Keeping in mind the whispered applications of Falkner's-Skan Flows, present hydrothermal scrutinization intended to explore two-dimensional flow pattern and thermal characteristics featuring steady mixed convective motion a radiating homogeneous hybrid nanofluidic mixture (Ag+TiO2)−H2O (i.e., aquatic containing spherical silver titanium dioxide nanoparticles) over non-movable wedge surface. By combining Darcy's-Brinkman single-phase models, conservation equations are stated properly case...

Motivating by the importance of viscoelastic nanofluids in nanotechnological and biomedical fields, current analysis intends mainly to examine aspects 2D steady Jeffery nanofluid flows near a vertically elongating surface, case where thermal radiation affects linearly on driven with effective contribution non-uniform internal heat source. By invoking Buongiorno's model together convective heating Stefan blowing conditions, leading boundary layer differential formulation is achieved...

This research paper inspects the flow characteristics of a magnetohydrodynamic (MHD) Maxwell nanofluid in presence Darcy-Forchheimer (DF) model applied to stretching sheet. Additionally, numerical analysis is performed evaluate findings, utilizing composed copper (Cu) suspended water. The energy equation this study incorporates thermal radiation, viscous dissipation, Cattaneo-Christov heat flux model, and joule heating. entropy generation then determined based on obtained solutions for...

In the current investigation, we studied Prandtl-Eyring nanofluid with base fluid engine oil is flowing through a heated stretching surface entropy production of and variable transfer analysis. Titanium dioxide (TiO2) nanoparticles (NPs) are mixes to produce nanofluid. By exposing flow over heated, slippery surface, able analyze thermal transmission mechanism. The effects Darcy-Forchhemier, heat absorption/generation, Cattaneo-Cristov flux model radiative also taken into account in this...

Nanofluids holding three distinct sorts of nanosized particles suspended in base fluid possess excellent thermal performance. In light this novel use coolant applications, the current work dealt with optimal design and performance estimation a ternary hybrid nanofluid, based on modern machine learning prediction technique. The synthesis (Cu), (TiO2), (SiO2) nanoparticles water over symmetrically stretching sheet was scrutinized. flow is most noteworthy symmetry analysis for momentum boundary...

The present study concentrates on the motion of a third-grade fluid with magneto-hydrodynamics (MHD) over stretching surface. Additionally, Cattaneo-Christov model is employed to derive information about heat flux, which subsequently utilized ascertain transmission properties. inquiry involves an assessment impact thermal relaxation time boundary layer. considered type non-Newtonian that deal both shear thinning and thickening behaviours. also involved calculating all normal stress...

In this study, we explore the intricate conduct of gyrotactic microorganisms in a magnetohydrodynamic (MHD) nanofluid flow across Riga plate, using fourth-grade fluid model. The comprehensive investigation encompasses few influential parameters, including non-dimensional viscoelastic parameter α1, cross-viscous α2 third-grade parameters α3, α4, α5, Modified Hartman number M, local Reynolds Re, and inverse Darcy Da⁻¹. Furthermore, effects slip S₁,S₂,S₃ thermophoretic τ on velocity,...

This study investigates the steady laminar natural convection phenomenon within a quadrantal enclosure occupied by fluid-saturated porous medium. The undergoes internal heat generation and magnetohydrodynamic buoyancy-driven thermal energy transfer. governing equations were nondimensionalized resolved utilizing FEM. research examined impacts of medium presence on streamlines, isotherms, transfer rate from walls. results obtained for following parameter ranges: 103≤Ra≤106, 0≤Ha≤100, 0≤ϕ≤0.05....

Heat pipes are heat transfer devices that carry from one point to another efficiently. The thermal conductivity and performance of the pipe can be increased by integrating nanofluids, making them appropriate for applications such as electronics cooling, spacecraft management, recovery systems. suggested work is being carried out approximate solution tri-hybrid nanofluid (copper (Cu), silver (Ag) graphene oxide (GO)) flow between two horizontal coaxial cylinders. inner cylinder rotating with...

Abstract The main goal of this work is to use the cut and paste method match inner flat outer acoustic Schwarzschild black holes examine geometry a thin-shell. Moreover, study uses Klein–Gordon equation motion dynamical evolution thin-shell composed massive as well massless scalar field. results show that collapsing behavior exhibited by potential function shell while effective first collapses then progressively increases. Additionally, researchers have analyzed stable configuration for...

Abstract Ferromagnetic hybrid nanofluids can be employed in electronics and microelectronics cooling applications to minimise the accumulation of heat effectively eliminate excess heat. By increasing transfer rate, these serve maintain suitable operating temperatures avoid device overheating. This study examines influence convective heating on fluid flow a three-dimensional ferromagnetic Casson nanofluid (composed Mn-ZnFe 2 O 4 /CoFe nanoparticles) over radiative Riga sensor device. The...

This research investigates the properties of charged T-duality black holes within context string theory. The investigation focuses on implications T-duality, electric charge, and thermodynamic parameters curvature behavior a hole. findings demonstrate that physical variables like μ H have significant impacts position event horizon, photon radius as well shadow radius. study calculates values quasinormal modes observes through graphical behavior. Additionally, paper entropy free energies...

Abstract The significance of the study comes in fact that it investigates complex fluid dynamics and magnetohydrodynamics phenomena, which have potential to be applied a variety domains, such as physics, engineering, materials science. Their exceptional physical stems from their ability combine unique properties multiple substances provide desired functions performance characteristics. However, this study, numerical studies slip effects on magnetized radiatively hybridized ferrofluid flow...

This research investigates the unsteady flow behavior of a magnetohydrodynamic Williamson nanofluid (WNF) over permeable stretching sheet within porous medium. It considers influence chemical reactions, Joule heating, heat generation/absorption, thermal radiation, and viscous dissipation. The study on WNF medium has gained much significance due to its numerous industrial engineering applications. employs Fibonacci wavelet series collocation method (FWSCM) for analysis. An appropriate...

This study dynamically investigates the mathematical Ivancevic option pricing governing system in terms of conformable fractional derivative, which illustrates a confined Brownian motion identified with non-linear Schrödinger type equation. model describes controlled that comes The solution to comprehend market price fluctuations for suggested is developed through application strategy. modified Kudryashov analytical method applied find exact soliton solution. restrictions on parameters...

Peristaltic flow is used in many scientific and technological fields, including biology medical technology. The goal of this research to investigate the peristaltic behavior an asymmetric non-uniform (tapering) channel using a Reiner-Philippoff fluid model (RPFM)-based nanofluid under influence dilatant pseudoplastic behavior. Buongiorno (BNFM) considered heat mass transportation. transformed from static reference movement frame subsequent set modifications, dynamic back dimensionless form...

The application of convective heat transport holds great significance in physiological studies, particularly preventing the overheating birds and mammals living warm climates. This process involves transfer heated blood from body’s core to nearest vessels, effectively dissipating excess into environment. As a result, analyzing boundary conditions becomes crucial for understanding solutal profiles flow two-phase nanofluid model (Darcy–Forchheimer), which also takes account sources chemical...

Nanofluids have shown tremendous potential in the heat intensification of several manufacturing industries and been utilized extensively energy technologies recent years. The goal this exploratory paper is to examine impact double stratification on steady two-dimensional MHD Casson nanofluid flow over an exponentially porous stretching sheet. Thermophoresis Brownian model described. In addition, influence joule heating, viscous dissipation, generation are considered. governing partial...