Assessment of thermal fatigue induced by dryout front oscillation in printed circuit steam generator

Assessment of thermal fatigue induced by dryout front oscillation in printed circuit steam generator

A printed circuit steam generator (PCSG) is being considered as the component for pressurized water reactor (PWR) type small modular reactor (SMR) that can further reduce the physical size of the system. Since a steam generator in many PWR-type SMR generates superheated steam, it is expected that dr...

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Bibliographic Details
Published in:Nuclear engineering and technology Vol. 54; no. 3; pp. 1085 - 1097
Main Authors: Kwon, Jin Su, Kim, Doh Hyeon, Shin, Sung Gil, Lee, Jeong Ik, Kim, Sang Ji
Format: Journal Article
Language:English
Published: Elsevier B.V 01-03-2022
Elsevier
한국원자력학회
Subjects:
Dryout oscillation
FEM
PCSG
Thermal fatigue
원자력공학
PCSG
Thermal fatigue
Dryout oscillation
FEM
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Summary:A printed circuit steam generator (PCSG) is being considered as the component for pressurized water reactor (PWR) type small modular reactor (SMR) that can further reduce the physical size of the system. Since a steam generator in many PWR-type SMR generates superheated steam, it is expected that dryout front oscillation can potentially cause thermal fatigue failure due to cyclic thermal stresses induced by the transition in boiling regimes between convective evaporation and film boiling. To investigate the fatigue issue of a PCSG, a reference PCSG is designed in this study first using an in-house PCSG design tool. For the stress analysis, a finite element method analysis model is developed to obtain the temperature and stress fields of the designed PCSG. Fatigue estimation is performed based on ASME Boiler and pressure vessel code to identify the major parameters influencing the fatigue life time originating from the dryout front oscillation. As a result of this study, the limit on the temperature difference between the hot side and cold side fluids is obtained. Moreover, it is found that the heat transfer coefficient of convective evaporation and film boiling regimes play an essential role in the fatigue life cycle as well as the temperature difference.
ISSN:1738-5733
2234-358X
DOI:10.1016/j.net.2021.09.004