References
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- C. C. SILVERSTEIN, “A Study of Heat Pipe Applications in Nuclear Aircraft Propulsion Systems,” NASA CR-72610, NASA Lewis Research Center (December 1969).
- J. E. KEMME, “High Performance Heat Pipes,” 1967 Thermionic Conversion Specialist Conference, Palo Alto, California (October 1967).
- A. P. KUDRYAVTSEV et al., “Transfer of Heat from Sodium Boiling in a Large Vessel,” Liquid Metals, NASA TT F-522, p. 265, NASA, Washington, D.C. (May 1969).
- F. W. SEARS, An Introduction to Thermodynamics, the Kinetic Theory of Gases, and Statistical Mechanics,2nd ed., p. 121, Addison-Wesley Publishing Company, Inc., Cambridge, Massachusetts (1953).
- J. C. CHEN, “Incipient Boiling Superheats in Liquid Metals,” ASME Trans. J. Heat Transfer, p. 303 (August 1968).
- J. P. LEWIS et al., “Tests of Sodium Boiling in a Single Tube-in-Shell Heat Exchanger Over the Range 1720°F to 1980°F,” NASA TN D-5323, NASA, Washington, D.C. (July 1969).
- P. K. SHEFSIEK and D. M. ERNST, “Heat Pipe Development for Thermionic Applications,” Proc. 4th Intersociety Energy Conversion Engineering Conf., September 22–26, 1969, p. 879, American Society of Chemical Engineers, New York.
- R. E. BARRY and G. S. SPRINGER, “Vapor Phase Resistance in Filmwise Condensation,” Paper 69-WA/HT-26, presented at American Society of Mechanical Engineers Winter Annual Meeting, Los Angeles, California (November 1969).
- N. B. BAKULIN et al., “Transfer of Heatfrom Condensing Sodium Vapor,” Liquid Metals, NASA TT F-522, p. 294, NASA, Washington, D.C., (May 1969).
- R. D. COCKFIELD and R. E. KILLEN, “Comparison of Direct Condensing and Indirect Radiators for Nuclear Rankine Systems,” CR-72318, NASA (July 26, 1967).
- J. R. DiSTEFANO and J. H. DeVAN, “Refluxing Capsule Experiments with Refractory Metals and Boiling Alkali Metals,” Nucl. Appl. Technol., 8, 29 (1970).