中文核心期刊

中国高校优秀科技期刊

中国宇航学会深空探测技术专业委员会会刊

高级检索

留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

月面广义资源探测及其原位利用技术构想

姜生元 沈毅 吴湘 邓宗全 赖小明 张家强 梁鲁 周琴

姜生元, 沈毅, 吴湘, 邓宗全, 赖小明, 张家强, 梁鲁, 周琴. 月面广义资源探测及其原位利用技术构想[J]. 深空探测学报(中英文), 2015, 2(4): 291-301. doi: 10.15982/j.issn.2095-7777.2015.04.001
引用本文: 姜生元, 沈毅, 吴湘, 邓宗全, 赖小明, 张家强, 梁鲁, 周琴. 月面广义资源探测及其原位利用技术构想[J]. 深空探测学报(中英文), 2015, 2(4): 291-301. doi: 10.15982/j.issn.2095-7777.2015.04.001
JIANG Shengyuan, SHEN Yi, WU Xiang, DENG Zongquan, LAI Xiaoming, ZHANG Jiaqiang, LIANG Lu, ZHOU Qin. Technical Schemes of Investigation and In-Situ Utilization for Lunar Surface Generalized Resources[J]. Journal of Deep Space Exploration, 2015, 2(4): 291-301. doi: 10.15982/j.issn.2095-7777.2015.04.001
Citation: JIANG Shengyuan, SHEN Yi, WU Xiang, DENG Zongquan, LAI Xiaoming, ZHANG Jiaqiang, LIANG Lu, ZHOU Qin. Technical Schemes of Investigation and In-Situ Utilization for Lunar Surface Generalized Resources[J]. Journal of Deep Space Exploration, 2015, 2(4): 291-301. doi: 10.15982/j.issn.2095-7777.2015.04.001

月面广义资源探测及其原位利用技术构想

doi: 10.15982/j.issn.2095-7777.2015.04.001
基金项目: 国家自然科学基金项目(5157512);载人航天领域预先研究项目(050102)

Technical Schemes of Investigation and In-Situ Utilization for Lunar Surface Generalized Resources

