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Hydrogen energy decomposition

Glendening, E. D., Streitwieser, A., 1994, Natural Energy Decomposition Analysis An Energy Partitioning Procedure for Molecular Interactions With Apphcation to Weak Hydrogen Bonding, Strong Ionic, and Moderate Donor-Acceptor Interactions , J. Chem. Phys., 100, 2900. [Pg.288]

Itoh, N., Y. Shindo, T. Hakuta and H. Yoshitome. 1984. Enhanced catalytic decomposition of HI by using a microporous membrane. Int. J. Hydrogen Energy. 9(10) 835-839. [Pg.145]

Yeheskel, J., D. Leger and P. Courvoisier. 1979. Thermal decomposition of hydroiodic acid and hydrogen separation. Adv. Hydrogen Energy. 2(1) 569-594. [Pg.147]

Bishara, A., Salman, O.A., Khraishi, N., Marafi, A. 1987. Thermochemical decomposition of hydrogen sulfide by solar energy. Int J Hydrogen Energy 12 679-685. [Pg.153]

Dominguez, A. and Fidalgo, B. and Fernandez, Y.and Pis, J.J.and Menendez, J.A. (2007) Microwave-assisted catalytic decomposition of methane over activated carbon for C02-lree hydrogen production. International Journal of Hydrogen Energy, 32, 4792-4799. [Pg.428]

Baykara SZ (2004) Hydrogen production by direct solar thermal decomposition of water, possibilities for improvement of process efficiency. Int J Hydrogen Energy 29 1451-1458... [Pg.99]

Lede J, Lapicque F, Villermaux J (1983) Production of hydrogen by direct thermal decomposition of water. Int J Hydrogen Energy 8 675-679... [Pg.99]

Giordano N, Antonucci V, Cavallaro S, Lembo R, Bart JCJ (1982) Photoassisted decomposition of water over modified rutile electrodes. Int J Hydrogen Energy 7 867-872... [Pg.182]

Gao X, Kocha S, Frank AJ, Turner JA (1999) Photoelectrochemical decomposition of water using modified monolithic tandem cells, Int J Hydrogen Energy 24 319-325... [Pg.515]

The discovery of hexamethyltungsten by Shortland and Wilkinson (259, 260) has prompted an interest in the synthesis and physical properties of alkylated transition metal compounds. The relatively high thermal stability of these derivatives is plausibly ascribed to the lack of a low-energy decomposition pathway. This is particularly true in the case of ligands such as Me3SiCH2 — and Me3 CCH2 for which /3-hydrogen transfer is precluded (43, 282). [Pg.133]

Umeyama, H., Morokuma, K., 1977, The Origin of Hydrogen Bonding. An Energy Decomposition Study ... [Pg.290]

G. Alagona, c. Ohio, R. Cammi and J. Tomasi, A Reappraisal of the hydrogen bonding interaction obtained by combining energy decomposition analyses and counterpoise corrections, in J. Maruani (ed.), Moleculaes in Physics, Chemistry, Biology, Vol. II, Kluwer, Dordrecht, 1988, p. 507. [Pg.28]

Roth, M., K.F. Knoche (1989), Thermochemical Water Splitting Through Direct HI Decomposition from H20-HI-I2 Solutions , Int.J. Hydrogen Energy, 14 (8), 545-549. [Pg.198]

Brecher, L.E., S. Spewock, C.J. Warde (1977), The Westinghouse Sulfur Cycle for the Thermochemical Decomposition of Water , International Journal of Hydrogen Energy, Vol. 2, pp. 7-15, Pergamon Press. [Pg.211]

Naterer, G.F., et al. (2008), Thermochemical Hydrogen Production with a Copper-chlorine Cycle, I Oxygen Release from Copper Oxychloride Decomposition , International Journal of Hydrogen Energy, 33, 5439-5450. [Pg.233]

Sokalski WA, Harlharan PC, Kaufman JJ (1983) A self-consistent field interaction energy decomposition study of 12 hydrogen-bonded dimers. J Chem Phys 87 2803-2810... [Pg.142]

In this light, the hydrogen sulphide decomposition concept deserves careful attention. Both technically and economically it appears to be attractive and its successful development and commercialization will lead to energy savings, resource conservation and improved economic viability for processors of hydrogen sulphide. [Pg.354]

The one possible exception may be in the current research centered around catalytic thermal decomposition of water using solar energy. In this process, first developed by the Solar Hydrogen Energy Corporation (SHEC) in Canada and now pursued in multiple labo-... [Pg.1226]

Umeyana H, Morokuma K (1977) The origin of hydrogen bonding An energy decomposition study. J Am Chem Soc 99 1316-1332... [Pg.512]

Fig. 4. Temperature variation of the free energy for several decomposition reactions pertinent to hydrogen generation. Reprinted with permission from Ref. 72. Copyright (2004) International Journal of Hydrogen Energy. Fig. 4. Temperature variation of the free energy for several decomposition reactions pertinent to hydrogen generation. Reprinted with permission from Ref. 72. Copyright (2004) International Journal of Hydrogen Energy.
H. Ohya, M. Yatabe, M. Aihara, Y. Negishi, and T. Takeuchi, Feasibility of hydrogen production above 2500 K by direct thermal decomposition reaction in membrane reactor using solar energy, Int. J. Hydrogen Energy, 27 369-376 (2002). [Pg.117]

J. Lede, F. Lapigque, J. Villermaux, B. Cales, A. Ounalli, J. F. Baumard, and A. M. Anthony, Production of hydrogen by direct thermal decomposition of water Preliminary investigations, Int. J. Hydrogen Energy, 7 939-950 (1982). [Pg.117]

E. Bilgen, M. Duccarroir, M. Foex, F. Silieude, and F. Trombe, Use of solar energy for direct and two-step water decomposition cycles, Int. J. Hydrogen Energy, 2 251-257 (1977). [Pg.118]

F. Sibieude, M. Ducarroir, A. Tofighi, and J. Ambriz, High-temperature experiments with a solar furnace the decomposition of Fe304,Mn304, CdO, Int. J. Hydrogen Energy, 7 79-88 (1982). [Pg.119]

See other pages where Hydrogen energy decomposition is mentioned: [Pg.173]    [Pg.182]    [Pg.427]    [Pg.480]    [Pg.171]    [Pg.377]    [Pg.303]    [Pg.83]    [Pg.35]    [Pg.91]    [Pg.159]    [Pg.11]    [Pg.93]    [Pg.123]    [Pg.195]    [Pg.261]    [Pg.221]    [Pg.515]    [Pg.528]    [Pg.265]    [Pg.108]    [Pg.580]   
See also in sourсe #XX -- [ Pg.296 , Pg.297 , Pg.298 , Pg.299 , Pg.300 , Pg.301 ]



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