The primary objective of this paper is to investigate the magnetohydrodynamic (MHD) mixed convection flow for Maxwell nanofluid, which debated in context a vertical cone containing porous material. In addition, variable thermal conductivity and Dufour's effects are considered. Utilizing similarly transformable variables allows modeled equations be converted into set non-linear ODEs. After that, these solved numerically by employing shooting method, followed fourth-order Runge–Kutta...

'This research aims to look at the consequences of diffusion thermo, Hall, ion slip, and radiation absorption on unsteady MHD turbulent rotational flow second-grade fluid through porous materials while also regarding outcomes chemical retort heat absorption. When ratio between number collisions electrons in a cyclotron atoms is large, Hall effects (the parameter) become important. The regular perturbation approach investigates outlines velocity segments, temperature dispersion,...

The heat and mass transfer of an unstable free-convective laminar outpour incompressible dense electrically conducting fluid across a permeable plate in the existence transverse magnetic domain is investigated this article, taking into consideration Hall ion slip currents. It necessary to change main governing equations issue system non-dimensional differential before solving it analytically using perturbation approach. For externally heated cooling plates, image depicts influence relevant...

The bioconvective flow of non-Newtonian fluid induced by a stretched surface under the aspects combined magnetic and porous medium effects is main focus current investigation. Unlike traditional aspects, here viscoelastic behavior has been examined combination both micropolar second grade fluid. Further thermophoresis, Brownian motion thermodiffusion along with variable thermal conductivity, have also utilized for boundary process. solution nonlinear fundamental problem figured out via...

An analytical solution for two dimensional unsteady MHD free convective double diffusive heat and mass transfer rotating flow of viscous incompressible optically thin non Newtonian fluid (jeffrey fluid) past a semi-infinite porous plate in the presence generation absorption with hall current, radiation Dufour effects are presented this paper. Lorentz force is applied perpendicular direction to first-order chemical reaction. The governing PDEs transformed into ODEs by applying perturbation...

Owing to improved thermal efficiencies of hybrid nanomaterials, various applications such tiny particles are claimed in enhancing impact heat transfer phenomenon, improving the solar collectors, management systems and different industrial processes. Following motivations mind, this research communicates nanofluid with utilization nanoparticles due porous infinite plate. The characterization is observed interaction copper (Cu), aluminium oxide (Al2O3), titanium (TiO2) water base fluid...

The present study investigates the steady three-dimensional flow of a Sisko fluid over bidirectional stretching sheet under influence Lorentz force. Heat transfer effects have been carried out for constant heat flux and Newtonian heating systems. transformed governing equations model are solved by using spectral relaxation method (SRM), taking into account similarity transformations. controlling parameters on derived quantities presented in form graphs tables. Numerical benchmarks used to...

This paper is concerned with the study of an unsteady, MHD natural convective boundary layer flow a viscous, incompressible and electrically conducting, non-Newtonian Jeffery fluid over semi-infinite vertically inclined permeable moving plate embedded in porous medium presence thermal radiation, heat absorption diffusion, mass transfer. . The permeability suction velocity are considered to be exponentially decreasing function time. fundamental governing equations for this investigation...

Understanding the intricate interplay between variable fluid properties such as slip and thermal conductivity when flowing over porous surfaces is of utmost importance for a wide range engineering applications. This investigation delves into this uncharted territory, connecting analytical capabilities HAM (Homotopy Analysis Method) to reveal captivating insights impact these variables on dynamics Casson nanofluid flow. Besides, we documented flow aspects which include radiation, heat source,...

In this study, emission incorporation and Dufour belongings are investigated for uneven magnetohydrodynamic assorted convection stream over a disposed holey moving shield with thermal emission, heat assimilation, homogenous substance reactions subjected to changeable suction. The governing momentum equation, as well the energy mass diffusion equations, have analytical solutions. Nusselt number, Sherwood in addition velocity, temperature, attentiveness, skin friction, computed examined...

In the presence of a diffusion thermal and coupled magnet field effect, this manuscript seeks continuous free convective motion by viscous, incompressible fluid that conducts electrically past sloping platform via porous medium. The flow speed may be compatible with exponentially tiny disrupting law. Two-term harmonic non-harmonic functions solve dimensional-less control equations analytically. Detailed graphs are used to determine budgets for tempo, temperature, concentration various limit...

This examination explores the flow of a hybridized nanofluid (HyNf) containing silica and tin oxide nanoparticles mixed with engine oil (EO/SnO 2 -SiO ). The flowing occurs via permeable material constrained by semi-infinite flat plate. study takes into account various factors such as convective heat mass transference, chemical reactions, Dufour effect, Lorentz force, thermal radiative fluxing, absorbing. research involves converting managing formulas model dimensionless form applying...

In the food industry, electrical conductivity is essential for heating processes. The dependence on temperature of electricity outermost layers flow nanofluid main topic this paper. Variable conductivity, viscosity, thermo diffusion, thermal radiation and absorption convective heat mass transfer Cuo Al 2 O 3 -water nano-fluids confined in cylindrical annulus. non-linear governing equations have been solved by finite element technique with quadratic approximation functions. For various...

This paper presents a comparative analysis of three experimental designs—Taguchi, Box–Behnken Design (BBD), and Central Composite (CCD)—for optimizing process parameters in system with four factors at levels. The study aims to identify the most effective design by evaluating relationship between variables their contributions using Analysis Variance (ANOVA). Quantitative results show that Taguchi method, requiring fewer runs, provides more cost-effective solution, while BBD CCD deliver...