Publications -N-
  • Nabizadeh, H. and F. Mayinger, Viscosity of binary mixtures of hydrogen and natural gas (hythane) in the gaseous phase. High Temperatures-High Pressures, 1999. 31(6): p. 601-612.
  • Nagamiya, T. and K. Urano, Anomaly of the specific heat of solid hydrogen (in Japanese). Busseiron Kenkyu, 1952. 51: p. 1-8.
  • Nagano, H. and J. Ishii, Ortho para hydrogen. The measurement of ortho hydrogen concentration, ortho-para conversion and the enrichment of ortho hydrogen (in Japanese). Teion Kogaku, 1969. 4(3): p. 114-21.
  • Nagara, H., H. Miyagi, and T. Nakamura, Stability of metallic hydrogens with cubic structure. Prog. Theor. Phys., 1976. 56(2): p. 396-414.
  • Nagasaka, J.K. and W.A. Wakeham, The Thermal Conductivity of Mixtures of Hydrogen and Nitrogen. Ber. Bunsenges. Phys. Chem., 1982. 86: p. 187-191.
  • Naidus, E. S., Mueller, M. B., Equilibrium Studies on the Hydrinden-Indene-Hydrogen System, J. Am. Chem. Soc., 1950, 72: p. 1829-1831.
  • Nakahara, R. and M. Hirata, The Prediction of Henry's Constants for Hydrogen-Hydrocarbon Systems. J. Chem. Eng. Japan, 1969. 2(2): p. 137.
  • Nakamura, T., On the quenching of molecular rotation of ortho-hydrogen in solid state. Prog. Theor. Phys., 1955. 14(2): p. 135-50.
  • Nakamura, T., A reflection on the theory of solid hydrogens. Prog. Theor. Phys., Suppl., 1970(46): p. 343-63.
  • Nakamura, T. and H. Miyagi, Quantum theory of Raman scattering in solid ortho-hydrogen and para-deuterium. I. First order processes. Prog. Theor. Phys., 1970. 44(4): p. 833-59.
  • Nakata, T., Infrared absorption of hydrogen and deuterium chemisorbed on nickel. J. Chem. Phys., 1976. 65(1): p. 487-8.
  • Narayana, H. and S.B. Woods, Sound absorption in hydrogen gas at 77 degrees K. Can. J. Phys., 1970. 48: p. 303-6.
  • Narten, A.H. and A. Habenschuss, Hydrogen bonding in liquid methanol and ethanol determined by x-ray diffraction. J. Chem. Phys., 1984. 80(7): p. 3387-91.
  • Nasir, P. and R. Kobayashi, Solubility of hydrogen in 9-methylanthracene, dibenzofuran, and 2-ethylanthraquinone at high temperatures and pressures. J. Chem. Eng. Data, 1981. 26(3): p. 321-3.
  • Nasir, P., R.J. Martin, and R. Kobayashi, A novel apparatus for the measurement of the phase and volumetric behavior at high temperatures and pressures and its application to study VLE in the hydrogen-tetralin system. Fluid Phase Equilib., 1981. 5(3/4): p. 279-88.
  • Nasser, A.E. and H.M. Sofrata, Viscosity, Thermal-Conductivity, Diffusion of Hydrogen Diluted in Argon at High-Temperatures. Warme Und Stoffubertragung-Thermo and Fluid Dynamics, 1980. 14(3): p. 145-151.
  • Neal, W.E.J., J.E. Greenway, and P.W. Coutts. Thermal conduction in hydrogen-helium gas mixtures. in Proc. Phys. Soc. (London). 1966.
  • Neece, G.A., F.J. Rogers, and W.G. Hoover, Thermodynamic properties of compressed solid hydrogen. J. Comput. Phys., 1971. 7: p. 621-36.
  • Nekrasov, L.I. and T.V. Yagodovskaya, The infrared spectra of liquid ozone and the product of its reaction with atomic hydrogen - the peroxy-radical condensate. Russ. J. Phys. Chem. (Engl. Transl.), 1972. 46(11): p. 1547-9.
  • Nellis, W.J., et al., Equation-of-state data for molecular hydrogen and deuterium at shock pressures in the range 2-76 GPa (20-760 kbar). J. Chem. Phys., 1983. 79(3): p. 1480-6.
  • Nelson, E.E. and W.S. Bonnell, Solubility of hydrogen in n-butane. Ind. Eng. Chem., 1943. 35(2): p. 204-6.
  • Nesbitt, D.J. and C.M. Lovejoy, Rigid Bender Analysis of van der Waals Complexes: the Intermolecular Bending Potential of a Hydrogen Bond. J. Chem. Phys., 1992. 96(8): p. 5712-5725.
  • Neusel, R.H. and M. Silver, Striation production during electrical breakdown in hydrogen. J. Appl. Phys., 1965. 36(5): p. 1507-9.
    Newport, R.W. The refractive indices of neon and neon-hydrogen mixtures. in Proc. Int. Conf. Bubble Chamber Technol. 1970.
  • Newitt, D. M., Byrne, B. J., Strong, H. W., Equilibrium in the System Methyl Alcohol-Hydrogen-Carbonic Oxide, Proc. R. Soc. London, 1929, A, 123: p. 236-52.
  • Newton, R. H., Dodge, B. F., The Equilibrium Between Carbon Monoxide,Hydrogen. Formaldehyde and Methanol. I. The Reactions CO + H2 = HCOH and H2 + HCOH = CH3OH, J. Am. Chem. Soc., 1933, 55: p. 4747.
