Use Of Extraterrestrial Resources For Human Space Missions To Moon Or Mars
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Use of Extraterrestrial Resources for Human Space Missions to Moon or Mars
This book presents a detailed, independent review of essentially all the technical aspects of “in situ resource utilization” (ISRU), offering the first in-depth discussion of the issues of crew size, ascent from Mars, and ISRU processes. It also provides data on lunar ISRU not previously available to the public. This new edition provides a short synopsis of the Mars mission, and discusses various topics, including solid oxide electrolysis, which promises to be an important part of the ISRU picture. In addition, it explores ancillary needs for Mars ISRU and how to obtain water on Mars. It is the go-to resource for professionals involved in planning space missions or working on ISRU processes, as well as students planning careers in space technology.
Human Uses of Outer Space
This book takes a unique interdisciplinary approach to the planned return of humans to the Moon. With the Artemis Project, the US and its partners have planned an ambitious project with the creation of the Lunar Gateway, to be followed by the landing of the first woman and next man on the Moon. This book explains that the Artemis project then forms the basis of planned sustained human missions to Mars. Russia and China have also announced their intentions to establish a permanent base on the Moon and have commenced the deployment of modules which will form part of this project. This book states that whilst there has been a permanent human presence in Low Earth Orbit since 2000, with the continued crew rotation on the International Space Station, perhaps the most successful international collaboration of modern times, the establishment of a base on the Moon will generate new challenges for human survival and success. The continued human presence on the space station has provided an incredible opportunity to observe and study the effect of being in space upon the human body and the human psyche. In addition, this book explores that it has provided the scope and context for a vast range of scientific experiments. Now that it has become likely that more humans will need to live and work in space for sustained periods of time, it is essential that we consider matters beyond the engineering questions of how we go to space to the broader questions of how we will live there? What will we need? What will the effects of sustained living in space be for us, emotionally, cognitively, physically and how do we need to consider the impact we will have on the environment to which we are travelling. This book is unique in that, not only does it bring together a diverse yet complementary set of expertise, but it also consciously brings those different experts together in jointly authored chapters, mirroring the way we will have to work together as teams of diverse experts in space. It creates interwoven chapters co-written by various teams of psychologists, lawyers, engineers, regulators, policy experts, architects and cultural studies experts. This book will enable the fielding and addressing of the difficult questions that need to be considered before space habitation may be a successful and sustained mode of existence. This book fills a gap in the area of space studies which tends to focus on narrow, discipline specific issues. It provides a thought-provoking launchpad for further work in this area and above all, stresses the needs of the human in a hostile environment.
Exploring the Martian Moons
Author: Manfred "Dutch" von Ehrenfried
language: en
Publisher: Springer
Release Date: 2017-04-11
This book explores the once popular idea of 'Flexible Path' in terms of Mars, a strategy that would focus on a manned orbital mission to Mars's moons rather than the more risky, expensive and time-consuming trip to land humans on the Martian surface. While currently still not the most popular idea, this mission would take advantage of the operational, scientific and engineering lessons to be learned from going to Mars's moons first. Unlike a trip to the planet's surface, an orbital mission avoids the dangers of the deep gravity well of Mars and a very long stay on the surface. This is analogous to Apollo 8 and 10, which preceded the landing on the Moon of Apollo 11. Furthermore, a Mars orbital mission could be achieved at least five years, possibly 10 before a landing mission. Nor would an orbital mission require all of the extra vehicles, equipment and supplies needed for a landing and a stay on the planet for over a year. The cost difference between the two types of missions is in the order of tens of billions of dollars. An orbital mission to Deimos and Phobos would provide an early opportunity to acquire scientific knowledge of the moons and Mars as well, since some of the regolith is presumed to be soil ejected from Mars. It may also offer the opportunity to deploy scientific instruments on the moons which would aid subsequent missions. It would provide early operational experience in the Mars environment without the risk of a landing. The author convincingly argues this experience would enhance the probability of a safe and successful Mars landing by NASA at a later date, and lays out the best way to approach an orbital mission in great detail. Combining path-breaking science with achievable goals on a fast timetable, this approach is the best of both worlds--and our best path to reaching Mars safely in the future.