Publications -L-
  • Lachowicz, S.K., The relative solubility of hydrogen and deuterium in liquids at low temperatures. Res. Corresp., 1955. 8(6): p. S27-8.
  • Lacy, B. S., Dunning, R. G., Storch, H. H., Equilibrium in the Synthesis and Decomposition of Methanol, J. Am. Chem. Soc., 1930, 52: p. 926-38.
  • Lagendijk, A., R.J. Wijngaarden, and I.F. Silvera, Roton-phonon mixing in solid hydrogen and deuterium. Phys. Rev. B, 1985. 31(3): p. 1352-8.
  • Lagus, P.L. and T.J. Ahrens, Shock wave measurements on solid hydrogen and argon. J. Chem. Phys., 1973. 59(7): p. 3517-22.
  • Lalita, K., M. Bloom, and J.D. Noble, Nuclear spin relaxation in hydrogen gas. Can. J. Phys., 1969. 47: p. 1355-69.
  • Lallemand, P. and P. Simova, Stimulated Raman spectroscopy in hydrogen gas. J. Mol. Spectrosc., 1968. 26(2): p. 262-76.
  • Lancaster, N. M., Wormald, C. J., Excess molar enthalpies of nine binary steam mixtures: new and corrected values, J. Chem. Eng. Data, 1990, 35: p. 11.
  • Lander, H.R., R.F. Dwyer, and G.A. Cook, Heat of fusion and density of solid parahydrogen at pressures to about 400 atmospheres. Adv. Cryog. Eng., 1965. 11: p. 261-71.
  • Lang, E. and H.-D. Luedemann, Pressure and temperature dependence of the longitudinal deuterium relaxation times in supercooled heavy water to 300 MPa and 188 K. Ber. Bunsenges. Phys. Chem., 1980. 84(5): p. 462-70.
  • Lapworth, K.C., Normal shock-wave tables for air, argon, carbon dioxide, carbon monoxide, hydrogen, nitrogen, nitrous oxide and oxygen. 1970: Min. Technol., Curr. Pap. 1101, 31 pp.
  • Larson, A.T. and C.A. Black, Solubility of a mixture of hydrogen and nitrogen in liquid ammonia. Ind. Eng. Chem., 1925. 17(7): p. 715-6.
    Larson, A.T. and C.A. Black, The concentration of ammonia in a compressed mixture of hydrogen and nitrogen over liquid ammonia. J. Am. Chem. Soc., 1925. 47: p. 1015-20.
  • Larson, A. T., Dodge, R. L., The Ammonia Equilibrium, J. Am. Chem. Soc., 1923, 45: p. 2918.
  • Laugier, S., D. Richon, and H. Renon, Vapor-liquid equilibria of hydrogen-2, 2,4-trimethylpentane and hydrogen-toluene systems at high pressures and temperatures. J. Chem. Eng. Data, 1980. 25(3): p. 274-6.
  • Laugier, S., D. Richon, and H. Renon, Representation of hydrogen-hydrocarbon vapour-liquid equilibria and saturated densities at high pressures and temperatures. Chem. Eng. Sci., 1986. 41(9): p. 2407-17.
  • Le Comber, P.G., J.B. Wilson, and R.J. Loveland, Transport of excess charge carriers in liquid and solid hydrogen. Solid State Commun., 1976. 18(3): p. 377-80.
  • Le Coroller, H. and D. Gillet, Diffusion velocity and reactive thermal conductivity for shock waves propagating in the hydrogen gas. Astronomy & Astrophysics, 2002. 393(2): p. 693-701.
  • Lee, R.J., J.C. Raich, and R.D. Etters, Calculation of the J = 3 roton spectrum of solid hydrogen and deuterium. J. Low Temp. Phys., 1970. 2(2): p. 255-65.
  • Lee, R.J., J.C. Raich, and R.D. Etters, Cluster variation expansion for solid ortho-hydrogen. Solid State Commun., 1970. 8(22): p. 1803-6.
  • Lee, R.J. and J.C. Raich, fcc-hcp transition in solid orthohydrogen. Phys. Rev. Lett., 1971. 27(17): p. 1137-40.
  • Lee, R.J. and J.C. Raich, Cluster expansion for solid orthohydrogen. Phys. Rev. B, 1972. 5(4): p. 1591-604.
