Review of passive methods of heat transfer enhancement in helical tube heat exchanger

Marzouk, Seifelislam A.; Abou Al-Sood, M.M.; El-Said, Emad M.S.; Younes, M.M.; El-Fakharany, Magda K.

doi:10.21608/jctae.2023.250495.1020

Review of passive methods of heat transfer enhancement in helical tube heat exchanger

Document Type : Original Article

Authors

¹ Mechanical Engineering Dept., Faculty of Engineering, Kafrelsheikh University, Kafrelsheikh, Egypt

² Mechanical Power Engineering Dept, Faculty of Engineering, Damietta University, Damietta, Egypt

10.21608/jctae.2023.250495.1020

Abstract

In contemporary times, Helical tube heat exchangers (HTHXs) have gained significant prominence in energy-related sectors, frequently finding application in industrial and technical settings. Their impact on overall system efficiency and size is substantial. A comprehensive review addressing passive methods of heat transfer enhancement in HTHXs is notably absent. This paper justifies its significance by providing a recent and systematic review of available passive methods. The passive approach offers advantages such as the absence of external power requirements and lower operational costs compared to active methods. Studies collectively indicate a noteworthy progression in heat transfer enhancement in HTHXs. The paper meticulously evaluates passive methods like fins, inserts, geometry modifications, and baffles, which collectively represent 18.7%, 22.3%, 42.2%, and 16.8% of research efforts, respectively. Both experimental and numerical studies focus on improving heat transfer in HTHXs. However, further exploration is necessary to understand the negative effects of pressure drop in tube-side flow. Future research should also prioritize the development of geometric designs for HTHX surfaces, potentially incorporating materials coatings to further enhance heat transfer. The authors present insightful issues and ideas that they estimate deserving of additional investigation in subsequent research endeavors.

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