The augment of heat transfer and intensity fluid has wide range application in science engineering. buoyancy-driven flow Casson viscoelastic a square cavity the presence external magnetic field is examined numerically. Cold temperature applied on right side (vertical) wall high imposed left while horizontal walls are kept at thermally insulated. mathematical model comprises mass primary secondary momentum conservation equations boundary conditions four sides enclosure. non-dimensional...

Abstract An analysis of this paper is examined, two-dimensional, laminar with heat and mass transfer natural convective nanofluid flow past a semi-infinite vertical plate surface velocity thermal slip effects are studied theoretically. The coupled governing partial differential equations transformed to ordinary by using non-similarity transformations. obtained solved numerically well-known method named as Keller Box Method (KBM). influences the emerging parameters i.e. Casson fluid parameter...

Abstract Non‐Newtonian fluids are increasingly being deployed in energy systems and materials processing. Motivated by these developments, the current study, a numerical simulation is performed on two‐dimensional, unsteady buoyancy‐driven flow square cavity filled with non‐Newtonian fluid (Casson liquid). The enclosure geometry features vertical isothermal walls (with one at higher temperature than other) thermally insulated horizontal walls. conservation equations for mass, momentum,...

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A premiere free-access and peer-reviewed frontier journal site, serving the needs of thermal-fluids community. See latest research or submit an article. Quickly share your with global community, for increased citations impact at no cost.

In the present study, we analyze heat, momentum and mass (species) transfer in external boundary layer flow of Casson nanofluid past a truncated cone surface with Biot Number effect is studied theoretically. The effects Brownian motion thermophoresis are incorporated model presence both heat nanoparticle effect. governing partial differential equations (PDEs) transformed into highly nonlinear, coupled, multi-degree non-similar consisting momentum, energy concentration via. Appropriate...

Therollof melting heat transfer on magnetohydrodynamic natural convection in a square enclosurewithheatingof the bottom wall is examinednumericallyin this article.The dimensionlessgoverning partial differential equations are transformed into vorticity and stream functionformulationand then solved using finite difference method(FDM). The effects of thermal Rayleigh number(Ra), parameter(M) Hartmann number(Ha) illustrated graphically.With an increasing parameter number, rate fluid flow...

A premiere free-access and peer-reviewed frontier journal site, serving the needs of thermal-fluids community. See latest research or submit an article. Quickly share your with global community, for increased citations impact at no cost.

Abstract An analysis of this paper is examined, two-dimensional, laminar with heat transfer on natural convective flow in an electro-conductive polymer the external surface a vertical plate under radial magnetic field and slip effects considered. The coupled governing partial differential equations are transformed to ordinary by using non-similarity transformations. obtained solved numerically well-known method named as Keller Box Method (KBM). computed results for velocity temperature...

Abstract The analysis is carried out to investigate the magneto hydro dynamics (MHD) boundary layer flow, heat and mass transfer characteristics of two carbon nanotubes, namely, single‐wall nanotubes (SWCNTs) multiwall (MWCNTs), with water as base fluid by taking thermal radiation chemical reaction into consideration. Suitable similarity conversions are employed reduce nonlinear partial differential equations system ordinary equations, these together conditions solved numerically using...

Wireless sensor networks have become incredibly popular due to the Internet of Things' (IoT) rapid development.IoT routing is basis for efficient operation perception-layer network.As a type machine learning, reinforcement learning techniques gained significant attention their successful application in field network communication.In traditional Routing Protocol lowpower and Lossy Networks (RPL) protocol, solve fairness control message transmission between IoT terminals, fair broadcast...

A premiere free-access and peer-reviewed frontier journal site, serving the needs of thermal-fluids community. See latest research or submit an article. Quickly share your with global community, for increased citations impact at no cost.

In the present study, heat, momentum and mass (species) transfer in external boundary layer flow of Casson nanofluid over a vertical plate surface with multiple slip effect is studied theoretically. The effects Brownian motion thermophoresis are incorporated model presence both heat nanoparticle convective conditions. governing partial differential equations (PDEs) transformed into highly nonlinear, coupled, multi-degree non-similar consisting momentum, energy concentration via appropriate...

In this article, we have investigated analytically the influence of thermal diffusion and radiation on unsteady magnetohydrodynamic, free-convective flow an electrically conducting, viscous incompressible fluid past impulsively moving isothermal porous plate for case ramped wall temperature concentration. The nondimensional governing equations are solved in closed form by using Laplace transform method. Exact solutions velocity, temperature, concentration obtained. With aid these...

The effects of radiation-absorption, diffusion-thermo on MHD free-convective flow a Nano-fluid bounded by porous medium past an infinite smooth plate are investigated. is budged with fixed velocity, temperature and concentration presumed to be erratic from mean near the plate. governing equations resolved using perturbation-method. overriding parameters main quantities conferred through graphs. We evaluated skin friction, Nusselt number Sherwood computationally discussed.