Publications -T-
  • Taesler, I. and I. Olovsson, Hydrogen bond studies. XXXVII. The crystal structure of sulfuric acid dihydrate (H(3)O(+))(2)SO(4)(2-). J. Chem. Phys., 1969. 51(10): p. 4213-9.
  • Tagashira, H. and J. Lucas, The measurement of ionization coefficients in hydrogen and nitrogen. Br. J. Appl. Phys., 1969. 2(6): p. 867-80.
  • Takeuchi, K., Matsumura, K., Yaginuma, K., Fluid Phase Equilib., 1983, 14: p. 255-63.
  • Tamagno, J. and N. Trentacoste, An experimental and analytical investigation of ignition and axi-symmetric turbulent flame propagation in hydrogen-air mixtures at supersonic speeds. 1964: Gen. Appl. Sci. Lab., Inc., Tech. Rep. 445, 77 pp.
  • Tanabe, T., H. Adachi, and S. Imoto, Ortho-para conversion and isotopic exchange of hydrogen on uranium and various uranium compounds. Technol. Rep. Osaka Univ., 1973. 23: p. 721-6.
  • Tang, K.T., J.M. Norbeck, and P.R. Certain, Upper and lower bounds of two- and three-body dipole, quadrupole, and octupole van der Waals coefficients for hydrogen, noble gas, and alkali atom interactions. J. Chem. Phys., 1976(6497): p. 3063-74.
  • Tapper, R.J., Tables of vapour pressure and molar volume for liquid hydrogen and deuterium. 1965: Natl. Inst. Res. Nucl. Sci. (G. B.), Rep. NIRL/R/95, 17 pp.
  • Tausz, J. and H. Goerlacher, On the light refraction in hydrogen, oxygen, argon and nitrogen (in German). Z. Tech. Phys., 1931. 12(2): p. 123-5.
  • Tausz, J. and H. Goerlacher, On the refraction of light in hydrogen, oxygen, argon and nitrogen (in German). Z. Tech. Phys., 1931. 12(1): p. 19-24.
  • Taylor, W.J. Cooperative molecular rotation in solid hydrogen and the Kirkwood-Opechowski method of moments. in Proc. Int. Conf. Low Temp. Phys. Chem. 1958.
  • Taylor, F.W. and A.D. Jones, III, Spectral properties of hydrogen, helium, methane, and ammonia at thermal infrared wavelengths. Icarus, 1976. 29(2): p. 299-306.
  • Telepnev, A.S., Approximation of equation of state for solid molecular hydrogen in a wide range of densities (in Russian). Fiz. Nizk. Temp., 1989. 15(3): p. 334.
  • Tempelmeyer, K.E., Sorption pumping of hydrogen by cryodeposits - dynamic pumping characteristics. 1970: ARO, Inc., Tech. Rep. AEDC-TR-70-102, 76 pp.
  • ter Harmsel, H., The heat of vaporization of hydrogen and of helium. 1966, Rijksuniv, Leiden, Netherlands, Ph.D. Dissertation, 69 pp.
  • ter Harmsel, H., H. van Dijk, and M. Durieux, The heat of vaporization of equilibrium hydrogen. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1967(353C): p. 1-20.
  • Terao, K., Explosion limits of hydrogen-oxygen mixture as a stochastic phenomenon. Jpn. J. Appl. Phys., 1977. 16(1): p. 29-38.
  • Terebesi, L., The thermodynamic functions of aluminum, alpha-aluminum oxide, beta-graphite, hydrogen and carbon monoxide (in German). Helv. Chim. Acta, 1934. 17: p. 804-19.
  • Tereshchenko, E.N., Optical properties and surface tension of parahydrogen (in Russian). Teplofiz. Svoistva Veshchestv Mater., 1975. 9: p. 126-34.
  • Terry, J.E., A bibliography on solid hydrogen crystallography. 1965: Redstone Sci. Inform. Center, Rep. RSIC-393, 14 pp.
  • Thakkar, A.J., Higher Dispersion Coefficients: Accurate Values for Hydrogen Atoms and Simple Estimates for Other Systems. J. Chem. Phys., 1988. 89(4): p. 2092-2098.
  • Thomas, P.J., S.C. Rand, and B.P. Stoicheff, Elastic constants of parahydrogen determined by Brillouin scattering. Can. J. Phys., 1978. 56(11): p. 1494-501.
  • Thomas, G.F. and W.J. Meath, Van der Waals constants for hydrogen and light alkane pair interactions. AIChE J., 1979. 25(2): p. 352-4.
  • Thompson, W., The physical adsorption of hydrogen on polyethylene and Teflon. Commun. Kamerlingh Onnes Lab. Univ. Leiden, 1960(322C): p. 1-27.
