An Investigation into The Enhancement of Heat Transfer in Roughened Ducts of Solar Air Heaters
Gyaneshwar1, Shikha Bhatt2
1Gyaneshwar, Department of Mechanical Engineering, Oriental College of Technology, Bhopal (MP), India.
2Shikha Bhatt, Department of Mechanical Engineering, Oriental College of Technology, Bhopal (MP), India.
Manuscript received on 25 October 2023 | Revised Manuscript received on 07 November 2023 | Manuscript Accepted on 15 December 2023 | Manuscript published on 30 December 2023 | PP: 1-5 | Volume-4 Issue-1, December 2023 | Retrieval Number: 100.1/ijpte.A2023124123 | DOI: 10.54105/ijpte.A2023.124123
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© The Authors. Published by Lattice Science Publication (LSP). This is an open access article under the CC-BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/)
Abstract: One of the most crucial tools for the process of transforming solar energy into thermal energy is a solar air heater. Thanks to its low cost and ease of installation, solar air heaters have quickly become one of the most popular and widely used methods of harvesting solar energy. Low convective heat transfer coefficient values between the absorber plate and the air significantly reduce the solar air heater’s thermal efficiency. This is because absorber plates are used in solar air heaters. As a consequence, the absorber plate heats up, releasing a great deal of thermal energy into the surrounding space. This article presents the findings of a study that used computational fluid dynamics to investigate how heat is transferred in a solar air heater. The work for this project was done by the author (CFD). Researchers are now investigating the impact of the Re on the Nu. Commercial software known as ANSYS FLUENT 20 may be used to analyse and visualise the flow that happens across the duct of a solar air heater. This programme falls under the category of finite volume software. Using the programme helps get the job done.
Keywords: Energy, Air Heater, Heat, Pressure, CFD
Scope of the Article: Heat Transfer