Publications -F-
  • Fahim, M.A. and A.S. Elkilani, Prediction of the solubility of hydrogen in naphtha reformate using the modified UNIFAC group contribution method. Ind. Eng. Chem. Res., 1991. 30(1): p. 255-9.
  • Fairbairn, W.M. and M.R. Steel, Pca2(1) ordering in a self-consistent model for solid orthohydrogen. J. Phys. A, 1968. 1(1): p. 34-9.
  • Fairbairn, W.M., W.S. Lounds, and M.R. Steel, Orientational ordering in hcp solid hydrogen. Low Temp. Phys., 1969. 11: p. 623-6.
  • Falk, G. and A. Mann, On the viscosity behavior of ortho- and para-hydrogen (in German). Z. Phys., 1955. 142: p. 277-96.
  • Farghaly, A.S., Lower phase transition temperature of solid hydrogen sulphide. Czech. J. Phys., 1972. 22(7): p. 617-20.
  • Farkas, L., On para- and orthohydrogen (in German). Ergeb. Exakten Naturwiss., 1933. 12: p. 163-218.
  • Farkas, A., Orthohydrogen, parahydrogen and heavy hydrogen. 1935: Cambridge Univ. Press, UK, 230 pp.
  • Farmer, O.A., Digital programs for para hydrogen properties. 1962: Los Alamos Sci. Lab., Rep. LAMS-2762, 34 pp.
  • Farmer, O.A., Thermodynamic-transport and related properties of para-hydrogen from 36 to 5000 degrees R at pressures to 5000 psia. 1965: Los Alamos Sci. Lab., Rep. LA-3405-MS, 37 pp.
  • Farmer, O.A., T.E. Springer, and B.B. Fisher, FORTRAN IV hydrogen property tabular codes. 1965: Los Alamos Sci. Lab., Rep. LA-3381, 29 pp.
  • armer, O.A., Tables of para-hydrogen data in engineering units from 36 degrees to 5000 degrees R at pressures to 5000 PSIA. 1967: Los Alamos Sci. Lab., Rep. LA-3669, 159 pp.
  • Farmer, O.A. and J.F. Hafer, Tables of para-hydrogen data in the International System of Units from 20 to 3000 degrees K at pressures to 35 x 10(6) NM(-2). 1972: Los Alamos Sci. Lab., Informal Rep. LA-4906-MS, 79 pp.
  • Fastovskii, V.G. and M.G. Gonikberg, Solubility of gases in liquids at low temperatures and high pressures. III. Solubility of hydrogen in liquid methane (in Russian). Zh. Fiz. Khim., 1940. 14(3): p. 427-8.
  • Fastowsky, W. and M. Gonikberg, The solubility of gases in liquids at low temperatures and high pressures. III. The solubility of hydrogen in liquid methane (in German). Acta Physicochim. URSS, 1940. 12(4): p. 485-8.
  • Felsteiner, J., Structure of the ordered state of ortho-hydrogen at absolute zero. Phys. Rev. Lett., 1965. 15(26): p. 1025-7.
  • Felsteiner, J., Intermediate double hexagonal close-packed structure in the phase transition of solid ortho-hydrogen. Phys. Lett. A, 1968. 28(4): p. 288-9.
  • Felsteiner, J., D.B. Litvin, and J. Zak, Quadrupole arrangements in solid hydrogen and nitrogen. Phys. Rev. B, 1971. 3(8): p. 2706-16.
  • Felsteiner, J., R. Fox, and Z. Friedman, Libron spectrum of solid hydrogen by small-angle scattering of nuclear gamma rays. Phys. Rev. A, 1973. 7(2): p. 826-7.
  • Felsteiner, J. and Z. Friedman, Molecular ordering in solid hydrogen and nitrogen in the molecular-field approximation. Phys. Rev. B, 1973. 8(8): p. 3996-4003.
  • Ferraz, A., N.H. March, and F. Flores, Metal-insulator transition in hydrogen and in expanded alkali metals. J. Phys. Chem. Solids, 1984. 45(6): p. 627-35.
  • Ferrell, R.T. and D.M. Himmelblau, Diffusion coefficients of hydrogen and helium in water. AIChE J., 1967. 13(4): p. 702-8.
    Fiorese, G., A theoretical equation of state for molecular hydrogen. J. Chem. Phys., 1981. 75(3): p. 1427-33.
  • Fischer, V., Equilibrium Isotherms and Isobars of Carbon Monoxide - Nitrogen - Hydrogen Mixtures. Ann. Phys. (Leipzig), 1938. 31: p. 531-539.
  • Fischer, V., The Thermodynamics of Nitrogen-Hydrogen Mixtures. Ann. Phys. (Leipzig), 1941. 39: p. 273-80.
  • Fischer, J., M. Bohn, and M. Gebauer, Hydrogen in methane: prediction of Henry's constants from pure-component properties only. Fluid Phase Equilib., 1984. 17: p. 131-3.
  • Fisher, B.B., Calculations of the thermal properties of hydrogen. 1965: Los Alamos Sci. Lab., Rep. LA-3364, 51 pp.
  • Flax, L., Theory of phase transitions in solid hydrogen. 1969: Quantum Theory Solids Meet., Paper, 11 pp.
  • Fleury, P.A. and J.P. McTague, Short-wavelength collective excitations in liquid and solid hydrogen. Phys. Rev. Lett., 1973. 31(15): p. 914-8.
  • Fleury, P.A. and J.P. McTague, Molecular interactions in the condensed phases of ortho-para hydrogen mixtures. Phys. Rev. A, 1975. 12(1): p. 317-26.