  • Thompson, R.E. and W.C. Edmister, Erratum. Vapor-liquid equilibria in hydrogen-benzene and hydrogen cyclohexane mixtures, AIChE J., 11(3), 457-61 (1965). AIChE J., 1965. 11(4): p. 757.
  • Thompson, R.E. and W.C. Edmister, Vapor-liquid equilibria in hydrogen-benzene and hydrogen-cyclohexane mixtures. AIChE J., 1965. 11(3): p. 457-61.
  • Thurston, R.S., Thermal-acoustic oscillations induced by forced convection heating of dense hydrogen. 1966: Los Alamos Sci. Lab., Rep. LA-3543, 159 pp.
  • Thurston, R.S., The effect of self-induced thermal-acoustic oscillations on heat transfer to hydrogen. 1967: Los Alamos Sci. Lab., Rep. LA-3616, 36 pp.
  • Tien, H., T. Nenner, and J.B. Fenn, Long range attractive forces for hydrogen-light hydrocarbon pairs. AIChE J., 1976. 22(2): p. 405-7.
  • Timrot, D.L. and A.S. Umanskii, Thermal conductivity of hydrogen and argon. High Temp. (Engl. Transl.), 1966. 4(2): p. 285-7.
  • Timrot, D.L., V.E. Lyusternik, and I.N. Teterina, Density and viscosity of hydrogen in the pressure range from 1 to 200 at low temperatures (in Russian). Tr. Vses. Nauchno-Issled. Inst. Fiz.-Tekh. Radiotekh. Izmer., 1967(92): p. 102-13.
  • Timrot, D.L., A.S. Umanskii, and V.V. Koroleva, Thermal conductivity of helium, hydrogen and argon at high temperatures (in Russian). Teplofiz. Svoistva Zhidk. Gazov. Vys. Temp. Plazmy, Tr. Vses. Conf., 1969. 1966: p. 207-16.
  • Tiwari, K.K. and D.B. Robinson, Volumetric behavior of the ethane-hydrogen sulphide system. Can. J. Chem. Eng., 1971. 49: p. 637-41.
  • Tkachenko, E.A., E.M. Holleran, and R.A. Moses, Equation of state for parahydrogen. Cryogenics, 1964. 4(1): p. 12-6.
  • Tomita, K. and I. Mannari, On the state of solid hydrogen. Prog. Theor. Phys., 1953. 10: p. 367-9.
  • Tomita, K., On the rotational transition in solid hydrogen. Phys. Rev., 1955. 98: p. 1197.
  • Tomita, K. On the state of solid hydrogen. in Proc. Phys. Soc. (London), Sect. A. 1955.
  • Torocheshnikov, N.S. and V.A. Semenova, Equilibrium of liquid-vapor in the system hydrogen-methane-nitrogen-carbon monoxide at a temperature of 78 degrees K (in Russian). Tr. Mosk. Khim.-Tekhnol. Inst. im. D. I. Mendeleeva, 1954(18): p. 115-7.
  • Tourneur, J., A.-P. Legrand, and D. Marchand, Measurement by nuclear magnetic resonance of the velocity of ortho-para conversion in liquid hydrogen in contact with an aluminum-nickel catalyst; influence of molecular diffusion (in French). C. R. Hebd. Seances Acad. Sci., Ser. C, 1975. 281(21): p. 841-4.
  • Tovbin, Y.K. and V.N. Komarov, Calculation of compressibility and viscosity of nonideal gases within the framework of the lattice model. Russian Journal of Physical Chemistry, 2001. 75(3): p. 490-495.
  • Townend, D.T.A. and L.A. Bhatt. Isotherms of hydrogen, carbon monoxide and their mixtures. in Proc. R. Soc. London, Ser. A. 1931.
  • Townend, D. T. A., Bhatt, L. A., Isotherms of Hydrogen,Carbon Monoxide,and their Mixtures, Proc. R. Soc. A., 1932, 134: p. 502.
  • Trainor, D.W., D.O. Ham, and F. Kaufman, Gas phase recombination of hydrogen and deuterium atoms. J. Chem. Phys., 1973. 58(10): p. 4599-609.
  • Trautz, M. and A. Melster, The viscosity, thermal conductivity and diffusion in gas mixtures.  XI.  The viscosity of H(2), N2, CO, C(2)H(4), O2 and their binary mixtures (in German). Ann. Phys. (Leipzig), 1930. 7: p. 409-26.
  • Trautz, M. and F. Kurz, The viscosity, thermal conductivity and diffusion in gas mixtures.  XV.  The viscosity of H(2), N2O, CO2 and C(3)H(8) and their binary mixtures (in German). Ann. Phys. (Leipzig), 1931. 9: p. 981-1003.
