2023
DOI: 10.1038/s41526-023-00274-3
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Toward the utilisation of resources in space: knowledge gaps, open questions, and priorities

Abstract: There are many open science questions in space resource utilisation due to the novelty and relative immaturity of the field. While many potential technologies have been proposed to produce usable resources in space, high confidence, large-scale design is limited by gaps in the knowledge of the local environmental conditions, geology, mineralogy, and regolith characteristics, as well as specific science questions intrinsic to each process. Further, the engineering constraints (e.g. energy, throughput, efficienc… Show more

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Cited by 8 publications
(3 citation statements)
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“…For this reason, we focus this review paper on physical problems which are encountered in cryogenic systems only 8 . Cryogenic fuels (propellants, i.e., hydrogen, methane, and oxidizer, i.e., oxygen) have several advantages: they provide a high specific impulse, are non-toxic, and can be produced in situ (In Situ Resource Utilization - ISRU), i.e., on the surface of the Moon or Mars 9 . The enabling capabilities for cryogenic propellants are the long-term storage in space and on planets, and the transfer between depots and spacecraft.…”
Section: Introductionmentioning
confidence: 99%
“…For this reason, we focus this review paper on physical problems which are encountered in cryogenic systems only 8 . Cryogenic fuels (propellants, i.e., hydrogen, methane, and oxidizer, i.e., oxygen) have several advantages: they provide a high specific impulse, are non-toxic, and can be produced in situ (In Situ Resource Utilization - ISRU), i.e., on the surface of the Moon or Mars 9 . The enabling capabilities for cryogenic propellants are the long-term storage in space and on planets, and the transfer between depots and spacecraft.…”
Section: Introductionmentioning
confidence: 99%
“…By utilizing space resources to provide materials required for space exploration, we can unleash the full potential of space exploration and greatly reduce the cost of space exploration. Similar to the extraction and use of terrestrial resources, to begin with, a given resource (e.g., oxygen, water ice) must be identified through prospecting and ground truthing to increase certainty [3]. NASA's report of the discovery of ice on the Moon in 1998 led to a later announcement in 2005 regarding the in situ utilization of lunar resources [4].…”
Section: Introductionmentioning
confidence: 99%
“…With the global shift towards electri cation and renewables-aligned with ambitious commitments like the UN Paris Agreement-the demand for metals and minerals is surging (Bullock et al, 2021). Diverse solutions, including space (Cilliers et al, 2023;Sonter, 1997) and deep-sea mining (Jaeckel et al, 2023;Kaikkonen et al, 2021;Sharma et al, 2015), are under exploration to meet this demand, each with unique environmental and societal considerations under scrutiny.…”
Section: Introductionmentioning
confidence: 99%