Design of Liquid Metal Phase Change Heat Exchanger for Next-Generation Nuclear Plant Process Heat Application

Abstract: The Next Generation Nuclear Plant will most likely produce electricity and its reactor heat will be further utilized for the production of hydrogen, oil recovery from tar sands and oil shales, and other process heat applications, that will further the nation's pursuit of energy independence. An intermediate heat exchanger is required to transfer heat from the Next-Generation Nuclear Plant to the hydrogen plant (or other processes) in the most efficient way possible. Phase change heat exchangers are quite attra… Show more

“…It should be noted that heat transfer correlations developed based on ordinary fluids could result in relatively large uncertainties for predicting liquid-metal boiling. A detailed description of various boiling mechanisms can be found in Refs [59,62,63].…”

A two-phase three-field modeling framework for heat pipe application in nuclear reactors

“…It should be noted that heat transfer correlations developed based on ordinary fluids could result in relatively large uncertainties for predicting liquid-metal boiling. A detailed description of various boiling mechanisms can be found in Refs [59,62,63].…”

A two-phase three-field modeling framework for heat pipe application in nuclear reactors

Optimal artificial neural network architecture selection for performance prediction of compact heat exchanger with the EBaLM-OTR technique

Design of Heat-Recovery Steam Generator Components in Gas Turbine (70 MW) Combined Cycle Power Plants (105 MW)