Lunar-Derived Propellants for Fueling Mars-Bound Spacecraft in Cis-Lunar Space

Donald Rapp

doi:10.61927/igmin242

130 of 186

A Case of Facial Erysipelas with Necrosis of the Upper Eyelid

Mariana LevkivYaroslav Nahirnyi, Vasyl Kopcha, Nataliya Tverdokhlib and Ivan Stefaniv

132 of 186

The Role of Supplementation in Enhancing Recovery and Endurance among Fitness Trainers

Bekir Erhan Orhan

Engineering Group Research Article 文章编号: igmin242

Lunar-Derived Propellants for Fueling Mars-Bound Spacecraft in Cis-Lunar Space

Aerospace Engineering Automation and Control Systems Energy Systems Environmental Sciences DOI10.61927/igmin242

Donald Rapp ^* ^{1445 India}

Affiliation

Donald Rapp, 1445 Indiana Ave., South Pasadena, CA 91030, USA, Email: [email protected]

Fulltext HTML Fulltext PDF Cite this article

18

REFERENCES

2.2k

VIEWS

375

DOWNLOADS

106

摘要

The conventional method to send payloads to Mars is by direct trans-Mars injection (TMI) from LEO. NASA is considering an alternative of fueling large Mars-bound cargo transfer vehicles in cis-lunar space with propellants derived from the Moon by in situ propellant production (ISPP) prior to trans-Mars injection from cis-lunar space.
A large team of investigators developed an Evolvable Lunar Campaign (ELC) that defined its strategic objective as follows:
"The ELC strategic objective is commercial mining of propellant from lunar poles where it will be transported to lunar orbit to be used by NASA to send humans to Mars."
Unfortunately, sending Mars-bound vehicles to cis-lunar space prior to trans-Mars injection saves little mass in LEO, unnecessarily includes lunar ISPP, which is costly, complex, and risky, and at the bottom line, has no benefits.
The problem is that the amount of propellant needed to go from LEO to cis-lunar space is roughly comparable to the amount of propellant used for direct TMI from LEO, so the lunar-derived propellants only offset a small amount of propellant used to augment Mars Orbit Insertion and Entry, Descent, and Landing, and the amount of propellant required in LEO is almost the same in both cases. The initial mass in low Earth orbit (IMLEO) is not reduced much by utilizing lunar ISPP.
At the bottom line, sending Mars-bound MCTV to cis-lunar space adds complexity, cost, and risk and provides essentially no benefits.