  • 摘要: 以载人登月场景下的月面资源精细化利用为目标,概述了月面资源探测与原位利用技术的国内外发展现状。针对未来载人登月探测任务规划以及确定预先研究目标的实际需求,提出了月面环境资源的广义分类和精细化利用思想,并以载人登月场景下的"人-器-机-环境"系统为研究对象,细化了可在轨利用的资源、需带回地球的样本资源和人机废弃物资源等三类资源的拓扑组成。本着继承与创新兼顾、前瞻性与实用性包容的概念研究理念,重点阐述了宇航员人因主导的矿物资源勘查、月面环境条件的资源化利用、多态样本的采集、人机废弃物的循环利用等月面广义资源的探测与原位利用技术途径。
  • [1] 欧阳自远.月球探测的进展与我国月球探测的科学目标[J].贵州工业大学学报,2003,32(6):1-7,17.[Ouyang Z Y. International lunar exploration progress and scientific objectives of Chinese lunar exploration program[J]. Journal of Guizhou University of Technology, 2003, 32(6):1-7,17.]
    [2] 曾令斌,邱宝贵,肖杰,等.月面机器人探测路线图及典型方案研究[J].载人航天,2015,21(3):263-269.[Zeng L B, Qiu B G, Xiao J, et al. Research on the roadmap and typical scenarios of lunar surface robot exploration[J]. Manned Spaceflight, 2015,21(3):263-269.]
    [3] Gerald B S, William E L. Progress made in lunar in situ resource utilization under NASA's exploration technology and development program[J]. Journal of Aerospace Engineering, 2013,26(1):5-17.
    [4] 王晓海.深空探测技术最新研究进展[J].测试技术学报,2007,21:144-148.[Wang X H. The latest research progress of deep space explore technology[J]. Journal of Test and Measurement Technology, 2007,21:144-148.]
    [5] 龙乐豪.关于中国载人登月工程若干问题的思考[J].导弹与航天运载技术,2010(6):1-5.[Long L H. On issues of China manned lunar exploration[J]. Missile and Space Vehicle, 2010(6):1-5.]
    [6] 张志贤,果琳丽,戚发轫.月面人机联合探测概念研究[J].载人航天,2014,20(5):432-442.[Zhang Z X, Guo L L, Qi F R. Conceptual study on crew-robot coordinated exploration on lunar surface[J]. Manned Spaceflight, 2014,20(5):432-442.]
    [7] 叶培建,邓湘金,彭兢.国外深空探测态势特点与启示(上)[J].航天器环境工程,2008,25(5):401-416.[Ye P J, Deng X J, Peng J. Features of deep space exploration in other countries and the enlightenment for the development in China (part 1)[J]. Spacecraft Environment Engineering, 2008,25(5):401-416.]
    [8] 叶培建,邓湘金,彭兢.国外深空探测态势特点与启示(下)[J].航天器环境工程,2008,25(6):501-512.[Ye P J, Deng X J, Peng J. Features of deep space exploration in other countries and the enlightenment for the development in China (part 2)[J]. Spacecraft Environment Engineering, 2008,25(6):501-511.]
    [9] Gerald B S, William E L, Kurt R S, et al. NASA in-situ resource utilization (ISRU) project-development & implementation[C]//AIAA SPACE 2008 Conference & Exposition. California:AIAA, 2008.
    [10] Kurt R S, Gerald B S. In-situ resource utilization for lunar and mars exploration[C]//The 45th AIAA Aerospace Sciences Meeting and Exhibit. Nevada:AIAA, 2007.
    [11] Gerald B S, William E L. Integration of in-situ resource utilization into lunar/Mars exploration through field analogs[J]. Advances in Space Research, 2011,47:20-29.
    [12] Subhayu S, Chandra S R, Ramana G R. Processing of lunar soil simulant for space exploration applications[J]. Materials Science and Engineering A, 2005,413-414:592-597.
    [13] 叶培建,彭兢.深空探测与我国深空探测展望[J].中国工程科学, 2006,8(10):13-18.[Ye P J, Peng J. Deep space exploration and its prospect in China[J]. Engineering Science, 2006, 8(10):13-18.]
    [14] 欧阳自远,邹永廖,李春来,等.月球某些资源的开发利用前景[J].地球科学-中国地质大学学报,2002,27(5):498-503.[Ouyang Z Y, Zou Y L, Li C L, et al. Prospect of exploration and utilization of some lunar resources[J]. Earth Science-Journal of China University of Geosciences, 2002, 27(5):498-503.]
    [15] 王世杰,李雄耀,唐红,等.月面环境与月壤特性研究的主要问题探讨[J].地球化学,2010,39(1):73-81.[Wang S J, Li X Y, Tang H, et al. Lunar surface environment and properties of lunar soil:a review[J]. Geochimica, 2010, 39(1):73-81.]
