[1. Brey, H.L. (2002). Developmental history of the gas turbine modular high temperature reactor. International Atomic Energy Agency, 25.]Search in Google Scholar
[2. Kadak, A.C. (2004). High Temperature Gas Reactors: The Next Generation. Massachusetts Institute of Technology, 89.]Search in Google Scholar
[3. LaBar, M.P., Shenoy, A.S., Simon, W.A., & Campbell, E.M. (2004). The gas-turbine modular helium reactor. Nuclear Energy, 43 (3), 165-175.10.1680/nuen.43.3.165.36400]Search in Google Scholar
[4. Krumbach, H. (2002). Interstorage of AVR-fuels in the research-center. Julich GmbH, 4 (Germany).]Search in Google Scholar
[5. Kingrey, K. (2003). Fuel summary for peach bottom Unit 1 High-Temperature Gas- Cooled Reactor. Idaho National Engineering and Environmental Laboratory, 119.]Search in Google Scholar
[6. Fort Saint Vrain Power Station History (Overview)]Search in Google Scholar
[7. Brandau, E. (2002). Microspheres of UO2, ThO2 and PuO2 for the High Temperature Reactor. BRACE GmbH, Taunusring, 50, D-63755 (Alzenau).]Search in Google Scholar
[8. High Temperature Gas Cooled Reactor fuels and materials (2010). InternationalAtomic Energy Agency, 182.]Search in Google Scholar
[9. Uranium Radiation Properties (2005). http://www.wise-uranium.org/rup.html-40k]Search in Google Scholar
[10. Plutonium (2005). World Nuclear Association. http://www.worldnuclear.org./info/printable_information_papers/inf15print.htm.]Search in Google Scholar
[11. Torium. http://education.jlab.org/inselemental/ele090.html]Search in Google Scholar
[12. (2003). Evaluation of High Temperature Gas Cooled Reactor Performance: Benchmark Analysis. Ch.2. IAEA-TECDOC-1382.]Search in Google Scholar
[13. Takizuka, T. (2005). Reactor technology development under the HTTR Project. OaraiResearch Establishment, JAERI, 9.]Search in Google Scholar
[14. Xu Yuanhui (2002) The HTR-10 project and its further development. Institute ofNuclear Energy Technology, Tsinghua University. Beijing (China).]Search in Google Scholar
