[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.1016/j.net.2022.07.030

Analysis on the discharge characteristics and spreading behavior of an ex-vessel core melt in the SMART

Sang Ho Kim (Korea Atomic Energy Research Institute)
Jaehyun Ham (Korea Atomic Energy Research Institute)
Byeonghee Lee (Korea Atomic Energy Research Institute)
Sung Il Kim (Korea Atomic Energy Research Institute)
Hwan Yeol Kim (Korea Atomic Energy Research Institute)
Rae-Joon Park (Korea Atomic Energy Research Institute)
Jaehoon Jung (Korea Atomic Energy Research Institute)

Publication Information

Nuclear Engineering and Technology / v.54, no.12, 2022 , pp. 4551-4559 More about this Journal

Abstract

The aim of this research is to analyze the characteristics of a core melt discharged from the reactor vessel and the spreading behavior the core melt in the reactor cavity of the SMART. First, a severe accident sequence under conservative conditions is simulated by the MELCOR code to obtain the conditions for an analysis of the spreading behavior and coolability of the ex-vessel melt. Second, the spreading behavior and coolability of the ex-vessel melt are analyzed by the MELTSPREAD code. The level, temperature, and pressure of the water in the cavity as well as the temperature, mass, composition, and discharge velocity of the melt were utilized to construct the ex-vessel analysis. The melt spread only to part of the cavity, and that the height of the corium in a static state was less than 25 cm. The characteristics of a small modular reactor on the spreading behavior and coolability of melt were analyzed. In the SMART, the amount of melt discharged into the cavity is relatively small and the area of the cavity is sufficiently large when compared to a high-power pressurized water reactor. It was found that the coolability of an ex-vessel core melt can be sufficiently secured.

Keywords

Severe accident; Molten core; Corium; SMART; MELCOR; MELTSPREAD; MCCI;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	OECD-NEA, State-of-the-Art report on molten corium concrete interaction and ex-vessel molten core coolability, OECD-NEA No.7392, NEA/CSNI/R 15, 2016, 2017.
2	S. Basu, J.-M. Bonnet, M. Cranga, D. Vola, M.T. Farmer, F. Robledo, C. Spengler, Learnings from 30 Years of R&D on molten core concrete interaction, in: NUTHOS-11: the 11th international topical meeting on nuclear reactor thermal hydraulic, Operation Saf. Gyeongju, Korea, 2016. October 9-13.
3	M.T. Farmer, C. Gerardi, N. Bremer, S. Basu, Key findings and remaining questions in the areas of core-concrete interaction and debris coolability, Nucl. Technol. 196 (3) (2016) 461-474, 10.13182/NT16-43. DOI
4	I.-S. Ye, J.A. Kim, C. Ryu, K.S. Ha, H.Y. Kim, J.H. Song, Numerical investigation of the spreading and heat transfer characteristics of ex-vessel core melt, Nucl. Eng. Technol. 45 (NO.1) (2013), https://doi.org/10.5516/NET.03.2012.011. DOI
5	W.-S. Yeon, K.-H. Bang, Y. Choi, Y.S. Kim, J. Lee, CFD analysis of core melt spreading on the reactor cavity floor using ANSYS CFX code, Nucl. Eng. Des. 249 (2012) 90-96. DOI
6	A. Hotta, H. Hadachi, W. Kikuchi, M. Shimizu, Development of a horizontal two-dimensional melt spread analysis code, THERMOS-MSPREAD Part-1: spreading models, numerical solution methods and verifications, Nucl. Eng. Des. 386 (2022) 111523.
7	A. Hotta, H. Hadachi, W. Kikuchi, M. Shimizu, Development of a horizontal two-dimensional melt spread analysis code, THERMOS-MSPREAD Part-2: special models and validations based on dry spreading experiments using molten oxide mixtures and prototype corium, Nucl. Eng. Des. 387 (2022) 111598.
8	R.-J. Park, J. Ham, S.H. Kim, S.I. Kim, B. Lee, J. Kim, Development of severe accident mitigation technology and analysis for SMART, Nucl. Eng. Des. 374 (2021) 111061.
9	J. Ham, S.H. Kim, S.I. Kim, B. Lee, J.-H. Park, R.-J. Park, J. Jung, Source term estimation under the SBLOCA-induced severe accident condition in the SMART, Sci. Technol. Nuclear Install. (2021), https://doi.org/10.1155/2021/6686615. Article ID 6686615, 14 pages. DOI
10	L.L. Humphries, B.A. Beeny, F. Gelbard, D.L. Louie, J. Phillups, MELCOR computer code manuals, Vol. 1: Primer and Users' Guide, SAND2017-0455 O, U.S. Nucl. Regul. Comm., Washington, DC, January, 2017.
11	L.L. Humphries, B.A. Beeny, F. Gelbard, D.L. Louie, J. Phillups, MELCOR computer code manuals, Vol. 2: Reference Manual, SAND2017-0876 O, U.S. Nucl. Regul. Comm., Washington, DC, January, 2017.
12	M.T. Farmer, The MELTSPREAD code for modeling of ex-vessel core debris spreading behavior, code manual - version 3.0, in: Nuclear science and engineering division, Argonne Natl. Lab. ANL-18/30, September, 2018.
13	S.H. Kim, S.M. An, Analysis for condition of corium discharge from reactor vessel using MELCOR, in: Transactions of the Korean nuclear society spring meeting, Jeju, Korea, 2019. May 23-24.
14	US-NRC, Individual plant examination for severe accident vulnerabilities, Generic Lett. GL (1988), 88-20.