Hybrid nanofluids have gained too much attention due to their enhanced thermophysical properties and practical applications. In comparison conventional nanofluids, capacity enhance heat transport is impressive. The simultaneous numerical calculations of hybrid mono across an exponentially shrinking surface in a porous medium are taken into consideration here. analysis the thermal energy distribution carried out by using convective boundary conditions. Shrinking, permeability,...

The remarkable thermophysical characteristics of hybrid nanofluids reveal the considerable potential in a wide range heat transfer applications. In comparison to conventional nanofluids, their capacity enhance transport is impressive. current study represents novel nanomaterials such as Silicon dioxide (SiO2) and Titanium oxide (TiO2) flow ethylene glycol under significance non-linear thermal radiation non-uniform source/sink. well-known Himelton-Crosser model for used express nanoparticles...

The remarkable thermophysical characteristics of hybrid nanofluids have considerable potential for the enhancement heat transport. In recent years, there has been a significant surge in research on nanofluids, with findings indicating that these fluids are favorable transferring engineering contexts. Therefore, theoretical investigation is conducted by adopting Tiwari and Das model, viscous dissipative flow thermal transport nanoparticles an exponentially permeable porous shrinking surface....

The major interest of this research is to study the flow characteristics and heat transfer a hybrid nanofluid due stretching/shrinking surface. surface permeable, which allowing fluid suction from wall mass. mathematical model based on single phase with modified thermophysical properties. similarity transformation used alter partial differential equations into coupled nonlinear ordinary equations, are then tackled numerically using bvp4c function in MATLAB software. different controlling...

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....

The physical strength, mechanical resistance, chemical stability, thermal conductivity, and other properties of hybrid nanoparticles are more satisfactory than those individual nanofluids. performance nanofluids has been the subject an increasing number studies in literature. A significant research is done on theoretical correlations for estimating thermophysical characteristics heat transmission investigated present work through a comparative analysis. For this, mathematical model...

Investigation on hybrid nanofluids has increased significantly, and findings indicate that these fluids are effective heat transfer for industrial applications. The thermal conductivity of nanoparticles, particle volume fractions, mass flow rates play a major role in the enhancement nanofluids. transport only depends nanoparticles when fractions constant. Therefore, purpose this article is to analyze Zn−TiO2/H2O nanofluid past an inclined shrinking surface. PDEs model converted into ODEs by...

In several industrial and engineering applications, the Catteno-Christov heat flux plays a major role in flow transport of non-Newtonian fluids. Therefore, goal this study is to investigate characteristics homogeneous-heterogeneous reactions axisymmetric Oldroyd-B materials using conduction analysis. The transfer phenomenon examined from non-Fourier model perspective. governing field equations are developed rheological formulation fluid model, which transformed into set nonlinear...

Hybrid nanofluids show great potential for heat transport applications such as solar thermal systems, car cooling sinks, and energy storage. They possess better stability properties compared to standard nanofluids. In this study, a base fluid, methanol, is injected into an electrically conducting heat-generating/absorbing disk of permeable boundary, dual solutions are obtained. Two alternative models, Xue Hamilton-Crosser considered, their conductivities contrasted. Furthermore, radiation...

The intriguing thermophysical properties of nanoparticles have considerable potential in thermal transportation for engineering applications. inclusion solid the base fluid raises fluid's conductivity, which improves transfer characteristics. Thus, an analysis is performed by assuming Tiwari and Das model, flow energy aspects hybrid a shrinkable porous medium. current study focuses on heat performance dynamic ethylene glycol-based titania alumina nanoparticles. flow-controlling system PDEs...

The applications of hybrid nanofluids due to its heat transfer characteristics has piqued the interest many researchers. Inspired by this, in this article, nanofluid flow is considered, where fluid flowing normally over a disk that exhibiting rotation and linear stretching stagnation region. energy transport irreversibility analysis are conducted with Ohmic heating, thermal radiation, source/sink. Homann's problem modified simultaneous effects radial stretchiness disk, uniform rotation,...

The rheology of micropolar material with heat energy transport features is fully progressive, which allows considerable industrial and engineering applications. In this study, numerical analysis presented to examine the micro-rotation characteristics magnetized fluid flow towards stagnation point region on a porous shrinking surface gyrotactic microorganisms. To describe convective features, Arrehenius activation energy, thermal radiation, Ohmic, viscous dissipation effects are taken into...

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...

The behavior of hybrid nanofluids in engineering systems is significantly influenced by their thermophysical characteristics. In the context thermal sciences, dynamic viscosity and conductivity are more important than others physical recent years, a number models based on artificial intelligence techniques have been developed to forecast these features. properties as prospective heat transfer fluids controlled several factors such volume fraction, solid part size, temperature. purpose this...

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...