Overview of Space Nuclear Reactor Power Technology

doi:10.15982/j.issn.2095-7777.2017.05.004

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Journal of Deep Space Exploration ›› 2017, Vol. 4 ›› Issue (5) : 430-443. DOI: 10.15982/j.issn.2095-7777.2017.05.004

HU Gu, ZHAO Shouzhi

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Abstract

Space nuclear reactor power（SNRP）has many advantages，such as good environmental adaptability，wide power coverage，compact and small specific mass under high power conditions. SNRP has broad application prospects in military and civilian space missions，and is one of the disruptive technologies which will change the future pattern of aerospace power. In this paper，the principle，characteristics，application scopes，application prospects，development history and current situation，typical projects，application safety of SNRP are introduced. The development trends of SNRP technology are analyzed. Some insights are also given to the SNRP development in China.

Keywords

space nuclear reactor power / space missions / disruptive technologies

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HU Gu, ZHAO Shouzhi. Overview of Space Nuclear Reactor Power Technology. Journal of Deep Space Exploration, 2017, 4(5): 430‒443 https://doi.org/10.15982/j.issn.2095-7777.2017.05.004

References

[1] 苏著亭，杨继材，柯国土. 空间核动力 [M]. 上海：上海交通大学出版社，2015.
[2] 解家春，赵守智. 空间核反应堆的过去、现在和未来（内部报告）[R]. 北京：中国原子能科学研究院，2014.
[3] 许春阳，王颖，王春芬，等. 国际空间核反应堆电源发展历程（内部报告）[R]. 北京：中国核科技信息与经济研究院，2012.
[4] IAEA. The role of nuclear power and nuclear propulsion in the peaceful exploration of space [R]. Vienna：IAEA，2005.
[5] 杨启法,卢浩琳. 空间核反应堆电源研究和应用 [J]. 航天器工程,1995,4(4):11-20.
[6] Voss S S. SNAP reactor overview [R]. USA：Air Force Weapons Laboratory，1984.
[7] Pluta P R，Smith A M，Matteo N D. SP-100，a Flexible technology for space power from 10s to 100s of kWe [R]. USA：IEEE，1989.
[8] Buden D. Summary of space nuclear reactor systems（1983-1992）[R]. USA：AIP，1993.
[9] 朱毅麟.美国太空核动力计划重开张––“普罗米修斯”计划一瞥 [J]. 国际太空,2004,9:26-30.
[10] Ashcroft J，Eshelman C. Summary of NR program prometheus efforts（C）//USA：Proceedings of the Space Technology and Applications International Forum. USA：STAIF，2007.
[11] Mason L，Poston D，Qualls L. System concepts for affordable fission surface power，NASA-TM-2008-215166[R]. USA：NASA，2008.
[12] Mason L，Gibson M，Poston D. Kilowatt-class fission power systems for science and human precursor missions [C]//USA：NETS-2013-6814，2013.
[13] Gibson A M，Mason L. Development of NASA’s small fission power system for science and human exploration [R].USA：AIAA，2014.
[14] 波诺马廖夫-斯捷普诺依 N M. 空间核动力（热电转换和热离子转换的空间核反应堆电源“ROMASHKA”和“ENISEY”）[M]. 刘舒，译. 北京：原子能出版社，2015.
[15] 许春阳. 俄罗斯兆瓦级空间核动力装置研发进展（内部报告）[R]. 北京：中国核科技信息与经济研究院，2012.
[16] 马世俊,杜辉,周继时,等. 核动力航天器发展历程(上)[J]. 中国航天,2014,(4):31-35.
[17] 马世俊,杜辉,周继时,等. 核动力航天器发展历程(下)[J]. 中国航天,2014,(5):32-35.
[18] 网易新闻. 中国深空探测将应用空间核动力 [OL]. http://news.163.com/17/0310/06/CF58R21D000187VI.html.
[19] Moeckel E W. Propulsion systems for manned exploration of the solar system，NASA-TM-X-1864 [R]. USA：NASA，1969.
[20] Bloomfield S H. Small space reactor power systems for unmanned solar system exploration missions， NASA-TM-100228 [R]. USA：，NASA ，1987.
[21] Noca M，Polk E J，Lenard R. Nuclear electric propulsion for the exploration of the outer planets [C]// Proceedings of Forum on Innovative Approaches to Outer Planetary Exploration. USA：[s.n.]，2001.
[22] Oleson R S.Electric propulsion technology development for the jupiter icy Moons orbiter project [C]//Space 2004 Conference and Exhibit. USA：[s.n.]， 2004.
[23] Cassady R J,Frisbee H R,Gilland H J,et al. Recent advances in nuclear powered electric propulsion for space exploration [J]. Energy Conversion Management,2008,49:412-435
[24] Chiravalle P V. Nuclear electric ion propulsion for three deep space missions [J]. Acta Astronautica,2008,62:374-390
[25] NASA. Report of the 90-day study on human exploration of the Moon and Mars，NASA-TM-102999 [R]. USA，NASA,1989.
[26] Henry W. Brandhorst，Ronald J. Sovie. Nuclear Technology and the Space Exploration Missions [C]// Proceedings of the 25^th Intersociety Energy Conversion Engineerings Conference（IECEC-90）. USA：[s.n.]，1990.
[27] Sovie R J，Bozek J M. Nuclear power systems for lunar and mars exploration [C]// 41^st International Astronautical Conference. Germany：[s.n.]，1990.
[28] Coomes E P，Dagle J E. The PEGASUS：a nuclear electric propulsion system for the space exploration initiative [C]// Eigth Symposium on Space Nuclear Power Systems. USA：[s.n.]，1991.
[29] McGinnis J. Nuclear power sytems for manned mission to Mars [R]. USA：Naval Postgraduate School，2004.
[30] Guven U，Velidi G. Usage of nuclear power as a powerful saudi arabia：source for space stations and for space development mission [C]//62^nd International Astronautical Congress. South Africa：IACC，2011.
