Entropy performance of nonlinear mathematical hydrocarbon based model using ternary alloys (AA7072/AA7075/Ti6AI4V) under influential solar radiations and convective effects
Abstract Aluminum alloys have promising characteristics which make them more useful in industrial applications for thermal management and entropy of the fluidic system. Hence, the current research deals with the analysis of entropy and thermal performance of (C2H6O2–H2O)/50:50% saturated by (AA7072/...
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Nature Portfolio
2024-12-01
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| Online Access: | https://doi.org/10.1038/s41598-024-81901-1 |
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| author | Mutasem Z. Bani-Fwaz Adnan Sami Ullah Khan Zafar Mahmood Yasir Khan A. M. Obalalu Mohammad Khalid Nasrat |
| author_facet | Mutasem Z. Bani-Fwaz Adnan Sami Ullah Khan Zafar Mahmood Yasir Khan A. M. Obalalu Mohammad Khalid Nasrat |
| author_sort | Mutasem Z. Bani-Fwaz |
| collection | DOAJ |
| description | Abstract Aluminum alloys have promising characteristics which make them more useful in industrial applications for thermal management and entropy of the fluidic system. Hence, the current research deals with the analysis of entropy and thermal performance of (C2H6O2–H2O)/50:50% saturated by (AA7072/AA7076/Ti6AI4V) alloys. Traditional problem modified using enhanced characteristics of ternary alloys and hydrocarbon 50:50% base fluid. Further, significant effects of nonlinear solar radiations, dissipation and convective heat condition effects are also taken in the problem formulation. The developed model analyzed numerically and simulated the results for thermal performance, comparative entropy, shear drag and heat transfer rate. The results revealed that increasing the effects of dissipation energy, thermal radiations and temperature ratio number, the thermal performance of the system enhanced. However, magnetic effects are observed good to control the thermal boundary layer region. The ternary nanofluid showed dominant behavior followed $$\:{B}_{r}=\text{0.1,0.2,0.3,0.4}$$ and $$\:M=\text{0.1,0.2,0.3,0.4}$$ in the case of simple fluid which tells that more energy is unavailable to perform work. Further, the ternary nanofluid’s entropy shows that these fluids are more efficient due to cumulative thermal conductivity of (AA7072/AA7076/Ti6AI4V) alloys. |
| format | Article |
| id | doaj-art-01108ce62af540c7b7fced2314100d51 |
| institution | Kabale University |
| issn | 2045-2322 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | Nature Portfolio |
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| series | Scientific Reports |
| spelling | doaj-art-01108ce62af540c7b7fced2314100d512025-01-05T12:30:27ZengNature PortfolioScientific Reports2045-23222024-12-0114111410.1038/s41598-024-81901-1Entropy performance of nonlinear mathematical hydrocarbon based model using ternary alloys (AA7072/AA7075/Ti6AI4V) under influential solar radiations and convective effectsMutasem Z. Bani-Fwaz0Adnan1Sami Ullah Khan2Zafar Mahmood3Yasir Khan4A. M. Obalalu5Mohammad Khalid Nasrat6Department of Chemistry, College of Science, King Khalid UniversityDepartmment of Mathematics, Mohi-ud-Din Islamic UniversityDepartment of Mathematics, Namal University,Department of Mathematics and Statistics, Hazara UniversityDepartment of Mathematics, University of Hafr Al BatinDepartment of Mathematics and Statistics, Kwara State UniversityDepartment of Physics, Laghman UniversityAbstract Aluminum alloys have promising characteristics which make them more useful in industrial applications for thermal management and entropy of the fluidic system. Hence, the current research deals with the analysis of entropy and thermal performance of (C2H6O2–H2O)/50:50% saturated by (AA7072/AA7076/Ti6AI4V) alloys. Traditional problem modified using enhanced characteristics of ternary alloys and hydrocarbon 50:50% base fluid. Further, significant effects of nonlinear solar radiations, dissipation and convective heat condition effects are also taken in the problem formulation. The developed model analyzed numerically and simulated the results for thermal performance, comparative entropy, shear drag and heat transfer rate. The results revealed that increasing the effects of dissipation energy, thermal radiations and temperature ratio number, the thermal performance of the system enhanced. However, magnetic effects are observed good to control the thermal boundary layer region. The ternary nanofluid showed dominant behavior followed $$\:{B}_{r}=\text{0.1,0.2,0.3,0.4}$$ and $$\:M=\text{0.1,0.2,0.3,0.4}$$ in the case of simple fluid which tells that more energy is unavailable to perform work. Further, the ternary nanofluid’s entropy shows that these fluids are more efficient due to cumulative thermal conductivity of (AA7072/AA7076/Ti6AI4V) alloys.https://doi.org/10.1038/s41598-024-81901-1EntropyNanofluidSolar radiationsSurface convectionAlloys |
| spellingShingle | Mutasem Z. Bani-Fwaz Adnan Sami Ullah Khan Zafar Mahmood Yasir Khan A. M. Obalalu Mohammad Khalid Nasrat Entropy performance of nonlinear mathematical hydrocarbon based model using ternary alloys (AA7072/AA7075/Ti6AI4V) under influential solar radiations and convective effects Scientific Reports Entropy Nanofluid Solar radiations Surface convection Alloys |
| title | Entropy performance of nonlinear mathematical hydrocarbon based model using ternary alloys (AA7072/AA7075/Ti6AI4V) under influential solar radiations and convective effects |
| title_full | Entropy performance of nonlinear mathematical hydrocarbon based model using ternary alloys (AA7072/AA7075/Ti6AI4V) under influential solar radiations and convective effects |
| title_fullStr | Entropy performance of nonlinear mathematical hydrocarbon based model using ternary alloys (AA7072/AA7075/Ti6AI4V) under influential solar radiations and convective effects |
| title_full_unstemmed | Entropy performance of nonlinear mathematical hydrocarbon based model using ternary alloys (AA7072/AA7075/Ti6AI4V) under influential solar radiations and convective effects |
| title_short | Entropy performance of nonlinear mathematical hydrocarbon based model using ternary alloys (AA7072/AA7075/Ti6AI4V) under influential solar radiations and convective effects |
| title_sort | entropy performance of nonlinear mathematical hydrocarbon based model using ternary alloys aa7072 aa7075 ti6ai4v under influential solar radiations and convective effects |
| topic | Entropy Nanofluid Solar radiations Surface convection Alloys |
| url | https://doi.org/10.1038/s41598-024-81901-1 |
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