1 |
S.-W. Lee, T.-H. Hong, Y.-J. Choi, M.-R. Seo, H.-T. Kim, Containment depressurization capabilities of filtered venting system in 1000 MWe PWR with large dry containment, Sci. Technol. Nucl. Install. (2014) 1-10, 2014.
|
2 |
L. Ji-ming, C. Peng, Z. Shi-shun, Study of containment over-pressure fragility curve and analysis of opening pressure for containment filtration and exhaust system, Nucl. Power Eng. 32 (2011) 10-14.
|
3 |
T. Lind, D. Suckow, J. Yang, Characterization of the performance of wet scrubers used in FCVS, in: Proceedings of a Technical Meeting on Severe Accident Mitigation through Improvements in Filtered Containment Venting for Water Cooled Reactors, 2015, 31 August-3 September 2015, Vienna, Austria.
|
4 |
G. Huang, L. Fang, Feasibility research of containment venting for CANDU6, Nucl. Eng. Des. 268 (2014) 113-120.
DOI
|
5 |
Y.S. Na, K.S. Ha, R.-J. Park, J.-H. Park, S.-W. Cho, Thermal hydraulic issues of containment filtered venting system for a long operating time, Nucl. Eng. Technol. 46 (2014) 797-802.
DOI
|
6 |
S. Schwarz, M. Sonnenkalb, Lessons learned from analytical re-evaluation of a venturi scrubber venting systems implemented in German NPPs through COCOSYS analyses, in: Proceedings of a Technical Meeting on Severe Accident Mitigation through Improvements in Filtered Containment Venting for Water Cooled Reactors, vol. 31, 2015. August-3 September 2015, VIENNA,AUSTRIA.
|
7 |
A. Ui, M. Furuya, T. Kanai, Accident progression analyses of a BWR with filtered containment venting system during long term severe accident conditions, in: Proceedings of ICAPP, FUKUI and KYOTO,JAPAN, 2017.
|
8 |
J. Yang, D.Y. Lee, S. Miwa, S.-w. Chen, Overview of filtered containment venting system in nuclear power plants in Asia, Ann. Nucl. Energy 119 (2018) 87-97.
DOI
|
9 |
D. Jacquemain, S. Guentay, S. Basu, M. Sonnenkalb, L. Lebel, H.J. Allelein, B.L. Martinez, B. Eckardt, L. Ammirabile, OECD/NEA/CSNI status report on filtered containment venting, in: Organisation for Economic Co-operation and Development, 2014.
|
10 |
P. Dejardin, T. Helman, J. Bulle, J. Dienstbier, L. Oury, L. Sallus, Methodology developed for the definition of the design parameters and associated safety criteria of the Filtered Containment Venting Systems for Belgian NPPs, Ann. Nucl. Energy 93 (2016) 58-64.
DOI
|
11 |
C.H. Kim, H.C. NO, M.H. Chun, Application of RELAP5/MOD3.2 to the Prediction of Two-phase Mixture Level Swell and Liquid Entrainment from the Two-phase Mixture Surface during Depressurization in a Vessel, PHYSOR, 2002.
|
12 |
I.Inc, in: Martland Rockville (Ed.), RELAP5/MOD3.3 Code Manual Volume IV: Models and Correlations, 2001.
|
13 |
N.R. Lee, Y.S. Bang, D.Y. Lee, H.T. Kim, Analysis of containment venting strategy under severe accident conditions, Ann. Nucl. Energy 94 (2016) 633-642.
DOI
|
14 |
J. Yang, D. Suckow, T. Lind, H.-M. Prasser, Study of level swell for a filtered containment venting system at the VEFITA facility, Prog. Nucl. Energy 113 (2019) 7-17.
DOI
|
15 |
H. Rust, C. Tfinnler, W. Heintz, D. Haschke, M. Nuala, R. Jakab, Pressure release of containments during severe accidents in Switzerland, Nucl. Eng. Des. 157 (1995) 337-352.
DOI
|
16 |
Y.M. Song, H.S. Jeong, S.Y. Park, D.H. Kim, J.H. Song, Overview of containment filtered vent under severe accident conditons at wolsong NPP unit 1, Nucl. Eng. Technol. 45 (2013) 597-604.
DOI
|
17 |
L.S. Lebel, A.C. Morreale, V. Korolevych, M.J. Brown, S. Gyepi-Garbrah, Severe accident consequence mitigation by filtered containment venting at Canadian nuclear power plants, Ann. Nucl. Energy 102 (2017) 297-308.
DOI
|
18 |
S. Widodo, J. Ishikawa, K. Muramatsu, T. Sakamoto, Analysis of Containment Venting Following a Core Damage at a BWR Mark I Using THALES-2, JAERI-Conf, 2000.
|
19 |
K. Yuan, W.Q. Qie, L.L. Tong, X.W. Cao, Analysis on containment depressurization under severe accidents for a Chinese 1000 MWe NPP, Prog. Nucl. Energy 65 (2013) 8-14.
DOI
|