  • Lee, J.H., et al., Absolute rate of the reaction of atomic hydrogen with ethylene from 198 to 320 K at high pressure. J. Chem. Phys., 1978. 68(4): p. 1817-20.
  • Leffler, A.J., Radiation activation of para-ortho hydrogen catalysts. 1963: Arthur D. Little, Inc., Tech. Doc. Rep. RTD-TDR-63-4106, 57 pp.
  • Lehmer, W., Industrial realizations of distillation of hydrogen (in French). 1965: IIR-CRTBT Meeting, Paper, 1 pp.
  • Lemarechal-Dupuis, A., Contribution to the study of thermal diffusion in isotopic mixtures of hydrogen (in French). 1969: Rapp. CEA-R - Fr., Commis. Energ. At., (CEA-R-3598), 86 pp.
  • Lemmon, E.W., Huber, M.L., Friend, D.G., Standardization Equation for Hydrogen Gas Densities for Fuel Consumption Applications, paper 06CONG-22 presented at SAE World Congress 2006, Detroit MI April 3-6, 2006 PDF icon
  • Lemmon, E.W. and R.T. Jacobsen, Thermodynamic Properties of Mixtures Containing Helium or Hydrogen from a Helmholtz Energy Mixture Model. presented at the Fourteen Symposium on Thermophysical Properties, June 28, 2000.
  • Lennard-Jones, J.E. The molecular fields of hydrogen, nitrogen and neon. in Proc. R. Soc. London, Ser. A. 1926.
  • Lenoir, J.M. and E.W. Comings, Thermal conductivity of gases.  Measurement at high pressure. Chem. Eng. Prog., 1951. 47(5): p. 223-31.
  • Lenoir, J.M. and H.G. Hipkin, Equilibrium ratios of hydrogen and the critical loci of hydrogen-paraffin mixtures. AIChE J., 1957. 3(3): p. 318-20.
  • Leonas, V.B. and V.N. Khromov, Experimental investigation of short-range intermolecular forces in hydrogen. Sov. Phys. - Dokl. (Engl. Transl.), 1978. 23(5): p. 330-2.
  • Leonteva, A.V., G.A. Marinin, and T.N. Anisimova, Internal-friction anomalies in crystalline hydrogen. JETP Lett. (Engl. Transl.), 1985. 42(6): p. 314-7.
  • Leonteva, A.V., et al., Influence of quantum effects on low frequency internal friction in crystalline hydrogen and neon (in Russian). Fiz. Nizk. Temp., 1988. 14(3): p. 305-7.
  • Leung, W.B., N.H. March, and H. Motz, Primitive phase diagram for hydrogen. Phys. Lett. A, 1976. 56(6): p. 425-6.
  • Leutz, H., F. Schmeissner, and H. Wenninger, Selected physics data on neon-hydrogen mixtures. 1974: CERN, Rep. 74-20, 170 pp.
  • Levchenko, A.A. and L.P. Mezhov-Deglin, Effect of orthoimpurity on the velocity of charge motion in solid parahydrogen (in Russian). Fiz. Nizk. Temp., 1989. 15(7): p. 765-7.
  • Levitskaya, E. and K. Pryannikov, Liquid-vapor equilibrium in the binary system hydrogen-ethane (in Russian). Zh. Tekh. Fiz., 1939. 9(20): p. 1849-53.
  • Levitskaya, E.P., Study of the liquid-vapor equilibria of the ternary system ethane-methane-hydrogen (in Russian). Zh. Tekh. Fiz., 1941. 11(3): p. 197-204.
  • Levitskaya, E.P., Vapor-Liquid Equilibrium in the Ternary System: Ethane - Methane - Hydrogen. J. Tech. Phys. USSR, 1941. 11: p. 197-204.
  • Lewis, G.N. and W.T. Hanson, Jr., The vapor pressure of mixtures of light and heavy hydrogen. J. Am. Chem. Soc., 1934. 56: p. 1000-1.
  • Lewis, G.N. and W.T. Hanson, Jr., The vapor pressure of solid and liquid heavy hydrogen. J. Am. Chem. Soc., 1934. 56: p. 1001-2.
  • Lewis, G.N. and W.T.J. Hanson, The Vapor Pressure of Mixtures of Light and Heavy Hydrogen. J. Am. Chem. Soc., 1934. 56: p. 1000.
