54. Greeley, R. (Editor), “Scientific Goals, Objectives, Investigations and Priorities”, Mars Exploration Program, Source Unknown, 2 March 2001 55. Guernsey, C. S., Lee, L. W., Nakazono, B., Lewis, J. C., Yankura, G. and Yavrouian, A., “Advanced Storable Propulsion Technologies for Low-Cost Mars Sample Return”, unpublished, pp8 56. Guernsey, C. S., “Mars Ascent Propulsion System (MAPS) Technology Program : Plans and Progress”, 34 th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit, July 13 – 15, 1998, Cleveland, OH 57. Guernsey, C. S., Thunnissen, D. P. and Adler, M., “Evaluation of Some Candidate Propulsion Technologies for Mars Ascent”, AIAA 98-0651, presented at the 36 th Aerospace Sciences Meeting, 1998 58. Guilbert, P. W. and Jones, I. P., “Modelling of Explosions and Deflagrations”, HSE Contract Research <strong>Report</strong> No. 93/1996, ISBN 0 7176 1035 7, HMSO, 1996, pp40 59. Hall, David W., Parks, Robert W. and Morris, S., “Airplane for Mars Exploration : Conceptual Design of the Full Scale Vehicle”, <strong>Final</strong> <strong>Report</strong> submitted to NASA Ames Research Center on May 27, 1997, pp43 60. Haynes, Norman R., “The NASA Mars Exploration Program”, IAF 98-Q.3.01, 49 th International Astronautical Congress, September 28 – October 2, 1998/Melbourne, Australia 61. Hiesinger, H. and Head III, J. W., “Characterization and Origin of Giant Polygons in Utopia Planitia, Mars : Results from MOLA and MOC”, Lunar and Planetary Science XXXI, pp2, Source Unknown 62. Hirata, C., Greenham, J., Brown, N., Shannon, D. and Burke, James D. (Advisor), “A New Plan for Sending Humans to Mars : The Mars Society Mission”,pp20, Source Unknown 63. Hoffman, S. J., Niehoff, J. C. and Stancati, M. L., “In Situ Propellant Production : The Key to Global Surface Exploration of Mars?”, AIAA 82-1477, AIAA/AAS Astrodynamics Conference, August 9-11, 1982 64. Irwin, P. G. J., Calcutt, S. B., Taylor, F. W. and McCleese, D. J., “The Atmosphere of Mars”, Journal of the British Interplanetary Society, Volume 52, pp209 – 216, 1999 65. Jakosky, B. M., “Why Mars? Exploring Mars and the Nature of Human Civilization”, pp1, Source Unknown 66. Jurewicz, A. J. G., Jones, S. M. and Yen, A. S., “Mars Sample Return with Landing on the Surface”, Concepts and Approaches for Mars Exploration 67. Justus, C. G. and Johnson, D. L., “Mars Global Reference Atmospheric Model 2001 Version (Mars - GRAM 2001) : Users Guide”, NASA TM 210961, Marshal Spaceflight Center Engineering Directorate, April 2001 68. Kaplan, D. I., Ratliff, J. E., Baird, R. S., Sanders, G. B., Johnson, K. R., Karlmann, P. B., Juanero, K. J., Baraona, C. R., Landis, G. A., Jenkins, P. P. and Scheiman, D. A., “In-0Situ Propellant Production on Mars : The First Flight Demonstration”, presented at the 30 th Lunar and Planetary Science Conference, Houston, TX, March 15 – 19, 1999 69. Kaplan, D. I., “In-Situ Resource Utilization : Laying the Foundation for ‘Living off the Land’ “, Concepts and Approaches for Mars Exploration, Source Unknown 70. Kieffer, H. H., Jakosky, B. M., Snyder, C. W. and Matthews, M. S. (Editors), “MARS”, The University of Arizona Press, ISBN 0-8165-1257-4, 1992, pp1498 71. Kleiner, G. N. and Cusick, R. J., “Development of an Advanced Sabatier CO2 Reduction System”, ASME Paper No. 81-ENAs-11, Intersociety Conference on Environmental Systems, San Francisco, CA, July 13 – 15, 1981 72. Knocke, P. (Editor), “Mars Surveyor 98 : Mission Plan and Databook”, JPL D-13652, August 8, 1997, pp17
73. Landis, Geoffrey A., Linne, Diane L. and Taylor, D., “A Mars Rocket Vehicle Using In-Situ Propellants”, AIAA 2000-3120, 36 th AIAA/ASME/SAE/ASEE Joint Propulsion Conference and Exhibit, 16-19 July 2000, Huntsville, Alabama 74. Landis, G. A. and Linne, D., “In-Situ refuelled Rocket ‘Hopper’ for Mars Exploration”, Source Unknown and Landis, G. A. and Linne, D., “Mars Exploration with a Self-Refuelling Hopper”, Concepts and Approaches for Mars Exploration, Source Unknown 75. Landis, Geoffrey A., Jenkins, P., Scheiman, D. and Baraona, C., “MATE and DART : An Instrument Package for Characterizing Solar Energy and Atmospheric Dust on Mars”, Concepts and Approaches for Mars Exploration, pp2, Source Unknown 76. Landis, Geoffrey A., “Crossing Mars : Past and Future Missions to a Cold Dry Dessert”, pp6 77. Lea, A., “Use of Hybrid Rockets in Mars Sample Return”, Advanced Copy, Unpublished 78. Lee, W., D’Amario, L., Roncoli, R. and Smith, J., “Mission Design Overview for Mars Sample Return”, AAS 99-305, pp18 79. Legrand, B., Marion, M., Chauveau, C. and Gökalp, I., “Ignition and Combustion of Levitated Magnesium and Aluminium Particles in Carbon Dioxide”, a