References
- H. G. MacPHERSON, “The Molten Salt Reactor Adventure,” Nucl. Sci. Eng., 90, 374 (1985).
- P. N. HAUBENREICH, “Molten-Salt Reactor Experiments,” ORNL-4396, Oak Ridge National Laboratory (1970).
- M. W. ROSENTHAL et al., “Advances in the Development of MSBR,” Proc. 4th Int. Conf. Peaceful Uses of Atomic Energy, Geneva, Switzerland, September 6–12, 1971, A/Conf.49/P/048 (1971).
- “A Technology Roadmap for Generation IV Nuclear Energy Systems,” GIF-002-00, U.S. Department of Energy Nuclear Energy Research Advisory Committee and the Generation IV International Forum (Dec. 2002).
- J. KREPEL, “Dynamics of Molten Salt Reactors,” Doctoral Thesis, prepared at Forschungszentrum Rossendorf (June 2006), defended at Czech Technical University, Department of Nuclear Reactors, Faculty of Nuclear Sciences and Physical Engineering (2006).
- M. DELPECH, S. DULLA, C. GARZENNE, J. KOPHAZI, J. KREPEL, C. LEBRUN, D. LECARPENTIER, F. MAT-TIODA, P. RAVETTO, A. RINEISKI, M. SCHIKORR, and M. SZIEBERTH, “Benchmark of Dynamic Simulation Tools for Molten Salt Reactors,” Proc. GLOBAL 2003: Atoms for Prosperity: Updating Eisenhower’s Global Vision for Nuclear Energy, New Orleans, Louisiana, November 16–20, 2003, American Nuclear Society (2003) (CD-ROM).
- K. MIKITYUK, S. PELLONI, P. CODDINGTON, E. BUBELIS, and R. CHAWLA, “FAST: An Advanced Code System for Fast Reactor Transient Analysis,” Ann. Nucl. Energy, 32, 1613 (2005).
- U. GRUNDMANN, U. ROHDE, S. MITTAG, and S. KLIEM, “DYN3D Version 3.2, Code for Light Water Reactors (LWR) with Hexagonal or Quadratic Fuel Elements, Description of Models and Methods,” FZR-434, ISSN 1437-322X, Forschungszentrum Rossendorf (2005).
- J. KREPEL, U. GRUNDMANN, U. ROHDE, and F.-P. WEISS: “DYN3D-MSR Spatial Dynamics Code for Molten Salt Reactors,” Ann. Nucl. Energy, 34, 449 (2007).
- J. KREPEL, U. GRUNDMANN, U. ROHDE, and F.-P. WEISS, “DYN1D-MSR Dynamics Code for Molten Salt Reactors,” Ann. Nucl. Energy, 32, 1799 (2005).
- U. ROHDE, “Ein theoretisches Model für Zweiphasenströmung in wassergekühlten Kernreaktoren und seine Anwendung zur Analyse des Naturumlaufs im Heizreaktor AST-500,” Dissertation, Zentralinstitut für Kernforschung Rossendorf bei Dresden (July 1986).
- B. E. PRINCE, J. R. ENGEL, S. J. BALL, P. N. HAUBENREICH, and T. W. KERLIN, “Zero-Power Physics Experiments on Molten-Salt Reactor Experiment,” OrNl-4233, Oak Ridge National Laboratory (1968).
- R. SANCHEZ et al., “APOLLO II: A User-Oriented, Portable, Modular Code for Multigroup Transport Assembly Calculations,” Proc. Congress on Advances in Reactor Physics, Mathematics and Computation, Paris, France, April 21–30, 1987, p. 1563 (1987).