  • Florant, L.F. and H.F. Snider, Centrifugal pumping of liquid hydrogen. 1950: Ohio State Univ. Res. Foundation, Tech. Rep. TR 333-4, 114 pp.
  • Foerg, W. and J. Stichlmair, The low temperature separation of a rather pure hydrogen from a mixture with light aliphatic hydrocarbons (in German). Kaeltetech.-Klim., 1969. 21(4): p. 104-10.
  • Foerg, W., Hydrogen purification at low temperatures. Chem. Process Eng., 1971. 52(2): p. 57-63+68.
  • Ford, T.A. and M. Falk, Hydrogen bonding in water and ice. Can. J. Chem., 1968. 46: p. 3579-86.
  • Foster, P.K., A. McNabb, and C.M. Payne, On the rate of loss of hydrogen from cylinders of iron and steel. Trans. Metall. Soc. AIME, 1965. 233: p. 1022-31.
  • Foster, K.R. and J.H. Rugheimer, Nuclear magnetic relaxation in hydrogen-rare gas mixtures. J. Chem. Phys., 1972. 56(6): p. 2632-7.
  • Foushee, B.R., Liquid hydrogen and liquid oxygen density data for use in Centaur propellant loading analysis. 1962: Gen. Dynam./Astronaut., Rep. AE62-0471, 12 pp.
  • Fox, T.G., The hydrogen isotopes - thermodynamic properties of their compounds. 1942: Columbia Univ., N.Y., Rep. MDDC-1496, 64 pp.
  • Frackiewicz, A., M. Poleski, and W. Palczewska, Surface reactivity of nickel and nickel hydride films as catalysts in parahydrogen conversion. J. Catal., 1975. 40(2): p. 184-9.
  • Franciscus, L.C., Analysis of rocket-powered ejectors for pumping liquid oxygen and liquid hydrogen. 1970: NASA Tech. Note, (NASA TN D-6033), 32 pp.
  • Fredenslund, A. and J. Mollerup, Gas-liquid equilibrium of hydrogen sulphide + carbon monoxide. J. Chem. Thermodyn., 1975. 7(7): p. 677-82.
  • Freeman, M.P. and M.J. Hagyard, Hindered rotation of adsorbed hydrogen isotopes: a hybrid approximation to the quantum-statistical partition function. J. Chem. Phys., 1968. 49(9): p. 4020-31.
  • Freeth, F.A. and T.T.H. Verschoyle. Physical constants of the system methane-hydrogen. in Proc. R. Soc. London, Ser. A. 1931.
  • Freitag, N.P. and D.B. Robinson, Equilibrium phase properties of the hydrogen-methane-carbon dioxide, hydrogen-carbon dioxide-n-pentane and hydrogen-n-pentane systems. Fluid Phase Equilib., 1986. 31(2): p. 183-201.
  • Frey, F. E., Huppke, W. F., Equilibrium Dehydrogenation of Ethane,Propane and the Butanes, Ind. Eng. Chem., 1933, 25: p. 54.
  • Fricke, H., The breakdown voltages of extremely pure and dry hydrogen and oxygen at pressures from 1 to 60 Torr and distances from 1 to 35 mm and their deviations from the Paschen law (in German). Z. Phys., 1933. 86: p. 464-78.
  • Friedman, A.S., Pressure - volume - temperature relationships of gaseous hydrogen, nitrogen, and a hydrogen-nitrogen mixture. 1950, Ohio State Univ., Columbus, Ph.D. Dissertation, 216 pp.
  • Friedman, A.S., D. White, and H.L. Johnston, The direct determination of the critical temperature and critical pressure of normal deuterium. Vapor pressure between the boiling and critical points. 1950: Ohio State Univ., Tech. Rep. TR 282-10, 9 pp.
  • Friedman, A.S., D. White, and H.L. Johnston, Critical Constants, Boiling Points, Triple Constants, and Vapor Pressures of the Six Isotopic Hydrogen Molecules based on a Simple Mass Relationship. J. Chem. Phys., 1951. 19(1): p. 126-127.
  • Friedman, A.S., D. White, and H.L. Johnston, The direct determination of the critical temperature and critical pressure of normal deuterium. Vapor pressures between the boiling and critical points. J. Am. Chem. Soc., 1951. 73: p. 1310-1.
  • Friedman, A.S., The thermodynamic and transport properties of liquid hydrogen and its isotopes. Part II. Compressibility factors, viscosity, dielectric constants, and surface tension. 1954: Natl. Bur. Stand., Rep. 3282, 15 pp.
  • Friedman, A.S. and J. Hilsenrath, The thermodynamic and transport properties of liquid hydrogen and its isotopes. Part I. 1954: Natl. Bur. Stand., Rep. 3163, 14 pp.
  • Friedman, A.S., M. Trzeciak, and H.L. Johnston, Pressure-volume-temperature relationships of liquid normal deuterium. J. Am. Chem. Soc., 1954. 76: p. 1552-3.
  • Friedman, A.S. and I. Oppenheim, Statistical thermodynamics of isotope effects. II. The equation of state of the hydrogen isotopes at intermediate densities. Phys. Rev., 1955. 98: p. 258.
  • Friedman, H.L., Nonideality of liquid ortho-parahydrogen solutions. J. Chem. Phys., 1957. 27(1): p. 220-3.
  • u, M. -S., Tan, C. -S., Solubility of hydrogen in a mixture of n-hexane and dicyclopentadiene from 313 to 363 K and from 2.0 to 5.5 MPa, Fluid Phase Equilib., 1994, 93: p. 233-247.

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