数字

参考文献

Rapp D. Human Missions to Mars. 3rd ed. Heidelberg, Germany: Springer-Praxis Books; 2023.
Jones CA. Cost Breakeven Analysis of Cis-lunar ISRU for Propellant [Internet]. 2020 [cited 2024 Sep 2]. Available from: https://ntrs.nasa.gov/api/citations/20205007564/downloads/ISRU-Paper3-Final.pdf
Miller C. Economic Assessment and Systems Analysis of an Evolvable Lunar Architecture that Leverages Commercial Space Capabilities and Public-Private-Partnerships [Internet]. 2015 [cited 2024 Sep 2]. Available from: http://large.stanford.edu/courses/2016/ph240/williamsr2/docs/EvolvableLunarArchitecture.pdf
Rapp D. Human Missions to Mars. 3rd ed. Heidelberg, Germany: Springer-Praxis Books; 2023. p. [section 4.4.2, Table 4.5].
Rapp D. Human Missions to Mars. 3rd ed. Heidelberg, Germany: Springer-Praxis Books; 2023. p. [Table 4.6].
Atomic Rockets. Mission Delta-v and Flight Times [Internet]. [cited 2024 Sep 2]. Available from: https://www.projectrho.com/public_html/rocket/appmissiontable.php
Drake BG. Human Exploration of Mars Design Reference Architecture 5.0. NASA Report SP-2009-566; 2009.
Rapp D. Human Missions to Mars. 3rd ed. Heidelberg, Germany: Springer-Praxis Books; 2023. p. [section 5.7.3.3].
Rapp D. Human Missions to Mars. 3rd ed. Heidelberg, Germany: Springer-Praxis Books; 2023. p. [section 4.10].
Rapp D. Near-Term NASA Mars and Lunar In Situ Propellant Production: Complexity versus Simplicity. Space: Science & Technology. 2024 Aug 2;2024. ID: space.0188. DOI: 10.34133/space.0188.
White BC, Haggerty NP. Carbothermal reduction system overview and developments in support of the Artemis program and a commercial lunar economy. Paper presented at: 52nd International Conference on Environmental Systems; 2023 Jul 11-15; Calgary, Canada. Abstract 313:16-20.
Linne DJ, Kleinhenz J, Sibille L. Oxygen production system for refueling human landing system elements. Paper presented at: 10th Joint Meeting of the Space Resources Roundtable/Planetary and Terrestrial Mining and Sciences Symposium; 2019 Jul 29 - Aug 2; Golden, CO. Colorado School of Mines.
Kleinhenz JE, Paz A. Case studies for lunar ISRU systems utilizing polar water. ASCEND. 2020;16:19.
Austin AB, Sherwood BB, Elliott J. Robotic lunar surface operations II. Paper presented at: 70th International Astronautical Congress; 2019 Oct 21-25; Washington, DC, USA. Abstract 201:921-925.
Elliott J, Austin AA, Colaprete T. ISRU in support of an architecture for a self-sustained lunar base. Paper presented at: 70th International Astronautical Congress; 2019 Oct 21-25; Washington, DC, USA. Abstract 21:25.
Pappa R, Rose G, Paddock D. Solar Power for Lunar Pole Mission. Paper presented at: Space Power Workshop; 2019 Mar 25-27; Torrance, CA, USA.
Sowers GF. The Lunar Polar Prospecting Workshop. Paper presented at: Lunar Surface Science Workshop; 2018 May 29 - Jun 1; Colorado School of Mines. Abstract 2241.
Conte D, Di Carlo M, Ho K. Earth-Mars Transfers Through Moon Distant Retrograde Orbits. 2018.

类似文章

Mars Ascent Propellants and Life Support Resources - Take it or Make it?
Donald Rapp
DOI10.61927/igmin232

Preventing Rectal Toxicity in Prostate Cancer: Diet and Supplement Alternative to Enemas or Rectal Spacer
Fabrizio Piro, Daria Cosentino, Ugo Piro, Gabriella Tocci and Luigi Marafioti
DOI10.61927/igmin161

Efficacy of Alternative Insecticides against Dusky Cotton Bug (Oxycarenus laetus) to Improve Yield Losses in Cotton Crops through Residue-based Bioassay
Muhammad Salman Hameed, Muhammad Arshad, Khurshied Ahmed Khan and Nida Urooj
DOI10.61927/igmin249

Prevalence of Non-specific Low Back Pain Among Chinese Healthcare Workers (Surgeons and Surgical Nurses): A Multi-Center Survey Study
Jamal Alshorman, Ruba Altahla, Ahmad Alkhatatbeh, Wan Li and Feronika Prabowo
DOI10.61927/igmin264

Improved Energy Valley Optimizer with Levy Flight for Optimization Problems
Nabila H Shikoun and Islam S Fathi
DOI10.61927/igmin172

Trend of SO2 Gas Dry Deposition in Vietnam
Minh Thu Nguyen
DOI10.61927/igmin240

The use of FIKR (Facet, Insight, Knowledge, and Resilience) Personality as an Effective Assessment Tool to Select the Best Leadership in an Organization
Chee Kong Yap, Chee Seng Leow and Wing Sum Vincent Leong
DOI10.61927/igmin174

Into the Deep: Diving Record for the Dice Snake Natrix tessellata (Laurenti, 1768) in Lake Orta, NW Italy
Stefano Bovero and Paola Viviana Trovò
DOI10.61927/igmin179

Fred Vlès – Early Holistic Biophysicist and Pioneer of “Earthing”
Marco Bischof
DOI10.61927/igmin129

Communication Training at Medical School: A Quantitative Analysis
Christina Louise Lindhardt and Marianne Kirstine Thygesen
DOI10.61927/igmin261

Page Navigation

发表您的研究

我们发表广泛的科学、技术、工程和医学领域的文章类型，且没有编辑偏见.

