Heat Transfer and Integration of Heat Pipes: Advances, Applications, and Future Directions

Heat pipes are essential tools in managing heat effectively, offering remarkable efficiency by using phase change and capillary action to transfer heat. They have become indispensable in various fields, from cooling electronic devices to improving renewable energy systems and advancing aerospace technology. This paper explores the development and types of heat pipes, ranging from traditional thermosyphons to more sophisticated designs like loop and flat heat pipes. It delves into their materials, manufacturing methods, and how they are integrated into systems to maximize performance and reliability. Challenges such as overcoming thermal resistance, enhancing material durability, and ensuring functionality under extreme conditions are discussed. The role of modern techniques, like computational simulations and machine learning, in optimizing heat pipe design is also examined. By addressing these aspects, this study highlights the promise of heat pipes in creating efficient and sustainable solutions to meet today’s energy and environmental demands.