REFERENCES
- R. D. LAWRENCE, “The DIF3D Nodal Neutronics Option for Two- and Three-Dimensional Diffusion Theory Calculations in Hexagonal Geometry,” ANL-83-1, Argonne National Laboratory (Mar. 1983).
- E. E. LEWIS and G. PALMIOTTI, “Red-Black Response Matrix Acceleration by Transformation of Interface Variables,” Nucl. Sci. Eng., 130, 181 (1998).
- M. R. ZIKA and T. J. DOWNAR, “Numerical Divergence Effects of Equivalence Theory in the Nodal Expansion Method,” Nucl. Sci. Eng., 115, 219 (1993).
- K. KOEBKE, H. HAASE, L. HETZELT, and H.-J. WINTER, “Application and Verification of the Simplified Equivalence Theory for Burnup States,” Nucl. Sci. Eng., 92, 56 (1986).
- W. S. YANG, G. PALMIOTTI, and E. E. LEWIS, “Numerical Optimization of Computing Algorithms of the Variational Nodal Method Based on Transformation of Variables,” Nucl. Sci. Eng., 139, 174 (2001).
- A. M. WEINBERG and E. P. WIGNER, The Physical Theory of Neutron Chain Reactors, Chap. IX, The University of Chicago Press, Chicago, Illinois (1958).
- K. OKUMURA, “MOSRA-Light; High-Speed Three Dimensional Nodal Diffusion Code for Vector Computers,” JAERI-Data/Code 98-025, Japan Atomic Energy Research Institute (1998) (in Japanese).
- M. TATSUMI and A. YAMAMOTO, “Advanced Reactor Core Analysis by the Object-Oriented 3-D Fine Mesh Transport Calculation on Parallel/Distributed Environment,” Proc. Int. Conf. Mathematics and Computation, Reactor Physics and Environmental Analysis in Nuclear Applications (M&C’99), Madrid, Spain, September 27–30, 1999, Vol. 2, p. 1288 (1999).
- M. TATSUMI and A. YAMAMOTO, “Object-Oriented Three-Dimensional Fine-Mesh Transport Calculation on Parallel/Distributed Environments for Advanced Reactor Core Analyses,” Nucl. Sci. Eng., 141, 190 (2002).
- M. TATSUMI and A. YAMAMOTO, “Advanced PWR Core Calculation Based on Multi-Group Nodal-Transport Method in Three-Dimensional Pin-by-Pin Geometry,” J. Nucl. Sci. Techno!., 40, 376 (2003).