CFD And Thermal Analysis of Radiator Using Magnesium Oxide And Graphene Nanofluids

Authors

  • Mrs Akula.Neeraja (Assistant Professor), Mechanical Engineering, Anurag University Author
  • Kadari.Lingaswamy PG Scholar, Mechanical Engineering ,Anurag University Author

Keywords:

Computational Fluid Dynamics (CFD), Ansys, nanofluids.

Abstract

The utilization of magnesium oxide and 
graphene 
nanofluids 
in 
radiator 
applications offers a range of distinct 
advantages. Beyond augmenting heat 
transfer rates, these nanofluids exhibit 
promise in curbing energy consumption 
associated with cooling processes. This 
advantage is attributed to their markedly 
superior thermal conductivity compared to 
conventional 
water-based 
coolants. 
Moreover, these nanofluids showcase 
exceptional 
resilience 
to 
elevated 
temperatures, maintaining their structural 
integrity and corrosion resistance, thereby 
establishing them as suitable candidates for radiator 
environments. 
Employing Ansys Fluent software, this 
research employs Computational Fluid 
Dynamics (CFD) analysis to systematically 
evaluate the efficacy of magnesium oxide 
and graphene nanofluids in the context of 
radiator systems.

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Published

2025-01-29

Issue

Vol. 15 No. 1s (2025): January-March

Section

Articles

How to Cite

CFD And Thermal Analysis of Radiator Using Magnesium Oxide And Graphene Nanofluids . (2025). International Journal of Engineering and Science Research, 15(1s), 432-441. https://www.ijesr.org/index.php/ijesr/article/view/486

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