邓连印, 郭继峰, 崔乃刚. 月球基地工程研究进展及展望[J]. 导弹与航 天运载技术, 2009, 300(2): 25-30. Deng Lianyin, Guo Jifeng, Cui Naigang. Progress and prospects of engineering for lunar bases[J]. Missile and Space Vehcile, 2009, 300 (2): 25-30.
[2]
Lee Mason, David Poston, Louis Qualls. System concepts for affordable fission surface power[R]. Brook Park, Cleveland, and Fairview Park, Ohio: Glenn Research Center, 2008.
[3]
Shaltens R K. Future opportunities for dynamic power systems for NASA missions[C]. International Stirling Forum 2006, Osnabruck, Germany, 2006.
[4]
冉旭, 单建强, 朱继洲. 空间核反应堆概述[J]. 国外核动力, 2004, 25 (5): 1-5. Ran Xu, Shan Jianqiang, Zhu Jizhou. Summary of space nuclear reactor power[J]. Foreign Nuclear Power, 2004, 25(5): 1-5.
[5]
Lee M. A comparison of fission power system options for lunar and Mars surface applications[R]. Brook Park, Cleveland, and Fairview Park, Ohio: Glenn Research Center, 2006.
[6]
Bushman A, Carpenter D M, Ellis T S, et al. The Martian surface reactor: An advanced nuclear power station for manned extraterrestrial exploration[R]. Cambridge: Massachusetts Institute of Technology, 2004.
[7]
李桂云, 屠进. 高温热管工质的选择[J]. 节能技术, 2001, 19(105): 42- 44. Li Guiyun, Tu Jin. Working fluid choicing for high temperature heat pipe[J]. Energy Conservation Technology, 2001, 19(105): 42-44.
[8]
King J C, El-Genk M S. Submersion criticality safety of fast spectrum space reactors potential spectral shift absorbers[J]. Nuclear Engineering and Design, 2006, 236(3): 238-254.
[9]
Fission Surface Power Team. Fission surface power system initial concept definition[R]. Brook Park, Cleveland, and Fairview Park, Ohio: Glenn Research Center, 2010.
