References

  1. Putnam, David F.; and Columbo, Gerald V.: Experimental Study of the Constituents of Space Wash Water. Umpqua Research Co., Myrtle Creek, Oregon, Contract No. NAS2-8239, NASA CR-137735, Sept. 1975.
  2. Putnam, D. F.: Development Assessment of Wash Water Reclamation. Umpqua Research Co., Myrtle Creek, Oregon, Contract No. NAS2-8239, NASA CR-137934, Aug. 1976.
  3. Modell, M.: Sustaining life in a Space Colony. Technology Review, vol. 79, July/Aug. 1977, pp. 38-43.
  4. Jagow, R. B.: Development of a Spacecraft Wet Oxidation Waste Processing System. ASME Paper 72-ENAv-3, ASME Environmental Control and Life Support Systems Conference, San Francisco, Calif., Aug. 14-16, 1972.
  5. Schelkopf, J. D.; Witt, F. J.; and Murray, R. W.: Integrated Waste Management-Water System Using Radioisotopes for Thermal Energy. General Electric Co., Valley Forge, Pennsylvania, Document No. 74 SD 4201 for AEC Contract No. AT(11-1)-3036, May 1974.
  6. Reid, Robert C.: University Role in Astronaut Life Support Systems: Atmospheres. Massachusetts Inst. of Technology, NASA CR-I552, May 1970.
  7. Quattrone, P. D.: Spacecraft Oxygen Recovery
    Systems. Astronautica Acta, vol. 18, no. 4, Oct. 1973, pp. 261-271.
  8. Johnson, Richard D.; and Holbrow, Charles, eds.: Space Settlements: a Design Study, NASA SP-413, 1977.
  9. Henson, H. K.; and Henson, C. M.: Closed Ecosys tems of High Agricultural Yield. Princeton Conference on Space Manufacturing, May 1975.
  10. Gitelson, I. I.; Kovrov, B. G.; Lisovsky, G. M.; Okladnikov, Y. N.; Rerberg, M. S.; Sidko, F. Y.; and Terskov, I. A.: Problems in Space Biology, vol. 28: Experimental Ecological Systems Including Man, Nauka Press, Moscow, 1975, pp. 1-312; also NASA Technical Translation F-16993.
  11. Radnofsky, M. I.: History and Development of Non- flammable Material for Apollo Spacecraft. Aerospace Medicine, vol. 40, Nov. 1969, pp. 1181-1185.
  12. Abduragimov, I. M.; and Iantovskii, S. A.: Catas- trophe in the Apollo Cabin and Measures for Increasing Prevention of Fires and Explosions During Space Flights. Kosm. Biol. Med., vol.2, no.6, 1968, pp.3-9; translated in Space Biol. Med., vol. 2, 1969, pp. 1-8.
  13. Huggett, C.: Combustion Processes in the Aerospace Environment. Aerospace Medicine, vol. 40, Nov. 1969, pp. 1176-1180.
  14. Downs, Robert J.; and Hellmers, H.: Environment and the Experimental Control of Plant Growth. Academic Press, New York, 1975.
  15. Downs, Robert J.: Controlled Environments for Plant Research. Columbia Univ. Press, New York, 1975.
  16. von Tiesenhausen, G. F.; Hamaker, J.; and Hilchey,
    J.: A Review of 'A System Design for a Prototype Space Colony'- M.I.T. Study. Program Development Division, George C. Marshall Space Flight Center, Huntsville, Alabama, June 1977.
  17. Spurlock, J. M.; Modell, M.; Putnam, D. F.; Ross, L. W.; and Pecoraro, J. N.: Evaluation and Comparison of Alternative Designs for Water and SolidWaste Processing Systems for Spacecraft. Society of Automotive Engineers, Inc., Warrendale, Penn., Final Report on NASA Contract No. NASw-2439, July 1975.
  18. Spurlock, J. M.; Modell, M.; and Putnam, D. F.: Evaluation of Technology for Spacecraft WaterWaste Processing Systems. IAF Paper 76-043, 27th Congress of the International Astronautical Federation, Oct. 10-16, 1976, p. 7.


Return to I-1

Table of Contents