steady-state flow tests, respectively. Increases in thermal conductivity of up to 39% were observed for fluids produced with 0.5 wt.% of the hybrid nanomaterials. As for the rheological properties, it was verified that both the base fluid and the h-BN suspensions exhibited Newtonian behavior, while the presence of CNT modified this tendency. This change in behavior is attributed to the hydrophobic character of both CNT and the base oil, while h-BN nanostructures have lip-lip “bonds”, giving it a partial ionic character. However, the combination of these nanostructures was fundamental for the synergistic effect on the increase of thermal conductivity with respect to their counterparts.

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Velocity and thermal slip impact towards GO-MoS2/C3H8O3 hybridity nanofluid flowing via a moving Riga plate

Aminuddin,

Nasir,

Jamshed

et al. 2024

Ain Shams Engineering Journal

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Analysis of pure nanofluid (GO/engine oil) and hybrid nanofluid (GO–Fe₃O₄/engine oil): Novel thermal and magnetic features

Cited by 24 publications

References 33 publications

Irreversibility analysis and thermal radiative of Williamson (ZnO+MOS ₂/C ₃ H ₈ O ₂) hybrid nanofluid over a porous surface with a suction effect

Irreversibility analysis and thermal radiative of Williamson (ZnO+MOS ₂/C ₃ H ₈ O ₂) hybrid nanofluid over a porous surface with a suction effect

Thermal Transport and Rheological Properties of Hybrid Nanofluids Based on Vegetable Lubricants

Velocity and thermal slip impact towards GO-MoS2/C3H8O3 hybridity nanofluid flowing via a moving Riga plate

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Analysis of pure nanofluid (GO/engine oil) and hybrid nanofluid (GO–Fe3O4/engine oil): Novel thermal and magnetic features

Cited by 24 publications

References 33 publications

Irreversibility analysis and thermal radiative of Williamson (ZnO+MOS 2/C 3 H 8 O 2) hybrid nanofluid over a porous surface with a suction effect

Irreversibility analysis and thermal radiative of Williamson (ZnO+MOS 2/C 3 H 8 O 2) hybrid nanofluid over a porous surface with a suction effect

Thermal Transport and Rheological Properties of Hybrid Nanofluids Based on Vegetable Lubricants

Velocity and thermal slip impact towards GO-MoS2/C3H8O3 hybridity nanofluid flowing via a moving Riga plate

Contact Info

Product

Resources

About

Analysis of pure nanofluid (GO/engine oil) and hybrid nanofluid (GO–Fe₃O₄/engine oil): Novel thermal and magnetic features

Irreversibility analysis and thermal radiative of Williamson (ZnO+MOS ₂/C ₃ H ₈ O ₂) hybrid nanofluid over a porous surface with a suction effect

Irreversibility analysis and thermal radiative of Williamson (ZnO+MOS ₂/C ₃ H ₈ O ₂) hybrid nanofluid over a porous surface with a suction effect