The Williamson nanofluid flow along with the thermal and solutal transport effects like enthalpy viscous dissipation, has lots of applications in numerous engineering fields such as heat exchangers, automotive engineering, cooling systems, aerospace, biomedical applications. temperature-dependent viscosity implications polymer processing, chemical microfluidic devices, environmental fluid dynamics, oil gas industries. current research deals numerical study magnetohydrodynamic 2-dimensional...

The present analysis is devoted to explore the computational solution of problem addressing variable viscosity and inclined Lorentz force effects on Williamson nanofluid over a stretching sheet. Variable assumed vary as linear function temperature. basic mathematical modelled i.e. system PDE's converted nonlinear into ODE's via applying suitable transformations. Computational solutions also achieved efficient numerical technique shooting. Characteristics controlling parameters index, angle,...

Abstract Present work is communicated to identify characteristics of magnetohydrodynamic (MHD) three dimensional boundary layer flow Williamson fluid confined by a bidirectional stretched surface. Conductivity working assumed be temperature dependent. Generative/absorptive heat transfer also taken into account. Mathematical model formulated in the form partial expressions and then transmuted ordinary differential equations with help newfangled set similarity transformations. The resulting...

In this paper, the stagnation point and boundary layer flow of 2-D Williamson fluid near a stretching cylinder along porous medium is examined. The transference analysis mass heat in occurrence thermal radiation, absorption activation energy are investigated. double stratification implemented to analyze its impact on solutal fields. main leading equations solved by applying approximation. By assuming similarity variables, transformed into ordinary differential equations. order solve...

This paper explores the three-dimensional steady non-Newtonian nanofluid flow due to a rotating disk by using Bingham fluid model. Moreover, we have extended our analysis taking consequence of thermal and solutal aspects heat generation activation energy. The Buongiorno’s model is considered investigate improvement occurs in conductivity thermophoresis Brownian motion nanoparticles base fluid. Applying significance while energy having several industries application, including enhancing...

Heat and mass transfer having variable fluid properties has wide range of applications in industrial engineering processes.The transference species arises several processes like oil transport phenomenon, food processing diffusion assured medicines blood (drug delivery). Current research deals with the mixed convection radiation effects on flow a non-Newtonian tangent hyperbolic thermo-physical activation energy. Arrhenius kind chemical reaction is taken along an exponentially stretchable...

Rotating dynamical system (centrifugal and coriolis forces) is employed in this analysis to study the influence of enthalpy rotated fluid flow a finite three dimensional channel. The exponential varying viscosity model used paper. chemically reactive diffusion examined with Arrhenius activation energy. thermal conductivity diffusivity are assumed be linear dependent. lower surface has velocity negative direction but upper fixed. main equations three-dimensional form converted into...

Abstract The present analysis is reported to analyze the hybrid nanofluid ( SiO 2 − CNT / H O ) flow as peristaltic transport under influence of heat generation/absorption in a sinusoidal wavy channel. We have expressed non-dimensional equations into two dimensional coordinate system by using vary long wavelength δ &lt; 1) and low Reynolds number <?CDATA $({Re})$?> <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" overflow="scroll"> <mml:mo stretchy="false">(</mml:mo> <mml:mi...

Thermophoresis effect has wide range of applications in electro-static precipitators and biology for calculating single biological macro molecules, such as genomic-length DNA HIV virus the micro channels. Current study deal with effects Coriolis buoyancy forces on three-dimensional boundary layer flow tangent hyperbolic fluid thermo-migration haphazard motion nano-sized particles. Arrhenius kind chemical reaction is taken along an exponentially stretchable surface. The main focus current...

In this article, we consider the linear stability of two-dimensional flow induced by stretching a surface in streamwise direction. The basic is rare example an exact analytical solution Navier–Stokes equations. Using results from large Reynolds number asymptotic study and highly accurate spectral numerical method, show that linearly unstable to disturbances form Tollmien–Schlichting waves. Previous studies have shown stable. However, our only true for Görtler-type disturbances.

This goal of this study is to examine the incompressible steady 2D flow MHD Carreau Yasuda model along with heat generation and chemical reaction near a zero velocity region. The magnetic field thermally conducting fluid towards stretching cylinder are very significant due its usage in various manufacturing sector. Chemical reactions widely practice everyday life as turning nutrition into energy fuel for our body, food change, fireworks expulsions, removing grimes, photosynthesis, etc....