The prime objective of the present study is to examine comparison heat transfer attributes magnetohydrodynamic hybrid nanofluid flow in presence radiation. phenomenon generally new standard fluid "hybrid nanofluid", has been explored enhance coefficient boundary layer flow. Single wall and Multiwall carbon nanotube particles (nanometer size) have utilized constitute required nanofluid. nonlinear system differential equations handled through bvp4c MATLAB algorithm. Nusselt number increases...

The current work aims to study heat transfer properties within the flow. A newly developed idea regarding hybrid nanofluid is utilized obtain desired outcomes. This focused on base nano liquid flow past an exponentially stretching rotating surface in presence of convective condition. Ethylene glycol-water (50%–50%) mixture taken as fluid. Thermophysical are discussed. probe emerging parameters indicates that gives a preferable rating compared nanofluid. Appropriate choice composition plays...

This comparative study inspects the heat transfer characteristics of magnetohydrodynamic (MHD) nanofluid flow. The model employed is a two-phase fluid flow model. Water utilized as base fluid, and zinc titanium oxide (Zn TiO2) are used two different types nanoparticles. rotation considered along z-axis, with velocity ω*. A similarity transformation to transform leading structure partial differential equations ordinary equations. By using powerful mathematical BVP-4C technique, numerical...

The present article studies the Eyring-Powel nanofluid boundary layer flow over a thin cylinder while taking temperature dependence of viscosity into consideration. It is observed that thermal conductivity remarkably increases in case non-Newtonian fluid mixture base. Buongiorno model used for this analysis. In order to reduce governing system partial differential equations (PDE) coupled with conditions dimensionless form using approximation, significant physical parameters are concentrated...

Arterial stenosis, a narrowing of the artery, significantly impacts blood flow dynamics and heat transfer. Although this phenomenon has been studied broadly, there is very less study about complex interactions between nonNewtonian behavior, complicated artery geometry temperature fluctuations. Using Sisko model to represent nature in trapezoidally stenotic looks clarify impact arterial stenosis on dynamics. This specifically into temperature, pressure velocity profiles these circumstances. A...

Abstract In this article, the primary focus is to investigate heat transfer effects with viscous compressible laminar flow in permeable elliptic cylinder. The Reynolds number kept 100 for be laminar. physics of selected coupled flow. results particular step-size time Velocity distribution, pressure profile, temperature isothermal contours, and drag coefficient have been analyzed. Mesh has generated through COMSOL, mesh entities elaborated statistically. maximum minimum velocity profile...

The current investigation was based on a simulation employing CFD in COMSOL Multiphysics. base fluid that used this blood. flow considered as laminar, unsteady and incompressible Newtonian fluid, the nature of blood is acceptable at high shear rate. behavior analyzed with objective obtaining pressure, temperature velocity effects through an arterial stenosis. Two types nanoparticles were work: silver (Ag) gold (Au). equations mass, momentum energy solved by utilizing technique. A fine...

The flow of viscous nanofluid with heat and mass transmission above a porous flat surface in the existence constant magnetic field is addressed this article. Brownian motion, Thermophoresis, dissipation are all taken into account. motion described by system equations that transformed conventional non-linear differential appropriate transformations then tackled numerically using boundary value problem approach at MATLAB. convergence criterion for solution 10−6. found solutions functions...

Thermal heat generation and enhancement have been examined extensively over the past two decades, nanofluid technology has explored to address this issue. In present study, we discuss thermal coefficient under influence of a rotating magneto-hydrodynamic hybrid an axially spinning cone for prescribed wall temperature (PWT) case. The governing equations formulated problem are derived by utilizing Rivlin-Ericksen tensor boundary layer approximation (BLA). We introduce our suppositions...

The primary focus of this article is on an electro-osmosis-based interpretation the two-dimensional movement incompressible Sutterby nanofluid flow across a stretching wedge-shaped geometry. Thermal dissipation, double diffusivity, concentration and momentum association are also incorporated. Nanofluids expected to improve ability heat-transfer fluids convey heat more efficiently. Because dimensionless equations related our work difficult solve manually, we employ MATLAB bvp4c technique...

Abstract This groundbreaking study pioneers the exploration of therapeutic implications a constant magnetic field simultaneously with hybrid nanoparticles on blood flow within tapered artery, characterized by multiple stenosis along its exterior walls and central thrombus, employing three-dimensional bio-fluid simulations. In addition, magnetized catheter is inserted into thrombus to increase potential this novel method. The condition under consideration has applications in targeted...

This comparative study inspects the MHD three-dimensional revolving flow and temperature transmission of a radiative stretching surface. The nanofluid is modeled using Tiwari Das model. Water base fluid, nanoparticles are composed two different types nanoparticle, i.e., gold silver (Au Ag). non-radiative heat notion examined in field that results nonlinear energy equation. Conformist transformations used to generate self-similar arrangement leading differential system. resulting system has...

The focus of this manuscript is on two-dimensional mixed convection non-Newtonian nanofluid flow near stagnation point over a stretched surface with convectively heated boundary conditions. modeled equation representing nonlinear transformed into system ordinary differential equations by implementing appropriate similarity transformations. generated structure numerically solved applying the bvp4c method. Consequences various involved parameters, e.g., stretching parameter, thermophoresis...

In this study, rotational nano liquid movement above a linearly stretching surface has been formulated. A two-phase model is used for analysis. Base fluid engine oil and two distinct types of nanoparticles are as nanoparticles, i.e. copper aluminum oxide (Cu &Al2O3). This study aimed to describe the changed possessions on velocity temperature nanofluid flow linear enlarging in existence slip effect. The leading structure PDEs converted into ODEs with similarity transformation. Numerical...

This comparative research investigates the influence of a flexible magnetic flux and chemical change on freely fluid motion (MHD) magneto hydrodynamic boundary layer incompressible nanofluid across an exponentially expanding sheet. Water ethanol are used for this analysis. The temperature transmission improvement fluids is described using Buongiorno model, which includes Brownian movement thermophoretic distribution. nonlinear partial differential equalities governing were changed to set...

The thermal energy enhancement in industries is an important problem today. daily life application of nanofluid technology has changed the view by increasing heat transfer coefficient, reduction skin friction, and decreasing production cost. This article focuses on conventional flow multi-based nanofluids over vertical rotating cone, along with attributes. Synthetic Ester (SE) Natural (NE) are used as base fluids, phenomena allotrope have been utilized for fluid to create different...

This study is an attempt to explore two-dimensional magneto-hydrodynamic Casson fluid flow with heat generation or absorption, chemical reaction, and viscous dissipation under the effect of thermal radiation. Prescribed surface temperature (PST) prescribed flux (PHF) cases have been taken into account investigate problem. The constitutive relations for incorporated suitable boundary layer approximation theory utilized achieve model equations. obtained highly non-linear partial differential...

Abstract In this paper the behavior of flow blood under stenosis suppositions is studied. Nanoparticles Ag and Cu are being used with as base fluid. The problem governing equations modeled into PDE’s, which transformed set ODE’s help useful similarity transformation. We investigated solution numerically for various parameters on temperature velocity distribution shown in form tables graphs. It found that increases while curve goes down by increasing concentration nanoparticles also decreases...