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Applications

  • Gary Sandrock
  • Seijirau Suda
  • Louis Schlapbach
Chapter
Part of the Topics in Applied Physics book series (TAP, volume 67)

Keywords

Intermetallic Compound Heat Pump Hydrogen Storage Effective Thermal Conductivity Metal Hydride 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. 5.1
    W. M. Mueller, J. P. Blackledge, G. G. Libowitz: Metal Hydrides (Academic, New York 1968)Google Scholar
  2. 5.2
    G. G. Libowitz: The Solid State Chemistry of Binary Metal Hydrides (Benjamin, New York 1965)Google Scholar
  3. 5.3
    G. G. Libowitz, H. F. Hayes, T. R.P. Gibb: J. Phys. Chem. 62, 76 (1958)CrossRefGoogle Scholar
  4. 5.4
    J. H. N. van Vucht, F. A. Kuijpers, H. C. A. M. Bruning: Philips Res. Reports 25, 133 (1970)Google Scholar
  5. 5.5
    J. J. Reilly, R. H. Wiswall: Inorganic Chem. 13, 218 (1974)CrossRefGoogle Scholar
  6. 5.6
    D. P. Gregory: Scientific American 228, 13 (Jan. 1973)CrossRefGoogle Scholar
  7. 5.7
    R. Wiswall: “Hydrogen Storage”, in Hydrogen in Metals II Application Oriented Properties, ed. by G. Alefeld, J. Volkl, Topics Appl. Phys. 29, 201 (1978)Google Scholar
  8. 5.8
    H. H. van Mal: Stability of'Ternary Hydrides and Some Applications, PhD Thesis, Technishe Hogeschool Delft (1976)Google Scholar
  9. 5.9
    J. J. Reilly, G. D. Sandrock: Scientific American 242, 118 (Feb. 1980)CrossRefGoogle Scholar
  10. 5.10
    S. C. Garg, A. W. McClaine: “Metal Hydrides for Energy Storage Applications”, Tech. Note N-1393 (Navy Civil Engineering Laboratory, Port Hueneme, CA 1975)CrossRefGoogle Scholar
  11. 5.11
    H. W. Newkirk: “Hydrogen Storage by Binary and Ternary Intermetallics for Energy Applications-A Review”, Rpt. URCL-52110 (Lawrence Livermore Laboratory, Livermore,CA 1976)Google Scholar
  12. 5.12
    J. J. Reilly: “Metal Hydrides as Hydrogen Storage Media and Their Applications”, in Hydrogen: Its Technology and Implications, Vol. II, Ed. by K. E. Cox, K. D. Williamson, Jr. (CRC, Cleveland 1977) pp. 13–48Google Scholar
  13. 5.13
    G. D. Sandrock: “Hydrogen Storage” in Hydrogen Energy, Rpt. 199 (Royal Swedish Academy of Engineering Sciences, Stockholm 1981), pp. 67–151Google Scholar
  14. 5.14
    S. Suda: “Recent Advancements of Metal Hydride Heat Pump Developments” Chemical Engineering (Japan) 18, 1–29 (1983)Google Scholar
  15. 5.15
    K. C. Hoffman, J. J. Reilly, F. J. Salzano, C. H. Waide, R. H. Wiswail, W. E. Winsche: Int. J. Hydrogen Energy 1, 133 (1976)CrossRefGoogle Scholar
  16. 5.16
    J. J. Reilly: Z. Phys. Chem. NF 117, 155 (1979)CrossRefGoogle Scholar
  17. 5.17
    H. Buchner: Energiespeicherung in Metallhydriden (Springer, Vienna 1982)CrossRefGoogle Scholar
  18. 5.18
    R. L. Cohen, J. H. Wernick: Science 214, 1081 (1981)CrossRefGoogle Scholar
