Heat transport issues of wedge-shaped flow on hybrid nanofluids are special significance by reason their importance in manufacturing uses including heat exchangers solar panels, electronic equipment cooling, drying processes, and air heaters. Consequently, the current investigation investigates behavior dissipative Single-walled Carbone nanotubes (SWCNT) — Multi-walled Carbon (MWCNT) nanofluid buoyant towards a radiative vertical permeable wedge subjected to variable wall temperature...

Abstract The significance of interparticle spacing and nanoparticle radius for the case single-phase nanofluid flow has often been neglected. Tremendous applications this phenomenon can be witnessed in different fields, especially electron microscopes, heat exchange processes, many others. This research highlights vital aspect Ohmic heating over a spinning disk. To ensure novelty, ferromagnetic (Manganese ferrite) incorporated to examine particle explore features transfer. nanofluids are...

This current investigation examines the behavior of Williamson-micropolar nanofluid across a bi-directionally extending sheet with thermal radiation, heat source, and multiple slip conditions. It is noteworthy to measure transmission flow filled water-based alumina subjected bi-directional stretching sheet. By utilizing proper similarity transformation rules, governing complex partial differential equations (PDEs) problem are altered non-linear ordinary (ODEs). The Homotopy Analysis Method...

Ternary hybrid nanofluids offer promising roles in biomedical engineering, solar energy, atomic reactors, automobiles, and heat pipes. Through these facts influenced by recent work nanotechnology their rich utilization, this particular research emphasizes the MWCNT (Multi wall carbon nano tube)-Au-Ag/blood ternary nanofluid flow through a bidirectional stretching sheet. The coupled non-linear partial differential equations (PDEs) for developed model are altered into dimensionless ordinary...

The current phenomena deal with the magnetohydrodynamic flow of viscous liquid past an expanding sheet for consideration thermal buoyancy, additional heat source/sink and chemical reaction. is also embedded within a permeable medium, transport property will be affected by convective heating boundary conditions. most recent impression Brownian thermophoresis because cross-diffusion. Suitable transformation deployed to renovate nonlinear governing problems into coupled ordinary differential...

The current study explores the behavior of particle shape on radiative flow Casson hybrid nanofluid towards an expanding/contracting convective sheet. under onsideration is a water-based comprising carbon nanotubes (CNTs) with shapes. factor employed to determine its significance characteristic. standard equations for and thermal transportation are derived based conservation laws, including simultaneous effects viscous dissipation, radiation, along uniform heat source. model pronounce...

Abstract This study analyses the effect of Brownian motion and thermophoresis on flow nanofluid along an impermeable curved surface. The Darcy‐Forchheimer drag vis‐à‐vis radiating heat source enriches phenomena. force has several applications such as in (i) biomedical engineering for blood through arteries veins, (ii) civil water porous materials soil or rock, etc. convective solutal transport properties embedded boundary conditions develop dimensional governing equations are transformed...

The enhancement in the heat transfer rate is one of vital aspects nowadays for main objective various industries to get better quality as well longevity product. Not only but also areas such drug delivery, peristaltic pumping process, etc. it found that this will be benefited by utility nanofluids gives rise enhanced thermal conductivity. Therefore, present investigation leads analyse performance effective considering flow radiating micropolar nanofluid through a permeable expanding sheet...

The recent era of science depends upon the efficient performance heat transfer rate in several engineering applications for which role nanofluids have a greater impact. Therefore, impact particle concentration optimizing analysis water-based hybrid nanofluid is conducted via an artificial neural network. combined effect oxide nanoparticles such as MgO and TiO2 water performs their effective with various factors involved flow phenomena. magnetized over expanding surface filled porous material...

The ability of motile microorganisms is used to design biomedical nanofluidic devices that utilize for targeted drug delivery, influence heat transfer in nanofluids are applied the optimization cooling system, biotechnological processes where precise control over fluid flow, etc. However, based upon several facts, current investigation lead propose characteristic swimming a flow bio-convection nanofluid rotating circular disk. proposed study explores impacts dissipative generated by movement...

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...

A significant attention is gained on the thermophysical properties corresponding to hybrid nanofluid flow within a rotating cone and circular disc in this present investigation due its several applications. The enhanced thermal conductivity of particularly useful cooling systems, reducing energy consumption preventing overheating, improving overall performance electronic gadgets, etc. In investigation, free convective conducting fluid for interaction magnetic field radiation encases their...

The recent study needs the optimal conditions for maximizing heat transfer rate with minimizing energy consumption. This is a basic objective of several industries in their production processes along improving efficiency electronic gadgets. Therefore, hybrid nanofluid plays an important role enhancing transport phenomena. current investigates improved properties water-based containing Al2O3 and Cu nanoparticles flowing through rotating vertical cone embedded porous medium. convective flow...

In a solar collector system, absorbing radiation through panel and transforming it into heat, the role of nanofluid is vital. However, combined effect CuO Cu water hybrid efficiently carries fascinated heat away from collector. Further, helps improve in efficiency thermal system by enhancing transfer losses. Based upon advanced properties, study aims at behavior conducting comprised nanoparticles nonlinear stretching surface filled with porous matrix. Essentially, use dissipative convective...

The contemporary investigation deliberate the influence of radiating heat on flow Powell-Eyring fluid over a Riga plate subjected to thermal stratification, utilizing CattaneoChristov flux model. Additionally, insertion sources along with radiation energies study significantly. basic equations that correspond conservation principles mass, momentum, energy are formulated for fluid. model is incorporated non-Fourier effects arising due relaxation phenomena also taken into account. resulting...