Code development of Single-phase 2-D pressure wave propagation

•A 2-D single-phase pressure wave propagation calculating code is developed.•Code verifications are carried out by using two typical single-phase shock tube benchmarks.•Two-dimensional propagation characteristics of pressure wave are investigated. Obtaining accurate capture of the pressure wave prop...

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Bibliographic Details
Published in:Annals of nuclear energy 2022-09, Vol.175, p.109211, Article 109211
Main Authors: Gu, Zhixing, Yu, Hongxing, Dai, Jianing, Huang, Daishun, Yan, Mingyu, Shen, Yaou, Guo, Chao
Format: Article
Language:English
Subjects:
Code development
Pressure iteration algorithms
Pressure wave propagation
Single-phase shock tube
Time step segmentation algorithm
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Summary:•A 2-D single-phase pressure wave propagation calculating code is developed.•Code verifications are carried out by using two typical single-phase shock tube benchmarks.•Two-dimensional propagation characteristics of pressure wave are investigated. Obtaining accurate capture of the pressure wave propagation process is very important for structural load calculation and stress analysis. For traditional nuclear reactors, one-dimensional system analysis codes such as RELAP5 and TRACE are recognized to be the effective analysis tools for pressure wave propagation simulating. However, advanced nuclear energy systems have a highly integrated and complicated geometric configurations. It is obvious that the system analysis codes are difficult to obtain an elaborate simulating of pressure wave propagation process. It is significant to develop multi-dimensional pressure wave propagation simulation codes. In this paper, a 2-D single-phase pressure wave propagation calculating code is developed. Furthermore, code verifications are carried out by using two typical single-phase shock tube benchmarks. Finally, two-dimensional propagation characteristics of pressure wave are investigated. Conclusions can be drawn that the new code proposed in this paper can reasonably reproduce the behaviors of multi-dimensional pressure wave propagation.
ISSN:0306-4549
1873-2100
DOI:10.1016/j.anucene.2022.109211