  19. 5.19
    E. Snape, E. L. Huston, G. D. Sandrock: “Development of Solar-Hydrogen Systems Using Metal Hydrides”, in Proc. 2nd Miami Int. Conf. on Alternative Energy Sources (Hemisphere, Washington 1981) pp. 3569–3585Google Scholar
  20. 5.20
    E. Snape, F. E. Lynch: Chemtech 10, 768 (1980)Google Scholar
  21. 5.21
    G. D. Sandrock, E. L. Huston: Chemtech 11, 754 (1981)Google Scholar
  22. 5.22
    K. H. J. Buschow: “Hydrogen Absorption in Intermetallic Compounds”, in Handbook of the Physics and Chemistry or Rare Earths, ed. by K. A. Geschneidner, L. Eyring, Vol. 6 (Elsevier, Lausanne 1984) Chap. 47, pp. 1–104Google Scholar
  23. 5.23
    H. Wenzl: Int. Metals Rev. 27, 140 (1982)CrossRefGoogle Scholar
  24. 5.24
    J. H. Swisher, E. D. Johnson: J. Less-Common Met. 74, 301 (1980)CrossRefGoogle Scholar
  25. 5.25
    S. Suda (Ed.): Hydrogen Storage Alloys-Developments and Applications to Energy Systems (Ohyou Gijuto Shuppan, Tokyo, 1984) in JapaneseGoogle Scholar
  26. 5.26
    H. Buchner: “The Hydrogen/Hydride Energy Concept”, in Ref. [5.31], pp. 569–599Google Scholar
  27. 5.27
    G. Alefeld: “Introduction”, in Hydrogen in Metals II, ed. by G. Alefeld, J. Völkl, Topics Appl. Phys. Vol. 29 (Springer, Berlin, Heidelberg 1977) pp. 2–10Google Scholar
  28. 5.28
    E. L. Huston: “Liquid and Solid Storage of Hydrogen”, in Proc. 5th World Hydrogen Energy Conf. (Pergamon, Oxford 1984) pp. 1171–1186Google Scholar
  29. 5.29
    S. Suda: “Recent Development of Hydride Energy Systems in Japan”, in Proc. 5th World Hydrogen Energy Conf. (Pergamon, Oxford 1984) pp. 1201–1211; H. Bjurström, S. Suda: Int. J. Hydrogen Energy 14, 19 (1989)Google Scholar
  30. 5.30
    S. Suda, X.-L. Wang: “Metal Hydrides”, Int. J. Hydrogen Energy 15, 569 (1990)CrossRefGoogle Scholar
  31. 5.31
    A. F. Andresen, A. J. Maeland (Eds.): Hydrides for Energy Storage, Proc. of an International Symposium held in Geilo, Norway, Aug. 1977 (Pergamon, Oxford 1978)Google Scholar
  32. 5.32
    G. G. Libowitz, G. D. Sandrock (Eds.): Metal Hydrides-1980, Proc. of the International Symposium on the Properties and Applications of Metal Hydrides, Colorado Springs USA, April 1980 (Elsevier, Lausanne 1980). Also published as Vols. 73 and 74 of J. Less-Common MetalsGoogle Scholar
  33. 5.33
    W. E. Wallace, T. Schober, S. Suda (Eds.): Metal Hydrides-1982, Proc. of the International Symposium on the Properties and Applications of Metal Hydrides, Toba, Japan, June 1982 (Elsevier, Lausanne 1983). Also published as Vols. 88 and 89 of J. Less Common MetalsGoogle Scholar
  34. 5.34
    M. Ron, Y. Josephy, L. Jacob, D. Shaltiel (Eds.): Metal Hydrides-1984, Proc. of the Inter national Symposium on the Properties and Applications of Metal Hydrides, Eilat, Israel, April 1984 (Elsevier, Lausanne 1985). Also published as J. Less-Common Met. 103,104 (1985)Google Scholar
