Numerical and Thermal Investigation of Magneto-Hydrodynamic Hybrid Nanoparticles (SWCNT-Ag) under Rosseland Radiation: A Prescribed Wall Temperature Case

Hassan, Ali; Hussain, Azad; Arshad, Mubashar; Alanazi, Meznah M.; Zahran, H.Y.

doi:10.3390/nano12060891

Cited by 28 publications

(16 citation statements)

References 58 publications

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“…The continuity equation, along with conservation of energy, momentum, and concentration equations, is given as follows [ 11 , 12 , 22 ].

…”

Section: Mathematical Formulationsmentioning

confidence: 99%

“…In Equations (4)–(8), we see that

and

are the components of velocity in

plane, T denotes temperature, C is concentration,

is the attraction impact,

and

represent the heat and mass diffusivity,

is the cone’s semivertical rim,

and

are the temperature and volumetric extension coefficients,

are the free stream flow temperature and concentration,

is the kinematic thickness, and

denotes the free flow velocity. The initial (IC) and boundary conditions [ 11 , 12 ] are as follows:

…”

Section: Mathematical Formulationsmentioning

confidence: 99%

“…Defining the following argument of wall temperature changes [ 11 , 12 , 22 ]:

where

and

are the Brownian moment and thermophoresis parameters,

is Eckert Number,

is Deborah number, and

are the buoyancy parameters. The continuity equation (4) is uniformly fulfilled, and Equations (5)–(8) convert to the following form by using boundary conditions for the PWT case:

…”

Section: Mathematical Formulationsmentioning

confidence: 99%

“…Hassan et al [ 11 ] studied the heat transportation of hybrid nanofluids under thermal radiation and Rosseland radiation over a rotating cone. Hassan et al [ 12 ] elaborated a prescribed wall temperature case with magneto-hydrodynamic radiative hybrid particles. Arshad et al [ 13 ] examined the comparative analysis of heat transfer of a nanostructured material over an exponentially stretching sheet.…”

Section: Introductionmentioning

confidence: 99%

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Mass and Heat Transport Assessment and Nanomaterial Liquid Flowing on a Rotating Cone: A Numerical Computing Approach

et al. 2022

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In the present study, we explore the time-dependent convectional flow of a rheological nanofluid over a turning cone with the consolidated impacts of warmth and mass exchange. It has been shown that if the angular velocity at the free stream and the cone’s angular velocity differ inversely as a linear time function, a self-similar solution can be obtained. By applying sufficient approximation to the boundary layer, the managed conditions of movement, temperature, and nanoparticles are improved; afterward, the framework is changed to a non-dimensional framework utilizing proper comparability changes. A numerical solution for the obtained system of governing equations is achieved. The effect of different parameters on the velocity, temperature, and concentration profiles are discussed. Tangential velocity is observed to decrease with an increase in the Deborah number, whereas tangential velocity increases with increasing values of the angular velocity ratio, relaxation to the retardation time ratio, and buoyancy parameter. Expansion in the Prandtl number is noted to decrease the boundary layer temperature and thickness. The temperature is seen to decrease with an expansion in the parameters of lightness, thermophoresis parameter, and Brownian movement. It is discovered that the Nusselt number expands by expanding the lightness parameter and Prandtl number, whereas it increases by decreasing the Deborah number. We also noticed that the Sherwood number falls incrementally in Deborah and Prandtl numbers, but it upsurges with an increase in the buoyancy parameter.

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“…The continuity equation, along with conservation of energy, momentum, and concentration equations, is given as follows [ 11 , 12 , 22 ].

