Heat exchange capability of main heat exchangers in pressurized water test loop under low parameter conditions during fuel assembly irradiation

Heat exchange capability of main heat exchangers in pressurized water test loop under low parameter conditions during fuel assembly irradiation

The steady-state irradiation test for fuel assemblies is a key aspect of nuclear reactor fuel development, for revealing irradiation resistance and verifying the safety of new fuel assemblies before engineering application. The impact of low parameter conditions on the heat transfer capacity of main...

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Bibliographic Details
Main Authors: Junping Si, Guang Zhao, Yun Wang, Mingyan Tong, Jinkang Cheng, Jin Lei, Hongwei Wu, Yueyan Song, Yongqiang Li, Yong Luo
Format: Article
Language:English
Published: Elsevier 2025-08-01
Series:Case Studies in Thermal Engineering
Subjects:
Heat exchange capability
Pressurized water test loop
Low parameter conditions
Fuel assembly steady-state irradiation
Online Access:http://www.sciencedirect.com/science/article/pii/S2214157X25005362
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Summary:The steady-state irradiation test for fuel assemblies is a key aspect of nuclear reactor fuel development, for revealing irradiation resistance and verifying the safety of new fuel assemblies before engineering application. The impact of low parameter conditions on the heat transfer capacity of main heat exchangers in the pressurized high-temperature water test loop was studied. A segmented fitting method for determining flow turning points was established, and proposals for series-parallel configurations and new regenerative heat exchanger designs were presented. It is shown that the total heat exchange power of two main heat exchangers operating in parallel is not always greater than that of a single unit. There exists a flow turning point, and above this point, operating the two main heat exchangers in parallel is beneficial. Through segmented fitting, the flow turning points at different inlet water temperatures can be obtained. The average difference in turning points obtained from fitting and calculations is only 0.6 %, with a corresponding average power deviation of 1.8 %. Besides, for low parameter operating conditions, the issues of insufficient heat exchange power can be addressed by using a series connection of the main heat exchangers and adjusting the heat exchange area of the regeneration section.
ISSN:2214-157X

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