  35. 5.35
    A. Percheron-Guegan, M. Gupta (Eds.): Metal Hydrides-1986, Proc. of the International Symposium on the Properties and Applications of Metals Hydrides, Maubuisson, France, May 1986 (Elsevier, Lausanne 1986). Also published as J. Less-Common Metals 129-131 (1986)Google Scholar
  36. 5.36
    G. D. Sandrock: “Development of Low Cost Nickel-Rare Earth Hydrides for Hydrogen Storage”, Proc. 2nd World Hydrogen Energy Conf. (Pergamon, Oxford 1978) pp. 1625–1656Google Scholar
  37. 5.37
    Y. Osumi, H. Suzuki, A. Kato, K. Oguro, M. Nakane: “Hydrogen Absorption-Desorption Characteristics of Mischmetal-Nickel Alloys”, Proc. 3rd World Hydrogen Energy Conf. (Pergamon, Oxford 1981), pp. 865–879Google Scholar
  38. 5.38
    C. E. Lundin, F. E. Lynch: “A Detailed Analysis of the Hydriding Characteristics of LaNi5”, in Record of the 10th Intersociety Energy Conversion Engineering Conference, (Inst. ofElectrical and Electronics Engineers, New York 1975), pp. 1380–1384Google Scholar
  39. 5.39
    J. J. Reilly, R. H. Wiswall: Inorg. Chem. 7, 2254 (1968)CrossRefGoogle Scholar
  40. 5.40
    G. D. Sandrock: “The Metallurgy and Production of Rechargeable Hydrides”, in Ref. [5.31], pp.353–393Google Scholar
  41. 5.41
    P. D. Goodell, G. D. Sandrock, E. L. Huston: J. Less-Common Met. 73, 135 (1980)CrossRefGoogle Scholar
  42. 5.42
    P. D. Goodell, G. D. Sandrock, E. L. Huston: “Microstructure and Hydriding Studies of AB5Hydrogen Storage Compounds”, Rpt. SAND 79-7095, (Sandia National Laboratory, Albuquerque, NM 1980)CrossRefGoogle Scholar
  43. 5.43
    M. Yamaguchi, I. Yamamoto, T. Ohta: Trans, Japan Inst. of Metals (Suppl.) 21, 317 (1980)Google Scholar
  44. 5.44
    C. N. Park, T. B. Flanagan: J. Less-Common Met. 94, L1 (1983)CrossRefGoogle Scholar
  45. 5.45
    E. Tuscher, P. Weinzierl: J. Less-Common Met. 104, 329 (1984)CrossRefGoogle Scholar
  46. 5.46
    Y. Josephy, M. Ron: Z. Phys. Chem. NF 147, 233 (1986)CrossRefGoogle Scholar
  47. 5.47
    M. Nagel, Y. Komazaki, S. Suda: J. Less-Common Met. 120, 45 (1986)CrossRefGoogle Scholar
  48. 5.48
    M. Nagel, Y. Komazaki, Y. Matsubara, S. Suda: J. Less-Common Met. 123, 47 (1986)CrossRefGoogle Scholar
  49. 5.49
    G. Anevi, L. Jansson, D. Lewis: J. Less-Common Met. 104, 341 (1984)CrossRefGoogle Scholar
  50. 5.50
    S. Suda, N. Kobayashi: “Evaluating Metal Hydride Energy Conversion Systems”, in Metal-Hydrogen Systems, ed. by T. N. Veziroglu (Pergamon, Oxford 1981) pp. 649–656Google Scholar
  51. 5.51
    ERGENICS, 247 Margaret King Avenue, Ringwood N.J. 07456, USAGoogle Scholar
  52. 5.52
    Aldrich Chemical Co., P.O. Box 355, Milwaukee, WI 53201 USAGoogle Scholar
  53. 5.53a)
    Chuo Denki Kogyo Co., Ltd., No. 1–1–12 Toranomon, Minato-ku, Tokyo, JapanGoogle Scholar
  54. 5.53b)
