Natural Convection and Entropy Generation in a Square Cavity with Variable Temperature Side Walls Filled with a Nanofluid: Buongiorno’s Mathematical Model

Natural Convection and Entropy Generation in a Square Cavity with Variable Temperature Side Walls Filled with a Nanofluid: Buongiorno’s Mathematical Model

Natural convection heat transfer combined with entropy generation in a square cavity filled with a nanofluid under the effect of variable temperature distribution along left vertical wall has been studied numerically. Governing equations formulated in dimensionless non-primitive variables with corre...

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Bibliographic Details
Main Authors: Mikhail A. Sheremet, Teodor Grosan, Ioan Pop
Format: Article
Language:English
Published: MDPI AG 2017-07-01
Series:Entropy
Subjects:
natural convection
square cavity
sinusoidal wall temperature
nanofluids
Brownian diffusion
thermophoresis
numerical method
Online Access:https://www.mdpi.com/1099-4300/19/7/337
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spelling doaj-3ce1ce80a9f946ca8b88b3cd59f6cb9d2020-11-25T00:40:17ZengMDPI AGEntropy1099-43002017-07-0119733710.3390/e19070337e19070337Natural Convection and Entropy Generation in a Square Cavity with Variable Temperature Side Walls Filled with a Nanofluid: Buongiorno’s Mathematical ModelMikhail A. Sheremet0Teodor Grosan1Ioan Pop2Department of Theoretical Mechanics, Tomsk State University, Tomsk 634050, RussiaDepartment of Mathematics, Babeş-Bolyai University, Cluj-Napoca 400084, RomaniaDepartment of Mathematics, Babeş-Bolyai University, Cluj-Napoca 400084, RomaniaNatural convection heat transfer combined with entropy generation in a square cavity filled with a nanofluid under the effect of variable temperature distribution along left vertical wall has been studied numerically. Governing equations formulated in dimensionless non-primitive variables with corresponding boundary conditions taking into account the Brownian diffusion and thermophoresis effects have been solved by finite difference method. Distribution of streamlines, isotherms, local entropy generation as well as Nusselt number has been obtained for different values of key parameters. It has been found that a growth of the amplitude of the temperature distribution along the left wall and an increase of the wave number lead to an increase in the average entropy generation. While an increase in abovementioned parameters for low Rayleigh number illustrates a decrease in average Bejan number.https://www.mdpi.com/1099-4300/19/7/337natural convectionsquare cavitysinusoidal wall temperaturenanofluidsBrownian diffusionthermophoresisnumerical method
collection DOAJ
language English
format Article
sources DOAJ
author Mikhail A. Sheremet
Teodor Grosan
Ioan Pop
spellingShingle Mikhail A. Sheremet
Teodor Grosan
Ioan Pop
Natural Convection and Entropy Generation in a Square Cavity with Variable Temperature Side Walls Filled with a Nanofluid: Buongiorno’s Mathematical Model
Entropy
natural convection
square cavity
sinusoidal wall temperature
nanofluids
Brownian diffusion
thermophoresis
numerical method
author_facet Mikhail A. Sheremet
Teodor Grosan
Ioan Pop
author_sort Mikhail A. Sheremet
title Natural Convection and Entropy Generation in a Square Cavity with Variable Temperature Side Walls Filled with a Nanofluid: Buongiorno’s Mathematical Model
title_short Natural Convection and Entropy Generation in a Square Cavity with Variable Temperature Side Walls Filled with a Nanofluid: Buongiorno’s Mathematical Model
title_full Natural Convection and Entropy Generation in a Square Cavity with Variable Temperature Side Walls Filled with a Nanofluid: Buongiorno’s Mathematical Model
title_fullStr Natural Convection and Entropy Generation in a Square Cavity with Variable Temperature Side Walls Filled with a Nanofluid: Buongiorno’s Mathematical Model
title_full_unstemmed Natural Convection and Entropy Generation in a Square Cavity with Variable Temperature Side Walls Filled with a Nanofluid: Buongiorno’s Mathematical Model
title_sort natural convection and entropy generation in a square cavity with variable temperature side walls filled with a nanofluid: buongiorno’s mathematical model
publisher MDPI AG
series Entropy
issn 1099-4300
publishDate 2017-07-01
description Natural convection heat transfer combined with entropy generation in a square cavity filled with a nanofluid under the effect of variable temperature distribution along left vertical wall has been studied numerically. Governing equations formulated in dimensionless non-primitive variables with corresponding boundary conditions taking into account the Brownian diffusion and thermophoresis effects have been solved by finite difference method. Distribution of streamlines, isotherms, local entropy generation as well as Nusselt number has been obtained for different values of key parameters. It has been found that a growth of the amplitude of the temperature distribution along the left wall and an increase of the wave number lead to an increase in the average entropy generation. While an increase in abovementioned parameters for low Rayleigh number illustrates a decrease in average Bejan number.
topic natural convection
square cavity
sinusoidal wall temperature
nanofluids
Brownian diffusion
thermophoresis
numerical method
url https://www.mdpi.com/1099-4300/19/7/337
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