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References  529

                            4. R. Prydz, K. D. Timmerhaus, and R. B. Stewart, ‘‘The Thermodynamic Properties of Deuterium,’’
                              Adv. Cryo. Eng. 13, 384 (1968).
                            5. R. D. McCarty and R. B. Stewart, ‘‘Thermodynamic Properties of Neon from 25 to 300 K between
                              0.1 and 200 Atmospheres,’’ Third Symposium on Thermophysical Properties, ASME, 1965, p. 84.
                            6. R. T. Jacobsen, R. B. Stewart, and A. F. Myers, ‘‘An Equation of State of Oxygen and Nitrogen,’’
                              Adv. Cryo. Eng. 18, 248 (1972).
                            7. A. Michels, T. Wassenaar, and G. Wolkers, Appl. Sci. Res. A5, 121 (1955).
                            8. T. R. Strobridge, ‘‘The Thermodynamic Properties of Nitrogen from 64 to 300 K between 0.1 and
                              200 Atmospheres,’’ NBS Tech. Note 129 (Note 129A for British Units), Jan. 1962 and Feb. 1963.
                            9. J. G. Hust and R. B. Stewart, ‘‘Thermodynamic Properties Valves for Gaseous and Liquid Carbon
                              Monoxide from 70 to 300 K with Pressures to 300 Atmospheres,’’ NBS Tech. Note 202, Nov. 30,
                              1963.
                           10. R. Prydz, G. C. Straty, and K. D. Timmerhaus, ‘‘The Thermodynamic Properties of Fluorine,’’ Adv.
                              Cryo. Eng. 16, 64 (1971).
                           11. E. Bendu, ‘‘Equations of State Exactly Represently the Phase Behavior of Pure Substances,’’ Pro-
                              ceedings of the 5th Symposium on Thermosphysical Properties, ASME, 1970, p. 227.
                           12. A. L. Gosman, R. D. McCarty, and J. G. Hust, ‘‘Thermodynamic Properties of Argon from the
                              Triple Point to 300 K at Pressures to 1000 Atmospheres,’’ NBS Reference Data Series (NSRDS-
                              NSB 27), Mar. 1969.
                           13. L. A. Weber, ‘‘Thermodynamic and Related Properties of Oxygen from the Triple Point to 300 K
                              at Pressures to 330 Atmospheres,’’ NBS Rpt. 9710 (Rpt. 9710A for British Units), June and Aug.
                              1968; L. A. Weber, NSB J. Res. 74A(1), 93 (1970).
                           14. R. D. McCarty, ‘‘A Modified Benedict–Webb-Rubin Equation of State for Methane Using Recent
                              Experimental Data,’’ Cryogenics 14, 276 (1974).
                           15. W. T. Ziegle, J. C. Mullins, B. S. Kirk, D. W. Yarborough, and A. R. Berquist, ‘‘Calculation of the
                              Vapor Pressure and Heats of Vaporization and Sublimation of Liquids and Solids, Especially Below
                              One Atmosphere Pressure: VI, Krypton,’’ Tech. Rpt. No. 1, Proj. A-764, Georgia Inst. of Tech.
                              Engrg. Expt. Sta., Atlanta, 1964.
                           16. R. C. Downing, ‘‘Refrigerant Equations,’’ ASHRAE Paper 2313, Trans. ASHRAE, 80, Part III, 1974,
                              p. 158.
                           17. See Ref. 15, ‘‘VIII, Xenon,’’ Tech. Rept. No. 3, Projs. A-764 and E-115, 1966.
                           18. E. Bendu, ‘‘Equations of State for Ethylene and Propylene,’’ Cryogenics 15, 667 (1975).
                           19. R. B. Scott, F. G. Brickwedde, H. C. Urey, and M. H. Wahl, J. Chem. Phys. 2, 454 (1934).
                           20. A. H. Singleton, A. Lapin, and L. A. Wenzel, ‘‘Rate Model for Ortho-Para Hydrogen Reaction on
                              a Highly Active Catalyst,’’ Adv. Cry. Eng. 13, 409–427 (1967).
                           21. C. T. Lane, Superfluid Physics, McGraw-Hill, New York, 1962, pp. 161–177.
                           22. L. S. Twomey (personal communication).
                           23. O. M. Bourguet, ‘‘Cryogenic Technology and Scaleup Problems of Very Large LNG Plants,’’ Adv.
                              Crys. Prg. 18, K. Timmerhaus (ed.), Plenum Press, New York (1972), pp. 9–26.
                           24. T. T. Rule and E. B. Quale, ‘‘Steady State Operation of the Idealized Vuillurmier Refrigerator,’’ Adv.
                              Cryo. Eng. 14, 1968.
                           25. W. E. Gifford, ‘‘The Gifford–McMahon Cycle,’’ Adv. Cryo. Eng. 11, 1965.
                           26. H. Hausen, ‘‘Warmeubutragung in Gegenstrom, Gluchstrom, und Kiezstrom,’’ Springer-Verlag, Ber-
                              lin, 1950.
                           27. D. E. Ward, ‘‘Some Aspects of the Design and Operation of Low Temperature Regenerator,’’ Adv.
                              Cryo. Eng. 6, 525 (1960).
                           28. G. O. G. Lof and R. W. Hawley, Ind. Ing. Clem. 40, 1061 (1948).
                           29. G. E. O’Connor and T. W. Russell, ‘‘Heat Transfer in Tubular Fluid-Fluid Systems,’’ Advances in
                              Chemical Engineering. T. B. Drew et al. (eds.), Academic Press, New York, 1978, Vol. 10, pp. 1–
                              56.
                           30. M. Jacob, Heat Transfer, Wiley, New York, 1957, Vol. 2, pp. 1–199.
                           31. W. T. Ziegh and H. Cheung, Adv. Cryo. Eng. 2, 100 (1960).
                           32. R. H. Kropschot, ‘‘Cryogenic Insulation,’’ ASHRAE Journal (1958).
                           33. T. F. Darham, R. M. McClintock, and R. P. Reed, ‘‘Cryogenic Materials Data Book,’’ Office of Tech.
                              Services, Washington, DC, 1962.
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