    [16] 赵艳芳.月球潜在资源利用对中国能源安全的战略意义[J].资源开发与市场,2010,26(12):1130-1133.[Zhao Y F. Developing of moon potential resources:strategic significances to energy security of China[J]. Resource Development & Market, 2010, 26(12):1130-1133.]
    [17] 李大耀.论月球资源和航天月球探测[J].航天返回与遥感, 2004,25(1):60-64.[Li D Y. On moon resources and lunar exploration by spacecraft[J]. Spacecraft Recovery & Remote Sensing, 2004, 25(1):60-64.]
    [18] 鲁暘筱懿,平劲松,Shevchenko V.俄罗斯"月球-全球"和"月球-资源"探月任务[J].航天器工程,2013,22(4):103-108.[Lu Y X Y, Ping J S, Shevchenko V. Russian lunar exploration missions:LUNA-Glob & LUNA-resource[J]. Spacecraft Engineering, 2013,22(4):103-108.]
    [19] 李丽华,唐辉明,刘数华,等.月球混凝土研究进展[J].混凝土, 2011(9):12-14.[Li L H, Tang H M, Liu S H, et al. Review on lunar concrete[J]. Concrete, 2011(9):12-14.]
    [20] 张明皓,陈超,兰瑞平,等.月球表面多种金属元素的分布特征初探[J].地学前缘,2007,14(5):277-284.[Zhang M H, Chen C, Lan R P, et al. A preliminary analysis:the distribution of metallic elements on the Lunar surface[J]. Earth Science Frontiers, 2007, 14(5):277-284.]
    [21] 吴冲龙,毛小平,田宜平,等.月球资源探测信息的管理与可视化探讨[J].地质科技情报,2004,23(4):15-18.[Wu C L, Mao X P, Tian Y P, et al. Information management and visualization of the lunar resources exploration[J]. Geological Science and Technology Information, 2004,23(4):15-18.]
    [22] 李雄耀,王世杰,陈丰,等.月壤厚度的研究方法与进展[J].矿物学报,2007,27(1):64-68.[Li X Y, Wang S J, Chen F, et al. Methods and advances in research on lunar soil thickness[J]. Acta Mineralogica Sinica, 2007, 27(1):64-68.
    [23] 欧阳自远,邹永廖,李春来,等.月球探测与人类社会的可持续发展[J].矿物岩石地球化学通报,2003,22(4):328-333.[Ouyang Z Y, Zou Y L, Li C L, et al. Lunar exploration and containable development for human society[J]. Bulletin of Mineralogy, Petrology and Geochemistry, 2003, 22(4):328-333.]
    [24] 张全生,郭东莉,夏骥.为月球资源就地应用的LiOH电解制氧技术分析和实验观察[J].航天医学与医学工程,2013,26(3):211-214.[Zhang Q S, Guo D L, Xia J. Analysis and experimental study on LiOH electrolysis process used for in-situ-resources usage of lunar mineral resources[J]. Space Medicine & Medical Engineering, 2013,26(3):211-214.]
    [25] 李海阳,张波,黄海兵.航天员与类人机器人月面联合探测概念初步研究[J].载人航天,2014,20(4):301-306.[Li H Y, Zhang B, Huang H B. Preliminary concept study on integrated lunar exploration of astronaut and humanoid robot[J]. Manned Spaceflight, 2014, 20(4):301-306.]
    [26] 李芃,王世杰,李雄耀,等.利用月球含氧矿物制取氧气的方法学比较[J].矿物岩石地球化学通报,2009,28(2):183-188.[Li P, Wang S J, Li X Y, et al. Review of oxygen production using oxygenous minerals on the moon[J]. Bulletin of Mineralogy, Petrology and Geochemistry, 2009,28(2):183-188.]
    [27] 唐红,王世杰,李雄耀,等.月壤钛铁矿微波烧结制备月球基地结构材料的初步设想[J].矿物学报,2009,29(2):229-234.[Tang H, Wang S J, Li X Y, et al. A preliminary design for producing construction materials for the lunar base:micro wave sintering ilmenite of lunar soil[J]. Acta Mineralogica Sinica, 2009,29(2):229-234.]
    [28] 李丽华,唐辉明,刘数华,等.月球混凝土研究进展[J].混凝土, 2011(9):12-14.[Li L H, Tang H M, Liu S H, et al. Review on lunar concrete[J]. Concrete, 2011(9):12-14.]
    [29] 宋靖华,周青.利用月壤进行月球基地建设的3D打印技术[J].华中建筑,2015(3):33-42.[Song J H,Zhou Q. 3D printing technology for a moon outpost exploiting lunar soil[J]. Huazhong Architecture, 2015(3):33-42.]
    [30] 叶青,杨慧,马成畅.月球用水泥及混凝土的探索和设计[J].新型建筑材料,2010,5:16-19.[Ye Q, Yang H, Ma C C. Exploration and design of cement and concrete for the lunar environment[J]. New Building Materials, 2010,5:16-19.]
