Numerical exploration of thermal and mass transportation by utilising non-Fourier double diffusion theories for Casson model under Hall and ion slip effects

Sohail, Muhammad; Alrabaiah, Hussam; Ali, Umair; Zohra, Fatema Tuz; Selim, Mahmoud M.; Thounthong, Phatiphat

doi:10.1007/s12043-021-02220-y

Cited by 8 publications

(5 citation statements)

References 34 publications

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“…In other words, the Casson fluid is viewed as a fluid with variable plastic dynamic viscosity and a severe yield stress. For an increase in the values of the Casson fluid parameter, the velocity improves near the wall and barely [17] are in good agreement. For porous parameterγ, the drag force and porosity parameter are closely related.…”

Section: Findings and Discussionmentioning

confidence: 74%

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Importance of Activation Energy on Magnetized Dissipative Casson-Maxwell Fluid through Porous Medium Incorporating Chemical Reaction, Joule Heating, and Soret Effects: Numerical Study

Althobaiti

2024

Journal of Applied Mathematics

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In recent decades, the study of non-Newtonian fluids has attracted the interest of numerous researchers. Their study is encouraged by the significance of these fluids in fields including industrial implementations. Furthermore, the importance of heat and mass transfer is greatly increased by a variety of scientific and engineering processes, including air conditioning, crop damage, refrigeration, equipment power collectors, and heat exchangers. The key objective of this work is to use the mathematical representation of a chemically reactive Casson-Maxwell fluid over a stretched sheet circumstance. Arrhenius activation energy and aspects of the magnetic field also have a role. In addition, the consequences of both viscous dissipation, Joule heating, and nonlinear thermal radiation are considered. The method transforms partial differential equations originating in fluidic systems into nonlinear differential equation systems with the proper degree of similarity which is subsequently resolved utilizing the Lobatto IIIA technique’s powerful computing capabilities. It is important to recall that the velocity profile drops as the Maxwell fluid parameter increases. Additionally, the increase in the temperature ratio parameter raises both the fluid’s temperature and the corresponding thickness of the boundary layer.

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Section: Findings and Discussionmentioning

confidence: 74%

“…To distinguish the various components of heat transmission, they also used viscous dissipation and Joule-heating conditions. The references mention a number of additional works that discuss the Casson fluid model [15][16][17].…”

Section: Introductionmentioning

confidence: 99%

Importance of Activation Energy on Magnetized Dissipative Casson-Maxwell Fluid through Porous Medium Incorporating Chemical Reaction, Joule Heating, and Soret Effects: Numerical Study

Althobaiti

2024

Journal of Applied Mathematics

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“…The slip blood thermal flow with nanoparticles suspension in vessels has been claimed in work of Seikh et al [14]. Sohail et al [15] numerically explored the Hall impact while assessing the nanofluid thermal impact for Casson base fluid. Madhukesh et al [16] analyzed the thermal prospective of AA7072-AA7075 nanoparticles thermal performances due to curved surface in presence of Newtonian heating phenomenon.…”

Section: Introductionmentioning

confidence: 98%

“…Sohail et al. [15] numerically explored the Hall impact while assessing the nanofluid thermal impact for Casson base fluid. Madhukesh et al.…”

Section: Introductionmentioning

confidence: 99%

Thermal aspect of boron nitride nanotubes (BNNT) and multiwall carbon nanotubes (MWCNT) with distinct physical features: Keller Box simulations

et al. 2022

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The research on hybrid nanofluid has been focused by researchers widely in the current decade. Being the combination of two distinct nanoparticles, the researchers have predicted the thermal efficiencies of hybrid nanofluid model in view of distinct nanoparticles. However, the no attention is devoted by researchers towards the thermal mechanism of hybrid nanofluid with boron nitride nanotubes (BNNTs) and multiwall carbon nanotubes (MWCNTs) with distinct impressive characteristics. This communication aims explore the thermal flow of BNNTs and MWCNTs confining the axisymmetric rotational stagnation point flow executing by a bi‐axial stretching surface. The numerical computations are performed the implementation of Keller Box numerical technique. The results verification is done via making the comparative analysis. The thermal aspect of hybrid nanofluid model is entertained. The physical inspection of the formulated problem with flow parameters is done in terms of distinct graphs. It is observed that increase in the solid volume fraction of BNNTs enhanced the velocity profile. The temperature profile declined with stretching parameter for MWCNTs and hybrid nanofluid. The Nusselt number increases for thermal Biot number and increasing change is more progressive for hybrid nanomaterials as compared to MWCNTs.

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“…Hayat et al 26 explored the characteristic of thin film of Jeffrey fluid flowing over a stretching sheet, where Cattaneo‐Christov heat flux model was utilized to study the thermal and solutal characteristics. Sohail et al 27 examined three dimensional MHD flow of Casson fluid with Hall current and ion slip effects. It was observed that ion slip parameter retards fluid motion.…”

Section: Introductionmentioning

confidence: 99%

Irreversibility analysis of thermo‐solutal Marangoni convection in Maxwell power‐law‐fluid flow

Kumari

Tripathi

2023

Math Methods in App Sciences

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This article theoretically investigates the entropy generation in unsteady two-dimensional magnetohydrodynamic flow of Maxwell power-law-fluid past a stretching surface in consideration of thermal and solutal Marangoni convection. The heat and mass transport phenomenon of Maxwell power-law-fluid has been expressed using Cattaneo-Christov double diffusion (CCDD) model. Governing equations are modeled by using Navier-Stokes equations under suitable consideration. The developed mathematical model of the problem is in the form of nonlinear and coupled partial differential equations. Using similarity transforms, governing equations are converted into non-linear coupled ordinary differential equations (ODEs) whose numerical solutions have been obtained using Bvp4c routine in MATLAB. Through numerous graphs, a thorough analysis of entropy generation and Bejan number is conducted. It has been observed that the fluid velocity gets accelerated for higher values of thermal and solutal Marangoni parameters in the boundary layer.

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Numerical exploration of thermal and mass transportation by utilising non-Fourier double diffusion theories for Casson model under Hall and ion slip effects

Cited by 8 publications

References 34 publications

Importance of Activation Energy on Magnetized Dissipative Casson-Maxwell Fluid through Porous Medium Incorporating Chemical Reaction, Joule Heating, and Soret Effects: Numerical Study

Importance of Activation Energy on Magnetized Dissipative Casson-Maxwell Fluid through Porous Medium Incorporating Chemical Reaction, Joule Heating, and Soret Effects: Numerical Study

Thermal aspect of boron nitride nanotubes (BNNT) and multiwall carbon nanotubes (MWCNT) with distinct physical features: Keller Box simulations

Irreversibility analysis of thermo‐solutal Marangoni convection in Maxwell power‐law‐fluid flow

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