Publications -J-
  • Jaeschke, M., et al., Pvt data from Burnett and refractive index measurements for the nitrogen-hydrogen system from 270 to 353 K and pressures to 30 MPa. Fluid Phase Equilib., 1991. 62(1-2): p. 115-139.
  • Jaeschke, M., Audibert, S., van Canegham, P., Humphreys, A. E., Janssen-van Rosemalen, R., Pellei, Q., Michels, J. P. J., Schouten, J. A.,Ten Seldam, C. A., High accuracy compressibility factor calculation for natural gases and similar mixtures by use of a truncated virial equation. GERG Tech. Monogr.,1988, TM2,pp 163,
  • Jaeschke, M. and A.E.R. Humphreys, The GERG Databank of High Accuracy Compressibility Factor Measurements. 1990, Verlag des Vereins Deutscher Ingenieurs: Dusseldorf, Germany.
  • James, H.M. and A.S. Coolidge, The Ground State of the Hydrogen Molecule. J. Chem. Phys., 1933. 1: p. 825.
  • James, H.M. and J.C. Raich, Orientational order in solid ortho-hydrogen. I. Cubic close-packed molecular lattice. Phys. Rev., 1967. 162(3): p. 649-60.
  • James, H.M. and J. Van Kranendonk, Theory of the anomalous intensities in the vibrational Raman spectra of solid hydrogen and deuterium. Phys. Rev., 1967. 164(3): p. 1159-68.
  • James, H.M., Orientational order in solid ortho-hydrogen. II. Hexagonal close-packed molecular lattice. Phys. Rev., 1968. 167(3): p. 862-74.
  • James, H.M., Search for stable orientational orders in rigid-lattice models of fcc orthohydrogen. Phys. Rev. B, 1970. 2(6): p. 2213-24.
  • Jean-Louis, M., et al., Induced near-infrared absorption spectrum of solid normal hydrogen up to 11 kbar at 4.2 degrees K. J. Chem. Phys., 1971. 55(9): p. 4657-9.
  • Jean-Louis, M., Effect of density on the induced near infrared absorption spectrum of solid parahydrogen. Chem. Phys. Lett., 1977. 51(2): p. 254-6.
  • Jefferies, M.J. and K.N. Mathes, Dielectric loss and voltage breakdown in liquid nitrogen and hydrogen. 1969: Gen. Electr. Co., Rep. 69-C-383, 23 pp.
  • Jefferies, M.J. and K.N. Mathes, Dielectric loss and voltage breakdown in liquid nitrogen and hydrogen. IEEE Trans. Electr. Insul., 1970. 5(3): p. 83-91.
  • Jett, M.D., J.W. Magee, and R. Kobayashi, The Measurement and Analysis of P-V-T Surfaces of Quantum Fluid-Normal Mixtures: Hydrogen-Methane System. Department of Chemical Engineering, George R. Brown School of Engineering, Rice University, Houston, Texas, 1986.
  • Jett, M.D., Isochoric PVT Studies of Binary Fluid Mixtures: The Hydrogen-Methane and Methane-Methanol Systems. 1990, Ph.D. Dissertation, Rice University, Houston.
  • Jett, M., F. Fleyfel, and R. Kobayashi, The Nature of (p,V,T) Surfaces of Mixtures: (Quatum+Normal) and (Normal + Hydrogen-Bonded) as Summarized by their Isochoric Inflection Loci. J. Chem. Thermo., 1994. 26: p. 561-569.
  • Jewett, D. and A.C. Makrides, Research studies on solid hydrogen purification membranes. 1967: Tyco Lab., Inc., Interim Rep. 2, 42 pp.
  • Jochemsen, R., et al., The anomalous far infrared absorption spectrum of solid paradeuterium in the orientationally ordered state. Commun. Phys., 1977. 2(6): p. 181-6.
  • Jochemsen, R., V.V. Goldman, and I.F. Silvera, Anomalous double-peaked one-phonon far infrared absorption in compressed deuterium. Phys. Lett. A, 1979. 70(4): p. 337-40.
  • Jochemsen, R., A.J. Berlinsky, and W.N. Hardy, The diffusion cross section for atomic hydrogen in helium gas at low temperature and the H-He potential. Can. J. Phys., 1984. 62: p. 751-9.
  • Joffe, J., The maximum inversion temperatures of helium, hydrogen, and neon. Phys. Rev., 1946. 70(9/10): p. 766-7.
  • Johns, H.E. and J.O. Wilhelm, The refractive indices of liquid oxygen, nitrogen, and hydrogen. Can. J. Res., Sect. A, 1937. 15(7): p. 101-8.
  • Johns, H.E., The viscosity of liquid hydrogen. Can. J. Res., Sect. A, 1939. 17(12): p. 221-6.
  • Johnsen, R., C.-M. Huang, and M.A. Biondi, Three-body association reactions of H(+) and H(3)(+) ions in hydrogen from 135 to 300 K. J. Chem. Phys., 1976. 65(4): p. 1539-41.
  • Johnston, H.L. and E.A. Long, Heat capacity curves of the simpler gases. VI. Rotational heat capacity curves of molecular deuterium and of deuterium hydride. The equilibrium between the ortho and para forms of deuterium. Free energy, total energy, entropy, heat capacity and dissociation of H(2)H(2) and of H(1)H(2), to 300 degrees K. J. Chem. Phys., 1934. 2: p. 389-95.
  • Johnston, H.L. and E.R. Grilly, The thermal conductivities of eight common gases between 80 degrees and 380 degrees K. J. Chem. Phys., 1946. 14(4): p. 233-8.
