This study looks at the natural convections of Cu + Al2O3/H2O nanofluid into a permeable chamber. The magnetic field is also executed on flow and analysis has been approached numerically by control volume method. hybrid heat in terms transfer flux was supplemented with wide range parameters fractions, Rayleigh numbers Hartmann porosity factor. It's determined that thermal distribution are heavily affected concentration nanoparticles. nanoparticles increases transport convective energy inside...

In this work, computational intelligence methodologies are used to investigate the trihybrid nanofluid, a new theoretical model with remarkable thermal transmission properties enhance liquid performance. The nanostructure Cu, Al2O3, and TiO2 were immersed in base (C2H6O2) produce (Cu + Al2O3 TiO2/C2H6O2) nanofluid. Darcy-Forchheimer porous medium over stretching Riga sheet, study examines electromagnetic ternary hybrid nanofluid flow under various slip situations. takes into account complex...

Artificial Neural Networks are incredibly efficient at handling complicated and nonlinear mathematical problems, making them very useful for tackling these challenges. neural networks offer a special computational architecture that is extremely valuable in disciplines like biotechnology, biological computing, fluid dynamics. The present work investigates the applicability of back-propagation artificial conjunction with Levenberg-Marquardt algorithm evaluating heat transmission hybrid...

This article analyzes the Darcy Forchheimer 2D thin film fluid of nanoliquid. Flow nanoliquid is made due to a flat unsteady stretchable sheet. In nanoliquids, nanomaterial in form CNTs (carbon nanotubes). Also, present analysis, single walled carbon nanotubes (SWCNTs) are accounted as nanoparticles. The classical liquid ‘water’ treated based liquid. flow permeable region characterized by Darcy–Forchheimer relation. Heat transport phenomena studied from convective point view. transformation...

The present article provides a detailed analysis of the Darcy Forchheimer flow hybrid nanoliquid past an exponentially extending curved surface. In porous space, viscous fluid is expressed by Darcy-Forchheimer. cylindrical shaped carbon nanotubes (SWCNTs and MWCNTs) Fe 3 O 4 (iron oxide) are used to synthesize nanofluid. At first, appropriate similarity transformation convert modeled nonlinear coupled partial differential equations into ordinary equations. Then resulting highly analytically...

Abstract In this investigation, heat transportation together with irreversibility analysis for the flow of couple stress hybrid nanofluid past over a stretching surface is considered. The innovative characteristics and aims work are to note that model involves EMHD, viscous dissipation, Joule heating, absorption, omission. prepared due suspension solid nanoparticles SWCNTs MWCNTs in pure human blood. This mathematical an appropriate biological advantages including testing blood drug...

Abstract In this new world of fluid technologies, hybrid nanofluid has become a productive subject research among scientists for its potential thermal features and abilities, which provides an excellent result as compared to nanofluids in growing the rate heat transport. Our purpose here is introduce substantial influences magnetic field on 2D, time-dependent stagnation point inviscid flow couple stress around rotating sphere with base pure blood, $${\text{TiO}}_{2}...

The subject of discussion in this analysis is the time independent flow electrically conducting nanofluid with entropy generation over a radially flexible disk. Considerations for magnetic fields, nonuniform heat generation, Darcy-Forchheimer porous space, dissipation, Ohmic heating and chemical reactions activation energy are incorporated into distribution. For number engineering biomedical objectives, mathematical model introduced goal accelerating rate transmission improving performance...

This study focuses on the comprehensive analysis of thermal characterization an electrically conducting nanofluid flow containing TiO2 nanoparticles dissolved in two different common liquids (H2O and C2H6O2) contained within a continuously extending disk. The heat concentration formulation are modified by incorporating standard interpretations Joule heating, energy source, dissipation, activation with binary chemical reactions. Darcy–Forchheimer addition is used to highlight significance...

Hybrid nanofluids are extremely important in field of engineering and technology due to their higher heat transportation performance resulting increased transfer rates. In the presence thermal flux, effect a slanted MHD with velocity slip condition on CNTs hybrid nanocomposite across gradually extending surface is investigated. present analysis, Maxwell nanofluid embedded SWCNT MWCNT (single multiple wall carbon nanotubes) nanoparticles. The nanomaterials transformation framework obtained by...

The current investigation employs a numerical simulation to demonstrate the impact of hall on unsteady free convective flow caused by hybrid-nanofluid over revolving sphere approaching stagnation point. prominent characteristics Lorentz force as result magnetic field coupling with hybrid nanofluid is also explored. process energy and mass transmission inspected nonlinear thermal radiations, non-uniform supply, dissipation chemical reaction. In model, unique class known being used, which...

Abstract This study explores the impacts of heat transportation on hybrid (Ag + MgO) nanofluid flow in a porous cavity using artificial neural networks (Bayesian regularization approach (BRT-ANN) technique). The considered this analysis is semicircular shape with heated and cooled wall. dynamics energy transmission are influenced by various features such as effect magnetize field, porosity volume fraction nanoparticles. To explore outcomes these thermal transport, BRT-ANN model developed....

The mathematical analysis of time-independent mobility a modified blood-based Casson hybrid nanofluid including dissimilar nanomaterials in convergent/di?vergent channel with stretchable/shrinkable walls is investigated. cumulative impact magnetic and electric fields governs the flow nanofluids. In this study, mediated fluid containing three unique (titania oxide, alumina silver nanoparticles) used to evaluate efficiency nanofluids collaboration blood as base fluid. performed using...

Abstract The flow at a time-independent separable stagnation point on Riga plate under thermal radiation and electro-magnetohydrodynamic settings is examined in this research. Two distinct base fluids-H 2 O C H 6 TiO nanostructures develop the nanocomposites. problem incorporates equations of motion energy along with unique model for viscosity conductivity. Similarity components are then used to reduce these calculations. Runge Kutta (RK-4) function yields simulation result, which displayed...

Current work explores the intricacies of magnetohydrodynamic and mix convectional boundary-layer flow concerning couple stress Casson nanofluid (CSCNF) dynamics via a 3D stretchable surface. The addition active passive control mechanisms for nanoscales creates an innovative dimension to exploration. Remarkably, analysis incorporates influence non-Fourier non-Fickian heat mass flux, alongside effects thermophoresis Brownian diffusion, systematically investigate transportation phenomena....