MHD micro polar fluid flow over a stretching surface with melting and slip effect

Sharma, Surbhi; Dadheech, Amit; Parmar, Amit; Arora, Jyoti; Al‐Mdallal, Qasem M.; Saranya, S.

doi:10.1038/s41598-023-36988-3

Cited by 26 publications

(3 citation statements)

References 53 publications

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“…The remarkable magnetic field responsiveness of ferrofluids, which are made up of nanoscale ferrous particles suspended in a carrier fluid, allows for precise control and manipulation in a wide range of technological applications, including damping systems and medical devices [1,2]. Damping application of the Mn-Zn ferrite ferrofluid is reported in this study.…”

Section: Introductionmentioning

confidence: 86%

Advance effect of magnetic field on the rheological properties of manganese zinc ferrite ferrofluid

Ibiyemi,

Akinrinola,

Yusuf

et al. 2024

J. Nig. Soc. Phys. Sci.

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The rheological characteristics of manganese zinc (Mn-Zn) ferrite magnetic nanofluid synthesized using co-precipitation technique were examined in the absence and presence of magnetic fields. The research formulates required conditions needed for the formation of a gelly-like structure. The impact of magnetic field and temperature on the rheological properties of Mn-Zn ferrite ferrofluid is investigated. When a magnetic field was applied, higher magnetoviscoelasticity and magnetoviscosity were formed. Analysis was also done on other rheological parameters, such as the damping factor, which is crucial for regulating and restricting vibrations in a system. A stiff, gel-like structure is produced when a magnetic field is applied, and the gel-like quality grows as the magnetic field increases; when the magnetic field is removed, the gel-like and rigidity of the structure is lost. At low temperatures, the liquid phase is dominated by solid-like particles, whereas at high temperatures, the liquid-like structure is dominant. This study reveals the conditions required for the creation of high viscous effect and the viscoelastic behavior induced by the field offers important insights for optimizing the Mn-Zn ferrite ferrofluid for a range of applications. Other criterial for gel-like structure formation such as low torque and deflection angle of the ferrofluid were also established.

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Section: Introductionmentioning

confidence: 86%

Advance effect of magnetic field on the rheological properties of manganese zinc ferrite ferrofluid

Ibiyemi,

Akinrinola,

Yusuf

et al. 2024

J. Nig. Soc. Phys. Sci.

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“…The growing values of the thermal radiation declared the higher profile for temperature while diminishing for Deborah number. Sharma et al [15] examined the slip effect on micro polar flow over an extended porous surface numerically. The slip and porous factors cut down the velocity profile.…”

Section: Introductionmentioning

confidence: 99%

A numerical study of heat and mass transfer characteristic of three-dimensional bi- directional permeable stretching surface with thermal radiation, chemical reaction, and slip boundary conditions

Ullah,

Abas,

Fiza

et al. 2024

Preprint

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Heat and mass transport characteristics of hybrid nanofluid magnetohydrodynamic (MHD) flow with chemical reaction, thermal radiation and slip effects over a stretching surface is scrutinized in this study. The nanoparticles copper and alumina are combined with water for the formation of hybrid nanofluid. Using the self-similar method for the transformation of governing flow equation PDEs to the system of ODEs which are nonlinear. Along with boundary conditions, these systems of equations is solved numerically utilizing bvp4c technique. The effect of the different physical non-dimensional flow parameters on different flow profiles such as velocity, temperature and concentration are depicted through graphs. The numerical outcomes of skin friction, Nusselt number, and mass transfer rate for various prominent parameters are shown in Tables. The velocity profiles diminish with the effect of magnetic and slip parameters. The velocity along y direction shows direct link with the ratio parameter while velocity along x direction shows opposite impact. Both the temperature and concentration slip parameters leads to reduce the temperature and concentration profile respectively also the Nusselt and Sherwood numbers. The thermophoresis and Brownian motion enhance the Sherwood number while decreasing the Nusselt number. Comparison is made between the already published work to the present and found excellent agreement between them.

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“…Dadheech et al, [27] investigated the fluid flow and heat transfer caused by a non-linear heat source passing through a conductive melting surface. The MHD micropolar fluid flow across a stretched surface was investigated by Sharma et al, [28], who also looked at the melting and slide effect. Mabood et al, [29] investigated the effects of radiation on stagnation point flow with melting heat transfer and second order slip.…”

Section: Introductionmentioning

confidence: 99%

Significance of Melting Heat Transfer, Inclined Magnetic Field, and Thermal Radiation on the Dynamics of Williamson Nanofluid Above a Stretching Sheet

Anagandula Srinu,

K. Sreeram Reddy

2023

ARFMTS

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This study investigates the melting heat transfer in MHD flow that occurs when the flow is past a stretched sheet. With the use of the boundary layer concept, a set of non-linear ODEs is derived from a system of PDEs of motion and energy. After transforming the non-linear ODEs and their boundary conditions into dimensionless form with the use of appropriate similarity conversions, the equations are then numerically solved by employing the MATLAB inbuilt solver bvp4c method in conjunction with the shooting methodology. Through the use of a variety of charts and tables, the authors analyze and describe in depth the effects that relevant factors have on a variety of flow fields. As melting factor (Me) increases, it is discovered that the effect of Me on fluid temperature and velocity distributions decreases. Williamson parameter and inclined magnetic profile are shown to have decreasing impact on velocity and momentum parameter. After that, the findings are compared with the earlier published findings in limited situations of the issue, and it is discovered that they are in exceptional specify with those findings.

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MHD micro polar fluid flow over a stretching surface with melting and slip effect

Cited by 26 publications

References 53 publications

Advance effect of magnetic field on the rheological properties of manganese zinc ferrite ferrofluid

Advance effect of magnetic field on the rheological properties of manganese zinc ferrite ferrofluid

A numerical study of heat and mass transfer characteristic of three-dimensional bi- directional permeable stretching surface with thermal radiation, chemical reaction, and slip boundary conditions

Significance of Melting Heat Transfer, Inclined Magnetic Field, and Thermal Radiation on the Dynamics of Williamson Nanofluid Above a Stretching Sheet

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