The Effective Parameters on the Performance of Finned Heat Sinks Used for Light Emitting Diode Application: A Review

The Effective Parameters on the Performance of Finned Heat Sinks Used for Light Emitting Diode Application: A Review

Authors

  • Asma Ahmed University of Mosul
  • Adnan Alsaffawi Mosul university

DOI:

https://doi.org/10.56286/ntujre.v6i1.907

Keywords:

Performance, Finned Heat Sinks, Light Emitting Diode, Heat transfer

Abstract

The increasing demand for high-performance LED applications has led to the development of thermal management systems to reduce heat generation. This review paper examines finned heat sinks for LED applications, examining the impact of fin number, height, thickness, shape, type, direction, and materials used. The study concludes that creating holes in the fins improves heat sink performance, while shape, size, and number also affect heat transfer rate and temperature drop along the fins. This research highlights the importance of efficient thermal management systems in LED applications. This review paper examines the impact of various parameters on the performance of finned heat sinks used for LED applications. It explores the influence of fin number, height, thickness, shape, type, direction, and materials on heat transfer rate and temperature drop along the fins. The study emphasizes the importance of efficient thermal management systems in LED applications. From the beginning of March until the end of August 2022, tests will be conducted to determine the sensitivity of single-glass solar modules to environmental changes.

Downloads

Published

2024-04-01

Issue

Section

Articles

How to Cite

The Effective Parameters on the Performance of Finned Heat Sinks Used for Light Emitting Diode Application: A Review: The Effective Parameters on the Performance of Finned Heat Sinks Used for Light Emitting Diode Application: A Review. (2024). NTU Journal of Renewable Energy, 6(1), 31-41. https://doi.org/10.56286/ntujre.v6i1.907

Similar Articles

1-10 of 26

You may also start an advanced similarity search for this article.