    Japan Metals and Chemicals Co., Ltd., 8–4 Koami-cho, Nihombashi, Chuo-ku, Tokyo, JapanGoogle Scholar
  55. 5.53c)
    Santoku Metal Industry Co., Ltd., Awaya Bldg. 4–23, Ginza 8-chome, Chuo-ku, Tokyo, JapanGoogle Scholar
  56. 5.54a)
    MPD Technology Ltd., Wiggin St., Birmingham B16 OAJ, UKGoogle Scholar
  57. 5.54b)
    GFE Gesellschaft fur Electrometallurgie mbH, Hofener Strasse 45, D-8500 Nümberg 80, GermanyGoogle Scholar
  58. 5.55
    L. Schlapbach, T. Riesterer: Appl. Phys. A32, 169 (1983)CrossRefGoogle Scholar
  59. 5.56
    M. H. Mintz, S. Vaknin, S. Biderman, Z. Hadari: J. Appl. Phys. 52, 463 (1981)CrossRefGoogle Scholar
  60. 5.57
    T. Sasai, K. Oku, H. Konno, K. Onouwe, S. Kashu: J. Less-Common Met. 89, 281 (1983)CrossRefGoogle Scholar
  61. 5.58
    M. Amano, Y. Sasaki, R. Watanabe, M. Shibata: J. Less-Common Met. 89, 513 (1983)CrossRefGoogle Scholar
  62. 5.59
    B. Teh-you, J. Pin-sun, S. Lan-yin, G. Biao: “Addition of Various Elements for Improving the Property and Characteristics of TiFe Hydrogen Storage Material”, Proc. 4th World Hydrogen Energy Cone (Pergamon, Oxford 1982) pp. 1239–1243Google Scholar
  63. 5.60
    F. E. Lynch: J. Less-Common Met. 74, 411 (1980)CrossRefGoogle Scholar
  64. 5.61
    M. Kawamura, S. Ono, Y. Mizuno: “Stress Induced in Metal Hydrogen Powder Bed by Hydriding Reaction”, Metal-Hydrogen Systems (Pergamon, Oxford 1982) pp. 489–500CrossRefGoogle Scholar
  65. 5.62
    P. P. Turillon, G. D. Sandrock: “Hydrogen Container”, U.S. Pat. 4133426, Jan. 9, 1979Google Scholar
  66. 5.63
    P. P. Turillon, G. D. Sandrock: “Hydride Storage Containment”, U.S. Pats. 4134490 and 4 134 491, Jan. 16, 1979Google Scholar
  67. 5.64
    F. R. Block, A. Dey, H. Kappes, K. Reith: J. Less-Common Met. 131, 329 (1987)CrossRefGoogle Scholar
  68. 5.65
    N. R. Baker, F. E. Lynch: “Hydrogen Sorbent Flow Aid Composition and Containment Thereof”, U.S. Pat. 4 600 525, July 15, 1986Google Scholar
  69. 5.66
    Wang Qi-dong, Wu Jing, Chen Chang-pin, Li Zhou-peng: J. Less-Common Met. 131, 399 (1987)CrossRefGoogle Scholar
  70. 5.67
    J. J. Reilly, J. R. Johnson: J. Less-Common Met. 104, 175 (1984)CrossRefGoogle Scholar
  71. 5.68
    R. D. Holstvoogd, K. J. Ptasinski, W. P. M. van Swaaij: Chem. Eng. Sci. 41, 867 (1986)CrossRefGoogle Scholar
  72. 5.69
    G. C. Blytas: “Hydrogen Sorbent Composition and its Use”, U.S. Pat. 4036944, July 19,1977Google Scholar
  73. 5.70
    H. Buhl, S. Will: “Form Retaining Hydrogen Storage Material”, U.S. Pat. 4110425, Aug. 25, 1978Google Scholar
  74. 5.71
    J. Toepler, O. Bernauer, H. Buchner: J. Less-Common Met. 74, 385 (1980)CrossRefGoogle Scholar
  75. 5.72
    E. E. Eaton, C. E. Olsen, H. Sheinberg, W. A. Steyert: Int. J. Hydrogen Energy 6, 609 (1981)CrossRefGoogle Scholar
  76. 5.73
