Heat Transfer Enhancement by Hybrid Nano Additives�Graphene Nanoplatelets/Cellulose Nanocrystal for the Automobile Cooling System (Radiator)
A radiator is used to remove a portion of the heat generated by a vehicle engine. It is challenging to efficiently maintain the heat transfer in an automotive cooling system even though both internal and external systems need enough time to keep pace with catching up with evolving engine technology...
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my.uniten.dspace-343122024-10-14T11:18:59Z Heat Transfer Enhancement by Hybrid Nano Additives�Graphene Nanoplatelets/Cellulose Nanocrystal for the Automobile Cooling System (Radiator) Yaw C.T. Koh S.P. Sandhya M. Kadirgama K. Tiong S.K. Ramasamy D. Sudhakar K. Samykano M. Benedict F. Tan C.H. 36560884300 22951210700 57211782885 12761486500 15128307800 26325891500 57203257556 57192878324 57194591957 56489158400 CNC coefficients correlation energy GNPs heat transfer hybrid nanofluid radiator A radiator is used to remove a portion of the heat generated by a vehicle engine. It is challenging to efficiently maintain the heat transfer in an automotive cooling system even though both internal and external systems need enough time to keep pace with catching up with evolving engine technology advancements. The effectiveness of a unique hybrid�s heat transfer nanofluid was investigated in this study. The hybrid nanofluid was mainly composed of graphene nanoplatelets (GnP), and cellulose nanocrystals (CNC) nanoparticles suspended in a 40:60 ratio of distilled water and ethylene glycol. A counterflow radiator equipped with a test rig setup was used to evaluate the hybrid nano fluid�s thermal performance. According to the findings, the proposed GNP/CNC hybrid nanofluid performs better in relation to improving the efficiency of heat transfer of a vehicle radiator. The suggested hybrid nanofluid enhanced convective heat transfer coefficient by 51.91%, overall heat transfer coefficient by 46.72%, and pressure drop by 34.06% with respect to distilled water base fluid. Additionally, the radiator could reach a better CHTC with 0.01% hybrid nanofluid in the optimized radiator tube by the size reduction assessment using computational fluid analysis. In addition to downsizing the radiator tube and increasing cooling capacity over typical coolants, the radiator takes up less space and helps to lower the weight of a vehicle engine. As a result, the suggested unique hybrid graphene nanoplatelets/cellulose nanocrystal-based nanofluids perform better in heat transfer enhancement in automobiles. � 2023 by the authors. Final 2024-10-14T03:18:59Z 2024-10-14T03:18:59Z 2023 Article 10.3390/nano13050808 2-s2.0-85149755494 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85149755494&doi=10.3390%2fnano13050808&partnerID=40&md5=f427bc523483ea74e2216205655d0a13 https://irepository.uniten.edu.my/handle/123456789/34312 13 5 808 All Open Access Gold Open Access MDPI Scopus |
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CNC coefficients correlation energy GNPs heat transfer hybrid nanofluid radiator Yaw C.T. Koh S.P. Sandhya M. Kadirgama K. Tiong S.K. Ramasamy D. Sudhakar K. Samykano M. Benedict F. Tan C.H. Heat Transfer Enhancement by Hybrid Nano Additives�Graphene Nanoplatelets/Cellulose Nanocrystal for the Automobile Cooling System (Radiator) |
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A radiator is used to remove a portion of the heat generated by a vehicle engine. It is challenging to efficiently maintain the heat transfer in an automotive cooling system even though both internal and external systems need enough time to keep pace with catching up with evolving engine technology advancements. The effectiveness of a unique hybrid�s heat transfer nanofluid was investigated in this study. The hybrid nanofluid was mainly composed of graphene nanoplatelets (GnP), and cellulose nanocrystals (CNC) nanoparticles suspended in a 40:60 ratio of distilled water and ethylene glycol. A counterflow radiator equipped with a test rig setup was used to evaluate the hybrid nano fluid�s thermal performance. According to the findings, the proposed GNP/CNC hybrid nanofluid performs better in relation to improving the efficiency of heat transfer of a vehicle radiator. The suggested hybrid nanofluid enhanced convective heat transfer coefficient by 51.91%, overall heat transfer coefficient by 46.72%, and pressure drop by 34.06% with respect to distilled water base fluid. Additionally, the radiator could reach a better CHTC with 0.01% hybrid nanofluid in the optimized radiator tube by the size reduction assessment using computational fluid analysis. In addition to downsizing the radiator tube and increasing cooling capacity over typical coolants, the radiator takes up less space and helps to lower the weight of a vehicle engine. As a result, the suggested unique hybrid graphene nanoplatelets/cellulose nanocrystal-based nanofluids perform better in heat transfer enhancement in automobiles. � 2023 by the authors. |
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36560884300 |
author_facet |
36560884300 Yaw C.T. Koh S.P. Sandhya M. Kadirgama K. Tiong S.K. Ramasamy D. Sudhakar K. Samykano M. Benedict F. Tan C.H. |
format |
Article |
author |
Yaw C.T. Koh S.P. Sandhya M. Kadirgama K. Tiong S.K. Ramasamy D. Sudhakar K. Samykano M. Benedict F. Tan C.H. |
author_sort |
Yaw C.T. |
title |
Heat Transfer Enhancement by Hybrid Nano Additives�Graphene Nanoplatelets/Cellulose Nanocrystal for the Automobile Cooling System (Radiator) |
title_short |
Heat Transfer Enhancement by Hybrid Nano Additives�Graphene Nanoplatelets/Cellulose Nanocrystal for the Automobile Cooling System (Radiator) |
title_full |
Heat Transfer Enhancement by Hybrid Nano Additives�Graphene Nanoplatelets/Cellulose Nanocrystal for the Automobile Cooling System (Radiator) |
title_fullStr |
Heat Transfer Enhancement by Hybrid Nano Additives�Graphene Nanoplatelets/Cellulose Nanocrystal for the Automobile Cooling System (Radiator) |
title_full_unstemmed |
Heat Transfer Enhancement by Hybrid Nano Additives�Graphene Nanoplatelets/Cellulose Nanocrystal for the Automobile Cooling System (Radiator) |
title_sort |
heat transfer enhancement by hybrid nano additives�graphene nanoplatelets/cellulose nanocrystal for the automobile cooling system (radiator) |
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MDPI |
publishDate |
2024 |
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1814061174803660800 |