Prabhakar fractional model for natural convection flow of kerosene oil based hybrid nanofluid containing ferric oxide and zinc oxide nanoparticles

Case Studies in Thermal Engineering, Journal Year: 2024, Volume and Issue: 60, P. 104648 - 104648

Published: June 4, 2024

Based on enhanced thermal performances of hybrid nanomaterials, various multidisciplinary applications such nanofluids are presented in the cooling processes, HVAC systems, energy sectors, boosting sources, automotive systems etc. Owing to motivated mind, different mathematical models developed. However, analysis for nanofluid with help fractional is not focused properly. Therefore, objective current research develop a model enhancement heat transfer by using nanofluid. The decomposition zinc oxide and ferric kerosene oil base fluid used identifying reflection motivations improve prospective due its importance sources as fuel industrial like solvent, degreaser operation air craft. vertical moving surface initiates flow. natural convective flow further perturbed mixed convection effects. evaluation inspected incorporating external source. modelling problem via expressions. Prabhakar scheme analytical accuracy implemented comparing numerical data computed Zakian, Stehfest Tzou's algorithms. significance visualized view involved parameters parameters, nanoparticles volume fraction, Grashof number Prandtl number. results claim that more exclusive compared simple fraction.

Language: Английский

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Entropy generation and sensitivity analysis for a squeezed flow of a Williamson hybrid nanofluid under the supervision of microcantilever sensor

Results in Engineering, Journal Year: 2024, Volume and Issue: unknown, P. 103464 - 103464

Published: Nov. 1, 2024

Language: Английский

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A novel study on thermal enhancement in the flow of magnetized ternary hybrid nanofluid toward an elastic surface with nonlinear heat generation

ZAMM ‐ Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik, Journal Year: 2025, Volume and Issue: 105(3)

Published: March 1, 2025

Abstract Ternary hybrid nanofluids are excellent at efficiently transferring heat for solar systems, electronics, and industrial operations because they combine three nanoparticles in a base fluid. Their diverse range of uses includes biomedical therapies, oil recovery, catalysis, thermal energy storage. Recently, ternary have replaced more traditional nanofluid flows an effort to improve transmission. In the present study, performance magnetized flow toward elastic porous surface has been investigated presence radiation nonlinear generation. The effects induced magnetic field also taken into account. is made up suspension different that is, copper , silicon dioxide iron oxide fluid Kerosene oil. leading PDEs proposed model altered ODEs by introducing suitable similarity variables. obtained system along with boundary conditions numerically solved using bvp4c solver. motion declines field. parameter reciprocal Prandtl number weaken profile. existence generation significant enhancing nanofluid. volume fraction solid boots transfer rate. A novel enhancement observed as compared use quite advantageous achieving desired transmission rates rather than

Language: Английский

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Dynamic magneto-thermo transport features of blood based couple stress nanofluid flow over a sensor surface

Multiscale and Multidisciplinary Modeling Experiments and Design, Journal Year: 2025, Volume and Issue: 8(5)

Published: April 2, 2025

Language: Английский

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Radiative squeezed flow of magnetized Prandtl-Eyring fluid over a sensor surface under Soret effect

Numerical Heat Transfer Part B Fundamentals, Journal Year: 2024, Volume and Issue: unknown, P. 1 - 30

Published: July 7, 2024

The central aim of this numerical analysis is to describe the effects magnetic body force and thermal radiation on boundary layer flow Prandtl-Eyring fluid over a sensor surface suspended between two parallel plates. considered two-dimensional unsteady electrically conducting viscous incompressible in nature. A novel Soret effect included concentration equation reveal significant features mass diffusion mechanism under influence external squeezing mechanism. Surface permeable velocity concept also conditions suction/injection process. However, flows find their abundant applications bio-medicine, medical bio-technology areas. Particularly, micro-cantilevers with physical or chemical surfaces are effectively used bio-medical for finding various hazardous bio-warfare agents', infections, virus, nuclear reactor cooling, polymer processing, pharmaceutical, blood flow, injection molding many more. Thus, inspired by these practical flows, present problem modeled based investigated geometry. gives highly nonlinear coupled partial differential equations which not amenable any direct methods. Owing reason, appropriate similarity transformations diminish dimensional complexity emerged (PDEs). robust Runge-Kutta -4th order scheme (RK-4) as basic tool obtain similar solutions governing equations. graphical visualization analyze computer generated data regime different set parameters. It observed that, enhancing number (0.1≤M≤2.7) region 0≤η≤3 increases field decreases temperature fields. Increasing squeezed index (0.1≤b≤2.5) domain decreased velocity, This result may be useful cooling Rising parameters range enhanced profiles. (0.1≤Sr≤0.9) enhances field. Enhancing numbers amplifies skin-friction coefficient surface. parameter heat transport rate. magnifies Finally, it explored current results displaying good agreement formerly published literature fact confirms accuracy guarantee RK-4 method results.

Language: Английский

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