The primary aspect of this study is a theoretical analysis heat transport enhancement in the time-independent three-dimensional ternary hybrid nanofluid flow with base fluid water and engine oil under effects thermal radiation over linear as well nonlinearly stretching sheet. Three different shaped nanoparticles, namely SiO2 blade form, MoS2 cylindrical Cu platelet are considered research. Utilizing similarity transformations, resultant equations reduced into non-linear ordinary differential...

The main aim of this study is to analyze the convective heat transport in hydromagnetic TiO2 water nanofluid (NF), TiO2−SWCNT hybrid (HNF) and TiO2−SWCNT−MWCNT ternary flow (THNF) under influence Cattaneo-Christov (CC) flux nonlinear thermal radiation over a stretching sheet. This will help environmental purification, decompose harmful substances other applications that require cooling. Furthermore, consideration CC important for finite speed reduce system disorder. governing partial...

Abstract This comparative analysis studies the impact of two different nanoparticles Copper and Oxide in partially ionized magnetofluid (water kerosene oil mixed with Copper/Copper Oxide) flows over a linearly stretching surface. The impacts electrons ions collisions presence Cattaneo-Christov heat transfer model are also investigated. effects prominent parameters on velocity temperature fields depicted through graphical illustrations. A similarity transformation procedure is applied to...

This study aims to investigate the time-dependent squeezing of nanofluid flow, comprising carbon nanotubes dual nature, e.g. single-walled nanotubes, and multi-walled between two parallel disks. Numerical simulations proposed novel model are conducted, accompanied by Cattaneo-Christov heat flux in a Darcy-Forchheimer permeable media. Additional impacts homogeneous–heterogeneous reactions also noted, including melting heat. A relevant transformation procedure is implemented for transition...

The primary determination of this study is a numerical investigation the entropy generation (EG) in steady two-region flow viscous fluid and hybrid nanofluid (NF) long-infinite vertical annulus having clear region as well porous media. Stoke's single-phase NF models are used to (HNF) heat transfer developments, respectively. Two types nanoparticles taken, such copper (Cu) silver (Ag) within base water make it HNF. Darcy-Brinkman law also examine through zone annulus. Necessary quantities...

The primary aspect of this study is a theoretical analysis heat transfer enhancement in the unsteady three-phase oscillatory flow Casson fluid bounded by layers nanofluid and hybrid nanofluids flowing adjacent to walls long-infinite horizontal composite channel. Stoke's model employed define fluid, one phase implemented for nanofluid. Moreover, Cattaneo–Christov flux also considered. This amends Fourier's law transport using thermal relaxation time due which passes through channel within...

The primary aspect of the present study is to analyze velocity and thermal slip effects on entropy in three-phase flow viscous liquid amid nano liquids (NFs), hybrid (HNFs) tri-hybrid (THNFs) with different shaped nanomaterials an inclined channel. Moreover, generation (EG) analysis conducted for all three fluids i.e., fluid sandwiched between Fe2O3 water NFs, Fe2O3−Cu HNFs, Fe2O3−Cu−MoS2 THNFs. uniqueness nature channel as no immiscible In oil recovery systems, mixture nanofluids can be...

In this analysis, the MHD flow and nth-order dispersion of chemically reactive species over a slendering stretching sheet are studied numerically. The partial slip boundary condition non-linear form thermal radiation also considered in research. To get ordinary differential equations from system governing flow, energy, concentration, similarity transformations applied. Using shooting technique Runge-Kutta scheme, resultant integrated numerical results terms temperature, velocity,...

Abstract The most commonly discussed topic at the present time is fluid flow in a channel having porous area, as it of practical importance for petroleum extraction, frequently isolated irrigation, coolant circulation, biofluid transportation living organisms, and industrial cleaning systems. An investigation heat transfer characteristics unsteady magnetohydrodynamics oscillatory two‐immiscible Casson (CF) ferrofluid (FF) long‐infinite horizontal composite performed analytically. divided...

The key aspect of this study is to inspect the entropy generation (EG) heat and momentum transport within two immiscible Casson nanofluid (NF) with mass diffusion copper nanomaterials in an inclined channel (IC) thermal velocity slips. IC divided into regions. Region-I contains fluid (CF) whereas Region II occupied copper-water NF. Moreover, effects Lorentz force are also taken region having mathematical model solved by employing perturbation method. behavior different aspects, i.e.,...

The primary aspect of this study is a theoretical analysis heat transfer enhancement in the unsteady three-phase oscillatory flow Casson fluid bounded by layers nanofluid and hybrid nanofluids flowing adjacent to walls long-infinite horizontal composite channel. Stoke's model employed define fluid, one phase implemented for nanofluid. Additional this, Cattaneo–Christov flux model. This amends Fourier's law transport using thermal relaxation time due which passes through channel within finite...