Advanced Propulsion for Fast Lunar Missions

Q4 Engineering

Jbis-Journal of the British Interplanetary Society Pub Date : 2023-06-14 DOI:10.59332/jbis-076-04-0122

G. Genta

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Abstract

Half a century ago the Apollo missions carried 12 people to spend a short time on the Moon. After all this time, the space agencies of some countries and a number of private companies committed themselves to restart human lunar exploration, this time with the aim to establish a long-term human presence on our satellite and to start a lunar economy. Most of the planned lunar missions are based on the use of chemical propulsion, which allows to perform the one-way Earth-Moon travel in 3 or 4 days. Recently NASA and DARPA joined forces to develop a nuclear thermal rocket for planetary and lunar missions. In spite of the relatively small distance of the Moon from the Earth, carrying the required payload to the Moon is costly and there is some interest in using more advanced propulsion systems, with the purposes of reducing both the travel time and the cost. In particular, advanced propulsion devices will be developed for travelling to more distant destinations and, when they will be available, they could be used with advantages also for the Moon. The aim of the present paper is to discuss the perspectives which will be opened in the future by the possibility of using nuclear (both thermal and electric) or solar electric propulsion and, in a more distant future, nuclear fusion propulsion to travel to the Moon. A number of examples of lunar missions performed with different types of advanced propulsion show what are the conditions at which these advances can be achieved and which are the constraints that will limit these efforts. Keywords: Lunar Missions, Human Lunar Exploration, Advanced Propulsion, Trajectory Optimization, Specific Impulse Optimization

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快速月球任务的先进推进装置

半个世纪前，阿波罗计划载着12人在月球上短暂停留。在这段时间之后，一些国家的太空机构和一些私人公司承诺重新启动人类的月球探索，这次的目标是在我们的卫星上建立长期的人类存在，并开始月球经济。大多数计划中的探月任务都是基于化学推进的使用，它可以在3到4天内完成单程地月旅行。最近，NASA和DARPA联手开发了一种用于行星和月球任务的核热火箭。尽管月球与地球的距离相对较小，但携带所需的有效载荷到月球是昂贵的，人们对使用更先进的推进系统感兴趣，目的是减少旅行时间和成本。特别是，先进的推进装置将被开发出来，用于前往更遥远的目的地，当它们可用时，它们也可以用于月球。本文的目的是讨论未来使用核能(热和电力)或太阳能电力推进的可能性，以及在更遥远的未来使用核聚变推进前往月球的可能性。使用不同类型的先进推进装置执行月球任务的一些例子表明，实现这些进步的条件是什么，以及限制这些努力的制约因素是什么。关键词:月球任务，人类月球探测，先进推进，轨道优化，比冲优化

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Jbis-Journal of the British Interplanetary Society Earth and Planetary Sciences-Space and Planetary Science

CiteScore

0.70

自引率

0.00%

发文量

期刊介绍： The Journal of the British Interplanetary Society (JBIS) is a technical scientific journal, first published in 1934. JBIS is concerned with space science and space technology. The journal is edited and published monthly in the United Kingdom by the British Interplanetary Society. Although the journal maintains high standards of rigorous peer review, the same with other journals in astronautics, it stands out as a journal willing to allow measured speculation on topics deemed to be at the frontiers of our knowledge in science. The boldness of journal in this respect, marks it out as containing often speculative but visionary papers on the subject of astronautics.