    P. S. Rudman, G. D. Sandrock, P. D. Goodell: J. Less-Common Met. 89, 437 (1983)CrossRefGoogle Scholar
  77. 5.74
    N. J. Bridger, B. J. Miles: “A System for Absorbing and Desorbing Hydrogen, and Hydridable Materials Therefore”, U.K. Patent Application GB2086362A, 12 May 1982Google Scholar
  78. 5.75
    M. Ron, D. M. Gruen, M.H. Mendelsohn, J. Sheft: “Method of Preparing Porous Metal Hydride Compacts”, U.S. Pat. 4292265, Sept. 29, 1981Google Scholar
  79. 5.76
    H. Ishikawa, K. Oguro, A. Kato, H. Suzuki, E. Ishii: J. Less-Common Met. 120, 123 (1986)CrossRefGoogle Scholar
  80. 5.77
    H. Uchida, T. Ebisawa, K. Terao, N. Hosoda, Y. C. Huang: J. Less-Common Met. 131, 365 (1987)CrossRefGoogle Scholar
  81. 5.78
    E. L. Huston, G. D. Sandrock: J. Less-Common Met. 74, 435 (1980)CrossRefGoogle Scholar
  82. 5.79
    G. C. Carter, F. L. Carter: “Metal Hydrides for Hydrogen Storage: A Review of Theoretical and Experimental Research, and Critically Compiled Data”, in Proc. Miami International Symposium on Metal-Hydrogen Systems (Pergamon, Oxford 1981) pp. 503–529Google Scholar
  83. 5.80
    S. Suda, Y. Komazaki, N. Kobayashi: “Mixing Effects of Metal Hydrides on Equilibrium Behavior and Reaction Kinetics”, Proc. 3rd World Hydrogen Energy Conf. (Pergamon, Oxford 1981) pp. 2169–2183Google Scholar
  84. 5.81
    P. S. Rudman: J. Less-Common Met. 89, 93 (1983)CrossRefGoogle Scholar
  85. 5.82
    P. D. Goodell: J. Less-Common Met. 74, 175 (1980)CrossRefGoogle Scholar
  86. 5.83
    J. J. Reilly, R. H. Wiswall, Jr.: “Hydrogen Storage and Purification Systems II”, Rept BNL 19436 (Brookhaven National Laboratory, Upton, NY 1974)Google Scholar
  87. 5.84
    M. Onischak, D. Dharia, D. Gidaspow: “Heat Transfer Analysis of Metal Hydrides in Metal Hydrogen Secondary Batteries”, Proc. 1st World Hydrogen Energy Conf. (U. of Miami, Coral Gables, FL 1976) pp. 37–50Google Scholar
  88. 5.85
    S. Suda, N. Kobayashi, K. Yoshida: Int. J. Hydrogen Energy 6, 521 (1981)CrossRefGoogle Scholar
  89. 5.86
    Y. Ishido, M. Kawamura, S. Ono: Int. J. Hydrogen Energy 7, 173 (1982)CrossRefGoogle Scholar
  90. 5.87
    E. Suissa, I. Jacob, Z. Hadari: J. Less-Common Met. 104, 287 (1984)CrossRefGoogle Scholar
  91. 5.88
    D. L. Cummings, G. L. Powers: Ind. Eng. Chem., Process Des. Develop. 13, 182 (1974)CrossRefGoogle Scholar
  92. 5.89
    O. Boser, D. Lehrfeld: “The Rate Limiting Processes for the Sorption of Hydrogen in LaNi5”, Record 10th Intersociety Energy Conversion Engineering Conf. (IEEE, New York 1975) pp.1363–1369Google Scholar
  93. 5.90
    I. Sheft, D. M. Gruen, G. Lamich: “HYCSOS: A Chemical Heat Pump and Energy Conversion System Based on Metal Hydrides”, Rept. ANL-79-8, (Argonne Nat. Laboratory, Argonne,IL 1979)Google Scholar
  94. 5.91
