Year : 2024 | Volume : 02 | Issue : 02 | Page : 27 41

Shivam Singh,

Tanuj Kumar Gupta,

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

Abstract

An apparatus that uses nanofluid to transport heat is called a heat exchanger. This uses a nanofluid as the working fluid. One can make nanofluid hanging nanoparticles in liquids such as petroleum products, water, oil, ethylene glycol, fluorocarbons, etc. Forced convection heat transfer using CuO/water as a Nanofluid and distilled water as the base fluid has been examined in a concentric tube heat exchanger with helical coiled insert. Tests on plain tubes and tubes with inserts have been carried out to determine “heat transfer, frictional factor, and thermal performance factors in a Reynolds number of ranges of 3000 to 11000 with volume concentrations that include 0.010, 0.0150, and 0.020%” of nanofluid. Evidently, the rate of heat transfer increases as the volume percentage and pitching ratio of the CuO/water nanofluid do. Furthermore, compared to a plain copper tube, a copper tube with an alternating arrangement of helix-coiled inserts and a copper oxide-based nanoscale fluid performs better in terms of heat transfer. The best thermal performance factor of 1.23 is demonstrated in this experiment by use of CuO/water nanofluid at volumes concentrations more than 0.020% in copper tubes connected with helical coil insert at spacing ratio (p/d=2) in parallel structure, with Reynolds number of 3713.930.

Keywords: Heat transfer, U tube manometer, Reynolds number, nanofluid, viscose rope

[This article belongs to Journal of Experimental & Applied Mechanics ]

How to cite this article:
Shivam Singh, Tanuj Kumar Gupta. Investigation of Forced Convection Heat Transfer Efficiency Using Cuo/Water Nanofluid in A Concentric Tube Heat Exchanger with Helical Coiled Insert. Journal of Experimental & Applied Mechanics. 2024; 15(02):27-41.

How to cite this URL:
Shivam Singh, Tanuj Kumar Gupta. Investigation of Forced Convection Heat Transfer Efficiency Using Cuo/Water Nanofluid in A Concentric Tube Heat Exchanger with Helical Coiled Insert. Journal of Experimental & Applied Mechanics. 2024; 15(02):27-41. Available from: https://journals.stmjournals.com/joeam/article=2024/view=180217

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Regular Issue Subscription Original Research

Journal of Experimental & Applied Mechanics

ISSN: 2230-9845

Volume	15
Issue	02
Received	05/07/2024
Accepted	19/07/2024
Published	26/10/2024

229

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