Dual Entropy Regime in Channel Flow Subjected to Temperature Dependent Convection Mechanism

Vyas, Paresh; Khan, Sahanawaz

doi:10.18280/ijht.390211

Cited by 8 publications

(7 citation statements)

References 33 publications

(44 reference statements)

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“…Obalalu et al [26] investigated the heat transfer enhancement on the thermodynamics process of an unsteady Newtonian fluid with the existence of a convective heating effect. The entropy generation and hydrodynamic slip of hybrid nanofluid with temperature-dependent convection were studied by [27]. A mathematical model namely Optimal Homotopy Analysis Method (OHAM) was established by [28] to study the nanofluid of entropy generation and thermal conductivity of natural convective.…”

Section: Nomenclaturementioning

confidence: 99%

Hydrothermal Characteristics-Based Water Purification Model Using Hybrid Nanofluid Flow over Non-Linearly Stretched Permeable Surfaces

Obalalu,

Olayemi,

Salaudeen

et al. 2024

NHC

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Sequel to all the published facts on the hydrothermal of pure water on a permeable expanding/contracting surface with thermodynamic irreversibilities convey iron (III) oxide and copper hybrid nanoparticles as applicable in industry and engineering, nothing is known about the importance of viscous dissipation and the Joule heating. The current paper addresses the natural convective flow of pure water, / nanofluid and-hybrid nanofluid, (a novel advanced nanofluid composited of and nanoparticles) induced by a non-linearly stretching permeable sheet with velocity slip using a numerical scheme. The equations obtained are solved numerically via Galerkin Weighted Residual Method (GWRM), in the limiting sense, the present results conform with the existing work. Analyses reveal that a 20% concentration of nanoparticles in a base fluid is more effective in the augmentation of heat transfer than a 10% concentration. Also, the nonlinearity parameter increased the heat transfer rate for the hybrid nanosuspension. The report of this study will be of benefit to chemical engineering and nanotechnology advancement.

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Section: Nomenclaturementioning

confidence: 99%

Hydrothermal Characteristics-Based Water Purification Model Using Hybrid Nanofluid Flow over Non-Linearly Stretched Permeable Surfaces

Obalalu,

Olayemi,

Salaudeen

et al. 2024

NHC

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“…Realizing the potential of the field, many investigators have reported entropy analysis for a variety of fluidic systems. [18][19][20][21][22][23][24][25][26][27][28][29][30] We recall that the Fourier heat fluxlaw 31 falls short to address heat transport taking place in the waveform. Cattaneo 32 proposed a modification suggesting the inclusion of time relaxation component thermal inertia to Fourier's heat flux model.…”

Section: Introductionmentioning

confidence: 99%

“…In fact, the entropy generation analysis banking upon picking up parameters having a qualitative and quantitative impact on entropy production is pivotal in entropy minimization. Realizing the potential of the field, many investigators have reported entropy analysis for a variety of fluidic systems 18–30 …”

Section: Introductionmentioning

confidence: 99%

Irreversibility analysis for Casson thermo‐fluidics inside a cone: Cattaneo–Christov heat flux

2022

Self Cite

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In this communication, thermodynamic irreversibility arising in dissipative Casson fluid flow inside a cone is investigated. The boundary-layer flow is considered wherein the motion is caused due to a point sink at the cone's vertex and the movement of the wall of the cone.The wall of the cone is subjected to mass transpiration that alters the flow and thermal regime. The cone having fluid-saturated porous medium experiences Cattaneo-Christov heat flux. The configuration admits a similarity transformation that yields a boundary value problem (BVP) comprising an ordinary differential equation. The BVP is treated by the fourth-order R-K method along with the shooting algorithm. The system yields a dual solution for momentum and energy, which gives rise to a dual regime for entropy distribution. Numerical computations provide quantities of interest viz. velocity and temperature distributions, skin friction coefficient, Nusselt number, and entropy distribution. Phenomena exhibited through profiles/tables for velocity, temperature, entropy, streamlines, and other quantities of interest reveal interesting results.

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“…Several findings have established nanofluids to possess not only higher thermal conductivity than the host fluids., but to generate an enhanced frictional pressure drop. Meanwhile, nanotechnology has become one of the emerging researchable solutions in heat pipes, sensors, micro/mini channels, clean energy devices, heat sinks, composite materials, automobiles, medicine, cosmetic, airconditioning and refrigeration, solar energy device, lubricants, and coolants applications through the suspension of ultrafine nano-dimensioned (<100 nm) solid particles to enhance the thermo-physical characteristic of the base fluid matrix [2][3][4]. The challenges with micrometer-dimensioned solid particles includes abrasion, sedimentation, and the risk of clogging, whereas the unique quality of nanofluids for various desirable utilization includes its excellent heat conductivity, heat transfer capability, stability, friction coefficient, erosion reduction and lubrication.…”

Section: Introductionmentioning

confidence: 99%

Entropy Generation of Graphene Nanoplatelets in Micro and Mini Channels: Nanofluid Flow in Automotive Cooling Applications

Ajuka¹,

Ikumapayi²,

Akinlabi³

2022

IJHT

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The present study examines the entropy generation of graphene nanoplatelet (GnP) suspended in different basefluids, theoretically. GnP in water (W), ethylene glycol (EG) and ethylene glycol- water (EGW, 1:1) was examined under laminar flow state in a unit length mini and micro-channel of 3mm and 0.05mm diameter. The coefficient of conductivity (Ck) and viscosity (Cμ) of the nanofluid were determined from experimental analysis and their order of magnitude were established for analysis of entropy generation in mini and micro-channels. Entropy generation by fluid friction (Ṡgen, ff) in the channels containing EG was higher than with W and EGW by 75.6% and 79.9%, respectively. Thermal irreversibility (Ṡgen, th) of W was lower by132.9% and 58.2% compared to EG and EGW. Sgen,th in all the fluids decreased with increased solid volume fraction in mini-channels, while, Ṡgen,ff increased with increase in volume fraction for micro-channels. Total entropy generation (Ṡgen, tot) of water was lower by 75.6% and higher by 64.8% compared to EG and EGW, respectively in a micro-channel, whereas Ṡgen, tot of water was lower by 123.7% and 38.4% compared to EG and EGW, respectively. As GnP volume fraction was increased in the basefluids, entropy generation ratio decreased, highlighting the positive influence of thermal properties of the nanofluid. A lower Bejan number for water (Bew), 36.8% and 358.9% were observed compared to EG and EGW in micro-channel, whereas Bew was lower by 3.8% and 13.8% when compared to EG and EGW nanofluids in the mini channel.

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Dual Entropy Regime in Channel Flow Subjected to Temperature Dependent Convection Mechanism

Cited by 8 publications

References 33 publications

Hydrothermal Characteristics-Based Water Purification Model Using Hybrid Nanofluid Flow over Non-Linearly Stretched Permeable Surfaces

Hydrothermal Characteristics-Based Water Purification Model Using Hybrid Nanofluid Flow over Non-Linearly Stretched Permeable Surfaces

Irreversibility analysis for Casson thermo‐fluidics inside a cone: Cattaneo–Christov heat flux

Entropy Generation of Graphene Nanoplatelets in Micro and Mini Channels: Nanofluid Flow in Automotive Cooling Applications

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