Magnetized dissipative Soret effect on nonlinear radiative Maxwell nanofluid flow with porosity, chemical reaction and Joule heating

Abstract This manuscript presents a study of three-dimensional MHD Maxwell nanofluid flow across a slendering stretched surface with Joule heating. The impact of binary chemical reactions, heat generation, thermal radiation, and thermophoretic effect is also taken into consideration. The multiple slip boundary conditions are utilized at the boundary of the surface. The appropriate similarity variable is used to transfer the flow modeled equations into ODEs, which are numerically solved by the utilization of the MATLAB bvp4c algorithm. The involved parameter's impact on the concentration, velocity, and temperature distribution are scrutinized with graphs. The transport rates (mass, heat) are also investigated using the same variables, with the results reported in tabulated form. It is seen that the fluid relaxation, magnetic, and wall thickness characteristics diminish the velocities of fluid. Further, the velocity, concentration, and temperature slip parameters reduce the velocities of fluid, temperature, and concentration distribution. The results are compared to existing studies and showed to be in dependable agreement.

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Impact of Non-Uniform Heat Source/Sink on Magnetohydrodynamic Maxwell Nanofluid Flow Over a Convectively Heated Stretching Surface with Chemical Reaction

Journal of Nanofluids ◽

10.1166/jon.2019.1622 ◽

2019 ◽

Vol 8 (4) ◽

pp. 795-805

Author(s):

M. Sagheer ◽

S. Shah ◽

S. Hussain ◽

M. Akhtar

Keyword(s):

Heat Source ◽

Chemical Reaction ◽

Stretching Surface ◽

Nanofluid Flow ◽

Maxwell Nanofluid ◽

Uniform Heat ◽

Source Sink

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Soret effect on transient magnetohydrodynamic nanofluid flow past a vertical plate through a porous medium with second order chemical reaction and thermal radiation

International Journal of Heat and Technology ◽

10.18280/ijht.360435 ◽

2018 ◽

Vol 36 (4) ◽

pp. 1430-1437 ◽

Cited By ~ 5

Author(s):

Amit Kumar ◽

Ramayan Singh ◽

Gauri Shanker Seth ◽

Rajat Tripathi

Keyword(s):

Porous Medium ◽

Thermal Radiation ◽

Chemical Reaction ◽

Vertical Plate ◽

Soret Effect ◽

Second Order ◽

Nanofluid Flow ◽

Flow Past ◽

Order Chemical Reaction

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Thermal radiation and Joule heating effects on a magnetohydrodynamic Casson nanofluid flow in the presence of chemical reaction through a non-linear inclined porous stretching sheet

Journal of Naval Architecture and Marine Engineering ◽

10.3329/jname.v17i2.49978 ◽

2020 ◽

Vol 17 (2) ◽

pp. 143-164 ◽

Cited By ~ 1

Author(s):

B. Shankar Goud ◽

Y. Dharmendar Reddy ◽

V. Srinivasa Rao

Keyword(s):

Chemical Reaction ◽

Joule Heating ◽

Nanofluid Flow ◽

Casson Nanofluid ◽

Flow Equations ◽

Flow Parameters ◽

Heating Effects ◽

Differential Flow ◽

Flow Variables ◽

Source Sink

The present study explores the thermal and Joule heating effect of Casson nanofluid flow with chemical reaction over an inclined porous stretching surface. The results of heat source/sink, viscous dissipation, and suction are regarded. The new physical governing equations of partial differential flow equations are converted into nonlinear ordinary differential equations and are numerically resolved employing the implicit finite difference technique. The influence on velocity, temperature, and concentration fields of many flow variables are addressed. The numerical and graphical findings are defined for the numerous related attentiveness flow parameters. The empirical data reported are compared with the published outcomes.

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