References
- T. G. THEOFANOUS, C. LIU, S. ADDITON, S. ANGELINI, O. KYMÄLÄNEN, and T. SALMASSI, “In-Vessel Coolability and Retention of a Core Melt,” Nucl. Eng. Des., 169, 1 (1997).
- T. G. THEOFANOUS and S. SYRI, “The Coolability Limits of a Reactor Pressure Vessel Lower Head,” Nucl. Eng. Des., 169, 59 (1997).
- T.-N. DINH, J.P. TU, T. SALMASSI, and T.G. THEOFANOUS, “Limits of Coolability in the AP1000-Related ULPU-2400 Configuration V Facility,” CRSS-03/06, Center for Risk Studies and Safety, University of California, Santa Barbara (2003).
- J. M. BONNET, S. ROUGE, and J. M. SEILER, “Large Scale Experiments for Core Melt Retention-BALI: Corium Pool Thermal Hydraulics SULTAN: Boiling Under Natural Convection,” Proc. OECD/NEA Workshop on Large Molten Pool Heat Transfer, Nuclear Research Centre, Grenoble, France, March 9–11, 1994 (1994).
- S. ROUGE, “SULTAN Test Facility Large Scale Vessel Coolability in Natural Convection at Low Pressure,” Proc. NURETH-7, Saratoga Springs, New York, September 10–15, 1995, p.1949 (1995).
- M. CAIRA, G. CARUSO, A. NAVIGLIO, and S. ROUGE, “CHF Prediction for Sloping Surfaces,” Proc. 5th Int. Topl. Mtg. Nuclear Thermal Hydraulic Operation and Safety (NUTHOS-5), Beijing, China, April 14–18, 1997, p. AA7-1 (1997).
- F. B. CHEUNG and K. H. HADDAD, “A Hydrodynamic Critical Heat Flux Model for Saturated Pool Boiling on a Downward Facing Curved Heating Surface,” Int. J. Heat Mass Transfer, 40, 6, 1291 (1997).