Despite the recycling challenges in ionic fluids, they have a significant advantage over traditional solvents. Ionic liquids make it easier to separate end product and recycle old catalysts, particularly when reaction media is two-phase system. In current analysis, properties of transient, electroviscous, ternary hybrid nanofluid flow through squeezing parallel infinite plates reported. The synthesized by dissolving titanium dioxide (TiO2), aluminum oxide (Al2O3), silicon (SiO2)...

The thermal energy transport analysis with chemotaxis in the free convective flow of viscous nanofluid over stretchable vertically inclined heated sheet is addressed this article. fluid forced and convection motion investigated discussed physical reasoning. also contains microorganism heavy-bottom species, their chemotactic studied. In light Buongiorno model, impact Brownian thermophoresis slip mechanism on conduction analyzed. work based similarity governing partial differential equations...

The unsteady boundary layer flow and thermal transportation analysis of an incompressible Oldroyd-B nanofluid driven by stretching cylinder is scrutinized with analytically approach in this study. governing equations (PDEs) are first established, then these PDEs converted into highly nonlinear ordinary differential (ODEs) using appropriate similarity transformations. obtained solved the form series solutions via homotopy method (HAM) for velocity, temperature, concentration fields....

This article deals with the analysis of nanofluid flow and its thermal energy transport in stagnation region, impinged radially on a rotating circular cylinder magnetohydrodynamic (MHD) effect. The swirling is driven by rotational motion along z-direction. A two-phase model, namely Buongiorno model utilized to determine characteristics nanoparticles, which highlights influence Brownian diffusion thermophoresis temperature concentration distributions. Numerical outcomes are computed applying...

In this study, the rotating flow of Oldroyd-B nanofluid fluid bounded by stretching surface is examined using Cattaneo-Christov theory. A significant perspective endeavor to include consequences Buongiorno's model nanofluids because their improved heat transport. The order analysis approach was adopted present mathematical modeling momentum and energy laws. Using similarities, partial differential equations are transformed into ordinary equations. well-known semi-analytical method called...

Understanding the flow behavior of non-Newtonian fluids required more research in terms various aspects. Because role heat transfer flows is dominant due to its importance technology. For these benefits, a theoretical investigation carried out analyze time-dependent fluid with focus on thermal and solutal transport. In present study, we formulate mathematical model for Oldroyd-B by taking into account effect magnetic field. The governing field equations are constructed help rheological...

In this article, an analysis is conducted on the flow over a circular cylinder enduring torsional motion immersed in viscous fluid. The thermal energy distribution examined for constant and variable surface temperatures. problem formulated axisymmetric Cattaneo–Christov double diffusion theory, wherein equation modified. Note that rotation of axially dependent, phenomenon wall jet arises due to dependent velocity component, mainly because axial pressure gradient. Using appropriate variables,...

In this article, an investigation of the thermal and solutal energy transport in 3 D flow Maxwell nanofluid through a porous medium under influence magnetic field is performed. The heat generation source chemical reaction are also taken account as controlling agent for mass liquid. A novel idea Cattaneo-Christov theory Buongiorno model employed impact Joule heating present analysis. governing partial differential equations (PDEs) transformed into non-linear system ordinary (ODEs) by using...

The problem of Jeffrey’s nanofluid for a modification Homann’s exterior potential flow in the stagnation region is modeled over cylindrical disk. characteristic electrically conducting with time-independent free stream noted as well. Due to this, new family asymmetric flows created, which mainly depends on viscoelastic parameter [Formula: see text] magnetic and stress-to strain rate ratio, i.e., By deploying Buongiorno’s model Rosseland’s approximation, outcomes Brownian diffusion,...

Abstract An axisymmetric viscous carbon nanotube (CNT) nanofluid flow exterior to a rotating circular cylinder of radius 0 along with dissipation and magnetohydrodynamic (MHD) is considered here. The two-phased Buongiorno’s model employed observe the thermal energy transport in engine-oil as background fluid two distinct nanoparticles, i.e., single-walled (SWCNTs) multi-walled (MWCNTs). driven because torsional motion stretching z-direction, which constitutes axial pressure gradient. It seen...

Hybrid nanofluid is a novel nanotechnology fluid created by distributing two distinct nanoparticles into conventional energy transfer fluid. The thermal properties of aluminum alloys, namely AA7072 and AA7075 with engine oil (base fluid) hybrid flow induced over vertical stretchable rotating cylinder are investigated in this study. focus here the analysis transportation presence Joule heating, source/sink, radiation activation energy. Moreover, all constraints analyzed through graphical...

The dynamics of the chemotaxis mechanism for bioconvection in fluid motion engender by swirling movement a flexible heated cylinder is core concern present investigation. basically combination constant rotation and axial dependent stretching. non-linear viscoelastic considered here with time relaxation phenomenon. Moreover, also contains gyrotactic micro-species. In energy transportation analysis impact thermal concentration gradients on solutal energy, respectively, analyzed help...