  • Lewis, G.N. and W.T. Hanson, Jr., The vapor pressure of solid and liquid deuterium and the heats of sublimation, of fusion and of vaporization. J. Am. Chem. Soc., 1934. 56: p. 1687-90.
  • Lewis, K.L., S.E. Mosedale, and C.J. Wormald, The enthalpies of mixing of methane + argon, methane + nitrogen, and methane + hydrogen in the gaseous and two-phase regions. J. Chem. Thermodyn., 1977. 9(2): p. 121-31.
  • Lialine, L., Hestermans, P. and L. Deffet. Determination of the Compressibility of a Hydrogen-Nitrogen Mixture by a Method Suitable for the Study of Industrial Gases. in Proc. Joint Conf. on Thermodynamic and Transport Properties of Fluids, Int. Mech. Engineers, London. 1957.
  • Lialine, L., P. Hestermans, and L. Deffet. Determination of the compressibility of a hydrogen-nitrogen mixture by a method suitable for the study of industrial gases. in Proc. Jt. Conf. Thermodyn. Transp. Prop. Fluids. 1958.
  • Libby, W.F. and C.A. Barter, Vapor pressures of the tritium liquid hydrogens. Dependence of hydrogen vapor pressure on mass of the molecule. J. Chem. Phys., 1942. 10: p. 184-6.
  • Lichtblau, I.M., R.H. Bretton, and B.F. Dodge, Compressibility of ammonia and its mixtures with nitrogen and hydrogen. AIChE J., 1964. 10(4): p. 486-90.
  • Lichten, W., Metastable hydrogen molecules. II. Fine structure of parahydrogen. Phys. Rev., 1962. 126(3): p. 1020-7.
  • Liebenberg, D.H., R.L. Mills, and J.C. Bronson, Measurement of P, V, T, and sound velocity across the melting curve of n-H(2) and n-D(2) to 19 kbar. Phys. Rev. B, 1978. 18(8): p. 4526-32.
  • Liebenberg, D.H., R.L. Mills, and J.C. Bronson, P-V-T and Sound Velocity Data for Fluid n-H(2) in the Range 75-307 K and 2-20 kbar. Los Alamos Inf. Rep. LA-6641-MS (1977).
  • Likhter, A.I. and N.P. Tikhonovich, Vapor-liquid equilibrium in the ethylene-methane-hydrogen system (in Russian). Zh. Tekh. Fiz., 1939. 9(21): p. 1916-22.
  • Likhter, A.I. and N.P. Tikhonovich, Vapor-Liquid in the System of Equilibrium Ethylene-Methane-Hydrogen. I. Binary System Ethylene-Hydrogen. Zh. Tekh. Fiz., 1939. 9(21): p. 1916-1922.
  • Likhter, A.I. and N.P. Tikhonovich, Vapor-liquid equilibrium in the system ethylene-methane-hydrogen (in Russian). Zh. Tekh. Fiz., 1940. 10(14): p. 1201-6.
  • Likhter, A.I. and N.P. Tikhonovich, The Vapor-Liquid Equilibrium in the System Ethylene-Methane-Hydrogen. J. Tech. Phys. USSR, 1940. 40: p. 1201-1206.
  • Lim, T.-K. and B. Linder, p-character and the polarizability of molecular hydrogen. Theor. Chim. Acta, 1970. 19(1): p. 38-44.
  • Lim, T.K. and S.Y. Larsen, The quantum-mechanical second virial coefficients of electron-spin-polarized atomic hydrogen and its admixtures with the isotopes of helium. J. Chem. Phys., 1981. 75(2): p. 955-6.
  • Lim, T.K., The quantal collision integrals and transport coefficients of dilute gaseous spin-polarized hydrogen and its admixtures with the isotopes of helium. J. Chem. Phys., 1982. 77(12): p. 6197-202.
  • Lim, T.K. and P.A. Maurone, The quantal collision integrals and transport coefficients of dilute gaseous spin-polarized deuterium with spin-polarized hydrogen and the isotopes of helium. J. Chem. Phys., 1983. 79(3): p. 1452-4.
  • Lim, T.K., Entropy, Baierlein's theorem, and spin-polarized hydrogen. J. Chem. Phys., 1985. 82(3): p. 1616-7.
  • Lin, H.-M., H.M. Sebastian, and K.-C. Chao, Gas-liquid equilibrium in hydrogen + n-hexadecane and methane + n-hexadecane at elevated temperatures and pressures. J. Chem. Eng. Data, 1980. 25(3): p. 252-4.
