Mars Oxygen ISRU Experiment (MOXIE)

Research output: Contribution to journalReviewpeer-review

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Mars Oxygen ISRU Experiment (MOXIE). / Hecht, M.; Hoffman, J.; Rapp, D.; McClean, J.; SooHoo, J.; Schaefer, R.; Aboobaker, A.; Mellstrom, J.; Hartvigsen, J.; Meyen, F.; Hinterman, E.; Voecks, G.; Liu, A.; Nasr, M.; Lewis, J.; Johnson, J.; Guernsey, C.; Swoboda, J.; Eckert, C.; Alcalde, C.; Poirier, M.; Khopkar, P.; Elangovan, S.; Madsen, M.; Smith, P.; Graves, C.; Sanders, G.; Araghi, K.; Juarez, M. de la Torre; Larsen, D.; Agui, J.; Burns, A.; Lackner, K.; Nielsen, R.; Pike, T.; Tata, B.; Wilson, K.; Brown, T.; Disarro, T.; Morris, R.; Steinkraus, R.; Surampudi, R.; Werne, T.; Ponce, A.

In: Space Science Reviews, Vol. 217, No. 1, 9, 2021.

Research output: Contribution to journalReviewpeer-review

Harvard

Hecht, M, Hoffman, J, Rapp, D, McClean, J, SooHoo, J, Schaefer, R, Aboobaker, A, Mellstrom, J, Hartvigsen, J, Meyen, F, Hinterman, E, Voecks, G, Liu, A, Nasr, M, Lewis, J, Johnson, J, Guernsey, C, Swoboda, J, Eckert, C, Alcalde, C, Poirier, M, Khopkar, P, Elangovan, S, Madsen, M, Smith, P, Graves, C, Sanders, G, Araghi, K, Juarez, MDLT, Larsen, D, Agui, J, Burns, A, Lackner, K, Nielsen, R, Pike, T, Tata, B, Wilson, K, Brown, T, Disarro, T, Morris, R, Steinkraus, R, Surampudi, R, Werne, T & Ponce, A 2021, 'Mars Oxygen ISRU Experiment (MOXIE)', Space Science Reviews, vol. 217, no. 1, 9. https://doi.org/10.1007/s11214-020-00782-8

APA

Hecht, M., Hoffman, J., Rapp, D., McClean, J., SooHoo, J., Schaefer, R., Aboobaker, A., Mellstrom, J., Hartvigsen, J., Meyen, F., Hinterman, E., Voecks, G., Liu, A., Nasr, M., Lewis, J., Johnson, J., Guernsey, C., Swoboda, J., Eckert, C., ... Ponce, A. (2021). Mars Oxygen ISRU Experiment (MOXIE). Space Science Reviews, 217(1), [9]. https://doi.org/10.1007/s11214-020-00782-8

Vancouver

Hecht M, Hoffman J, Rapp D, McClean J, SooHoo J, Schaefer R et al. Mars Oxygen ISRU Experiment (MOXIE). Space Science Reviews. 2021;217(1). 9. https://doi.org/10.1007/s11214-020-00782-8

Author

Hecht, M. ; Hoffman, J. ; Rapp, D. ; McClean, J. ; SooHoo, J. ; Schaefer, R. ; Aboobaker, A. ; Mellstrom, J. ; Hartvigsen, J. ; Meyen, F. ; Hinterman, E. ; Voecks, G. ; Liu, A. ; Nasr, M. ; Lewis, J. ; Johnson, J. ; Guernsey, C. ; Swoboda, J. ; Eckert, C. ; Alcalde, C. ; Poirier, M. ; Khopkar, P. ; Elangovan, S. ; Madsen, M. ; Smith, P. ; Graves, C. ; Sanders, G. ; Araghi, K. ; Juarez, M. de la Torre ; Larsen, D. ; Agui, J. ; Burns, A. ; Lackner, K. ; Nielsen, R. ; Pike, T. ; Tata, B. ; Wilson, K. ; Brown, T. ; Disarro, T. ; Morris, R. ; Steinkraus, R. ; Surampudi, R. ; Werne, T. ; Ponce, A. / Mars Oxygen ISRU Experiment (MOXIE). In: Space Science Reviews. 2021 ; Vol. 217, No. 1.

