[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.1016/j.net.2021.11.025

Development of a special thermal-hydraulic component model for the core makeup tank

Kim, Min Gi (School of Mechanical Engineering, Pusan National University)
Wisudhaputra, Adnan (School of Mechanical Engineering, Pusan National University)
Lee, Jong-Hyuk (Korea Atomic Energy Research Institute (KAERI))
Kim, Kyungdoo (Korea Atomic Energy Research Institute (KAERI))
Park, Hyun-Sik (Korea Atomic Energy Research Institute (KAERI))
Jeong, Jae Jun (School of Mechanical Engineering, Pusan National University)

Publication Information

Nuclear Engineering and Technology / v.54, no.5, 2022 , pp. 1890-1901 More about this Journal

Abstract

We have assessed the applicability of the thermal-hydraulic system analysis code, SPACE, to a small modular reactor called SMART. For the assessment, the experimental data from a scale-down integral-test facility, SMART-ITL, were used. It was conformed that the SPACE code unrealistically calculates the safety injection flow rate through the CMT and SIT during a small-break loss-of-coolant experiment. This unrealistic behavior was due to the overprediction of interfacial heat transfer at the steam-water interface in a vertically stratified flow in the tanks. In this study, a special thermal-hydraulic component model has been developed to realistically calculate the interfacial heat transfer when a strong non-equilibrium two-phase flow is formed in the CMT or SIT. Additionally, we developed a special heat structure model, which analytically calculates the heat transfer from the hot steam to the cold tank wall. The combination of two models for the tank are called the special component model. We assessed it using the SMART-ITL passive safety injection system (PSIS) test data. The results showed that the special component model well predicts the transient behaviors of the CMT and SIT.

Keywords

Core makeup tank; Special component model; Thermal non-equilibrium; Vertical stratified flow; Interfacial heat transfer;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	M.H. Chang, J.W. Yeo, Q.S. Zee, D.J. Lee, K.B. Park, I.S. Koo, H.C. Kim, J.I. Kim, Basic Design Report of SMART, KAERI, 2002. KAERI/TR-2142/2002.
2	H.S. Park, S.J. Yi, C.H. Song, SMR accident simulation in experimental test loop, Nucl. Eng. Int. 58 (Nov. 2013) 12-15.
3	S.J. Ha, C.E. Park, K.D. Kim, C.H. Ban, Development of the SPACE code for nuclear power plants, J. Nucl. Eng. Technol. 43 (1) (2011) 45-62, https://doi.org/10.5516/NET.2011.43.1.045. DOI
4	K.T. Park, I.K. Park, S.W. Lee, H.S. Park, Assessment of MARS for direct contact condensation in the core make-up tank, Journal of Computational Fluids Engineering 19 (1) (2014) 64-72, https://doi.org/10.6112/kscfe.2014.19.1.064. DOI
5	H. Bae, S.U. Ryu, J.Y. Kang, J.H. Yang, Y.S. Kim, H.S. Park, Data Analysis Report: 4-Train PSS Tests, KAERI, 2018. S-750-NV457-005.
6	Y.S. Kim, H. Bae, B.G. Jeon, Y.G. Bang, S.J. Yi, H.S. Park, Investigation of thermal hydraulic behavior of SBLOCA tests in SMART-ITL facility, Ann. Nucl. Energy 113 (2018) 25-36, https://doi.org/10.1016/j.anucene.2017.11.013. DOI
7	J. Tuunanen, J. Vihavainen, F. D'Auria, G. Kimber, Assessment of passive safety injection systems of ALWRs final report of the European commission 4th framework programme, Finland (1999). Project FI4I-CT95-0004 (APSI).
8	K.K. Kim, W.J. Lee, S. Choi, H.R. Kim, J.J. Ha, SMART: the First licensed advanced integral reactor, J. Power Energy Eng. 8 (2014) 94-102, https://doi.org/10.17265/1934-8975/2014.01.011. DOI
9	H.S. Park, H. Bae, S.U. Ryu, B.G. Jeon, J.H. Yang, Y.S. Kim, E.K. Yun, J.M. Kim, N.H. Choi, Y.C. Shin, K.H. Min, Y.G. Bang, M.J. Kim, C.J. Seo, S.J. Yi, Core Cooling Behaviors in SMART-ITL with Passive Safety Injection System and Passive Residual Heat Removal System during a SBLOCA Scenario, Transactions of the Korean Nuclear Society Autumn Meeting, Gyeongju, Korea, May 18-19, 2017.
10	J.J. Jeong, K.S. Ha, B.D. Chung, W.J. Lee, Development of A Multi-dimensional thermal-hydraulic system code, MARS 1.3.1, Ann. Nucl. Energy 26 (18) (1999) 1611-1642, https://doi.org/10.1016/S0306-4549(99)00039-0. DOI