    R. L. Woolley: “Method and Apparatus for Providing Increased Thermal Conductivity and Heat Capacity to a Pressure Vessel Containing a Hydride-Forming Metal Material”, U.S. Pat. 4 187092, Feb. 5, 1980Google Scholar
  95. 5.92
    M. Nagel, Y. Komazaki, S. Suda: J. Less-Common Met. 120, 35 (1986)CrossRefGoogle Scholar
  96. 5.93
    S. Suda, Y. Komazaki, N. Kobayashi: J. Less-Common Met. 89, 317 (1983)CrossRefGoogle Scholar
  97. 5.94
    M. Ron: “Metal Hydrides of Improved Heat Transfer Characteristics”, Proc. 11 th Intersociety Energy Conversion Engineering Conf. (AIChE, New York 1976) pp. 954–960Google Scholar
  98. 5.95
    M. Ron, D. Gruen, M. Mendelsohn, I. Sheft: J. Less-Common Met. 74, 445 (1980)CrossRefGoogle Scholar
  99. 5.96
    Y. Josephy, Y. Eisenberg, S. Perez, A. Ben-David, M. Ron: J. Less-Common Met. 104, 297 (1984)CrossRefGoogle Scholar
  100. 5.97
    J. Topler, O. Bernauer, H. Buchner, H. Saufferer; J. Less-Common Met. 89, 519 (1983)CrossRefGoogle Scholar
  101. 5.98
    H. Buchner: Int. J. Hydrogen Energy 9, 501 (1984)CrossRefGoogle Scholar
  102. 5.99
    E. Tuscher, P. Weinzierl, O. J. Eder: Int. J. Hydrogen Energy 8, 199 (1983)CrossRefGoogle Scholar
  103. 5.100
    M. Groll, W. Supper, U. Mayer, O. Brost: Int. J. Hydrogen Energy 12, 89 (1987)CrossRefGoogle Scholar
  104. 5.101
    G. D. Sandrock, E. Snape: U.S. Pat. 4566281, Jan. 28, 1986Google Scholar
  105. 5.102
    J. J. Sheridan III, F. G. Eisenberg, E. J. Greskovich, G. D. Sandrock, E. L. Huston: J. Less Common Met. 89, 447 (1983)CrossRefGoogle Scholar
  106. 5.103
    W. S. Yu, E. Suuberg, C. Waide: “Modelling Studies of Fixed-Bed Metal-Hydride Storage Systems” The Hydrogen Economy Miami Energy (THEME) Conference (U. of Miami, Coral ables, FL 1974) pp. 22–35Google Scholar
  107. 5.104
    P. W. Fisher, J. S. Watson: “Modeling Solid Hydrogen Storage Beds”, Rept. ORNL/TH-7561 (Oak Ridge Nat. Lab., Oak Ridge, TN 1981)Google Scholar
  108. 5.105
    L. A. Mahoney: “Theory and Analysis of the Behavior of a Packed Bed of Metal Hydrides”, MSc. Thesis (U. of California, Davis, CA 1984)Google Scholar
  109. 5.106
    I. A. El Osery: Int. J. Hydrogen Energy 8, 191 (1983)CrossRefGoogle Scholar
  110. 5.107
    G. G. Lucas, W. L. Richards: Int. J. Hydrogen Energy 9, 225 (1984)CrossRefGoogle Scholar
  111. 5.108
    S. Suda, N. Kobayashi, E. Morishita, N. Takemoto: J. Less-Common Met. 89, 325 (1983)CrossRefGoogle Scholar
  112. 5.109
    J. J. Reilly, R. H. Wiswall, Jr.: “Alloys for Isolation of Hydrogen”, U.S. Pat. 3 825 415 July 23, 1974Google Scholar
  113. 5.110
    J. J. Reilly, R. H. Wiswall, Jr.: “Hydrogen Storage and Purification Systems”, Rept. BNL 17136, (Brookhaven Nat. Lab, Upton, NY 1972)Google Scholar
  114. 5.111
    R. A. Guidotti, G. B. Atkinson, M. M. Wong: J. Less-Common Met. 52, 13 (1977)CrossRefGoogle Scholar
  115. 5.112
