H. Shabgard, M.J. Allen, N. Sharifi, S.P. Benn, A. Faghri, T.L. Bergman, “Heat pipe heat exchangers and heat sinks: opportunities, challenges, applications, analysis, and state of the art,” International Journal of Heat and Mass Transfer, vol. 89, pp. 138 – 158, 2015.
Heat pipes (HPs) and thermosyphons (TSs) are widely recognized as being excellent passive thermal transport devices that can have effective thermal conductivities orders of magnitude higher than similarly-dimensioned solid materials. The integration of heat pipes into heat exchangers (HXs) and heat sinks (HPHXs and HPHSs, respectively) has been shown to have strong potential for energy savings, especially in response to the significant reduction in the manufacturing costs of heat pipes in recent years. This review documents HPHX applications, general design procedures, and analysis tools based on the thermal network approach. The thermal network approach is a robust engineering tool that is easy to implement and program, is user friendly, straightforward, computationally efficient, and serves as a baseline methodology to produce results of reasonable accuracy. Three practical case studies are presented in which the predicted results reveal potential advantages of heat pipe heat exchangers. Various HPHX and HPHS systems, including a potential thermal energy storage option using a phase change material, are presented along with the corresponding thermal networks. This review also discusses the opportunities and challenges related to current HPHX and HPHS applications.