collaborative effort between Centre National de la Recherche Scientifique and the Russian Academy of Sciences, unpublished 80. Legrand, B., Chauveau, C., Shafirovich, E., Goldshleger, U., Carrea, E., Mounaim-Rousselle, C., Rouan, J. P. and Gökalp, I., “Combustion of Magnesium Particles in Carbon Dioxide under Microgravity Conditions”, NASA/CP-2001-210826 81. Lembo, F., DallaValle, P., Marmo, L., Patrucco, M. and Debernardi, M. L., “Aluminum Airborne Particle Explosions : Risk Assessment and Management at Northern Italian Factories”, pp8, Source Unknown 82. Linne, Diane L. and Meyer, Michael L., “Technical Prospects for Utilizing Extraterrestrial Propellants for Space Exploration”, NASA Technical Memorandum 105263, prepared for the 42 nd International Astronautical Congress sponsored by the International Astronautical Federation, Montreal, Canada, October 5 – 11, 1991 83. Linne, Diane L. and Meyer, Michael L., “A Compilation of Lunar and Mars Exploration Strategies Utilizing Indigenous Propellants”, NASA Technical Memorandum 105262, Lewis Research Center, Cleveland, Ohio, January 1992 84. Linne, D. and Meyer, M., “The Power to go Beyond”, http://scorpio.aml.arizona.edu/nasa1.html 85. Loftus, H. J., Montanino, L. N. and Bryndle, R. C., “Powder Rocket Feasibility Evaluation”, AIAA Joint Propulsion Specialist Conference, AIAA 72-1162 86. Lyons, D., “Preliminary Mars Planetary Constants and Models for Mars Sample Return”, Interoffice memorandum, 312/99.DTL -1, January 20, 1999 87. McSween, Jr., H. Y. and Treiman, Allan, H., “Martian Meteorites”, Chapter 6 in Reviews in Mineralogy, Volume 36 (Planetary Materials), Papike, J. J., (Editor), Mineralogical Society of America, ISBN 0- 939950-46-4, pp6-1 – 6-53 88. Magalhães, J. A., Schofield, J. T., Seiff, A., Barnes, J. R., Crisp, D., Haberle, R., Larsen, S., Murphy, J. and Wilson, G., “Latest Results from the Mars Pathfinder Atmospheric Structure Investigation”, pp1, Source Unknown 89. Marion, M, Chauveau, C. and Gökalp, I., “Studies on the Ignition and Burning of Levitated Aluminum Particles”, Combustion Science and Technology, Volume 155, 1996, pp369 – 390 90. Meinköhn, D., “Oxide Layer Effects in Metal Particle Combustion”, pp4, Source Unknown
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Technology Requirements for Mars Sa
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Mineral Composition Cordierite Mg2A
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Mineral Composition Nesquehonite Mg
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Appendix B: European Gas Manufactur
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COUNTRY O2 H2 N2 CH4 CO2 COMPANY AD
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Appendix C: European Metal Producer
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COUNTRY Al Ti Mg Fe Si COMPANY ADDR
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Appendix D: PEP Outputs Carbon Diox
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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Carbon Dioxide (CO2) Chamber Pressu
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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DH DENS COMPOSITION CARBON DIOXIDE
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Liquid Oxygen (LOX) Chamber Pressur
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DH DENS COMPOSITION OXYGEN (LIQUID)
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DH DENS COMPOSITION OXYGEN (LIQUID)
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DH DENS COMPOSITION OXYGEN (LIQUID)
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DH DENS COMPOSITION OXYGEN (LIQUID)
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DH DENS COMPOSITION CARBON MONOXIDE
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DH DENS COMPOSITION OXYGEN (LIQUID)
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- Page 92 and 93: DH DENS COMPOSITION METHANE -1271 .
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- Page 106 and 107: ***SOLUTION AT 2.00 SECONDS*** ABLA
- Page 108 and 109: NODE MATL NODE DEPTH TEMP (IN) (DEG
- Page 110 and 111: 2 1 .0500 3800.0000 3 1 .1000 3725.
- Page 112 and 113: 6 1 .2500 3491.7120 7 0 .3000 3337.
- Page 114 and 115: 2. Chamber Conditions ***SOLUTION A
- Page 116 and 117: NODE MATL NODE DEPTH TEMP (IN) (DEG
- Page 118 and 119: 2 1 .0500 1747.1370 3 1 .1000 1641.
- Page 120 and 121: 6 1 .2500 2034.9140 ***SOLUTION AT
- Page 122 and 123: 18. Branstetter, J. Robert, Lord, A
- Page 126 and 127: 91. Meissinger, Hans F., Dawson, S.
- Page 128 and 129: 126. Shafirovich, E. Ya. and Goldsh
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