    [31] 朱恩涌,果琳丽,陈冲.有人月球基地构建方案设想[J].航天返回与遥感, 2013,34(5):1-6.[Zhu E Y, Guo L L, Chen C. Research on manned lunar base construction scheme[J]. Spacecraft Recovery & Remote Sensing, 2013,34(5):1-6.]
    [32] 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(2):25-30.[Deng L Y, Guo J F, Cui N G. Progress and prospects of engineering for lunar bases[J]. Missile and Space Vehicle, 2009(2):25-30.]
    [33] 果琳丽,李志杰,齐玢,等.一种综合式载人月球基地总体方案及建造规划设想[J].航天返回与遥感,2014,35(6):1-10.[Guo L L, Li Z J, Qi F, et al. An overall tentative plan and construction blueprint of manned lunar base[J]. Spacecraft Recovery & Remote Sensing, 2014,35(6):1-10.]
    [34] Ruess F, Schaenzlin J, Benaroya H. Structural design of a lunar habitat[J]. Journal of Aerospace Engineering, 2006,19(3):133-157.
    [35] 周抗寒,傅岚,韩永强,等.再生式环控生保技术研究及进展[J].航天医学与医学工程,2003,16:566-572.[Zhou K H, Fu L, Han Y Q, et al. Research and development of technique of regenerative environmental control and life support system[J]. Space Medicine & Medical Engineering, 2003,16:566-572.]
    [36] 王传增,余青霓,周抗寒,等.BDD电催化氧化处理模拟空间站冷凝废水的实验研究[J].航天医学与医学工程,2011,24(4):296-301.[Wang C Z, Yu Q H, Zhou K H, et al. Electro-catalytic oxidation of humidity condensate wastewater at boron-doped diamond in simulated space station[J]. Space Medicine & Medical Engineering, 2011,24(4):296-301.]
    [37] 杨松林,丁平,赵成坚,等.中国空间站水回收系统关键技术分析[J].航天医学与医学工程,2013,26(3):221-226.[Yang S L, Ding P, Zhao C J, et al. Analysis of key techniques for water reclamation system in Chinese space station[J]. Space Medicine & Medical Engineering, 2013, 26(3):221-226.]
    [38] 何新星,吴大蔚,李莹辉.空间站再生水污染防治策略[J].载人航天,2012,18(1):15-21.[He X X, Wu D W, Li Y H. Study on habitability design of long duration manned spacecraft[J]. Manned Spaceflight, 2012,18(1):15-21.]
    [39] 周抗寒,尚传勋,刘成良,等.空间站尿及废水再生装置与实验研究[J].航天医学与医学工程,1997,10(5):323-327.[Zhou K H, Shang C X, Liu C L, et al. An experimental study on regeneration device for urine and waste water in space station[J]. Space Medicine & Medical Engineering, 1997,10(5):323-327.]
    [40] 于涛,李永峰,马军,等.空间站尿液废水处理回用技术及其应用进展[J].上海工程技术大学学报, 2009,23(2):124-130.[Yu T, Li Y F, Ma J, et al. Study on urine waste treatment and water reclamation techniques in space station[J]. Journal of Shanghai University of Engineering Science, 2009,23(2):124-130.]
    [41] 王晶,袁卫星,袁修干.舱外航天服便携式生命保障系统研究进展[J].航天医学与医学工程,2009,22(1):67-71.[Wang J, Yuan W X, Yuan X G. Research progress of portable life support system for extravehicular activity spacesuit[J]. Space Medicine & Medical Engineering, 2009, 22(1):67-71.]
    [42] 梁志伟,高峰,吴志强,等."飞天"舱外航天服便携式生保系统研制[J].载人航天,2010(1):37-43.[Liang Z G, Gao F, Wu Z Q, et al. Progress on design and application of the manned space standard system[J]. Manned Spaceflight, 2010(1):37-43.]
    [43] 郑燕红,邓湘金,赵志晖,等.地外天体采样任务特点及关键技术发展建议[J].探矿工程, 2014,41(9):71-74.[Deng Y H, Deng X J, Zhao Z H, et al. The character and key technology suggestion of extraterrestrial sampling mission[J]. Exploration Engineering, 2014,41(9):71-74.]
    [44] 鄢泰宁,冉恒谦,段新胜.宇宙探索与钻探技术[J].探矿工程,2010,37(1):3-7.[Yan T N, Ran H Q, Duan X S. Universe exploration and drilling technique[J]. Exploration Engineering, 2010, 37(1):3-7.]
    [45] 杜永刚,杨震春,付朝晖,等.一种新型深空探测样品封装技术[J].航天器工程,2014,23(5):47-53.[Du Y G, Yang Z C, Fu Z H, et al. Technology of a sample vacuum encapsulation for deep space exploration[J]. Spacecraft Engineering, 2014,23(5):47-53.]
