Abstract
The significance of partial slip on double diffusive convection on magneto-Carreau nanofluid through inclined peristaltic asymmetric channel is examined in this paper. The two-dimensional and directional flow of a magneto-Carreau nanofluid is mathematically described in detail. Under the lubrication technique, the proposed model is simplified. The solutions of extremely nonlinear partial differential equations are calculated using a numerical technique. Graphical data are displayed using Mathematica software and Matlab to examine how temperature, pressure rise, concentration, pressure gradient, velocity profile, nanoparticle volume fraction, and stream functions behave on emerging parameters. It is noticed that as the velocity slip parameter is increased, the axial velocity at the channel’s center increases. Additionally, near the boundary, opposite behavior is observed. The temperature, concentration, and nanoparticle profile drops by increasing thermal slip, concentration slip, and nanoparticle slip parameter.
Highlights
Greek word “peristaltikos” is the origin of the word “peristalsis” that refers to being clasped and compressed
It is further employed to refer to a progressive contracting wave within a tube which may have a variable cross-sectional area. It is utilized by the bodies in physiology, to push and blend the guts inside a tube such as in uretra and other sorts of glandular vessels. e same principle is used by the roller and finger pumping devices. e theory of peristaltic transport has been deployed by multiple industries on different applications that may include sanitary ducts, blood pumping devices in the lungs
Pozrikidis [2] developed a technique that was based on integral methods to further explore the peristaltic ducts in channels for the Stokes flow conditions to comprehend the process of fluid dynamics
Summary
Safia Akram ,1 Maria Athar, Khalid Saeed, Taseer Muhammad ,4 and Mir Yasir Umair. E significance of partial slip on double diffusive convection on magneto-Carreau nanofluid through inclined peristaltic asymmetric channel is examined in this paper. E two-dimensional and directional flow of a magneto-Carreau nanofluid is mathematically described in detail. E solutions of extremely nonlinear partial differential equations are calculated using a numerical technique. Graphical data are displayed using Mathematica software and Matlab to examine how temperature, pressure rise, concentration, pressure gradient, velocity profile, nanoparticle volume fraction, and stream functions behave on emerging parameters. It is noticed that as the velocity slip parameter is increased, the axial velocity at the channel’s center increases. E temperature, concentration, and nanoparticle profile drops by increasing thermal slip, concentration slip, and nanoparticle slip parameter Near the boundary, opposite behavior is observed. e temperature, concentration, and nanoparticle profile drops by increasing thermal slip, concentration slip, and nanoparticle slip parameter
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