Sustainable Heat Transfer Management: Modeling of Entropy Generation Minimization and Nusselt Number Development in Internal Flows with Various Shapes of Cross-Sections Using Water and Al2O3/Water Nanofluid

In order to achieve the best performance of a thermal system, two major analyses must be carried out on the system: energy and entropy generation. The best scenario is a mechanism in which the system has minimum entropy generation and the highest Nu number. In this regard, we investigated entropy ge...

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Published inWater (Basel) Vol. 15; no. 1; p. 89
Main Authors Jery, Atef El, Satishkumar, P., Abdul Jaleel Maktoof, Mohammed, Suplata, Marian, Dudic, Branislav, Spalevic, Velibor
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 01.01.2023
Subjects
Aluminum oxide
Circular tubes
Cross-sections
entropy generation
experimental study
Fluid dynamics
Fluid flow
Heat exchangers
Heat transfer
Internal flow
Investigations
nanofluid
Nanofluids
Nanoparticles
Nusselt number
Sedimentation & deposition
sustainable management
Thermodynamics
Turbulence models
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Abstract In order to achieve the best performance of a thermal system, two major analyses must be carried out on the system: energy and entropy generation. The best scenario is a mechanism in which the system has minimum entropy generation and the highest Nu number. In this regard, we investigated entropy generation and Nu number of fluid flow through tubes of various cross-sections, namely circular tubes, square channels, and rectangular ducts. Additionally, the addition of nanoparticles was tested, and both analyses were carried out. The results reveal that using nanoparticles could significantly increase Nu number and, at the same time, decrease entropy generation. The results showed that the circular cross-section performs better in Nu number and entropy generation. In most cases, the rectangular cross-section performed better than the square one in terms of energy and entropy. In the best case, the average Nu for the circular cross-section was 26% greater than that of the square. The average Nu of the rectangular cross-section showed that this value is 5% greater than that of the square cross-section. Additionally, the total entropy generation of circular cross-sections, which is the minimum, was 44% and 38% lower than rectangular and square cross-sections, respectively.
AbstractList In order to achieve the best performance of a thermal system, two major analyses must be carried out on the system: energy and entropy generation. The best scenario is a mechanism in which the system has minimum entropy generation and the highest Nu number. In this regard, we investigated entropy generation and Nu number of fluid flow through tubes of various cross-sections, namely circular tubes, square channels, and rectangular ducts. Additionally, the addition of nanoparticles was tested, and both analyses were carried out. The results reveal that using nanoparticles could significantly increase Nu number and, at the same time, decrease entropy generation. The results showed that the circular cross-section performs better in Nu number and entropy generation. In most cases, the rectangular cross-section performed better than the square one in terms of energy and entropy. In the best case, the average Nu for the circular cross-section was 26% greater than that of the square. The average Nu of the rectangular cross-section showed that this value is 5% greater than that of the square cross-section. Additionally, the total entropy generation of circular cross-sections, which is the minimum, was 44% and 38% lower than rectangular and square cross-sections, respectively.
Author Satishkumar, P.
Dudic, Branislav
Suplata, Marian
Abdul Jaleel Maktoof, Mohammed
Jery, Atef El
Spalevic, Velibor
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Snippet In order to achieve the best performance of a thermal system, two major analyses must be carried out on the system: energy and entropy generation. The best...
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StartPage 89
SubjectTerms Aluminum oxide
Circular tubes
Cross-sections
entropy generation
experimental study
Fluid dynamics
Fluid flow
Heat exchangers
Heat transfer
Internal flow
Investigations
nanofluid
Nanofluids
Nanoparticles
Nusselt number
Sedimentation & deposition
sustainable management
Thermodynamics
Turbulence models
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Title Sustainable Heat Transfer Management: Modeling of Entropy Generation Minimization and Nusselt Number Development in Internal Flows with Various Shapes of Cross-Sections Using Water and Al2O3/Water Nanofluid
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