    [46] 杜永刚,杨震春,付朝晖,等.月球样品自动封装技术的可行性探讨[J].航天器环境工程,2010,27(5):566-569.[Du Y G, Yang Z C, Fu Z H, et al. Automatic packaging technology for lunar sample[J]. Spacecraft Engineering, 2010,27(5):566-569.]
    [47] 沈毅,邓湘金,郑燕红,等.月球样品封装装置外驱式开合盖机构的设计研究[C]//中国宇航学会深空探测技术专业委员会第九届学术年会论文集(下册),杭州:[s.n.] ,2012:943-949.
    [48] 张斌,俞敏,杨华勇.深空样品密封技术综述[J].航天器环境工程,2013,30(1):26-33.[Zhang B, Yu M, Yang H Y.A review of encapsulation techniques for planetary samples[J]. Spacecraft Environment Engineering, 2013,30(1):26-33.]
    [49] 孙灵芝,凌宗成,刘建忠.美国阿波罗月球样品的处理与保存[J].地学前缘, 2012,19(6):128-136.[Sun L Z, Ling Z C, Liu J Z. An introduction to the curation of Apollo lunar samples[J]. Earth Science Frontiers, 2007,19(6):128-136.]
  • [1] 吴树范, 王楠, 龚德仁.  引力波探测科学任务关键技术 . 深空探测学报(中英文), 2020, 7(2): 118-127. doi: 10.15982/j.issn.2095-7777.2020.20190402001
    [2] 牛厂磊, 罗志福, 雷英俊, 王文强, 郑见杰, 乔学荣, 罗洪义, 胡文军, 钟武烨.  深空探测先进电源技术综述 . 深空探测学报(中英文), 2020, 7(1): 24-34. doi: 10.15982/j.issn.2095-7777.2020.20200002
    [3] 刘适, 李炯卉.  多器联合月球极区探测通信系统设计 . 深空探测学报(中英文), 2020, 7(4): 384-390. doi: 10.15982/j.issn.2095-7777.2020.20191029001
    [4] 王超, 张晓静, 姚伟.  月球极区水冰资源原位开发利用研究进展 . 深空探测学报(中英文), 2020, 7(3): 241-247. doi: 10.15982/j.issn.2095-7777.2020.20191029003
    [5] 王大轶, 符方舟, 孟林智, 李文博, 李茂登, 徐超, 葛东明.  深空探测器自主控制技术综述 . 深空探测学报(中英文), 2019, 6(4): 317-327. doi: 10.15982/j.issn.2095-7777.2019.04.002
    [6] 陈莉丹, 谢剑锋, 刘勇, 陈明.  中国深空探测任务轨道控制技术综述 . 深空探测学报(中英文), 2019, 6(3): 210-218. doi: 10.15982/j.issn.2095-7777.2019.03.002
    [7] 段建锋, 张宇, 曹建峰, 陈略, 陈明, 谢剑锋.  中国月球探测任务轨道确定技术及发展综述 . 深空探测学报(中英文), 2019, 6(3): 203-209. doi: 10.15982/j.issn.2095-7777.2019.03.001
    [8] 范明意, 吕鹏.  环绕器次表层探测雷达实时处理技术 . 深空探测学报(中英文), 2018, 5(5): 478-482. doi: 10.15982/j.issn.2095-7777.2018.05.011
    [9] 李永, 丁凤林, 周成.  深空探测推进技术发展趋势 . 深空探测学报(中英文), 2018, 5(4): 323-330. doi: 10.15982/j.issn.2095-7777.2018.04.002
    [10] 刘庆会.  火星探测VLBI测定轨技术 . 深空探测学报(中英文), 2018, 5(5): 435-441. doi: 10.15982/j.issn.2095-7777.2018.05.005
    [11] 梁磊, 宋晓东, 郭佩, 郑家莉.  基于MiniGUI的载人航天器人机交互界面的研究与实现 . 深空探测学报(中英文), 2017, 4(5): 485-490. doi: 10.15982/j.issn.2095-7777.2017.05.011
    [12] 邬静云, 高有涛.  利用绳系太阳帆减缓小行星自转的技术研究 . 深空探测学报(中英文), 2016, 3(1): 47-50. doi: 10.15982/j.issn.2095-7777.2016.01.007
    [13] 倪彦硕, 施伟璜, 杨洪伟, 宝音贺西, 李俊峰.  利用Breakwell间距比法制定行星际探测中途修正策略 . 深空探测学报(中英文), 2016, 3(1): 83-89. doi: 10.15982/j.issn.2095-7777.2016.01.013
    [14] 杨懿, 金双根, 薛岩松.  利用CRISM数据探测火星表面含水矿物及其演化 . 深空探测学报(中英文), 2016, 3(2): 187-194. doi: 10.15982/j.issn.2095-7777.2016.02.015
    [15] 饶炜, 孙泽洲, 孟林智, 王闯, 吉龙.  火星着陆探测任务关键环节技术途径分析 . 深空探测学报(中英文), 2016, 3(2): 121-128. doi: 10.15982/j.issn.2095-7777.2016.02.004
    [16] 沈毅, 王冬, 姜生元, 刘杰, 张伟伟, 陈化智, 邓宗全.  月壤剖面冲击贯入式探测方案研究 . 深空探测学报(中英文), 2015, 2(3): 213-217. doi: 10.15982/j.issn.2095-7777.2015.03.004
    [17] 王伟, 马彦涵, 周易倩, 方宝东.  深空探测磁动力技术研究进展 . 深空探测学报(中英文), 2015, 2(3): 203-207. doi: 10.15982/j.issn.2095-7777.2015.03.002
    [18] 吴伟仁, 于登云.  深空探测发展与未来关键技术 . 深空探测学报(中英文), 2014, 1(1): 5-17.
    [19] HideoHANADA, SeiitsuTSURUTA, KazuyoshiASARI, HiroshiARAKI, HirotomoNODA, ShingoKASHIMA, Ken-ichiFUNAZAKI, FuyuhikoKIKUCHI, KojiMATSUMOTO, YusukeKONO, HirooKUNIMORI, ShoSASAKI.  用于未来月球探测的ILOM 技术现状 . 深空探测学报(中英文), 2014, 1(3): 200-204. doi: 10.15982/j.issn.2095-7777.2014.03.006
    [20] 孙靖, 王美, 平劲松.  利用VLBI技术进行深空航天器跟踪的仿真分析 . 深空探测学报(中英文), 2014, 1(3): 226-229. doi: 10.15982/j.issn.2095-7777.2014.03.011
  • 加载中
计量
  • 文章访问数:  2292
  • HTML全文浏览量:  22
  • PDF下载量:  1914
  • 被引次数: 0
出版历程
  • 收稿日期:  2015-10-01
  • 修回日期:  2015-11-08

