STEAM GENERATOR TUBE INTEGRITY ANALYSIS OF A TOTAL LOSS OF ALL HEAT SINKS ACCIDENT FOR WOLSONG NPP UNIT 1 |
Lim, Heok-Soon
(Korea Hydro & Nuclear Power Co., Ltd., Central Research Institute)
Song, Tae-Young (Korea Hydro & Nuclear Power Co., Ltd., Central Research Institute) Chi, Moon-Goo (Korea Hydro & Nuclear Power Co., Ltd., Central Research Institute) Kim, Seoung-Rae (Nuclear Engineering Service & Solution) |
1 | Design Manual for Wolsong-2, 3&4, "86-33300/63330-DM-001", page A-64. |
2 | T.G. Beuthe and B.N. Hanna, Editor, "CATHENA MOD-3.5d/Rev 2 Input Reference", AECL-WL Report: 153-112020-UM-001, Revision 0, 2005 August, and T.G. Beuthe and B.N. Hanna, Editor, "CATHENA MOD-3.5d/Rev 2 GENHTP Input Reference", AECL-WL Report: 153- 112020-UM-002, Revision 0, 2005 August. |
3 | Design Manual for Wolsong-1 NPP, "Design Manual-59-33300/63330", and page A-1-1, 44. |
4 | Analysis Report for Wolsong NPP2, 3,4 NPP, "86-33300-AR-002, Revision 1", page I-1. |
5 | FSAR Chapter 15, WSNPP-1, 2013. |
6 | R, Oris, "Sustained Loss of All Heat Sinks Events in CANDU", CANDU Energy Presentation Material, Mar 2012. |
7 | Chiheb Hasnaoui, "Development of a Discharge Model for the Bopp & Reuther Degasser/Condenser Relief Valves for Heat Sink Assessment", CNS Sixth International Conference on Simulation Methods in Nuclear Engineering, Montreal, Quebec, Canada, Oct 2004. |
8 | Saurin Majumdar, Predictions of Structural Integrity of Steam Generator Tubes under Normal Operating, Accident, and Severe Accident Condition. Argonne National Lab., Sept. 1996. |
9 | William D. Callister, Jr., "Fundamentals of Materials Science and Engineering". |
10 | Reg. Guide 1.121, 2. Minimum Acceptable Wall Thickness, (4). |