This analysis reports an unsteady and incompressible flow of Williamson nanoliquid in presence variable thermal characteristics are persuaded by a permeable stretching cylinder. The field investigation is established with the effect mixed convection non-uniform heat source/sink on transfer. On cylinder surface, inspected utilization zero mass flux constraints. By using appropriate similarity variables, framed equations for energy, momentum converted into non-linear ODEs. numerical...

The advancement in the thermal engineering presented idea of nanomaterials with stable consequences and performances. importance hybrid attributes solar energy production, electronics devices, heating systems, mechanical processes etc. model is classified as a distinct phenomenon different tiny particles. evaluation nanofluid containing four types nanoparticles subject to non-uniform heat source/sink inclined magnetic field for two-dimensional unsteady flow due permeable stretched surface...

This work analyzes the two-dimensional flow of an incompressible magneto-hydrodynamic fluid over linear stretching sheet in presence suction or injection and convective boundary conditions. A scaling group transformation method is applied to governing equations. The system remains invariant due relation between parameters. Upon finding three absolute invariants, third-order ordinary differential equations (ODEs) corresponding momentum equation second-order ODEs energy diffusion are derived....

Carbon-fiber composites are considered to be one of the suitable materials for fabrication prosthetic feet. However, commercially available composites-based foot designs present several problems lower limb amputees, such as low tensile strength, reduced impact resistance, high cost, and weight structure. Modulating mechanical properties carbon-fiber using a simplified method can help reduce these issues. Therefore, our research aims identify increasing concentration carbon fiber in by hand...

The idea of activation energy appearing in a chemical reaction has been widely applied to the production biodiesel, hydrogen, oil storage, geothermal manufacturing, base liquid mechanics, emulsified, food significant renewable source, as well sewage systems. This study aims investigate resultant repercussions double diffusion, energy, Brownian motion, thermal radiation, thermophoresis, viscous dissipation, magnetic field, and Joule heating on bioconvection tangent hyperbolic nanofluid flow...

The current research deals with analytical analysis of Marangoni convection on ethylene glycol base hybrid nanofluid two-dimension flow viscous dissipation through a porous medium, which have some important application in mechanical, civil, electronics, and chemical engineering. Two types nanoparticles one is sliver other graphene oxide used as fluid this work. authors applied appropriate transformations to convert collection dimension form nonlinear partial differential equations...

Here nonlinear mixed convective nanoliquid slip flow of Walter-B fluid is addressed subject to stretched surface with gyrotactic microorganisms. The generated via surface. Important mechanisms i.e., Brownian and thermophoresis diffusions are considered for the modeling energy equation. Flow behavior examined nanofluid Chemical reaction activation analysis concentration. Suitable transformations leads ordinary differential system. Analytical solutions made built-in-Shooting plotted...

This investigation is about hybrid nanofluid flowing over a sheet. We considered two-dimensional Darcy–Forchheimer flow of different nanofluids with the influence uniform heat source sink and nonlinear thermal radiation. Different nanoparticles can be used to improve conductivity liquid. A study comparing various considered. Here, we have selected manganese Zinc ferrite Nickel as kerosene oil engine carrier liquids. Suitable similarity transformations are construct required ordinary...

A theoretical study of two-phase non-Newtonian fluid with heat transfer is presented in this article. Jeffrey model used as the base liquid to form a multiphase suspension help gold particles. Heating effects have also been applied on an electro-osmotic flow through divergent channel. The lubrication dampen skin friction opposite walls. An analytical solution obtained for nonlinear transfer. Separate expressions volumetric rate and pressure gradient are determined via complex mathematical...

This study explores Artificial Neural Network with Back Propagated Levenberg Marquardt (ANN-BPLM) for entropy generation in magnetohydrodynamic third-grade nanofluid flow model (MHD-TGNFM) chemical reaction and heat sink/source effect. The nonlinear ODE system MHD-TGNFM is obtained after simplifying the presented mathematical PDEs through a suitable transformation system. dataset was constructed from effective modifications physical parameters of Homotopy Analysis Method (HAM). To interpret...

In this study, we have discussed thermophoresis particle deposition effects under the action of both pressure and buoyant forces flow magneto-Walter's B nanofluid induced by a stretched surface. The Buongiorno model is employed to analyze dynamic impact thermophoretic dispersion Brownian motion. chemical reaction, Joule heating non-linear radiation relations are also incorporated. analysis has been performed in view solutal heat convective boundary constraints. analytical technique namely...

Intention here is to discuss the physical features of MHD stagnation point flow Williamson nanomaterial over a stretched surface. Cattaneo-Christov Double Diffusion (CCDD) concept incorporated deliberate behaviors mass and heat transfer rates. These models are based upon Fick's Fourier's laws versus solutal thermal relaxation times. Innovative characteristics regarding thermophoresis Brownian diffusion effect also scrutinized. Relevant transformations used reduce nonlinear expression...

The study of multiphase flows has earned much attention from researchers due to its numerous applications in mechanics and industry such as sewage management, synthetic fabrication, electricity generation, medication processes. In the present work, we examined Poiseuille flow a couple stress fluid between parallel plates presence velocity temperature slip boundary conditions. effects thermal conductivity radiations, variable viscosity, non-uniform magnetic field on fields existence hafnium...

Owing to fine thermal prospective of nanomaterials, different applications have been addressed in nanotechnology and management systems. Multidisciplinary such nanomaterials are commonly observed nuclear reactors, systems, transportation industrial products cooling, power industry, renewable energy etc. The motivated work aims predicts improved consequences Maxwell nanofluid with non-uniform heat source radiated phenomenon. transfer analysis is assessed by using the Cattaneo-Christov...

In the current investigation, it is examined numerically entropy generation (EG) on inherent irreversibility motion of couple stress cold liquid with porous medium via Horizontal channel in presence viscous dissipation. Present work was studied heat channel. This considerable importance many industrial applications like "Control Mechanism Material Manufacturing", "Manufactures Electronic Chips", "Crystal Formation", "Scientific Treatment Problems Irrigation", "Soil Erosion and tile drainage"...

Owing to enhanced thermal impact of nanomaterials, different applications are suggested in engineering and industrial systems like heat transfer devices, energy generation, extrusion processes, engine cooling, systems, exchanger, chemical manufacturing hybrid-powered plants etc. The current communication concerns the optimized flow Sutterby nanofluid due stretched surface view sources. investigation is supported with external source, magnetic force radiative phenomenon. irreversibility...