-
[1]
Şahin S, Şahin H M, Acir A. Nuclear Engineering and Design, 2010, 240: 2066-2074[2] Şahin S, Acir A. Energy Conversion and Management, 2006, 47: 1661-1675[3] Şahin S, Yildiz K, Şahin H M, Şahin N, Acir A. Nuclear Engineering and Design, 2006, 236(17): 178-179[4] Busse M. Optimization Of Thorium-Based Seed-Blanket Fuel Cycles For Nuclear Power Plants. M.S., Nuclear Engineering Instituto Balseiro, University of Cuyo, Argentina, 1995[5] Canerl M, Dugan E T. Annals of Nuclear Energy, 2000, 27: 759-770[6] Chanyun L. Design and Neutronic Evaluation of Thorium Fuel in Pressurized Water Reactors. Master of Science Thesis Reactor Physics Department Royal Institute of Technology, Stockholm, Sweden, 2008[7] LONG Y. Modeling the Performance of High Burn-up Thoria and Urania PWR Fuel. Department of Nuclear Engineering, B.S., Tsinghua University, Beijing, China, 1995[8] IAEA. Thorium Based Fuel Options for the Generation of Electricity: Development in the 1990s, IAEA-TECDOC-1155, 2000[9] Margeanuand C A, Rizoiu A C. Thorium-Based Fuels Preliminary Lattice Cell Studies For CANDU Reactors. Proceedings of the 7th Conference on Nuclear and Particle Physics. Sharm El-Sheikh, Egypt, 2009[10] Moosakhani A, Nasrabadi M N, Timuri B. Nuclear Engineering and Design, 2011, 241: 1459-1462[11] Oak Ridge National Laboratory, Monte Carlo N-Particle Transport Code System. Los Alamos National Laboratory, Los Alamos, New-Mexico, 2000."MCNP4C manual"[12] Snoj L, Ravnik M. Calculation of Power Density with MCNP in TRIGA Reactor. Nuclear Energy for New Europe, International Conference, Portorož, Slovenia, 2006[13] Eshghi Yaraziz M, Shayesteh M. Golobal J. P A Sci. and Tech., 2011, v01: 65-72[14] Eshghi M, Shayesteh M. Archives Des Sciences, 2012, 65(4): 1[15] Lamarsh J R. Introduction to Nuclear Engineering. Second ed. Addison-Wesley Publishing Co., USA, 1983