Bibtex

@article{375cf2cc13f9461ab7b179c2d374fadc,
title = "Mars Oxygen ISRU Experiment (MOXIE)",
abstract = "MOXIE is a technology demonstration that addresses the Mars 2020 (Perseverance) objective of preparing for future human exploration by demonstrating In Situ Resource Utilization (ISRU) in the form of dissociating atmospheric CO2 into O-2. The primary goals of the MOXIE project are to verify and validate the technology of Mars ISRU as a springboard for the future, and to establish achievable performance requirements and design approaches that will lead to a full-scale ISRU system based on MOXIE technology.MOXIE has three top-level requirements: to be capable of producing at least 6 g/hr of oxygen in the context of the Mars 2020 mission (assuming atmospheric intake at 5 Torr, typical of Jezero Crater, and 0 degrees C, typical of the rover interior); to produce oxygen with >98% purity; and to meet these first two requirements for at least 10 operational cycles after delivery. Since MOXIE is expected to operate in all seasons and at all times of day and night on Mars, these requirements are intended to be satisfied under worst-case environmental conditions, including during a dust storm, if possible.",
keywords = "In-situ resource utilization, ISRU, Mars atmosphere, Oxygen production on Mars, Mars 2020, MOXIE",
author = "M. Hecht and J. Hoffman and D. Rapp and J. McClean and J. SooHoo and R. Schaefer and A. Aboobaker and J. Mellstrom and J. Hartvigsen and F. Meyen and E. Hinterman and G. Voecks and A. Liu and M. Nasr and J. Lewis and J. Johnson and C. Guernsey and J. Swoboda and C. Eckert and C. Alcalde and M. Poirier and P. Khopkar and S. Elangovan and M. Madsen and P. Smith and C. Graves and G. Sanders and K. Araghi and Juarez, {M. de la Torre} and D. Larsen and J. Agui and A. Burns and K. Lackner and R. Nielsen and T. Pike and B. Tata and K. Wilson and T. Brown and T. Disarro and R. Morris and R. Steinkraus and R. Surampudi and T. Werne and A. Ponce",
year = "2021",
doi = "10.1007/s11214-020-00782-8",
language = "English",
volume = "217",
journal = "Space Science Reviews",
issn = "0038-6308",
publisher = "Springer",
number = "1",

}

RIS

TY - JOUR

T1 - Mars Oxygen ISRU Experiment (MOXIE)

AU - Hecht, M.

AU - Hoffman, J.

AU - Rapp, D.

AU - McClean, J.

AU - SooHoo, J.

AU - Schaefer, R.

AU - Aboobaker, A.

AU - Mellstrom, J.

AU - Hartvigsen, J.

AU - Meyen, F.

AU - Hinterman, E.

AU - Voecks, G.

AU - Liu, A.

AU - Nasr, M.

AU - Lewis, J.

AU - Johnson, J.

AU - Guernsey, C.

AU - Swoboda, J.

AU - Eckert, C.

AU - Alcalde, C.

AU - Poirier, M.

AU - Khopkar, P.

AU - Elangovan, S.

AU - Madsen, M.

AU - Smith, P.

AU - Graves, C.

AU - Sanders, G.

AU - Araghi, K.

AU - Juarez, M. de la Torre

AU - Larsen, D.

AU - Agui, J.

AU - Burns, A.

AU - Lackner, K.

AU - Nielsen, R.

AU - Pike, T.

AU - Tata, B.

AU - Wilson, K.

AU - Brown, T.

AU - Disarro, T.

AU - Morris, R.

AU - Steinkraus, R.

AU - Surampudi, R.

AU - Werne, T.

AU - Ponce, A.

PY - 2021

Y1 - 2021

N2 - MOXIE is a technology demonstration that addresses the Mars 2020 (Perseverance) objective of preparing for future human exploration by demonstrating In Situ Resource Utilization (ISRU) in the form of dissociating atmospheric CO2 into O-2. The primary goals of the MOXIE project are to verify and validate the technology of Mars ISRU as a springboard for the future, and to establish achievable performance requirements and design approaches that will lead to a full-scale ISRU system based on MOXIE technology.MOXIE has three top-level requirements: to be capable of producing at least 6 g/hr of oxygen in the context of the Mars 2020 mission (assuming atmospheric intake at 5 Torr, typical of Jezero Crater, and 0 degrees C, typical of the rover interior); to produce oxygen with >98% purity; and to meet these first two requirements for at least 10 operational cycles after delivery. Since MOXIE is expected to operate in all seasons and at all times of day and night on Mars, these requirements are intended to be satisfied under worst-case environmental conditions, including during a dust storm, if possible.

AB - MOXIE is a technology demonstration that addresses the Mars 2020 (Perseverance) objective of preparing for future human exploration by demonstrating In Situ Resource Utilization (ISRU) in the form of dissociating atmospheric CO2 into O-2. The primary goals of the MOXIE project are to verify and validate the technology of Mars ISRU as a springboard for the future, and to establish achievable performance requirements and design approaches that will lead to a full-scale ISRU system based on MOXIE technology.MOXIE has three top-level requirements: to be capable of producing at least 6 g/hr of oxygen in the context of the Mars 2020 mission (assuming atmospheric intake at 5 Torr, typical of Jezero Crater, and 0 degrees C, typical of the rover interior); to produce oxygen with >98% purity; and to meet these first two requirements for at least 10 operational cycles after delivery. Since MOXIE is expected to operate in all seasons and at all times of day and night on Mars, these requirements are intended to be satisfied under worst-case environmental conditions, including during a dust storm, if possible.

KW - In-situ resource utilization

KW - ISRU

KW - Mars atmosphere

KW - Oxygen production on Mars

KW - Mars 2020

KW - MOXIE

U2 - 10.1007/s11214-020-00782-8

DO - 10.1007/s11214-020-00782-8

M3 - Review

VL - 217

JO - Space Science Reviews

JF - Space Science Reviews

SN - 0038-6308

IS - 1

M1 - 9

ER -

ID: 256887679