Assessment of the fire resistance of a nuclear power plant subjected to a large commercial aircraft crash
- 作者:Se-Jin Jeona ; conc@ajou.ac.kr ; Byeong-Moo Jinb ; Young-Jin Kimb
- 关键词:Aircraft crash ; Fire resistance ; Fire endurance time ; Nuclear power plant
- 刊名:Nuclear Engineering and Design
- 出版年:2012
- 期刊代码:132_00295493
- 类别:et
- 出版时间:June, 2012
- 卷:247
- 期:Complete
- 页码:11-22
- 文件大小:2841 K
摘要
The safety assessment of infrastructures, such as a nuclear power plant, for the crash of a large commercial aircraft has been performed worldwide after the terrorism that occurred in the U.S. on September 11, 2001. The assessment, however, has mainly focused on the techniques of impact analysis. In this study, a systematic procedure to assess the fire resistance of containment and auxiliary buildings subjected to such an aircraft crash is proposed. The intensity, duration and distribution of the fire are determined based on aircraft crash analyses and characteristics of jet fuel. A three-dimensional detailed finite element model of the containment and auxiliary buildings is established and used for heat transfer and thermal stress analyses, taking into account the material properties at an elevated temperature. Section forces can then be obtained that are based on a nonlinear stress-strain relationship. The fire resistance of the structure is assessed by comparing the fire-induced section forces with the section resistance which is evaluated using the load-moment strength interaction diagram. The study addresses the problem whereby the conventional assessment that only considers the flexural behaviour is less accurate. The assessment results support the general conclusion that the nuclear power plant structures can maintain structural integrity against external fire due to their relatively thick sections. The proposed procedure can be extensively applied to evaluate the fire endurance time of any type of structure subjected to an arbitrary fire.