In this paper, magnetohydrodynamic (MHD) Casson fluid flow in two lateral directions past a porous linear stretching sheet is investigated. Self-similar solutions are obtained and compared with the available data for special cases. It found that present results an excellent agreement data. The dimensionless velocities shear stresses both directions. Pertinent presented graphically discussed quantitatively respect to variation parameter as well other parameters.

Steady flow of a Casson fluid in the presence nanoparticle is studied. It considered that sheet stretched both direction along xy-plane. Moreover, we have magnetohydrodynamics effect within and convective condition surface. Similarity transformation used to convert governing partial differential equations set coupled nonlinear ordinary which are solved numerically. The behavior emerging parameters presented graphically discussed for velocity, temperature, nanoparticles fraction. Variation...

The motivation behind writing the current article is to mathematically study thermally driven transport of solute particles (measured in micro nano meters) suspended blood an Esophagus taken as a non-uniform channel. aim present see effects with and nanoparticles its application drug delivery biomedical engineering etc. It also has many applications microscale phenomena physiology. Here base fluid nanofluid prepared by suspension copper oxide blood. Copper extremely useful medical domain for...

Abstract A novel mathematical analysis is established that summits the key features of peristaltic propulsion for a non-Newtonian micropolar fluid with electroosmosis and heat transfer enhancement using nanoparticles. In such physiological models, channel have symmetric configuration in accordance biological problem. Being mindful this fact, we disclosed an integrated on incorporates major applications. The creeping flow inference reviewed to model realistic Flow equations are cartesian...

This study investigates the possessions of a dual stratified common on diverse convection barrier layer discharge an Eyring-Powell fluid (CBLFEPL) induced by prone extensive barrel. The temperature and concentration at exterior barrel are assumed to be larger than moving fluid. To solve resulting flow equations, brilliant numerical established aggregating solver is employed using Levenberg-Marquardt neural network scheme (LMNNS). governing equations partial differential converted into...

Abstract The main focus of this article is to mathematically formulate the microfluidics-based mechanical system for nanofluids. A 50:50 mixture propylene glycol (PG) and water used as a heat transfer fluid because its tremendous anti-freezing properties, nontoxicity it safe be utilized at domestic level. Titanium dioxide (titania) nanoparticles are suspended in working enhance ability. flow induced by electroosmosis microtube, which further assisted cilia beating. impacts Joule heating...

This study focuses on the analysis of peristaltic transport a hybrid nanofluid comprising deionized water as base fluid and multi-walled carbon nanotubes (MWCNTs) copper oxide (CuO) nanoparticles within sinusoidal wavy porous duct, taking into consideration influence heat generation or absorption. The inaugural literature piece addresses utilization in context flow ducts. To simplify analysis, we have converted non-dimensional equations two-dimensional (2D) coordinate system using...

Abstract The magnetic force effects and differently shaped nano-particles in diverging tapering arteries having stenoses are being studied current research via blood flow model. There hasn’t been any done on using metallic nanoparticles of different shapes with water as the base fluid. A radially symmetric but axially non-symmetric stenosis is used to depict flow. Another significant aspect our study symmetrical distribution wall shearing stresses connection resistive impedance, well rise...

Abstract The current investigation examines the peristaltic flow, in curved conduit, having complaint boundaries for nanofluid. effects of curvature are taken into account when developing governing equations nano fluid model channels. Nonlinear & coupled differential then simplified by incorporating long wavelength assumption along with smaller Reynolds number. homotopy perturbation approach is used to analytically solve reduced equations. entropy generation can be estimated through...

Purpose This paper aims to optimize bioconvective heat transfer for magnetohydrodynamics Eyring–Powell nanofluids containing motile microorganisms with variable viscosity and porous media in ciliated microchannels. Design/methodology/approach The flow problem is first modeled the two-dimensional frame then simplified under low Reynolds number long wavelength approximations. numerical method used examine impact of thermal radiation, temperature-dependent viscosity, mixed convection, magnetic...

The aim of the present paper is to study numerical solutions steady MHD two dimensional stagnation point flow an incompressible nano fluid towards a stretching cylinder. effects radiation and convective boundary condition are also taken into account. model used for nanofluid incorporates Brownian motion thermophoresis. resulting nonlinear momentum, energy particle equations simplified using similarity transformations. Numerical have been obtained velocity, temperature nanoparticle fraction...

In the present investigation we have studied peristaltic flow of a nanofluid in an endoscope. The is investigated wave frame reference moving with velocity c. Analytical solutions been calculated using Homotopy perturbation method (HPM) for temperature and nanoparticle equation while exact pressure gradient. Numerical integration used to obtain graphical results rise frictional forces. effects various emerging parameters are five different waves. Streamlines plotted at end article.