Description of viscous dissipation in magnetohydrodynamic flow of nanofluid: Applications of biomedical treatment

Masood, Sadaf; Farooq, M.; Ahmad, Shakeel

doi:10.1177/1687814020926359

Cited by 41 publications

(23 citation statements)

References 41 publications

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“…The emerging dominating equations are figure out by homotopic technique. 31,[34][35][36][37][38][39][40][41][42] The consequences of demanding parameters are inspected through graphs. Additionally, drag force and heat transfer rate has been elaborated graphically.…”

Section: Introductionmentioning

confidence: 99%

Investigation of binary chemical reaction in magnetohydrodynamic nanofluid flow with double stratification

Anjum

Masood

Farooq

et al. 2021

Advances in Mechanical Engineering

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This article addresses MHD nanofluid flow induced by stretched surface. Heat transport features are elaborated by implementing double diffusive stratification. Chemically reactive species is implemented in order to explore the properties of nanofluid through Brownian motion and thermophoresis. Activation energy concept is utilized for nano liquid. Further zero mass flux is assumed at the sheet’s surface for better and high accuracy of the out-turn. Trasnformations are used to reconstruct the partial differential equations into ordinary differential equations. Homotopy analysis method is utilized to obtain the solution. Physical features like flow, heat and mass are elaborated through graphs. Thermal stratified parameter reduces the temperature as well as concentration profile. Also decay in concentration field is noticed for larger reaction rate parameter. Both temperature and concentration grows for Thermophoresis parameter. To check the heat transfer rate, graphical exposition of Nusselt number are also discussed and interpret. It is noticed that amount of heat transfer decreases with the increment in Hartmann number. Numerical results shows that drag force increased for enlarged Hartmann number.

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Section: Introductionmentioning

confidence: 99%

Investigation of binary chemical reaction in magnetohydrodynamic nanofluid flow with double stratification

Anjum

Masood

Farooq

et al. 2021

Advances in Mechanical Engineering

Self Cite

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“…Recently, Masood et al 21 presented their study for the investigation of dissipative heat energy in a nanofluid flow in conjunction with Forchheimer porous medium used as modern transport phenomena. Furthermore, Masood et al 22 investigated the flow characteristics of dissipative heat energy on the flow of magnetohydrodynamic fluid and applied it for biomedical treatment. Singh et al 23 focused upon the impact of Hall current and magnetic field on an electrically conducting viscoelastic fluid caused by the buoyancy‐driven forces.…”

Section: Introductionmentioning

confidence: 99%

Analytical estimation of energy dissipations: Viscous, Joulian, and Darcy of viscoelastic fluid flow phenomena over a deformable surface

et al. 2021

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In this paper, analytical estimation of energy dissipations, such as viscous, Joulian, and Darcy dissipation of viscoelastic flow phenomena over a deformable surface has been presented. This supplement to the study of many transport processes, which occur in nature, and various experimental setups that are driven or modified by the composition of the various flow characteristics and material or phase constitution. These processes are very important and have received considerable attention in the literature. The estimation of dissipative energy in the process of transport energy is an important phenomenon to investigate. The present analysis is carried out on steady MHD viscoelastic liquid due to deformable domains. Moreover, the impact of internal heat sources and prescribed thermal conditions, such as surface temperature and heat flux, are carefully studied. Analytical solutions to governing equations are obtained with the help of Kummer's function. The solutions are presented graphically as well as in tables to estimate the energy losses and their effects on transport processes, which serve as the salient features of the current analysis. The outcomes serve as a guideline due to the process of transport properties as per the design requirements. Looking into the current scenario, dissipative heat energies have several applications in industries and technological processes, such as electric heaters, fuses, food processing, and several others.

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“…Insertion of magnetic field and thermal radiations on the flow is the influential physical phenomenon and has multifarious industrial uses. Therefore, the studies in this regard are presented in [32] and literature cited therein. Aforementioned physical situations are very important for purification of many industrial products and in the accomplishment of the products where huge energy transport is required.…”

Section: Introductionmentioning

confidence: 99%

The Dynamics of H2O Suspended by Multiple Shaped Cu Nanoadditives in Rotating System

Adnan

Khan

Ahmed

et al. 2021

Journal of Nanomaterials

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Heat transfer investigation in the nanofluids is significant for real world applications. The investigation of heat transfer over a stretchable magnetized surface has broad applications in various industries. Therefore, heat transfer featuring in the nanofluid synthesized by various shaped Cu and H2O is organized over a shrinking surface. The problem is organized properly via similarity equations by inducing the influences of magnetic field. Then, OVIM is adopted and performed the solutions for the particular model. The results are furnished for the governing quantities over the feasible region and deeply discussed in the view of their physical significance. It is examined that the nanoliquids angular motion and shear stresses drops by strengthen magnetic field effects. Moreover, nanoliquid containing brick Cu-particles is better heat conductor and could be used broadly for industrial applications as for as heat transport concerned. In end, authentication of the study is provided by comparing the results with previous science literature and an excellent agreement is seems between them.

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Description of viscous dissipation in magnetohydrodynamic flow of nanofluid: Applications of biomedical treatment

Cited by 41 publications

References 41 publications

Investigation of binary chemical reaction in magnetohydrodynamic nanofluid flow with double stratification

Investigation of binary chemical reaction in magnetohydrodynamic nanofluid flow with double stratification

Analytical estimation of energy dissipations: Viscous, Joulian, and Darcy of viscoelastic fluid flow phenomena over a deformable surface

The Dynamics of H2O Suspended by Multiple Shaped Cu Nanoadditives in Rotating System

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