Thermal and solutal transport analysis of Blasius–Rayleigh–Stokes flow of hybrid nanofluid with convective boundary conditions

Qin, Li; Ahmad, Shafiq; Khan, Maleq; Ahammad, N. Ameer; Gamaoun, Fehmi; Galal, Ahmed M.

doi:10.1080/17455030.2022.2072018

Cited by 15 publications

(5 citation statements)

References 42 publications

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“…Some latest observations for simple and hybrid nanofluid flow are given in Refs. [ [20] , [21] , [22] , [23] , [24] , [25] , [26] , [27] , [28] ].…”

Section: Introductionmentioning

confidence: 99%

Enhancement in the efficiency of heat recovery in a Williamson hybrid nanofluid over a vertically thin needle with entropy generation

Khan

Ahmad

Wang

et al. 2023

Heliyon

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“…Some latest observations for simple and hybrid nanofluid flow are given in Refs. [ [20] , [21] , [22] , [23] , [24] , [25] , [26] , [27] , [28] ].…”

Section: Introductionmentioning

confidence: 99%

Enhancement in the efficiency of heat recovery in a Williamson hybrid nanofluid over a vertically thin needle with entropy generation

Khan

Ahmad

Wang

et al. 2023

Heliyon

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“…Hassan et al [ 30 ] considered the hybrid nanoparticles nanofluid under radiation for heat transportation analysis. Qin et al [ 31 ] analyzed the thermal and solutal transport of Blasius–Rayleigh–Stokes flow with convective boundary conditions for hybrid nanofluid flow. Madhukesh et al [ 32 ] presented the influence of thermophoretic particle migration in the flow of a hybrid nanofluid above a thin turning needle.…”

Section: Introductionmentioning

confidence: 99%

Rotating Hybrid Nanofluid Flow with Chemical Reaction and Thermal Radiation between Parallel Plates

et al. 2022

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This research investigates the two different hybrid nanofluid flows between two parallel plates placed at two different heights, y0 and yh, respectively. Water-based hybrid nanofluids are obtained by using Al2O3, TiO2 and Cu as nanoparticles, respectively. The upper-level plate is fixed, while the lower-level plate is stretchable. The fluid rotates along the y-axis with constant speed Ω. The governing equations of momentum, energy and concentration are transformed into partial differential equations by using similarity transformations. These transformed equations are grasped numerically at MATLAB by using the boundary value problem technique. The influence of different parameters are presented through graphs. The numerical outcomes for rotation, Nusselt, Prandtl, and Schmidt numbers are obtained in the form of tables. The heat transfer rate increases by augmentation in the thermophoresis parameter, while it decays by increasing the Reynolds number. Oxide nanoparticles hybrid nanofluid proved more efficient as compared to mixed nanoparticles hybrid nanofluid. This research suggests using oxide nanoparticles for good heat transfer.

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“…The solutal and thermal transport features of the transient MHD hybrid nanofluid flow with thermal radiation, chemical reaction, and suction/injection across the extending surface reported by Sreedevi et al [23]. Other substantial works regarding hybrid nanofluids have also been proposed [24][25][26][27][28][29].…”

Section: Introductionmentioning

confidence: 99%

Thermophysical features of Ellis hybrid nanofluid flow with surface-catalyzed reaction and irreversibility analysis subjected to porous cylindrical surface

Khan

Ahammad²,

Ahmad³

et al. 2022

Front. Phys.

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This study explores the flow irreversibility of the Ellis hybrid nanofluid (containing CoFe2O4−TiO2 nanoparticles) with homogeneous and heterogeneous reactions to a horizontal porous stretching cylinder. The energy transportation aspects are investigated in terms of the influence of joule heating and viscous dissipation. The slip and convective boundary conditions are levied on the cylindrical surface, and the mathematical flow model is transferred to a system of nonlinear ordinary differential equations using suitable transformations. The highly nonlinear systems of equations are numerically solved using the bvp4c approach in MATLAB. The graphical outcomes are obtained and discussed; it is worth noting that incremental estimations of the curvature parameter show opposite behaviors on the Ellis fluid velocity and entropy generation, i.e., the entropy generation profile increases while fluid velocity decreases. The boundary layer thinning shows resistance to impact by elasticity and magnetic field. Further, as the porosity of the liquid phase increases, the momentum of the boundary layer decreases.

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Thermal and solutal transport analysis of Blasius–Rayleigh–Stokes flow of hybrid nanofluid with convective boundary conditions

Cited by 15 publications

References 42 publications

Enhancement in the efficiency of heat recovery in a Williamson hybrid nanofluid over a vertically thin needle with entropy generation

Enhancement in the efficiency of heat recovery in a Williamson hybrid nanofluid over a vertically thin needle with entropy generation

Rotating Hybrid Nanofluid Flow with Chemical Reaction and Thermal Radiation between Parallel Plates

Thermophysical features of Ellis hybrid nanofluid flow with surface-catalyzed reaction and irreversibility analysis subjected to porous cylindrical surface

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