[6] Lide, D. R. (Ed.) (1990-1991) CRC Handbook of Chemistry and Physics, 71st Edition, pp. 14-28-14-29. Average AV values corrected for a 200 km altitude LEO orbit and Martian surface to LMO AV. In addition, 500 m/s has been added to the outgoing and return portions of the mission to account for maneuvering and gravity losses. Aerobraking is assumed at Mars and Earth. These AVs are representative of what may be expected, and are believed adequate for the purposes of the present study. [7] Meyer, T. R., and McKay, C. P. (1989) “The Resources of Mars for Human Settlement,” Journal of the British Interplanetary Society, Vol. 42, pp. 147-160. [8] Landis, G.A. and Linne, D.L. (1992) “Acetylene Fuel from Atmospheric CO2 on Mars,” Journal of Spacecraft and Rockets, Vol. 29, No. 2, pp. 294- 296. [9] Cutler, A. H., and Hughes, M. L. (1985) “Transportation Economics of Extraterrestrial Resource Utilization,” Space Manufacturing 5 , Faughnin, B., and Maryniak, G., (Eds.), AIAA, New York, NY, pp. 233-244. [10] Rascon, M. (1989) “Unconventional Propellent Performance,” Aerospace and Mechanical Engineering Department, Master of Science Thesis, University of Arizona, Tucson, AZ. [11] Ash, R.L., Wiseman, M.A., and Jackson, C.C. (1987) “Radiator Design Considerations for Martian Surface Applications,” ASME Vol. HTD-81, Radiation, Phase Change Heat Transfer, and Thermal Systems , Jaluria, Y. et al., (Eds.). [12] Frisbee, R. H. (1986) “Mass and power Estimates for Martian In-Situ Propellant Production Systems,” Jet Propulsion Laboratory, Paper No. JPL-D-3648, California Institute of Technology, Pasadena, CA. [13] The author of Reference 15 introduced 10% Nitrogen into the incoming CO2 stream, and observed no change in performance during long term testing. [14] Colvin, J.E. and Landis, G.A. (1992) “Effect of Inert Propellant Injection on Mars Ascent Vehicle Performance,” AIAA/SAE/ASME/ASEE 28^ Joint Propulsion Conference, paper AIAA-92-3447, Nashville, TN; available as NASA Contractor report 189238. [15] Isenberg, A. O. (1989) “Three Man Solid Electrolyte Carbon Dioxide Electrolysis Breadboard,” Science and Technology Center, Final Report Contract No. NAS9-17590, Westinghouse Electric Corporation, Pittsburgh, PA.
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