  • Lin, H.M., H.M. Sebastian, and K.C. Chao, Gas-liquid equilibria of hydrogen + 1-methylnaphthalene at 457 degrees C. Fluid Phase Equilib., 1980. 4(3/4): p. 321.
  • Lin, H.-M., H.M. Sebastian, and K.-C. Chao, Vapor-liquid equilibrium in ternary mixtures of hydrogen + carbon dioxide + 1-methylnaphthalene. Fluid Phase Equilib., 1981. 7(1): p. 87-91.
  • Lin, H.-M., et al., Solubilities of hydrogen and methane in coal liquids. Ind. Eng. Chem. Process Res. Dev., 1981. 20(2): p. 253-6.
  • Lin, H.-M., et al., Measurement and prediction of vapor-liquid equilibrium for an H-coal and an SRC coal liquid with and without hydrogen. Ind. Eng. Chem. Process Des. Dev., 1985. 24: p. 1225-30.
  • Lin, H.-M., et al., Vapor-liquid equilibrium in mixtures of water + quinoline + hydrogen. J. Chem. Eng. Data, 1985. 30(3): p. 324-5.
  • Lin, H.M., et al., Measurement and Prediction of Vapor-Liquid Equilibrium for an H-Coal and an SRC Coal Liquid with and without Hydrogen. Ind. Eng. Chem. Process Des. Dev., 1985. 24: p. 1225-30.
  • Lin, Y. and N.S. Sullivan, Spectral inhomogeneity of nuclear spin-lattice relaxation in orientationally ordered solid hydrogen. J. Low Temp. Phys., 1986. 65(1/2): p. 1-11.
  • Linshits, L.R., A.I. Semenova, and D.S. Tsiklis, Thermodynamic properties of nitrogen-hydrogen mixtures, containing methane, argon and ammonia (in Russian). Zh. Fiz. Khim., 1968. 42(10): p. 2428-34.
  • Linshits, L.R., et al., Solubility of water in a compressed mixture of nitrogen and hydrogen. Russ. J. Phys. Chem. (Engl. Transl.), 1978. 52(1): p. 99-100.
  • Lipsicas, M. and M. Bloom, Nuclear magnetic resonance measurements in hydrogen gas. Can. J. Phys., 1961. 39: p. 881-907.
  • Lipsicas, M., NMR measurements of self-diffusion in normal hydrogen gas from 55 degrees to 90 degrees K. J. Chem. Phys., 1962. 36(5): p. 1235-7.
  • Lipsicas, M. and A. Hartland, Nuclear spin-lattice relaxation in liquid hydrogen. J. Chem. Phys., 1966. 44(8): p. 2839-43.
  • Liu, F.F. Dynamic phase transitional phenomena associated with cryogenic hydrogen flow in the temperature range of from 20 degrees K to 23 degrees K: some experimental observations. in Proc. Int. Congr. Refrig., Prog. Refrig. Sci. Technol. (Paper 1.15). 1969.
  • Liu, Q., Takemura, F., Yabe, A., Solubility of Hydrogen in Liquid Methanol and Methyl Formate at 20 .degree. C to 140 .degree.C, J. Chem. Eng. Data, 1996, 41: p. 1141-1143.
  • Lobko, M.P. and V.V. Pashkov, Dielectric properties of hydrogen and neon solutions in liquid argon and intermolecular interactions (in Russian). Ukr. Fiz. Zh., 1980. 25(6): p. 901-6.
  • Loeb, M.B., Density of nitrogen, hydrogen and helium at high pressures. Chem. Eng. (N. Y.), 1971. 78(27): p. 78-81.
  • Lombardi, E., C. Almirante, and L. Jansen, The system of two hydrogen atoms in a 1s Gaussian model and its semi-empirical extension to other diatomic molecules. Chem. Phys. Lett., 1984. 108(1): p. 1-6.
  • London, F., Alignment of hydrogen molecules by high pressure. Phys. Rev., 1956. 102(1): p. 168-71.
  • Long, E.A. and O.L.I. Brown, A comparison of the data of state of normal and para hydrogen from the boiling point to 55 degrees K. J. Am. Chem. Soc., 1937. 59: p. 1922-4.