    D. M. Gualtieri, K. S. V. L. Narasimhon, T. Takeshita: J. Appl. Phys. 47, 3423 (1976)CrossRefGoogle Scholar
  116. 5.113
    E. J. McHenry: “A New Design for a Low-Pressure Ni-H, Cell”, Paper presented at 1977 Fall Mtg. of the Electrochemical Soc., Extended Abstract 77-2 (Electrochem. Soc., Princeton, NJ 1977) p.98Google Scholar
  117. 5.114
    L. Schlapbach, A. Seiler, F. Stucki and H. C. Siegmann: J. Less-Common Met. 73, 145 (1980)CrossRefGoogle Scholar
  118. 5.114a
    H. C. Siegman, L. Schlapbach, C. R. Brundle: Phys. Rev. Lett. 40, 972 (1978)CrossRefGoogle Scholar
  119. 5.115
    W. E. Wallace, R. F. Karlicek, Jr., H. Immamura: J. Phys. Chem. 83, 1708 (1979)CrossRefGoogle Scholar
  120. 5.116
    L. Schlapabach: J. Phys. F 10, 2477 (1980)CrossRefGoogle Scholar
  121. 5.117
    P. D. Goodell, G. D. Sandrock: “Metallurgical Studies of Hydrogen Storage Alloys: Surface Poisoning of LaNi5, FeTi, and Fe0.85Mn0.15Ti by O2,CO2 and H2O”, Rcpt. DOE/CS/BNL-51174 (U.S. Dept. of Energy, Washington DC 1980)Google Scholar
  122. 5.118
    G. D. Sandrock, P. D. Goodell: J. Less-Common Met. 73, 161 (1980)CrossRefGoogle Scholar
  123. 5.119
    P. D. Goodell: J. Less-Common Met. 89, 45 (1983)CrossRefGoogle Scholar
  124. 5.120
    F. G. Eisenberg, P. D. Goodell: J. Less-Common Met. 89, 55 (1983)CrossRefGoogle Scholar
  125. 5.121
    E. L. Huston, Ed.: “Development of a Commerical Metal Hydride Process for Hydrogen Recovery”, Rept. BNL 35440 (two vols.), (Brookhaven Nat. Lab., Upton, NY 1984)Google Scholar
  126. 5.122
    G. D. Sandrock, P. D. Goodell: J. Less-Common Met. 104, 159 (1984)CrossRefGoogle Scholar
  127. 5.123
    A. Yoshikawa, K. Yagisawa: Trans. Japan Inst. Metals (Suppl.) 21, 393 (1980)Google Scholar
  128. 5.124
    A. B. Goncharuk, S. N. Endrzheevskaya: Poroshkovaya Metallurgiya 8, 77 (1980)Google Scholar
  129. 5.125
    F. R. Block, H. J. Bahs: J. Less-Common Met. 89, 77 (1983)CrossRefGoogle Scholar
  130. 5.126
    F. R. Block, H. J. Bahs: J. Less-Common Met. 104, 223 (1984)CrossRefGoogle Scholar
  131. 5.127
    S. Ono, Y. Ishido, J. Kitagawa: Trans. Japan Inst. of Metals (Suppl.) 21, 357 (1980)Google Scholar
  132. 5.128
    B. Vigeholm, J. Kjoller, B. Larsen, A. S. Pedersen: J. Less-Common Met. 104, 141 (1984)CrossRefGoogle Scholar
  133. 5.129
    L. Schlapbach, J. C. Achard, A. Percheron-Guegan: “Surface Segregation in LaNi5_xAlx, and its Implication on the Cyclic Life Time for Hydrogen Storage”, Proc. 3rd international Congress on Hydrogen and Materials (Paris, 1982)Google Scholar
  134. 5.130
    G. L. Holleck, J. R. Driscoll, B. E. Paul: J. Less-Common Met. 74, 379 (1980)CrossRefGoogle Scholar
  135. 5.131
    M. J. Benham, D. K. Ross: Z. Phys. Chem. NF 147, 219 (1986)CrossRefGoogle Scholar
  136. 5.132