  • Newton, R. H., Dodge, B. F., Equilibrium between carbon monoxide, hydrogen, formaldehyde and methanol. 2. The reaction CO +2H2 = CH3OH, J. Am. Chem. Soc., 1934, 56: p. 1287-1291.
  • Niblett, P.D. and K. Takayanagi. The calculation of some properties of hydrogen gas at low temperatures. in Proc. R. Soc. London, Ser. A. 1959.
  • Nichols, W.B., H.H. Reamer, and B.H. Sage, Volumetric and phase behavior in the hydrogen-n-hexane system. AIChE J., 1957. 3(2): p. 262-7.
  • Nicklin, A.W., The thermal properties of carbon dioxide, nitrogen, air, hydrogen and helium. 1956: U.K. At. Energy Auth., Tech. Note 36, 20 pp.
  • Nielsen, M. and H.B. Moller, Lattice dynamics of solid deuterium by inelastic neutron scattering. Phys. Rev. B, 1971. 3(12): p. 4383-5.
  • Nielsen, M., Phonons in solid hydrogen and deuterium studied by inelastic coherent neutron scattering. Phys. Rev. B, 1973. 7(4): p. 1626-35.
  • Nijhoff, G.P. and W.H. Keesom, Isotherms of di-atomic substances and their binary mixtures. XXXIV. Isotherms of hydrogen at temperatures of 0 degrees and +100 degrees C. Commun. Phys. Lab. Univ. Leiden, 1927(188D): p. 31-4.
  • Nijhoff, G. P., Keesom,W. H., Isotherms of hydrogen at temperatures of 0 and +100 c, Proc. K. Ned. Akad. Wet., 1928, 30: p. 410-2.
  • Nijhoff, G.P., The Second Virial Coefficient of Helium and Hydrogen. Communs. Phys. Lab. Univ. Leiden, 1927. 64: p. 17-27.
  • Nijhoff, G.P., The second virial coefficient of helium and of hydrogen (in French). Commun. Phys. Lab. Univ. Leiden, Suppl., 1928(64C): p. 15-27.
  • Nijhoff, G.P. and W.H. Keesom, Isotherms of di-atomic substances and their binary mixtures. XXXV. Isotherms of hydrogen at temperatures of -225.5 degrees to -248.3 degrees C. and pressures of 1.6 to 4.2 atmospheres. Commun. Phys. Lab. Univ. Leiden, 1928(188E): p. 35-8.
  • Nijhoff, G.P. and W.H. Keesom, Isotherms of Di-atomic Substances and Their Binary Mixtures. XXXIV. Isotherms of Hydrogen at Temperatures of 0ø and +100øC. Communs. Phys. Lab. Univ. Leiden, 1928. 188: p. 31.
  • Nijhoff, G.P. and W.H. Keesom, Isotherms of Di-Atomic Substances and Their Binary Mixtures. XXXV. Isotherms of Hydrogen at Temperatures of -225.5ø to -248.3ø C and Pressures of 1.6 to 4.2 Atmospheres. Communs. Phys. Lab. Univ. Leiden, Number 188e, pp. 35-8, 1928; transl. of Versl. Gewone Vergad. Afd. Natuurkd., K. Ned. Akad. Wet., 1928. 37: p. 35-6.
  • Nir, S., S. Adams, and R. Rein, Polarizability calculations on water, hydrogen, oxygen, and carbon dioxide. J. Chem. Phys., 1973. 59(6): p. 3341-55.
  • Nishiumi, H., Vapor-liquid equilibrium calculation of systems containing hydrogen by extended BWR equation of state. J. Chem. Eng. Jpn., 1983. 16(6): p. 449-53.
  • Nishiumi, H. and M. Fukushima, Correlation of binary interaction parameters of the extended BWR equation of state for systems containing hydrogen. J. Chem. Eng. Jpn., 1989. 22(2): p. 205-7.
  • Nishiumi, H. and H. Gotoh, Generalization of binary interaction parameters of Peng-Robinson equation of state for systems containing hydrogen. Fluid Phase Equilib., 1990. 56: p. 81-8.
  • Noolandi, J., Lattice dynamical effects in the frequency analysis of the infrared and Raman spectra of solid parahydrogen. Can. J. Phys., 1970. 48(17): p. 2032-55.
  • Noolandi, J. and J. Van Kranendonk, Effect of the lattice vibrations on the rotational excitations in solid hydrogen. Can. J. Phys., 1970. 48(6): p. 675-86.
  • Norman, M.J., R.O. Watts, and U. Buck, A spherical potential for hydrogen from solid state and scattering data. J. Chem. Phys., 1984. 81(8): p. 3500-4.
  • Norris, M.O., et al., Nuclear magnetic spin relaxation in solid solutions of hydrogen bromide in deuterium bromide. J. Phys. C, 1968. 1(2): p. 422-44.
  • Nunez, L., Pilcher, G., Skinner, H. A., Hot-zone Reaction Calorimetry. The Enthalpies of Formation of Copper Oxides, J. Chem. Thermodyn., 1969, 1: p. 31-43.
  • Nyeland, C. and G.D. Billing, Thermal conductivities of ortho and para hydrogen. Chem. Phys., 1977. 22(1): p. 89-93.

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