  • Lopatinskii, E. S., Rozhnov, M. S., Zhdanov, V. I., Parnovskii, S. L., Kudrya,Y. N., Second virial coefficients of gas mixtures of hydrocarbons,carbon dioxide, and hydrogen with nitrogen and argon, Zh. Fiz. Khim., 1991, 65: p. 2060-5.
  • Lopez, M. C., Gallardo, M. A., Urieta, J. S., Gutierrez Losa, C., Solubility of Nonpolar Gases in Halogenated Compounds 2. Solubility of H2,D2,N2,O2,CH4,C2H4,C2H6,CF4,SF6,and CO2 in Bromocyclohexane at 263.16-303.15 K and 101.32 kPa Partial Pressure of Gas, J. Chem. Eng. Data, 1989, 34: p. 198.
  • Los, J. and C.J.G. Slieker, Thermal diffusion in isotopic hydrogen and hydrogen-helium mixtures. I. Theoretical approach. Physica (Amsterdam), 1965. 31: p. 1346-56.
  • Los, J. and C.J.G. Slieker, Thermal diffusion in isotopic hydrogen and hydrogen-helium mixtures. Physica, 1965. 31(8): p. 1346-56.
  • Lu, H.C. and W. Sheng, High pressure low temperature vapor-liquid equilibria of hydrogen containing systems. Fluid Phase Equilib., 1985. 23: p. 1-13.
  • Lu, X., Wu, Z., Hou, Y., Solubilities of N2,H2,Ar in 1-octanol at high pressure, Fluid Phase Equilib., 1994, 92: p. 139-48.
  • Lucic, B., et al., Correlation of liquid viscosity with molecular structure for organic compounds using different variable selection methods. Arkivoc, 2002: p. 45-59.
  • Ludtke, P.R. and H.M. Roder, A compilation of selected thermophysical properties of deuterium. 1971: Natl. Bur. Stand., Rep. 10708, 62 pp.
  • Ludtke, P.R., Register of Hydrogen Technology Experts. 1975: NASA Contr. Rep., (NASA-CR-2624), 80 pp.
  • Ludwig, B.M. and J. Voitlaender, The magnetic properties of the hydrogen molecule. Z. Naturforsch., 1969. 242(3): p. 471-3.
  • Luhring, P., Schumpe. A., Gas Solubilities (H2,He,N2,CO,O2,Ar,CO2) in Organic Liquids at 293.2K, J. Chem. Eng. Data, 1989, 34: p. 250.
  • Lukasik, J. and J. Ducuing, Vibrational relaxation of deuterium at 300 degrees K. J. Chem. Phys., 1974. 60(1): p. 331-2.
  • Lukin, V.I., B.A. Ivakin, and P.E. Suetin, Temperature Dependence of the Viscosity Coefficients of Some Gases. Sov. Phys. Tech. Phys., 1983. 28(5): p. 597.
  • Lundgren, J.-O. and I. Olovsson, Hydrogen-bond studies. XXX. The crystal structure of hydrogen bromide tetrahydrate, (H(7)O(3))+(H(9)O(4))+2Br-.H(2)O. J. Chem. Phys., 1968. 49(3): p. 1068-74.
  • Lunt, R.W., The behaviour of hydrogen in the discharge due to alternating electric fields of high frequency. Philos. Mag., 1925. 49(294): p. 1238-49.
  • Lusis, M.A. and G.A. Ratcliff, Diffusion of inert and hydrogen-bonding solutes in aliphatic alcohols. AIChE J., 1971. 17(6): p. 1492-6.
  • Lyusternik, V.E., Equation of viscosity of compressed gaseous and liquid hydrogen. High Temp. (Engl. Transl.), 1969. 7(2): p. 335-7.
  • Lyusternik, V.E., Y.V. Mamonov, and S.A. Ulybin, Viscosity of normal and parahydrogen on the saturation line. Tr. Vses. Nauchno-Issled. Inst. Fiz.-Tekh. Radiotekh. Izmer., 1973(4): p. 231-42.
  • Lyusternik, V.E. and Y.V. Mamonov, Correction of experimental viscosities of parahydrogen. Thermophys. Prop. Matter Subst., 1974. 2: p. 78-91.
  • Lyusternik, V.E., Viscosity of parahydrogen (in Russian). Teplofiz. Svoistva Veshchestv Mater., 1976. 10: p. 105-47.

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