  • Johnston, H.L., I.I. Bezman, and C.B. Hood, Joule-Thomson effects in hydrogen at liquid air and at room temperatures. J. Am. Chem. Soc., 1946. 68: p. 2367-73.
  • Johnston, H.L. and K.E. McCloskey, Viscosities of several common gases between 90 degrees K and room temperature. J. Phys. Chem., 1940. 44: p. 1038-58.
  • Johnston, H.L., C.A. Swanson, and H.E. Wirth, Joule-Thomson effects in deuterium at liquid air and at room temperatures. J. Am. Chem. Soc., 1946. 68: p. 2373-7.
  • Johnston, H.L., et al., Gaseous data of state for hydrogen between 1 and 200 atmos. from 20 to 300 degrees K. Phys. Rev., 1950. 79: p. 235.
  • Johnston, H.L., et al., Condensed gas calorimetry. I. Heat capacities, latent heats and entropies of pure para-hydrogen from 12.7 to 20.3 degrees K. Description of the condensed gas calorimeter in use in the Cryogenic Laboratory of the Ohio State University. J. Am. Chem. Soc., 1950. 72: p. 3933-8.
  • Johnston, H.L. and D. White, Pressure-volume-temperature relationships of gaseous normal hydrogen from its boiling point to room temperature and from 0-200 atmospheres. Trans. ASME, 1950. 72: p. 785-7.
  • Johnston, H.L., et al., Gaseous Data of State II - The Pressure-Volume-Temperature Relationships of Gaseous Normal Hydrogen From the Critical Temperature to Room Temperature and Up to 200 Atmospheres Pressure. Cryogenic Laboratory -Ohio State University, Columbus, Ohio. Technical Report 264-25, November 25, 1953.
  • Johnston, H.L., W.E. Keller, and A.S. Friedman, The compressibility of liquid normal hydrogen from the boiling point to the critical point at pressures up to 100 atmospheres. J. Am. Chem. Soc., 1954. 76: p. 1482-6.
  • Johnston, H. L., Weimer, H. R., Low pressure data of state of nitric oxide and of nitrous oxide between their boiling points and room temperature, J. Am. Chem. Soc., 1934, 56: p. 625.
  • Jonasson, A., Persson, O., Rasmussen, P., High-Pressure Solubility of Hydrogen in Dimethyl Ether, J. Chem. Eng. Data, 1995, 40: p. 1209-10.
  • Jonasson, A., Persson, O., Rasmussen, P., Soave, G. S., Vapor-liquid equilibria of systems containing acetic acid and gaseous components. Measurements and calculations by a cubic equation of state, Fluid Phase Equilib., 1998, 152: p. 67-94.
  • Jonchere, J.P., Methanol seen as hydrogen source. Oil Gas J., 1976. 74(24): p. 71-3.
  • Jones, W.M., Thermodynamic functions for tritium and tritium hydride. The equilibrium of tritium and hydrogen with tritium hydride. The dissociation of tritium and tritium hydride. J. Chem. Phys., 1948. 16(11): p. 1077-81.
  • Jones, W.M., Thermodynamic functions for tritium deuteride. The dissociation of tritium deuteride. Equilibria among the isotopic hydrogen molecules. J. Chem. Phys., 1949. 17(11): p. 1062-4.
  • Jones, I.W., Calculation of the thermal conductivity of hydrogen in the liquid and dense gaseous state. 1966: Explosives Res. Devel. Estab., Rep. ERDE 20/R/65, 23 pp.
  • Jones, I.W., Model for the thermal conductivity of liquid hydrogen. J. Chem. Phys., 1966. 44(11): p. 4360-1.
  • Jones, P.M.S. and R. Gibson, The permeation and diffusion of hydrogen isotopes through stainless steels. Part 4: the diffusion of tritium through S110 and EN58E steels at 80 degrees C. 1966: At. Weapons Res. Establ., Rep. 0-58/66, 19 pp.
  • Jones, I.W., Calculation of the thermal conductivity of normal hydrogen in the dense gaseous and liquid states. Int. J. Heat Mass Transfer, 1967. 10: p. 745-54.
  • Jones, W.M., Equilibria in hydrogen-tritium mixtures. Steady states and initial reaction rates at 76.7 degrees K. J. Chem. Phys., 1967. 47(11): p. 4675-9.
  • Jones, M.C., Far-infrared absorption in liquid hydrogen. J. Chem. Phys., 1969. 51(9): p. 3833-4.
  • Jonkman, R.M. and I. Ertas, Translational-rotational relaxation times in gaseous mixtures of parahydrogen and noble gases at low temperatures. Spec. Publ. - Chem. Soc., 1966(20): p. 235-41.
  • Josefiak, C. and G.M. Schneider, Determination of reaction volumes of hydrogen-bonding equilibria by high-pressure near-infrared spectroscopy. 2. Self-association of phenol in CCl(4) up to 1 kbar. J. Phys. Chem., 1980. 84(23): p. 3004-7.
  • Josephy, E., Parahydrogen (in German). Angew. Chem., 1933. 46(18): p. 256-8.
  • Jung, J., O. Knacke, and D. Neuschuetz, Solubility of carbon monoxide and hydrogen in water up to 300 degrees C (in German). Chem.-Ing.-Tech., 1971. 43(3): p. 112-6.
  • Justi, E., On the triple points of nitrogen and of hydrogen as fixed points of the temperature scale (in German). Ann. Phys. (Leipzig), 1931. 10: p. 983-92.
  • Justi, E., On the Triple Points of Nitrogen and of Hydrogen as Fixed Points of the Temperature Scale. Ann. Phys., 1931. 10: p. 983-992.

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