Darcy-Forchheimer flow of dusty tangent hyperbolic fluid over a stretching sheet with Cattaneo-Christov heat flux

Shankaralingappa, B. M.; Gireesha, B.J.; Prasannakumara, B. C.; Nagaraja, B.

doi:10.1080/17455030.2021.1889711

Cited by 27 publications

(6 citation statements)

References 31 publications

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“…The resultant model is numerically handled using the RKF-45 method with the shooting scheme. [35][36][37][38][39][40] The primary purpose of this scrutiny is to mathematically examine the previously reported flow. Finally, the goal of this scrutiny was to answer the below research questions:…”

Section: Introductionmentioning

confidence: 99%

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Cattaneo–Christov heat flux model for nanofluid flow over a curved stretching sheet: An application of Stefan blowing

et al. 2022

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The present work investigates the thermophoresis and Brownian motion effects in nanofluid flow over a curved stretching sheet (CSS). Also, the Cattaneo–Christov heat flux and Stefan blowing (SB) conditions are considered for studying heat and mass transport characteristics. The present work's novelty is associated with considerations of convective boundary and SB conditions in nanomaterial flow over a CSS. The coupled partial differential equations are changed to ordinary differential equations by employing suitable similarity variables, and the resultant model is numerically handled using Runge–Kutta–Fehlberg's fourth fifth‐order method with the shooting scheme. The stimulation of the involved parameters/numbers on the flow, mass, and heat fields is broadly deliberated using suitable graphs. The present analysis's significant relevant outcomes are that the inclination in thermophoresis and Brownian motion parameters increases the heat transfer. The inclined values of the Brownian motion parameter decay the mass transfer. Furthermore, the increased values of both Schmidt number and SB parameter drop the mass transport. The increased values of the Brownian motion parameter and Schmidt number decays the rate of mass transference.

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Section: Introductionmentioning

confidence: 99%

“…This is one of the reasons why nanomaterials flow over CSS is being considered in this study. The resultant model is numerically handled using the RKF‐45 method with the shooting scheme 35‐40 . The primary purpose of this scrutiny is to mathematically examine the previously reported flow.…”

Section: Introductionmentioning

confidence: 99%

Cattaneo–Christov heat flux model for nanofluid flow over a curved stretching sheet: An application of Stefan blowing

et al. 2022

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“…Nayak et al 14 investigated the Cattaneo–Christov dispersion concept through heat mass transitions with two-dimensional (2D) incompressible progression of a micropolar mixed nanofluid over a straight extending/contracting sheet. Shankaralingappa et al 15–18 address the Cattaneo-Christov transmission of heat of a dusty tangent hyperbolic liquid over an extending sheet.…”

Section: Introductionmentioning

confidence: 99%

Electrical magnetohydrodynamic flow of kerosene oil based carbon nanotube's Maxwell nanofluid in the presence of non-linear radiation and Cattaneo-Christov heat diffusion: Applications in aerospace industry

Suneetha

Wahidunnisa

Divya

et al. 2022

Proceedings of the Institution of Mechanical Engineers, Part E:

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This paper investigates the influence of carbon nanotubes to improve heat transmission with Maxwell nanofluids which is suspended in kerosene oil. This mathematical model has been expressed in terms of partial differential equations, which are transformed by using compatible variables into ordinary differential equation's. The result of this model has been attained numerically via RK fourth order with shooting iteration. The results show that with a larger magnetic field, heat transfer increases radiation while decreasing velocity. The combined electrical magnetohydrodynamic effects have the potential to improve fluid flow rates. Moreover, the non-linear radiation case is dominating to the linear case. This theoretical study may be applied in material science, purification technologies, optics and electricity owing to their astonishing possessions, aerospace industry and many more. Especially in aerospace, by way of the aid in plummeting the weight, satellite weight lessening, lightning protection for aircraft and so on.

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“…For other studies regarding tangent hyperbolic nanofluid flows, one can consult. [28][29][30][31] The geometric flowing model of a present theoretical experiment is displayed in Figure 1. Figure 1 is designed to reflect the performance of solar aircraft wings.…”

Section: Introductionmentioning

confidence: 99%

Thermal augmentation in solar aircraft using tangent hyperbolic hybrid nanofluid: A solar energy application

Jamshed

2021

Energy & Environment

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The major source of heat from the sun is solar energy, with enormous use of photovoltaic technology, solar power plates, photovoltaic lights and pumping solar water. This time is about the analysis of solar radiation and how the efficiency of solar aircraft may be improved by using solar radiation and nanotechnology. The study is intended to develop analyses of solar aircraft hybrid nanofluid transfer via parabolic trough surface collector solar wings. Solar radiative flow was named the heat source. The heat transfer efficiency of the wings is evaluated for various phenomena such as a slanted magnetic field, Joule heating, play heat and thermal radiative flow. The entropy production study was carried out in the instance of the tangent hyperbolic fluid. The modelled energy and momentum formulas were controlled with the well-established Keller box numerical technique. This work consists of ethylene glycol standard fluid with two differing types of nanosolid particles copper and silver. Different control factors for velocities, shear stress and temperature are addressed and shown in the figures and tables as well as surface friction and heat transport rate. In terms of thermal transfer, the efficacy of the aviation wings with thermal radiation amplification and changeable thermal conduction parameters is enhanced. Hybrid nanofluid is an ideal source of heat transmission compared to conventional nanofluids. Silver–copper/ethylene glycol thermal efficiency is reduced between 2.6% and 4.4% than copper–ethylene glycol nanofluid.

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Darcy-Forchheimer flow of dusty tangent hyperbolic fluid over a stretching sheet with Cattaneo-Christov heat flux

Cited by 27 publications

References 31 publications

Cattaneo–Christov heat flux model for nanofluid flow over a curved stretching sheet: An application of Stefan blowing

Cattaneo–Christov heat flux model for nanofluid flow over a curved stretching sheet: An application of Stefan blowing

Electrical magnetohydrodynamic flow of kerosene oil based carbon nanotube's Maxwell nanofluid in the presence of non-linear radiation and Cattaneo-Christov heat diffusion: Applications in aerospace industry

Thermal augmentation in solar aircraft using tangent hyperbolic hybrid nanofluid: A solar energy application

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