Primary objective of this examination is to discover hybridized nanofluid flowing and heat transport that flows between a rotatable cone positioned above an expandable disc. Hybridized contains Cadmium telluride (CdTe) as first nanoparticle Silicon carbide (SiC) second in ethylene glycol base fluid. Electromagnetic impact Darcy-Forchheimer model are considered with thermal radiative fluxing. By using appropriate similarity transformation, physical phenomena may be illustrated by collection...

Mixed convection of hybrid-nanofluid (H2O–Cu/Al2O3) moving through the vertical channel has been investigated in this article. Assuming that sides are subject to thermal radiative flux and variable temperature, a system partial differential equations due momentum energy considered under these assumptions. Using non-dimension variables technique, is transformed into ordinary equations, which solved analytically for both cases buoyancy force. The velocity temperature profiles plotted....

This study examines the molecules motion influences and thermal attributes in power-law non-Newtonian dissipative fluids' magnetohydrodynamic behavior, Joule heating, electromigration, Cattaneo-Christov effects. Effects of Hall on both flow velocity temperature, as well heat transport are considered. The investigation looks at transference that occurs when there is a slippage consequence, how temperature viscosity fluid, potential parameters influence exponential fluid via an extensible...

This work investigates the Ohmic heating, nonuniform heat generation, and Hall effects with Cattaneo-Christov model (CCM) on flow transfer of power-low non-Newtonian fluids (NNFs) past stretching surface embedded in a porous medium. Runge-Kutta method is used to solve non-linear ODEs numerically using shooting procedure. We study for power law values 0.7 1.2, respectively. Innovation this lies studying effect currents presence buoyancy force an irregular source slip NNFs moving through Darcy...

When describing natural phenomena like the movement of pollutants, subterranean water, acidulent rain, and other phenomena, it is sometimes necessary to have more than one solute distributed in fluid mixes. The steadiness triple diffusive boundary layer convective flow along a vertical stretchable plate embedded Darcy-Forchheimer porous material filled with salty Reiner-Philippoff nanofluid two salts examined this research. accompanying thought heat surface. Through Buongiorno concept,...

The impact of hybrid nanofluid coolant (H2O–Cu/Al2O3) on the mechanical properties a moving cylinder during heat treatment process is covered in this essay. boundary layer film over cooling modeled by set partial differential equations; system transformed to ordinary equations using non-dimensional transform method then solved numerically combination find root and Runge Kutta fifth order. velocity temperature profiles under variation some embedded parameters are plotted. Furthermore, shear...

The impact of magnetic field, joule heating, rotation parameter, Hall current, with nonlinear thermal radiation, on a rotating hybrid Fe 3 O 4 /Al 2 nanofluid over-stretched plate is the focus this research. Using similarity transformations, controlling partial differential equations are turned into set ordinary equations. For that system equations, shooting method used to generate numerical solutions. various entry parameters transversal and longitudinal velocities, temperature, heat flow...

This research looked at the effects of thermal radiation and Brownian motion on mixed convection heat mass transfer nanofluid over a porous plate in Darcy-Forchheimer flow. The controlling partial differential equations are converted to ordinary numerically solved by using Runge-Kutta fourth-order alongside shooting approach. Different physical parameters’ temperature, velocity, concentration distribution studied. In addition, results also graphically represented. reduced local Nusselt...

The study of fluid flow in cylindrical shapes under the effect electric fields is utmost importance because its vast applications industrial, agricultural, and biomedical domains, as well drilling machines, equipment, transport brakes, vehicles. purpose this research to analyze influence Hall impacts, slippage effects, thermal relaxation time on magnetohydrodynamic near an extended cylinder or flat plate. An assessment entropy generation carried out. Results are determined by process...

Purpose Studying the shear stress and pressure resulting on walls of blood vessels, especially during high-pressure cases, which may lead to explosion or rupture these can also death many patients. Therefore, it was necessary try control normal stresses veins through nanoparticles in presence some external forces, such as exposure electromagnetic shocks, reduce risk high those vessels. This study aims examines electroosmotic-magnetized Sutterby Buongiorno’s nanofluid a symmetric peristaltic...

This paper investigates the squeezing action of hybridized nanofluid flow that takes place in mechanism truck brakes, dampers, polymer manufacturing, power transportation, oiling structure, and food production. The modeling technique relied on a set partial differential equations to direct fluid, taking into consideration external factors like magnetized force time-dependent source heat thermal radiation. consists copper aluminum oxide nanoparticles are dispersed machine oil. Entropic...

Ternary hybrid nanoparticles require infected blood cell base fluid flow. Blood vessels feature ciliated walls and peristaltic waves. Anemia comes from cancer treatment-induced red destruction. This study reproduces Jeffrey model flow through a ciliary artery using ternary of gold, iron oxide, copper. work examines nanofluid MHD motion curves. A nonlinear PDE system has heat induced magnetic force equations. The Adomian Decomposition Method solved this without long-wavelength approximation....

This paper inspects the combined effects of heat and mass transfers in a hybridized Williamson viscous nanofluid composed cadmium telluride (CdTe) silicon carbide (SiC) nanoparticles RT42 (Rubitherm) as base fluid existence source thermal radiative aspects. Knowing that is phase change material (PCM), it also considered surface on which flows an expandable with varying thickness. The influence chemical reactions process dissipation flow temperature examined. parameters’ influences problem...

The paper is concerned with the flow behavior of a helium-plasma bounded by rigid, oscillating flat plate. influences an unsteady nonlinear external electric field (NEEF) on plasma fluid were investigated. Attention has been focused Bhatnagar-Gross-Krook (BGK)–type Boltzmann kinetic equation (BKE) to study gas dynamics Maxwellian velocity distribution function (VDF). An analytical solution model equations was given using moment and traveling wave methods. role mean velocity, shear stress,...

Abstract The study of the boundary layer is considered one most important theories in field heat and mass transfer because its explanation that shows us behavior different surfaces while they are under influence flow accompanied by thermal forces. corrugated engineering applications, such as exchangers or solar cells cooling processes during surface treatments. This model also used medical applications arteries movement intestines. So, work deals with investigating surrounding a...

This work presents a comprehensive mathematical analysis of the chickenpox transmission model, including positivity, existence, invariant region, and uniqueness solution. We enhance model by introducing optimal control measures using two time‐dependent variables: prevention like vaccination movement constraints, isolation quarantine. The study evaluates basic reproduction number , equilibrium points, stability. New contributions include model’s bifurcations proof existence Fleming’s theorem....