提交

看稿件指南和 APC

探索 IgMin 科目

点击查看十大文章

快速链接

提交稿件

研究文章

[1] Rapp D. Human Missions to Mars. 3rd ed. Heidelberg, Germany: Springer-Praxis Books; 2023.

[2] Jones CA. Cost Breakeven Analysis of Cis-lunar ISRU for Propellant [Internet]. 2020 [cited 2024 Sep 2]. Available from: https://ntrs.nasa.gov/api/citations/20205007564/downloads/ISRU-Paper3-Final.pdf

[3] Miller C. Economic Assessment and Systems Analysis of an Evolvable Lunar Architecture that Leverages Commercial Space Capabilities and Public-Private-Partnerships [Internet]. 2015 [cited 2024 Sep 2]. Available from: http://large.stanford.edu/courses/2016/ph240/williamsr2/docs/EvolvableLunarArchitecture.pdf

[4] Rapp D. Human Missions to Mars. 3rd ed. Heidelberg, Germany: Springer-Praxis Books; 2023. p. [section 4.4.2, Table 4.5].

[5] Rapp D. Human Missions to Mars. 3rd ed. Heidelberg, Germany: Springer-Praxis Books; 2023. p. [Table 4.6].

[6] Atomic Rockets. Mission Delta-v and Flight Times [Internet]. [cited 2024 Sep 2]. Available from: https://www.projectrho.com/public_html/rocket/appmissiontable.php

[7] Drake BG. Human Exploration of Mars Design Reference Architecture 5.0. NASA Report SP-2009-566; 2009.

[8] Rapp D. Human Missions to Mars. 3rd ed. Heidelberg, Germany: Springer-Praxis Books; 2023. p. [section 5.7.3.3].

[9] Rapp D. Human Missions to Mars. 3rd ed. Heidelberg, Germany: Springer-Praxis Books; 2023. p. [section 4.10].

[10] Rapp D. Near-Term NASA Mars and Lunar In Situ Propellant Production: Complexity versus Simplicity. Space: Science & Technology. 2024 Aug 2;2024. ID: space.0188. DOI: 10.34133/space.0188.

[11] White BC, Haggerty NP. Carbothermal reduction system overview and developments in support of the Artemis program and a commercial lunar economy. Paper presented at: 52nd International Conference on Environmental Systems; 2023 Jul 11-15; Calgary, Canada. Abstract 313:16-20.

[12] Linne DJ, Kleinhenz J, Sibille L. Oxygen production system for refueling human landing system elements. Paper presented at: 10th Joint Meeting of the Space Resources Roundtable/Planetary and Terrestrial Mining and Sciences Symposium; 2019 Jul 29 - Aug 2; Golden, CO. Colorado School of Mines.

[13] Kleinhenz JE, Paz A. Case studies for lunar ISRU systems utilizing polar water. ASCEND. 2020;16:19.

[14] Austin AB, Sherwood BB, Elliott J. Robotic lunar surface operations II. Paper presented at: 70th International Astronautical Congress; 2019 Oct 21-25; Washington, DC, USA. Abstract 201:921-925.

[15] Elliott J, Austin AA, Colaprete T. ISRU in support of an architecture for a self-sustained lunar base. Paper presented at: 70th International Astronautical Congress; 2019 Oct 21-25; Washington, DC, USA. Abstract 21:25.

[16] Pappa R, Rose G, Paddock D. Solar Power for Lunar Pole Mission. Paper presented at: Space Power Workshop; 2019 Mar 25-27; Torrance, CA, USA.

[17] Sowers GF. The Lunar Polar Prospecting Workshop. Paper presented at: Lunar Surface Science Workshop; 2018 May 29 - Jun 1; Colorado School of Mines. Abstract 2241.

