In this work, we study the flow and heat transfer characteristics of a viscous nanofluid over nonlinearly stretching sheet in presence thermal radiation, included energy equation, variable wall temperature. A similarity transformation was used to transform governing partial differential equations system nonlinear ordinary equations. An efficient numerical shooting technique with fourth-order Runge-Kutta scheme obtain solution boundary value problem. The variations dimensionless surface...

Solar energy is the leading thermal source from sun, with huge use of technology such as photovoltaic cells, solar power plates, lighting, and pumping water. The current effort deals analysis a technique to enhance aircraft effectiveness by using nanotechnological energy. work based on investigation transfer utilizing hybrid nanofluid past an inside wings parabolic trough collector (PTSC) rich studies wings. titled radiative flow. For various properties porous media, Cattaneo Christov heat...

The application of hybrid nanoparticles rather than is one the greatest critical tasks for enhancing heat transfer. Therefore, purpose this article to analyze flow and transfer resulting from an exponentially decreased sheet nanoparticles. magnetite (Fe3O4) copper (Cu) nanoparticle are suspended in ethylene glycol (EG) form Fe3O4–Cu/EG nanofluid. PDEs governing equations issue have been solved after conversion ODEs by using suitable similarity transformations. resultant system then...

Solar energy is the major thermal source from sun, and it widely employed in technologies such as solar water pumps photovoltaic cells. The examination of radiation technology required to properly use performance (SWP). utilization hybrid nanofluid with parabolic trough surface collector (PTSC) within SWP has been developed evaluate heat transmission efficacy. recognized cause heat. transferal investigated presence numerous influences viscous dissipation, source, radiation. entropy analysis...

The Darcy-Frochheimer flow scheme is important in industries where a higher stream rate impact prominent occurrence, for illustration in, petroleum engineering. In this article, we examine the influence of Cattaneo-Christov heat fluxing on flowing Sutterby nanofluid via stretchable surface with chemical reactive and radiative impacts. highest-order nonlinear partial differential equation addressed by utilizing similarity function new set ordinary developed. obtained equations are then...

Purpose Whilst a modest number of investigations have been undertaken concerning nanofluids (NFs), the exploration fluid flow under exponentially stretching velocities using NFs remains comparatively uncharted territory. This work presents distinctive contribution through comprehensive examination heat and mass transfer phenomena in NF ND–Cu/H 2 O influence an velocity. Moreover, investigation delves into intriguing interplay gyrotactic microorganisms convective boundary conditions within...

Ethanol and biodiesel, which both belong to the first generation of biofuel technology, are two most popular forms biofuels now in use. In order create next-generation using waste, cellulosic biomass, algae-based resources, Bioenergy Technologies Office (BETO) is working with business. The present article designed study effect tetra hybrid nanoparticles utilization novel Hamilton Crosser model catalytic reaction on binary fluid consideration ethanol as a base fluid. comprising heterogeneous...

The improvement of heat transfer is the focus this paper's innovative theoretical ternary hybridity nanofluid (HNF) prototype. In examination, blood employed as conventional liquid, and tri-hybrid nanomolecules Au, Ag, TiO2 are submerged in it. extension has been made Tiwari Das hybrid model to transform it for case a trihybrid nanofluid. By consuming resemblance variables Keller box methodology (KBM) resolve ordinary differential equations (ODEs) resulting from conversion liquid flowing...

This study addresses the flow of a non-Newtonian hybrid nanofluid that uses glycerine (C3H8O3) as conventional fluid with graphene oxide (GO) and molybdenum disulfide (MoS2) nanoparticles, taking into account effect slip on shrinking Riga plate. Proper similarity equations are selected to reduce partial differential (PDEs) ordinary (ODEs) boundary conditions. Using bvp4c software in MATLAB, suggested model is computationally analysed obtain results for frictional force coefficient, local...

Primary objective of this examination is to discover hybridized nanofluid flowing and heat transport that flows between a rotatable cone positioned above an expandable disc. Hybridized contains Cadmium telluride (CdTe) as first nanoparticle Silicon carbide (SiC) second in ethylene glycol base fluid. Electromagnetic impact Darcy-Forchheimer model are considered with thermal radiative fluxing. By using appropriate similarity transformation, physical phenomena may be illustrated by collection...

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 impact of magnetic field and nanoparticles on the two-phase flow a generalized non-Newtonian Carreau fluid over permeable non-linearly stretching surface has been analyzed in existence all suction/injection thermal radiation. governing PDEs with congruous boundary condition are transformed into system non-linear ODEs appropriate conditions by using similarity transformation. It solved numerically 4th–5th order Runge-Kutta-Fehlberg method based shooting technique. impacts non-dimensional...

This article manages Darcy-Forchheimer 3D flow of water based carbon nanomaterial (CNTs). A bidirectional nonlinear stretchable surface has been utilized to make the flow. Disturbance in permeable space represented by Darcy Forchheimer (DF) expression. Heat transfer mechanism is explored through convective heating. Outcomes for SWCNT and MWCNT have displayed compared. The reduction partial differential framework into common made reasonable variables. Optimal series scheme arrangements...

Nowadays, with the advantages of nanotechnology and solar radiation, research Solar Water Pump (SWP) production has become a trend. In this article, Prandtl-Eyring hybrid nanofluid (P-EHNF) is chosen as working fluid in SWP model for parabolic trough surface collector (PTSC) investigated case numerous viscous dissipation, heat radiations, source, entropy generation analysis. By using well-established numerical scheme group equations terms energy momentum have been handled that called...

Parabolic trough solar collectors (PTSCs) are generally utilized to reach high temperatures in solar-thermal applications. The current work investigates entropy production analysis and the influence of nano solid particles on a parabolic surface collector (PTSC) installed within powered ship (SPS). For investigation, non-Newtonian Maxwell type, as well porous medium Darcy–Forchheimer effects, were used. flow PTSC was produced by nonlinear stretching surface, Cattaneo–Christov approach used...