  • Trautz, M. and F.W. Stauf, The viscosity, thermal conductivity and diffusion in gas mixtures.  III.  The viscosity of H(2)-C(2)H(4) mixtures (in German). Ann. Phys. (Leipzig), 1929. 2: p. 737-42.
  • Trautz, M. and H.E. Binkele, The viscosity, thermal conductivity and diffusion in gas mixtures, VII. (in German). Ann. Phys. (Leipzig), 1930. 5: p. 561-580.
  • Trautz, M. and H. Zimmermann, The viscosity, thermal conductivity and diffusion of gas mixtures. XXX. The viscosity at low temperatures of hydrogen, helium and neon and binary mixtures thereof down to 90.0 degrees abs (in German). Ann. Phys. (Leipzig), 1935. 22: p. 189-94.
  • Trautz, M. and H. Zimmermann, The Viscosity, Thermal Conductivity and Diffusion in Gas Mixture. XXX. The Solid Viscosity of Lower Temperatures of Hydrogen, Helium and Neon and Binary Mixtures above 90.0ø abs. Ann. Phys., 1935. 22(5): p. 189.1986.
  • Trautz, M. and K.G. Sorg, The viscosity, thermal conductivity and diffusion in gas mixtures.  XVI.  The viscosity of H2, CH4, C2H6, C3H8 and their binary mixtures (in German). Ann. Phys. (Leipzig), 1931. 10: p. 81-96.
  • Trautz, M. and P.B. Baumann, The viscosity, thermal conductivity and diffusion in gas mixtures.  II.  The viscosity of H(2)-N2 and H(2)-CO mixtures (in German). Ann. Phys. (Leipzig), 1929. 2: p. 733-6.
  • Trautz, M. and R. Heberling, The viscosity, thermal conductivity and diffusion in gas mixtures.  XVII.  The viscosity of NH3 and its mixtures with H2, N2, O2, C2H4 (in German). Ann. Phys. (Leipzig), 1931. 10: p. 155-77.
  • Trautz, M. and R. Heberling, The viscosity, thermal conductivity and diffusion in gas mixtures. XXV. The viscosity of xenon and its mixtures with hydrogen and helium (in German). Ann. Phys. (Leipzig), 1934. 20: p. 118-20.
  • Trautz, M. and R. Zink, The viscosity, thermal conductivity and diffusion in gas mixtures.  XII.  Gas viscosity at high temperatures (in German). Ann. Phys. (Leipzig), 1930. 7: p. 427-52.
  • Trautz, M. and W. Ludewigs, The viscosity, thermal conductivity and diffusion in gas mixtures.  VI.  Viscosity determinations on pure gases by direct measurement and by the same means on their mixtures (in German). Ann. Phys. (Leipzig), 1929. 3(5): p. 409-28.
  • Trautz, M. and W. Weizel, Determination of the viscosity of sulfur dioxide and its mixtures with hydrogen (in German). Ann. Phys. (Leipzig), 1925. 78(20): p. 305-69.
  • Travers M.W. and A. Jaquerod, Pressure Coefficients of Hydrogen and Helium,  Proc. R. Soc. London 484 (1902).
  • Travers, M.W. and A. Jaquerod, On temperature measurement. Part III: on the vapor pressure of liquid hydrogen at temperatures below its boiling point on the hydrogen- and helium- scales at constant volumes (in German). Z. Phys. Chem., Stoechiom. Verwandschaftsl., 1903. 45: p. 435-60.
  • Travers, M.W. and A. Jaquerod, On the measurement of temperature. Part I. - on the pressure coefficients of hydrogen and helium at constant volume and at different initial pressures. Philos. Trans. R. Soc. London, Ser. A, 1903. 200: p. 105-34.
  • Travers, M.W. and A. Jaquerod, On the measurement of temperature. Part III. - on the vapour pressures of liquid hydrogen at temperatures below its boiling-point on the constant-volume hydrogen and helium scales. Philos. Trans. R. Soc. London, Ser. A, 1903. 200: p. 155-80.
  • Travers, M.W., G. Senter, and A. Jaquerod, On the measurement of temperature. Part II. - on the vapour pressures of liquid oxygen at temperatures below its boiling-point on the constant-volume hydrogen and helium scales. Philos. Trans. R. Soc. London, Ser. A, 1903. 200: p. 135-54.
  • Travers, M. W., Hockin, L. E., On the influence of hydrogen on the pyrolysis of ethane and ethylene near 6 00 degree (Celcius). Part I, Proc. R. Soc. London, 1932, A, 136: p. 1-27.
  • Trengove, R.D. and P.J. Dunlop. Diffusion and thermal diffusion in binary mixtures of hydrogen with neon, argon, krypton and xenon. in Proc. Symp. Thermophys. Prop. 1982.
