Recent Developments and Findings of Heat Pipe Experiments for Microreactor Applications

Ilyas Yilgor; Zachary D. Sellers; Jeremy L. Hartvigsen; Katrina M. Sweetland; Pei-Hsun Huang; Taehwan Ahn; Joseph Seo; Annalisa Manera; Victor Petrov; Mark Anderson; Yassin Hassan; Shanbin Shi; Piyush Sabharwall

doi:dx.doi.org/10.1080/00295450.2024.2375488

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Home / Publications / Journals / Nuclear Technology / Volume 211 / Number 5

Recent Developments and Findings of Heat Pipe Experiments for Microreactor Applications

Ilyas Yilgor, Zachary D. Sellers, Jeremy L. Hartvigsen, Katrina M. Sweetland, Pei-Hsun Huang, Taehwan Ahn, Joseph Seo, Annalisa Manera, Victor Petrov, Mark Anderson, Yassin Hassan, Shanbin Shi, Piyush Sabharwall

Nuclear Technology / Volume 211 / Number 5 / May 2025 / Pages 905-939

Review Article / dx.doi.org/10.1080/00295450.2024.2375488

Received:January 19, 2024

Accepted:June 25, 2024

Published:April 7, 2025

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Microreactor technologies are required to provide reliable carbon-free power generation in remote applications. The heat pipe–cooled microreactor concept, in particular, offers notable advantages due to the passive operation of heat pipes, enabling increased reliability and simplicity in a more compact form factor. There is a significant need for experimental work to aid and expedite the deployment of heat pipe microreactors due to their unique technological characteristics. Thus, there has been increased interest in heat pipe experiments by numerous institutions in order to support these efforts.

The present work is a comprehensive review of recent heat pipe experiments from six major institutions, describing their designs, instruments, methods, and results. In addition, this paper also presents a background on heat pipe experiments along with discussions on instrumentation, accident scenarios, wick enhancement, and proposed future directions.