月面广义资源探测及其原位利用技术构想

doi: 10.15982/j.issn.2095-7777.2015.04.001
    基金项目:  国家自然科学基金项目(5157512);载人航天领域预先研究项目(050102)

摘要: 以载人登月场景下的月面资源精细化利用为目标,概述了月面资源探测与原位利用技术的国内外发展现状。针对未来载人登月探测任务规划以及确定预先研究目标的实际需求,提出了月面环境资源的广义分类和精细化利用思想,并以载人登月场景下的"人-器-机-环境"系统为研究对象,细化了可在轨利用的资源、需带回地球的样本资源和人机废弃物资源等三类资源的拓扑组成。本着继承与创新兼顾、前瞻性与实用性包容的概念研究理念,重点阐述了宇航员人因主导的矿物资源勘查、月面环境条件的资源化利用、多态样本的采集、人机废弃物的循环利用等月面广义资源的探测与原位利用技术途径。

English Abstract

姜生元, 沈毅, 吴湘, 邓宗全, 赖小明, 张家强, 梁鲁, 周琴. 月面广义资源探测及其原位利用技术构想[J]. 深空探测学报(中英文), 2015, 2(4): 291-301. doi: 10.15982/j.issn.2095-7777.2015.04.001
引用本文: 姜生元, 沈毅, 吴湘, 邓宗全, 赖小明, 张家强, 梁鲁, 周琴. 月面广义资源探测及其原位利用技术构想[J]. 深空探测学报(中英文), 2015, 2(4): 291-301. doi: 10.15982/j.issn.2095-7777.2015.04.001
JIANG Shengyuan, SHEN Yi, WU Xiang, DENG Zongquan, LAI Xiaoming, ZHANG Jiaqiang, LIANG Lu, ZHOU Qin. Technical Schemes of Investigation and In-Situ Utilization for Lunar Surface Generalized Resources[J]. Journal of Deep Space Exploration, 2015, 2(4): 291-301. doi: 10.15982/j.issn.2095-7777.2015.04.001
Citation: JIANG Shengyuan, SHEN Yi, WU Xiang, DENG Zongquan, LAI Xiaoming, ZHANG Jiaqiang, LIANG Lu, ZHOU Qin. Technical Schemes of Investigation and In-Situ Utilization for Lunar Surface Generalized Resources[J]. Journal of Deep Space Exploration, 2015, 2(4): 291-301. doi: 10.15982/j.issn.2095-7777.2015.04.001
参考文献 (49)

目录

    /

    返回文章
    返回