  • Trengove, R.D. and P.J. Dunlop, Diffusion and thermal diffusion in binary mixtures of deuterium with neon, argon, krypton and xenon at 300 K. Ber. Bunsenges. Phys. Chem., 1982. 86(7): p. 628-32.
  • Trevino Arizpe, R., Study of the binary equilibrium between hydrogen and its isotopes (in Spanish). Rev. Mex. Fis., 1955. 4(1): p. 23-34.
  • Trimble, G.D., G.K. Houghton, and A.E. Profio, Final report. Measurement of neutron spectra in liquid hydrogen. 1966: NASA Contr. Rep., (NASA-CR-72143), 234 pp.
  • Trimble, G.D. and W.E. Selph, Final report. Reevaluation and analysis of neutron spectra in liquid hydrogen. 1969: NASA Contr. Rep., (NASA-CR-72598), 283 pp.
  • Trubitsyn, V.P., Equation of state of solid hydrogen. Sov. Phys. - Solid State (Engl. Transl.), 1966. 7(11): p. 2708-14.
  • Trubitsyn, V.P., Phase transition in a hydrogen crystal. Sov. Phys. - Solid State (Engl. Transl.), 1966. 8(3): p. 688-90.
  • Trubitsyn, V.P., Phase diagrams of hydrogen and helium. Sov. Astron. (Engl. Transl.), 1971. 15(2): p. 303-9.
  • Trust, D.B. and F. Kurata, Vapor-liquid phase behavior of the hydrogen-propane and hydrogen-carbon monoxide-propane systems. AIChE J., 1971. 17(1): p. 86-91.
  • Trzeciak, M., Pressure - volume - temperature relationships of gaseous normal deuterium and three hydrogen-nitrogen mixtures. 1954, Ohio State Univ., Columbus, Ph.D. Dissertation, 146 pp.
  • Tsang, C. Y., Streett, W. B., Phase equilibria in the H(2) + CO system at temperatures from 70 to 125 k and pressures to 53 mPa., Fluid Phase Equilib., 1981, 6: p. 261-73.
  • Tsederberg, N.V., V.N. Popov, and I.I. Andreev, Experimental investigation of the viscosity of hydrogen (in Russian). Teploenergetika, 1965. 12(4): p. 84-5.
  • Tsekhanskava, Yu. V., Kinetics of the dissolution and solubility of hydrogen in cyclohexane and in cyclohexane + ammonia and cyclohexane + nitrocyclohexane + ammonia systems, Inf. Soobshch. Gos. Nauch.-Issled. Proektn. Inst. Azotn. Prom. Prod. Org. Sint., 1966, 17: p. 76-80.
  • Tsiklis, D.S., et al., Solubility of ammonia and water in compressed nitrogen-hydrogen mixtures (in Russian). Khim. Promst., 1966(8): p. 61-4.
  • Tsiklis, D.S., L.R. Linshits, and N.B. Rodkina, Molar volumes of nitrogen-hydrogen mixtures, containing Methane, argon and ammonia (in Russian). Zh. Fiz. Khim., 1966. 40(11): p. 2915-8.
  • Tsiklis, D.S., et al., Molar volumes and equation of state of molecular hydrogen at high pressures (in Russian). Dokl. Akad. Nauk SSSR, 1975. 220(6): p. 1384-6.
  • Tsykalo, A.L. and A.G. Tabachnikov, Thermodynamic properties of dissociating hydrogen peroxide (in Russian). Teplofiz. Kharakt. Veshchestv, 1968. 1: p. 194-201.
  • Tully, P.C. and J.M. Estes, Modified Redlich-Kwong equations for hydrogen and for neon. 1968: U.S. Bur. Mines, Rep. Invest. 7099, 29 pp.
  • Turney, G.E. and R.W. Snyder, Measurement of liquid and two-phase hydrogen densities with a capacitance density meter. 1969: NASA Tech. Note, (NASA TN D-5015), 42 pp.
  • Tward, E. and R.L. Armstrong, The application of an automated data acquisition system to T(1) measurements in compressed hydrogen gas. Can. J. Phys., 1968. 467: p. 331-6.
  • Tyvina, T.N., A.A. Kharchenko, and R.O. Pryanikova, Phase and volume relations in the propylene-carbon monoxide-hydrogen system. J. Appl. Chem. USSR (Engl. Transl.), 1976. 49(7): p. 1667-9.
  • Tyvina, T.N., A.A. Kharchenko, and R.O. Pryanikova, Phase and Volumetric Ratios in the Propylene-Carbon Monoxide-Hydrogen System. Zh. Prikl. Khim., 1976. 49(7): p. 1640-1642.

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