[18] Conte D, Di Carlo M, Ho K. Earth-Mars Transfers Through Moon Distant Retrograde Orbits. 2018.

Browse by Subjects

Members

Articles

Explore Content

Identify Us

Publish Now

Policies

Manuscript Guidelines

Other Services

Identify Us

Search

Select Language

Explore Section

Lunar-Derived Propellants for Fueling Mars-Bound Spacecraft in Cis-Lunar Space

Affiliation

摘要

数字

参考文献

类似文章

Page Navigation

发表您的研究

探索 IgMin 科目

快速链接

研究文章

识别我们

立即发布

其他服务

政策

稿件指南

联系我们

Why Publish with IgMin Research?

Lunar-Derived Propellants for Fueling Mars-Bound Spacecraft in Cis-Lunar Space

Affiliation

摘要

数字

参考文献

类似文章

Most Viewed

Nanorobots in Medicine: Advancing Healthcare through Molecular Engineering:...

The Salt and Dust of the Aral Sea Could Turn Central Asia into A Second Sah...

Revisiting Ice Ages Cycles...

Revisit TBCK-A Pseudo Kinase or a True Kinase...

Efficacy of Alternative Insecticides against Dusky Cotton Bug (Oxycarenus l...

Use of Augmented Reality as a Radiation-free Alternative in Pain Management...

Mastocytosis: Principles and Pitfalls in the Diagnosis of a Unique Disease...

Study of the Histological Features of the Stroma of High-Grade Gliomas Depe...

Correlation between Different Factors of Non-point Source Pollution in Yang...

Utilising Phytoremediation in Green Technologies: Exploring Natural Means o...

The Impact of Teledentistry on Modern Dental Practice...

The Role of CCL18 in Rheumatoid Arthritis Diseases...

A Study of Multi-Pose Effects On a Face Recognition System...

Synergistic Assessment of Supplementation of Ascorbic Acid and Massularia a...

The Influence of Low Pesticide Doses on Fusarium Molds...

Most Latest

Risks and Effects of Medicinal Plants as an Adjuvant Treatment in Mental Di...

A New Modification of Classification of Traumatic Patients with Pelvic Frac...

Revisiting 2,000 Years of Climate Change (Bad Science and the “Hockey Sti...

Innovative Strategies in the Prevention and Treatment of Peri-implantitis...

A Comprehensive Review of Federated Learning in Cancer Diagnosis and Progno...

Risk of Nutritional Deficiencies and Changes in Dietary Patterns after Bari...

Comparative Analysis of Lattice Pylons and Polygonal Monopods in the SNEL S...

Preparing for SpaceX Mission to Mars...

General Solutions for MHD Motions of Viscous Fluids with Viscosity Linearly...

Multicenter Molecular Integrals over Dirac Wave Functions for Several Funda...

Most Download

The Expressivity Dimension of Speech is the basis of the Expression Dimensi...

Diagnostic Challenges in Pancreatic Tumors...

The use of FIKR (Facet, Insight, Knowledge, and Resilience) Personality as ...

Peritoneal Carcinomatosis from Ovarian Cancer: A Case Report...

Into the Deep: Diving Record for the Dice Snake Natrix tessellata (Laurenti...

Unlawful Homicide of Two Ugly and Disabled Victims in a Japanese Tale Based...

The Examination of Game Skills of Children Aged 5-6 Years Participating in ...

The Relationship between Energy and Climate Warming...

EB Naevi-like Lesion in Infant Bullous Pemphigoid...

The Impact of Teledentistry on Modern Dental Practice...

Gaussian-Transform for the Dirac Wave Function and its Application to the M...

Current Oscillations and Resonances in Nanocrystals of Narrow-gap Semicondu...

On how Doping with Atoms of Gadolinium and Scandium affects the Surface Str...

Dimensioning of Splices Using the Magnetic System...

Enhancing Material Property Predictions through Optimized KNN Imputation an...

Page Navigation

发表您的研究

探索 IgMin 科目

快速链接

订阅IgMin

研究文章

Why Publish with IgMin Research?