…”

Section: Mathematical Formulationsmentioning

confidence: 99%

“…In Equations (4)–(8), we see that

and

are the components of velocity in

plane, T denotes temperature, C is concentration,

is the attraction impact,

and

represent the heat and mass diffusivity,

is the cone’s semivertical rim,

and

are the temperature and volumetric extension coefficients,

are the free stream flow temperature and concentration,

is the kinematic thickness, and

denotes the free flow velocity. The initial (IC) and boundary conditions [ 11 , 12 ] are as follows:

…”

Section: Mathematical Formulationsmentioning

confidence: 99%

“…Defining the following argument of wall temperature changes [ 11 , 12 , 22 ]:

where

and

are the Brownian moment and thermophoresis parameters,

is Eckert Number,

is Deborah number, and

are the buoyancy parameters. The continuity equation (4) is uniformly fulfilled, and Equations (5)–(8) convert to the following form by using boundary conditions for the PWT case:

…”

Section: Mathematical Formulationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Mass and Heat Transport Assessment and Nanomaterial Liquid Flowing on a Rotating Cone: A Numerical Computing Approach

et al. 2022

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“…Ahmad et al [ 31 ] explained the 3D movement of Maxwell fluid above an exponentially stretching surface with a chemical reaction. Many researchers [ 32 , 33 , 34 , 35 , 36 , 37 , 38 , 39 ] have investigated the characteristics like heat transfer coefficients and reduced skin frictions by using different geometries and effects. Eid [ 40 ] used a dual-phase nanofluid model to deliberate the chemical reaction effects on MHD boundary layer movement above an exponentially stretched sheet.…”

Section: Introductionmentioning

confidence: 99%

Heat Transfer Analysis of Nanostructured Material Flow over an Exponentially Stretching Surface: A Comparative Study

et al. 2022

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The objective of the present research is to obtain enhanced heat and reduce skin friction rates. Different nanofluids are employed over an exponentially stretching surface to analyze the heat transfer coefficients. The mathematical model for the problem has been derived with the help of the Rivilin–Erickson tensor and an appropriate boundary layer approximation theory. The current problem has been tackled with the help of the boundary value problem algorithm in Matlab. The convergence criterion, or tolerance for this particular problem, is set at 10−6. The outcomes are obtained to demonstrate the characteristics of different parameters, such as the temperature exponent, volume fraction, and stretching ratio parameter graphically. Silver-water nanofluid proved to have a high-temperature transfer rate when compared with zinc-water and copper-water nanofluid. Moreover, the outcomes of the study are validated by providing a comparison with already published work. The results of this study were found to be in complete agreement with those of Magyari and Keller and also with Lui for heat transfer. The novelty of this work is the comparative inspection of enhanced heat transfer rates and reduced drag and lift coefficients, particularly for three nanofluids, namely, zinc-water, copper-water, and silver-water, over an exponentially stretching. In general, this study suggests more frequent exploitation of all the examined nanofluids, especially-water nanofluid. Moreover, specifically under the obtained outcomes in this research, the examined nanofluid, Ag-water, has great potential to be used in flat plate solar collectors. Ag-water can also be tested in natural convective flat plate solar collector systems under real solar effects.

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Significance of Cattaneo-Christov Heat Flux on Heat Transfer with Bioconvection and Swimming Micro Organisms in Magnetized Flow of Magnetite and Silver Nanoparticles Dispersed in Prandtl Fluid

Hussain,

Raiz,

Hassan

et al. 2023

BioNanoSci.

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Numerical and Thermal Investigation of Magneto-Hydrodynamic Hybrid Nanoparticles (SWCNT-Ag) under Rosseland Radiation: A Prescribed Wall Temperature Case

Cited by 28 publications

References 58 publications

Mass and Heat Transport Assessment and Nanomaterial Liquid Flowing on a Rotating Cone: A Numerical Computing Approach

Mass and Heat Transport Assessment and Nanomaterial Liquid Flowing on a Rotating Cone: A Numerical Computing Approach

Heat Transfer Analysis of Nanostructured Material Flow over an Exponentially Stretching Surface: A Comparative Study

Significance of Cattaneo-Christov Heat Flux on Heat Transfer with Bioconvection and Swimming Micro Organisms in Magnetized Flow of Magnetite and Silver Nanoparticles Dispersed in Prandtl Fluid

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