Magnetohydrodynamic flow of molybdenum disulfide nanofluid in a channel with shape effects

Raza, Jawad; Mebarek‐Oudina, Fateh; Chamkha, Ali J.

doi:10.1108/mmms-07-2018-0133

Cited by 156 publications

(55 citation statements)

References 50 publications

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“…This special attention is due to its significant applications in many industrial sectors. Examples of these sectors include solar receivers, crystal growth, float glass production, packaging of semiconductors, petroleum reservoirs, landing gear wells, geothermal energy systems, and an electronic chips . In this manner, the heat transfer and the flow field characteristics were investigated for the mixed convection problem in a cavity‐channel combination was investigated by many authors.…”

Section: Introductionmentioning

confidence: 99%

Heat transfer inside a horizontal channel with an open trapezoidal enclosure subjected to a heat source of different lengths

Laouira

Mebarek‐Oudina

Hussein

et al. 2019

Heat Trans. Asian Res.

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The heat transfer phenomena inside a horizontal channel with an open trapezoidal enclosure subjected to a heat source of different lengths was investigated numerically in the present work. The heat source is considered as a local heating element of varying length, which is embedded at the bottom wall of the enclosure and maintained at a constant temperature.The air flow enters the channel horizontally at a constant cold temperature and a fixed velocity. The other walls of the enclosure and the channel are kept thermally insulated. The flow is assumed laminar, incompressible, and two-dimensional, whereas the fluid is considered Newtonian. The results are presented in the form of the contours of velocity, isotherms, and Nusselt numbers profiles for various values of the dimensionless heat source lengths (0.16 ≤ ε ≤ 1). while, both Prandtl and Reynolds numbers are kept constant at (Pr = 0.71) and (Re = 100), respectively. The results indicated that the distribution of the isotherms depends significantly on the length of the heat source. Also, it was noted that both the local and the average Nusselt numbers increase as the local heat source length increases. Moreover, the maximum temperature is located near the heat source location.

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Section: Introductionmentioning

confidence: 99%

Heat transfer inside a horizontal channel with an open trapezoidal enclosure subjected to a heat source of different lengths

Laouira

Mebarek‐Oudina

Hussein

et al. 2019

Heat Trans. Asian Res.

Self Cite

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“…Further, the work of Mebarek-Oudina and Bessaih [24] and Mebarek-Oudina [25] on copper-water nanofluid and Titania nanofluids of different base fluids in cylindrical annulus with heat sources enrich the existing literature for interesting outcomes. Raza et al [26] considered MHD flow of molybdenum disulfide nanofluid in a channel and Hamrelaine et al [27] have analyzed the flow characteristics of Jeffery Hamel fluid with suction/injection applying Homotopy Analysis Method (HAM).…”

Section: Nomenclaturementioning

confidence: 99%

Numerical analysis of three-dimensional MHD flow of Casson nanofluid past an exponentially stretching sheet

Senapati¹,

Swain²,

Parida³

2020

Karbala International Journal of Modern Science

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“…Three-stage Lobatto III-A formula is built in BVP4C function with aid of C 1 piece-wise cubic polynomial in the finite difference code. According to Lund et al, [35] and Raza et al, [36], "this collocation polynomial and formula offers a C 1 continuous solution in which mesh error control and selection are created on the residual of the continuous solution. The tolerance of relative error is fixed 10 −5 for the current problem.…”

Section: Three-stage Lobatto Iii-a Formulamentioning

confidence: 99%

Triple Solutions and Stability Analysis of Micropolar Fluid Flow on an Exponentially Shrinking Surface

et al. 2020

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In this article, we reconsidered the problem of Aurangzaib et al., and reproduced the results for triple solutions. The system of governing equations has been transformed into the system of non-linear ordinary differential equations (ODEs) by using exponential similarity transformation. The system of ODEs is reduced to initial value problems (IVPs) by employing the shooting method before solving IVPs by the Runge Kutta method. The results reveal that there are ranges of multiple solutions, triple solutions, and a single solution. However, Aurangzaib et al., only found dual solutions. The effect of the micropolar parameter, suction parameter, and Prandtl number on velocity, angular velocity, and temperature profiles have been taken into account. Stability analysis of triple solutions is performed and found that a physically possible stable solution is the first one, while all leftover solutions are not stable and cannot be experimentally seen.

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Magnetohydrodynamic flow of molybdenum disulfide nanofluid in a channel with shape effects

Cited by 156 publications

References 50 publications

Heat transfer inside a horizontal channel with an open trapezoidal enclosure subjected to a heat source of different lengths

Heat transfer inside a horizontal channel with an open trapezoidal enclosure subjected to a heat source of different lengths

Numerical analysis of three-dimensional MHD flow of Casson nanofluid past an exponentially stretching sheet

Triple Solutions and Stability Analysis of Micropolar Fluid Flow on an Exponentially Shrinking Surface

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