The main goal of the present investigation is to evaluate radiative heat aspect on bio-convective flowing magnetized Reiner-Philippoff nanoparticle toward a wedge with Darcy-Forchheimer and swimming microorganisms impacts. Heat mass transport assessment described in occurrence source/sink, Arrhenius activation energy, nonlinear thermal radiation. purpose current studies build framework for nanomaterials that incorporates thermophoretic Brownian motion phenomena. A suitable transformation...

The effects of steady MHD stagnation point flow with viscous dissipation over a permeable stretching surface are examined. fluid water is infused Al2O3−Cu hybrid nanofluid particles. Magnetohydrodynamics (MHDs), suction reveals mechanism for the transmission heat and flow. Many different thermal conductivity models, such as Hamilton–Crosser, Yamada–Ota, Xue models utilized to learn more about thermophysical properties nanoparticles. By using boundary layer approximation, partial differential...

A numerical investigation of three-dimensional hybrid nanomaterial micropolar fluid flow across an exponentially stretched sheet is performed. Recognized similarity transformations are adopted to convert governing equations from PDEs into the set ODEs. The dimensionless system settled by operating approach bvp4c. impacts nanoparticle volume fraction, viscosity ratio, stretching ratio parameter, and constant on velocity, angular temperature, skin friction coefficient in both x-direction...

Magnetohydrodynamics (MHD) of a non-Newtonian fluid with heat transfer through porous medium is examined here. Jeffrey taken as the base liquid suspends homogenous and spherical solid particles. A peristaltic wave travels along flexible walls channel. Flow caused by expansion contraction gravitational force. Lubrication effects are considered on both An exact solution obtained for two-phase flow transfer. comprehensive parametric study carried out to analyze role pertinent parameters it...

Abstract In this study, we analyzed the time-dependent, 2D, inclined magnetohydrodynamics mixed convection stagnating point flow of nanoparticle toward a permeable stretchable surface with radiative heat effect. Four different types water-based nanomaterials, namely titanium dioxide <?CDATA $\left(Ti{O}_{2}\right),$?> <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" overflow="scroll"> <mml:mfenced close=")" open="(" separators=""> <mml:mrow> <mml:mi>T</mml:mi> <mml:mi>i</mml:mi>...

The goal of this research is to address the electrical magnetohydrodynamic flow hybridity nanoparticles through a stretched surface with impact Darcy–Forchheimer permeable medium. By identifying appropriate similarity factors, partial differential equation converted into set ordinary help R-K fourth-order approach based on shooting technique. velocity, thermal, friction factor coefficient, and heat transport are investigated comprehensively for influence numerous blossoming parameters refer...

The study focuses on the instability of local linear convective flow in an incompressible boundary layer caused by a rough rotating disk steady MHD viscous nanofluid. Miklavčič and Wang's (Miklavčič Wang, 2004) [9] MW roughness model are utilized presence Cu-water nanofluid with enforcement axial flows. This will investigate characteristics over incorporate effects anisotropic isotropic surface roughness. resulting ordinary differential equations (ODEs) obtained using von Kàrmàn (Kármán,...

The examination of new (3 + 1)-dimensional wave equations is undertaken in this study. Initially, the identification Lie symmetries model carried out through utilization symmetry approach. commutator and adjoint table are presented. Subsequently, under discussion transformed into an ordinary differential equation using these symmetries. construction several bright, kink, dark solitons for suggested then achieved auxiliary method. analysis dynamical nature conducted, encompassing various...

Abstract In this research, we investigate the mixed convection flow of hybrid nano fluid over nonlinear stretching sheet. By imposition Cu‐Al 2 O 3 as nanoparticles, water base fluid. Impact thermal radiation in existence magnetic field is considered. Similarity solution obtained numerically by RK‐Fehlberg (RKF) Method. The velocity experimentally stronger due to force parameter. For case stretched and shrinkage aiding buoyancy opposite revealed bifurcation solution. Velocity nanofluid...

The purpose of the current article is to explore impact thermal stratification and medium porosity on gravity-coerced transport hybrid carbon nanotubes down an upright extending sheet inspired by a constant applied magnetic field along with heat transfer investigation in existence radiation, viscous dispersal, joule heating effect. Rectangular coordinates are chosen for mathematical interpretation governing flow problem. Homothetic analysis employed sake simplification process. reduced...

Melting heat and solutal transference in a magnetohydrodynamic flowing of Williamson nanofluid have been described, with the mathematical model guided by Arrhenius activation energy, chemically reactive species, convective boundary restrictions. By implementing suitable similarity conversions, regulating equations partial differential (PDEs) (formed continuity, impetus, concentricity components) are condensed to an arrangement ordinary (ODEs). These commonalities nonlinear form, which...

Flow towards a rotating disk is of highly practical significance in numerous engineering applications such as Turbine disks, rotary type machine systems and many more. In light this, the current work an attempt to explore MHD oblique flow disk. Hydromagnetic effects addition heat transfer taken into consideration. The governing Partial Differential Equations are altered system coupled non-linear Ordinary through scaling group transformations which afterwards tackled using Shooting Algorithm....

Abstract Understanding the mechanisms and kinetics of homogeneous (i.e. water-based ternary-hybrid nanofluid) heterogeneous catalyst) reactions is capable creating a more effective distribution species quality fluids at outlet. Thus, present study focuses on analyzing quartic type homogeneous-heterogeneous in nanofluid copper, alumina, titania nanoparticles with water surface stationary/moving flat plate. The leading non-linear partial differential equations were transformed into set...

It is well documented that heat transfer enhanced with addition of nanosized particles in fluid. But, a mechanical system there are variety factors influences the transfer. Some significant while others not. In this paper, authors will discuss sensitivity different input parameters such as Le, Nt and Nb on output responses Nux Shx. To achieve goal, problem modeled using basic conservation laws. The formulated model set PDEs, which converted to non-linear ODEs by similarity transformation....

The objective of this study is to conduct a numerical examination the influence nonlinear chemical reaction and heat source or sink on magnetohydrodynamic (MHD) mass transmission nanofluid flow through shrinking permeable surface. In addition, investigation considers thermal radiation occurrence viscous dissipation. Ethylene glycol (EG) used as primary fluid medium, whilst nanoparticles consist nickel–zinc ferrite. use has garnered significant interest result its potential applications...