Peristaltic Flow of Couple-Stress Fluid With Heat and Mass Transfer: An Application in Biomedicine

Hina, S.; Mustafa, M.; Hayat, Tasawar; Alsaedi, Ahmed

doi:10.1142/s0219519415500426

Cited by 19 publications

(7 citation statements)

References 31 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Then Shapiro et al 2 have extended the research work of peristalsis. Later, Hina et al 3 have studied the peristaltic flow of couple stress fluid and Powell-Eyring fluid and concluded that their analysis was helpful in applications of biomedicine. Ahmed et al 4 have discussed the biofluid flow driven by peristaltic propulsion in a curved channel with the impact of Brinkman number and Hartmann number and revealed that amplitude of heat transfer coefficient decreases with the enhancement of curvature parameter.…”

Section: Introductionmentioning

confidence: 99%

Peristaltic activity of thermally radiative magneto‐nanofluid with electroosmosis and entropy analysis

Sridhar

Ramesh

2021

Heat Trans

View full text Add to dashboard Cite

The importance of gold and silver nanoparticles in the blood flow has immense applications in biomedicine for the treatment of cancer disease and wound treatment due to their large atomic number and antimicrobial property. The current study deals with the magnetohydrodynamic and electroosmotic radiative peristaltic Jeffrey nanofluid (blood-silver/gold) flow with the effect of slip and convective boundary conditions in the nonsymmetric vertical channel. The nondimensional governing equations have been solved analytically and the exact solutions have been presented for velocity, temperature, shear stress, trapping, entropy generation, pressure gradient and heat transfer coefficient. The pictorial representations have been prepared for the flow quantities with respect to fluid flow parameters of interest. It is noticed from the current study that the gold-based nanofluids exhibit higher velocity than silver-based nanofluids. Enhancement of thermal radiation decreases the total entropy generation. The size of the tapered bolus decreases with the enhancement of magnetic field strength. The present model is applicable in designing pharmacodynamic pumps and drug delivery systems.

show abstract

Section: Introductionmentioning

confidence: 99%

Peristaltic activity of thermally radiative magneto‐nanofluid with electroosmosis and entropy analysis

Sridhar

Ramesh

2021

Heat Trans

View full text Add to dashboard Cite

show abstract

“…A clear example of this movement is the movement of urine from the kidney to the bladder, the movement of food within the gastrointestinal tract, and also the movement of eggs within the fallopian tube and so on. Hayat et al, [7] have studied peristaltic flow of couple-stress fluid with heat and Mass Transfer: An application in biomedicine. Noreen [8] discussed the Peristaltic flow of a tangent hyperbolic fluid with convective boundary condition.…”

Section: Introductionmentioning

confidence: 99%

Peristaltic Motion of Eyring-Powell Nano Fluid with Couple Stresses and Heat and Mass Transfer Through a Porous Media Under the Effect of Magnetic Field Inside Asymmetric Vertical Channel

Eldabe

Kamel

Ramadan

et al. 2020

ARFMTS

View full text Add to dashboard Cite

Numerical study of peristaltic transport of heat and mass transfer for a couple stresses non-Newtonian nano fluid through porous media inside asymmetric channel was investigated. The system is stressed by an external uniform magnetic field. This model is solved numerically subjected to an approbate boundary conditions using a Rung-Kutta-Merson method under assumption of the long wave length and low range of Reynolds number. The velocity, temperature and concentration of nanoparticles are obtained as a function of the physical parameters of the problem. The effects of these parameters on these solutions are discussed numerically and illustrated graphically through some graphs It is clear that the effects of the physical parameters of the problem on these solutions play an important rule to control the obtained solutions. The velocity profile decreases when Hartmann number increasing. This seems realistic, because the magnetic field acts in the transverse direction to the flow and magnetic force resists the flow, The velocity increasing when the fluid material parameter increasing because fluid becomes less viscous, The variation of temperature increasing with increasing values of Brownain motion parameter and porosity parameter, The variation of Concentration decreasing with increasing of thermophoresis parameter and Radiation parameter inside the used channel.

show abstract

“…Since, the most alluring work was described by Latham, 1 various authors investigated analytically, numerically and experimentally the mechanism of peristaltic flow in different geometrical aspects. [2][3][4][5] For instance, Hina et al 6 explored the impact of compliant walls on non-Newtonian peristaltic motion of third grade fluid in a curved channel and obtained the series solution for temperature profile and concentration profile. He observed that the magnitude of the bolus in not similar in the upper and the lower part of the channel.…”

Section: Introductionmentioning

confidence: 99%

Heat and Mass Transfer Analysis on Peristaltic Flow of Particle–fluid Suspension With Slip Effects

Bhatti

Zeeshan

2017

J. Mech. Med. Biol.

View full text Add to dashboard Cite

In this paper, the effect of heat and mass transfer on particle-fluid suspension due to peristaltic motion is examined with of slip effects. The governing equations of fluid phase and particulate phase for Casson fluid model with embedded particles are interpreted under the approximation of long wavelength and neglecting the inertial forces. The obtained coupled resulting partial differential equations are solved analytically and an exact form of solutions are conferred. The impact of various sundry parameters are plotted and discussed for velocity, temperature and concentration distribution for both fluid and particle phase. Numerical solution are evaluated for pressure rise along the whole channel. The present analysis reveals various interesting behavior that warrant further analysis on various Newtonian and non-Newtonian fluids. In the present flow problem, the influence of slip represents opposite attitude on the walls of the channel whereas due to the impact of particle volume fractions, the velocity of the fluid diminishes along the whole length of the channel.

show abstract

Peristaltic Flow of Couple-Stress Fluid With Heat and Mass Transfer: An Application in Biomedicine

Cited by 19 publications

References 31 publications

Peristaltic activity of thermally radiative magneto‐nanofluid with electroosmosis and entropy analysis

Peristaltic activity of thermally radiative magneto‐nanofluid with electroosmosis and entropy analysis

Peristaltic Motion of Eyring-Powell Nano Fluid with Couple Stresses and Heat and Mass Transfer Through a Porous Media Under the Effect of Magnetic Field Inside Asymmetric Vertical Channel

Heat and Mass Transfer Analysis on Peristaltic Flow of Particle–fluid Suspension With Slip Effects

Contact Info

Product

Resources

About