REFERENCES
1.
U.S. Navy Diving-Gas Manual, Second Edition, U.S. Navy Supervisor of
Diving, Naval Ship Systems Command, (June 20, 1971).
2.
Lambertson, D.J., Limitations and Breakthroughs in Manned Undersea
Activity, Supplementary Transactions of 2nd Annual MTS Conference, (June
27-29, 1966), Marine Technology Society, 1030 15th Street, N.W.,
Washington, D.C. 20005.
3.
U.S. Navy Diving Manual, NAVSEA 0994-LP-001-9012.
4.
Roth, E.M., Space-Cabin Atmospheres; Part IV -- Engineering Trade-Offs
of One-Versus Two-Gas Systems, NASA AP-118.
5.
Elkins, H.B., The Chemistry of Industrial Toxicology, Second Edition,
John Wiley & Sons, Inc., (1959)
6.
Williams, D.D., et al, Some Effects of Water Vapor and System Pressure
on the Dynamic Reaction of CO2 with Solid Absorbents, Research Report
No. 6-70, Proceedings: Purity Standards for Divers' Breathing Gas
Symposium, July 8-9, 1970.
7.
Gannoe, R.E., Riley, G.R., and Frink, D.W., Final Report on Gas
Monitoring Equipment Investigation, to U.S. Supervisor of Diving, Naval
Ship Systems Command, U.S. Navy, (October 1970).
8.
Wands, R.C., Some Recommended Standards for Compressed Air for
Breathing, Research Report No. 6-70, Proceedings: Purity Standards for
Divers' Breathing Gas Symposium, July 8-9, 1970.
9.
Riegel, P.S., and Harter, J.V., Design of Breathing Apparatus for Diving
to Great Depths, ASME 69-DE-22.
10.
NAVFAC DM-3 Mechanical Engineering Design Manual.
Reference-1
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