Electric field strength on water based aluminum alloys nanofluids flow up a non-linear inclined sheet

Kandasamy, R.; Adnan, Nur Atikah bt; Abbood, Jaafar Abdul Abbas; Kamarulzaki, Mohd; Saifullah, Mohd

doi:10.1016/j.jestch.2018.10.004

Cited by 3 publications

(3 citation statements)

References 31 publications

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“…Kandasamy at al. [13] considered the electric field strength for the analysis of heat transport in magnetised AA7075 alloys. Tlili et al [14] investigated three-dimensional heat transfer characteristics in the hybrid colloidal model AA7072-AA7075/Methanol under various velocity conditions.…”

Section: Introductionmentioning

confidence: 99%

Mathematical Modelling of Ree-Eyring Nanofluid Using Koo-Kleinstreuer and Cattaneo-Christov Models on Chemically Reactive AA7072-AA7075 Alloys over a Magnetic Dipole Stretching Surface

Shah¹,

Vrînceanu

Rooman³

et al. 2022

Coatings

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In the current study, since nanofluids have a high thermal resistance, and because non-Newtonian (Ree-Eyring) fluid movement on a stretching sheet by means of suspended nanoparticles AA7072-AA7075 is used, the proposed mathematical model takes into account the influence of magnetic dipoles and the Koo-Kleinstreuer model. The Cattaneo-Christov model is used to calculate heat transfer in a two-dimensional flow of Ree-Eyring nanofluid across a stretching sheet, and viscous dissipation is taken into account. The base liquid water with suspended nanoparticles AA7072-AA7075 is considered in this study. The PDEs are converted into ODEs by exhausting similarity transformations. The numerical solution of the altered equations is then performed utilising the HAM. To examine the performance of velocity, temperature profiles, concentration profiles, skin friction, the Nusselt number, and the Sherwood number, a graphical analysis is carried out for various parameters. The new model’s key conclusions are that the AA7075 alloy outperforms the AA7072 alloy in terms of thermal performance as the volume fraction and ferro-magnetic interaction constraint rise. Additionally, the rate of heat transmission and the skin friction coefficient improve as the volume fraction rises.

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Section: Introductionmentioning

confidence: 99%

Mathematical Modelling of Ree-Eyring Nanofluid Using Koo-Kleinstreuer and Cattaneo-Christov Models on Chemically Reactive AA7072-AA7075 Alloys over a Magnetic Dipole Stretching Surface

Shah¹,

Vrînceanu

Rooman³

et al. 2022

Coatings

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“…The effect of variable thermal conductivity on hydromagnetic kerosenealumina nano-liquid was examined by Ellahi et al [4]. In many studies [5][6][7][8][9], the effect of MHD flow of aluminum alloys, copper, titanium alloy with different base fluids have been discussed.…”

Section: Introductionmentioning

confidence: 99%

Entropy Generation Analysis on MHD Flow with a Binary Mixture of Ethylene Glycol and Water Based Silver-Graphene Hybrid Nanoparticles in Automotive Cooling Systems

Reddy¹,

Reddy²

2021

IJHT

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The present work is focused on the flow and transfer of heat analysis of the silver-graphene with a binary mixture of ethylene glycol (EG) and water (0:100, 20:80 and 40:60 vol %) based hybrid nanofluids. Flow formulation is developed by considering the effect of magnetic field, stagnation point flow, Joule heating and viscous dissipation. Heat exchanger plays an important role because of the increasing demand for efficient cooling systems in automotive industries. Proper transforms lead to highly nonlinear differential systems, which are solved through shooting procedure with fourth order R-K (Runge-Kutta) method. The results of numerous control parameters for both silver-graphene nanoparticles are graphically shown and discussed in detail. The current numerical work is qualified through comparative study with the formerly published results for a special case. The heat transfer rate is higher with lower Ec values and higher ϕ1 and ϕ2 values.

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“…Nanoparticle shapes on radiative MHD water based aluminum alloy nanoparticles, AA7072 and AA7075 flow up a non-linear wall with distinct flow condition is analyzed by Kandasamy et al [18]. The unsteady flow and heat transfer past a stretching/shrinking sheet in a hybrid nanofluid is studied by Waini et al [19].…”

Section: Introductionmentioning

confidence: 99%

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

Nie¹

2020

MCMS

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In this article, a comprehensive analysis is performed for fly ash and paramagnetic ( ) a T 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.

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Electric field strength on water based aluminum alloys nanofluids flow up a non-linear inclined sheet

Cited by 3 publications

References 31 publications

Mathematical Modelling of Ree-Eyring Nanofluid Using Koo-Kleinstreuer and Cattaneo-Christov Models on Chemically Reactive AA7072-AA7075 Alloys over a Magnetic Dipole Stretching Surface

Mathematical Modelling of Ree-Eyring Nanofluid Using Koo-Kleinstreuer and Cattaneo-Christov Models on Chemically Reactive AA7072-AA7075 Alloys over a Magnetic Dipole Stretching Surface

Entropy Generation Analysis on MHD Flow with a Binary Mixture of Ethylene Glycol and Water Based Silver-Graphene Hybrid Nanoparticles in Automotive Cooling Systems

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

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