Investigation on thermophysical properties of Tio2–Cu/H2O hybrid nanofluid transport dependent on shape factor in MHD stagnation point flow

Ghadikolaei, S.S.; Yassari, M.; Sadeghi, Hossein; Hosseinzadeh, Kh.

doi:10.1016/j.powtec.2017.09.006

Cited by 389 publications

(136 citation statements)

References 43 publications

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“…Baghbanzadeh et al [25] investigated the rheological properties of silica-MWCNT/water hybrid nanofluid, and the results revealed that the structure of nanomaterial is very important in enhancing the viscosity and the density despite the negative effects of MWCNT on the rheological properties development. The same finding has been concluded by Ghadikolaei et al [45] for the thermophysical properties of Tio 2 -Cu/water hybrid nanofluid. Fig.…”

Section: Thermophysical Properties Of Hybrid Nanofluidssupporting

confidence: 89%

“…It is of great importance to mention here, based on the previous literature review, that a few research articles consider thermophysical properties to be temperature independent, such as [21] and [45]. In contrast, many research papers consider thermophysical properties to be temperature dependent, such as [7], [8], [11], [24], [25], [30], [32], [34], [36] and [37] 3 HEAT TRANSFER ENHANCEMENT USING HYBRID NANOFLUIDS…”

Section: Thermophysical Properties Of Hybrid Nanofluidsmentioning

confidence: 99%

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A Brief Survey of Preparation and Heat Transfer Enhancement of Hybrid Nanofluids

Hussien¹,

Al‐Kouz²,

Yusop³

et al. 2019

SV-JME

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Section: Thermophysical Properties Of Hybrid Nanofluidssupporting

confidence: 89%

Section: Thermophysical Properties Of Hybrid Nanofluidsmentioning

confidence: 99%

A Brief Survey of Preparation and Heat Transfer Enhancement of Hybrid Nanofluids

Hussien¹,

Al‐Kouz²,

Yusop³

et al. 2019

SV-JME

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“…Thermal analysis of biological systems is a vibrant area of modern biomechanics and biomedical engineering. Thermal science deals with properties of the substances associated with pressure, density, velocity, viscosity, and temperature and their relationship with energy which can be studied from the literature . Thermal science is divided into biological thermodynamics, classical thermodynamics, equilibrium and nonequilibrium thermodynamics, statistical thermodynamics, and heat transfer.…”

Section: Introductionmentioning

confidence: 99%

Adomian decomposition solution for propulsion of dissipative magnetic Jeffrey biofluid in a ciliated channel containing a porous medium with forced convection heat transfer

Manzoor

Maqbool

Bég

et al. 2018

Heat Trans. Asian Res.

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Physiological transport phenomena often feature ciliated internal walls. Heat, momentum, and multispecies mass transfer may arise and additionally non‐Newtonian biofluid characteristics are common in smaller vessels. Blood (containing hemoglobin) or other physiological fluids containing ionic constituents in the human body respond to magnetic body forces when subjected to external (extracorporeal) magnetic fields. Inspired by such applications, in the present work we have considered the forced convective flow of an electrically conducting viscoelastic physiological fluid through a ciliated channel under the action of a transverse magnetic field. The presence of deposits (fats, cholesterol, etc.) in the channel is mimicked with a Darcy porous medium drag force model. The effect of energy loss is simulated via the inclusion of viscous dissipation in the energy conservation (heat) equation. The velocity, temperature, and pressure distribution are computed in the form of infinite series constructed by Adomian decomposition method and numerically evaluated in a symbolic software (Mathematica). The influence of Hartmann number (magnetic parameter), Jeffrey first and second viscoelastic parameters, permeability parameter (modified Darcy number), and Brinkman number (viscous heating parameter) on velocity, temperature, pressure gradient, and bolus dynamics is visualized graphically.

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“…Further, they proved that with an ascending Brownian parameter or declining thermophoretic parameter, the concentration profile is augmented. Thermophysical properties of TiO 2 –Cu–water nanofluid transport in MHD stagnation point flow considering shape factor was analyzed by Ghadikolaei and colleagues . Ghadikolaei and colleagues studied three‐dimensional squeezing flow of mixture base fluid (ethylene glycol–water) suspended by hybrid nanoparticle (Fe 3 O 4 –Ag).…”

Section: Introductionmentioning

confidence: 99%

“…Thermophysical properties of TiO 2 -Cu-water nanofluid transport in MHD stagnation point flow considering shape factor was analyzed by Ghadikolaei and colleagues. 24 Ghadikolaei and colleagues 25 studied three-dimensional squeezing flow of mixture base fluid (ethylene glycol-water) suspended by hybrid nanoparticle (Fe 3 O 4 -Ag). Recently, nanofluid flow and heat transfer have been reviewed by many researchers.…”

Section: Introductionmentioning

confidence: 99%

Radiative nanofluid flow and heat transfer between parallel disks with penetrable and stretchable walls considering Cattaneo–Christov heat flux model

Dogonchi

Chamkha

Seyyedi

et al. 2018

Heat Trans. Asian Res.

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In this work, we explore the unsteady squeezing flow and heat transfer of nanofluid between two parallel disks in which one of the disks is penetrable and the other is stretchable/shrinkable, in the presence of thermal radiation and heat source impacts, and considering the Cattaneo–Christov heat flux model instead of the more conventional Fourier's law of heat conduction. A similarity transformation is utilized to transmute the governing momentum and energy equations into nonlinear ordinary differential equations with the proper boundary conditions. The achieved nonlinear ordinary differential equations are solved by the Duan–Rach Approach (DRA). This method modifies the standard Adomian Decomposition Method by evaluating the inverse operators at the boundary conditions directly. The impacts of diverse active parameters, such as the suction/injection parameter, the solid volume fraction, the heat source parameter, the thermal relaxation parameter, and the radiation parameter on flow and heat transfer traits are examined. In addition, the value of the Nusselt number is calculated and portrayed through figures.

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Investigation on thermophysical properties of Tio2–Cu/H2O hybrid nanofluid transport dependent on shape factor in MHD stagnation point flow

Cited by 389 publications

References 43 publications

A Brief Survey of Preparation and Heat Transfer Enhancement of Hybrid Nanofluids

A Brief Survey of Preparation and Heat Transfer Enhancement of Hybrid Nanofluids

Adomian decomposition solution for propulsion of dissipative magnetic Jeffrey biofluid in a ciliated channel containing a porous medium with forced convection heat transfer

Radiative nanofluid flow and heat transfer between parallel disks with penetrable and stretchable walls considering Cattaneo–Christov heat flux model

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