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Preliminary thermal-hydraulic analysis of the EU-DEMO Helium-Cooled Pebble Bed fusion reactor by using the RELAP5-3D system code

•Thermal-hydraulic analysis of the EU-DEMO HCPB Breeding Blanket concept in supporting its Pre-Conceptual Design Phase.•The study was conducted with a numerical approach based on the FVM adopting RELAP5−3D implicitly integrated with ANSYS CFX .•Assessment of a computational model of the safety relev...

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Published in:Fusion engineering and design 2021-01, Vol.162, p.112111, Article 112111
Main Authors: D’Amico, Salvatore, Di Maio, Pietro Alessandro, Jin, Xue Zhou, Hernández Gonzalez, Francisco Alberto, Moscato, Ivo, Zhou, Guangming
Format: Article
Language:English
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Summary:•Thermal-hydraulic analysis of the EU-DEMO HCPB Breeding Blanket concept in supporting its Pre-Conceptual Design Phase.•The study was conducted with a numerical approach based on the FVM adopting RELAP5−3D implicitly integrated with ANSYS CFX .•Assessment of a computational model of the safety relevant cooling loop for the HCPB BB Primary Heat Transfer System.•Assessment of the reactor thermal-hydraulic behaviour during normal operational conditions.•Assessment of the reactor safety behaviour under an ex-vessel LOCA scenario due to a DEG break occurring in an OB segment hot feeding pipe. In the frame of the activities promoted and encouraged by the EUROfusion Consortium aimed at developing the EU-DEMO fusion reactor, great emphasis has been placed at a very early stage of the design to incorporate the provisions needed to improve the overall plant safety and reliability performances as well as to analyse possible mitigation actions. In this framework, the research activity has been focused on the representative and safety relevant cooling loop of the Helium Cooled Pebble Bed (HCPB) Breeding Blanket (BB) Primary Heat Transfer System (PHTS), purposely selected by the safety team, in order to assess its thermal-hydraulic behaviour during normal operational conditions (ramp up/down and steady state) and to preliminarily investigate the consequences of an ex-vessel LOCA accidental scenario ensuing a Double-Ended Guillotine (DEG) break in the hot leg. The research activity has been carried out following a theoretical-computational approach based on the finite volume method adopting the RELAP5−3D system code along with the ANSYS CFX computational fluid dynamic code, which were implicitly integrated to achieve a more detailed and realistic simulation of the EU-DEMO reactor thermal-hydraulics. Models, assumptions and outcomes of this preliminary study are herein presented and critically discussed.
ISSN:0920-3796
1873-7196
DOI:10.1016/j.fusengdes.2020.112111