<abstract> <p>In current days, hybrid models have become more essential in a wide range of systems, including medical treatment, aerosol particle handling, laboratory instrument design, industry and naval academia, more. The influence linear, nonlinear, quadratic Rosseland approximations on 3D flow behavior was explored the presence Fourier fluxes Boussinesq thermal oscillations. Ternary nanoparticles different shapes densities were also included. Using necessary transformation,...

Ternary nanofluids have attracted significant attention due to their improved thermal characteristics and adaptability for many applications. Nanoparticles interact with one another in complex ways a noticeable effect on heat transmission. Due this, promise several fields. Notably, investigating the behavior of ternary via wedge enables optimization transfer processes exchangers, cooling mechanisms, control systems. The current study examines effects radiation thermophoretic particle...

Due to the necessity of creating customized nanomaterial designs, advanced coating processes have been developed on surface an isothermal sphere. To achieve accuracy in these processes, it is necessary understand thermodynamic behavior, rheology materials, and chemical reactions involved. The novelty present research analyzing heat transfer dusty fluid flow over a heated cross section cylinder. We develop mathematical model including factors for both phases demonstrate how affect field....

The Soret and Dufour effects have significant importance in several practical scenarios, especially the domain of fluidic mass temperature transfer. Nanofluidics, biological systems, combustion processes are all areas where these consequences crucial. Because its distinct geometry, a wedge-shaped structure has aerodynamics, production, engineering applications. Wedge shapes used aerodynamics for analyzing improving airflow across various objects. Nanofluids increase thermal conductivity over...

Abstract The researchers explored the free convective flow of a hybrid nanofluid in vertical microchannel with rectangular cross‐section. Notably, both channel walls were heated alternately, and transverse magnetic field was applied across channel. had unique properties, one which nonslip other exceedingly hydrophobic. major purpose to investigate effects magnetism superhydrophobicity on important parameters. differential equations investigation solved, producing accurate results. study...

Numerous researchers have been interested in nanofluids because of their improved thermal characteristics and heat transmission capabilities. Recently, it has possible to create a novel nanofluid with exceptional properties by combining ternary nanoparticles various shapes. In this respect, is believed that the thickness fin will change length impacts radiation, convection on transfer mechanism, internal production wetted hybrid depend fin. As result, several profiles, including triangular,...

<abstract> <p>The dynamical behaviour and thermal transportation feature of mixed convective Casson bi-phasic flows water-based ternary Hybrid nanofluids with different shapes are examined numerically in a Darcy- Brinkman medium bounded by vertical elongating slender concave-shaped surface. The mathematical framework the present flow model is developed properly adopting single-phase approach, whose solid phase selected to be metallic or oxide nanoparticles. Besides, influence...

Superhydrophobic microchannels have extremely high water repellency, and such a property is reliant on set of factors, namely the surface construction energy. The energy can be depressed either by exhausting chemical film that coated or stuck to adjusting existing interaction producing micro- nanotextures. Further, due latter reason inducing superhydrophobic properties, study manufacturing processes produce textures becomes critical understanding area. latest generative techniques, as 3-D...

AbstractThis work explores the effect of Ohmic heating, thermal radiation, and viscous dissipation on third-grade hybrid nanofluid's magnetohydrodynamic pulsatile flow in a porous channel. While alumina Gold are nanoparticles, blood was recognized as fluid. The significance mathematical modelling biological fluids is evident many medical disciplines, using magnetic fields to regulate during surgery radiation therapy for lung cancer treatment. In Maple 2018, system ODE created from governing...

Hybrid nanofluid is a superior working fluid that considered as appropriate for variety of applications, including machine cutting, engine automobile cooling, photovoltaic thermal management, electronic component and solar collectors. With the motivation these application, magneto hydrodynamic Carreau explored in this study when graphene titanium hybrid nanoparticles with heat generation porosity are taken into account. Titanium alloy combined base water used to simulate process. utilized...

This study concentrates on heat transmission and momentum in the hydromagnetic flow of hybrid nano-dusty fluid over thermal plate with radiation, Newtonian heating wall conditions, sink/source. The outcome this investigation finds application wastewater management, groundwater treatment, soil remediation, magnetic separation, air pollution, biomedical diagnostics, continuous casting, environmental engineering. MAPLE Software is used to solve flow-controlling equations numerically. influence...

Abstract The purpose of this work is to investigate the effect thermal radiation on convective heat transfer for an electrically conducting hybrid nanofluid moving perpendicularly through a microchannel with parallel plates heated under isothermal conditions, while subjected transverse magnetic field. In case, one surface exhibited superhydrophobic slip and temperature jump, whereas others did not. objective study was determine impacts radiation, generation, magnetism volume flow rate,...