[31] Andreev P V，Gulevich A V，et al. Physical and engineering potential of thermionics for advanced projects of sub-megawatt SNPS [C]// Nuclear and Emerging Technologies for space （NETS-2012）. USA：ANS，2012.
[32] Mankins J，Olivieri J，Hepenstal A. Preliminary survey of 21^st century civil mission applications of space nuclear power，JPL Report JPL-D-3547，[R]. USA：Jet Propulsion Laboratory，1987.
[33] Rosen R,Schnyer A D. Civilian uses of nuclear reactors in space [J]. Science & Global Security,1989(1):147-164
[34] NASA. NASA space technology roadmaps and priorities [R]. USA：the National Academies Press，2012
[35] NASA. NASA Technology roadmaps [R]. USA：NASA，2015.
[36] Steven aftergood. background on space nuclear power [J]. Science & Global Security,1989(1):93-107
[37] Aftergood S. Towards a ban on nuclear power in Earth orbit [J]. Space Policy,1989:25-40
[38] （U.S.）Office of technology assessment. sdi（strategic defense initiative）technology，survivability and software [R]. USA：Reprinted by U.S. Department of Commerce National Technical Information Service，1988.
[39] American Physics Society Study Group. Report to the American physical society of the study group on science and technology of directed energy weapons [J]. Reviews of Modern Physics,1987,59(3),Part II:S169
[40] Canavan G H,Bloembergen N,Patel C K N. Debate on APS directed-energy weapons study [J]. Physics Today,1987(11):48-53
[41] Coomes E P，Bamberger J A，Dagle J E. et al. An integrated mission planning approach for the Space Exploration Initiative，PHL-SA-20524[R]. USA：Pacific Northwest Laboratory，1992.
[42] Sanchez R G，Hutchinson J D ，Patrick ray mcclure，et al. Kilowatt Reactor Using Stirling Technology（KRUSTY）demonstration：CEDT phase 1 preliminary design documentation ，LA-UR-15-26603 [R]. USA：[s.n.]，2015
[43] European commission. HORIZON 2020 [OL]（2015-04-17）. http://ec.europa.eu/programmes/horizon2020/en.
[44] DiPoP – Disruptive technologies for space power and propulsion [OL]（2017-09-20）. http://dipop.eu/.
[45] Koppel C R.，Valentian D，Blott R，et al. Disruptive propulsive technologies for Ueropean space missions [C]//5^TH European Conference for Aeronautics and Space Sciences（EUCASS）.Muenchen Germany：[s.n.]，2013.
[46] Ruault J M，Masson F，Worms J C，et al. MEGAHIT：update on the advanced propulsion roadmap for HORIZON2020 [C]//International Space Propulsion Conference. Cologne，Germany：Association Aeronautique et Astronautique de France，2014.
[47] Jansen F，Bauer W，Masson F，et al. DEMOCRITOS demonstrators for realization of nuclear electric propulsion of the european roadmaps MEGAHIT & DiPoP [C]//Oint Conference of 30th International Symposium on Space Technology and Science，34th International Electric Propulsion Conference and 6th Nano-satellite Symposium. Kobe-Hyogo，Japan：[s.n.]， 2015.
[48] Koroteev A S，Andrianov D I，Karevskiy A V，et al. Test bench for key components of megawatt class international power and propulsion system ground demonstration [C]//7^TH European Conference for Aeronautics and Space Sciences（EUCASS）. Milan，Italy：[s.n.]，2017.
[49] Zakirov V,Pavshool V. Feasibility of the recent Russian nuclear electric propulsion concept:2010 [J]. USA:Nuclear Engineering and Design,2011,241(5):1529-1537
[50] Marriott A T，Fujita T. Evolution of SP-100 system designs [C]// 11^th Symp. Space Nuclear Power and Propulsion. USA：[s.n.]，1994.
[51] Mason L S，Poston D I. A summary of NASA architecture studies utilizing fission surface power technology [C]//8^th Annual International Energy Conversion Engineering Conference. USA：NASA，2010.
[52] Briggs M H，Gibson M A，Geng S. Fission surface power technology demonstration unit test results [C]// 14th International Energy Conversion Engineering Conference.USA：[s.n.]，2016.
[53] Gibson M A，Oleson S R，Poston D I，et al. NASA’s kilopower reactor development and the path to higher power missions [C]//IEEE Aerospace Conference. USA：IEEE，2017.
[54] Albert C M，Haskin F E，Veniamin A U. Space Nuclear Safety [M]. Malabar（USA）：KRIEGER Publishing Company，2008.
[55] Aftergood S,Hafemeister D W,Prilutsky F O,et al. Nuclear power in space [J]. USA:Scientic American,1991,42-47
[56] United Nations. Principles relevant to the use of nuclear power sources in outer space [C//United Nations 85th Plenary Meeting. Vienna，Austria：[s.n.]，1992.
[57] United Nations committee on the peaceful use of space scientific and technical subcommittee and international Atomic Energy Agency. Safety framework for nuclear power sources applications in outer space [R]. Vienna：United Nations，2009.
[58] Thome F V，Wyant F J，Mulder D，et al. A TOPAZ international program overview [C]//AIP Conference Proceddings. USA：[s.n.]，1995.