Year : 2024 | Volume : | : | Page : –

Shivam Singh,

Tanuj Kumar Gupta,

Student Department of Mechanical Engineering, B.N. College of Engineering and Technology, Lucknow Uttar pradesh India
Assistant Professor Department of Mechanical Engineering, B.N. College of Engineering and Technology, Lucknow Uttar pradesh India

Abstract

Over the years, there has been a lot of focus on improving heat transmission by utilizing various approaches in an effort to make heat exchangers smaller and less expensive. The following methods have been found to be the most successful in increasing heat transfer rate in heat exchangers: Nano-Fluids, first (3) Rubbing heat exchanger surfaces rough. (2) Inserting fluid tabulators. However, a combination of all three approaches or any two of them might be employed for greater heat transfers. “A device that transmits heat utilizing Nano-Fluid is called a heat exchanger. This uses a Nano-Fluid as the working fluid. One can make Nano-Fluid by suspending nanoparticles in fluids such as ethylene glycols, waters, oils, and hydrocarbons that are fluorocarbons.

Keywords: Nano-fluid, Heat Exchanger, Helical Coil, Pressure Drop, CFD, Temperature Distribution.

How to cite this article: Shivam Singh, Tanuj Kumar Gupta. A review on the Enhancing Heat Exchanger Efficiency with CuO/Water Nanofluid in a Shell and Helical Coil System. Trends in Mechanical Engineering & Technology. 2024; ():-.

How to cite this URL: Shivam Singh, Tanuj Kumar Gupta. A review on the Enhancing Heat Exchanger Efficiency with CuO/Water Nanofluid in a Shell and Helical Coil System. Trends in Mechanical Engineering & Technology. 2024; ():-. Available from: https://journals.stmjournals.com/tmet/article=2024/view=156639

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Ahead of Print Subscription Review Article

Trends in Mechanical Engineering & Technology

ISSN: 2231-1793

Volume

Received	July 5, 2024
Accepted	July 11, 2024
Published	July 17, 2024

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