    T. Matsumoto, A. Matsushita: J. Less-Common Met. 123,135 (1986); V.Z. Mordkovich, N.N. Korostyshevsky, Yu.K. Baychtok, E.I. Mazus, N.V. Dudakova, V.P. Mordovin: Int. J. Hydrogen Energy 15, 723 (1990)CrossRefGoogle Scholar
  137. 5.133
    K. Yamanaka, H. Saito, M. Someno: Nippon Kagaku Kaishi 8, 1267 (1975)CrossRefGoogle Scholar
  138. 5.134
    R. L. Cohen, K. W. West, K. H. J. Buschow: Solid State Commun. 25, 293 (1978)CrossRefGoogle Scholar
  139. 5.135
    K. H. J. Buschow: J. Less-Common Met. 51, 173 (1977)CrossRefGoogle Scholar
  140. 5.136
    R. L. Cohen, K. W. West, J. H. Wernick: J. Less-Common Met. 70, 229 (1980)CrossRefGoogle Scholar
  141. 5.137
    R. L. Cohen, K. W. West: J. Less-Common Met. 95,17 (1983)CrossRefGoogle Scholar
  142. 5.138
    B. E. Sirovich, I. Ginsburgh: “Method of Regenerating Disproportionated Hydrides”, U.S. Pat. 4 302 436, Nov. 24, 1981Google Scholar
  143. 5.139
    M. H. Mintz, Z. Hadari, M. P. Dariel: J. Less-Common Met. 74, 287 (1980)CrossRefGoogle Scholar
  144. 5.140
    H. Oesterreicher, K. Ensslen, A. Kerlin, E. Bucher: Mater. Res. Bull. 15, 275 (1980)CrossRefGoogle Scholar
  145. 5.141
    T. Gamo, Y. Moriwaki, N. Yanagihara, T. Iwaki; J. Less-Common Met. 89,495 (1983)CrossRefGoogle Scholar
  146. 5.142
    I. Sheft, D. M. Gruen, G. J. Lamich: J. Less-Common Met. 74, 401 (1980)CrossRefGoogle Scholar
  147. 5.143
    P. D. Goodell: J. Less-Common Met. 99, 1 (1984)CrossRefGoogle Scholar
  148. 5.144
    G. D. Sandrock, J. J. Murray, M. L. Post, J. B. Taylor: Mater. Res. Bull. 17, 887 (1982)CrossRefGoogle Scholar
  149. 5.145
    M. Amano, Y. Sasaki: Trans. Japan Inst. of Metals (Suppl.) 21, 329 (1980)Google Scholar
  150. 5.146
    S. J. C. Irvine, I. R. Harris: “Effect of Induced Disorder on the Hydrogenation Behavior of the Phase ZrCo”, in Ref. [5.31] pp. 431–466Google Scholar
  151. 5.147
    J. J. Reilly, J. R. Johnson, J. F. Lynch, F. Reidinger: J. Less-Common Met. 89, 505 (1983)CrossRefGoogle Scholar
  152. 5.148
    J. Schefer, L. Schlapbach, J.J. Reilly: Progress Report Neutron Diffraction, AF-SSP-118, 1982Google Scholar
  153. 5.149
    C. E. Lundin, F. E. Lynch: “Solid-State Hydrogen Storage Materials for Applications to Energy Needs”, First Annual Report for Contract AFOSR F44620-74-C-0020, (University of Denver,Denver, CO 1975)Google Scholar
  154. 5.150
    C. E. Lundin, F. E. Lynch: “The Safety Characteristics of FeTi Hydride”, Proc. 10th Intersociety Energy Conversion Engineering Conference (IEEE, New York 1975) pp. 1386–1390Google Scholar
  155. 5.151
    “Safety Studies on Hydrogen Explosions and Accidents”, Final Report of Sunshine Project: 1974–1983 (Hydrogen Energy Division), National Chemical Laboratory for Industry, Agency of Industrial Science and Technology (MITI, Tokyo 1984)Google Scholar
  156. 5.152
    J. J. Reilly, Brookhaven National Laboratory, Upton, NY, 1984: Private CommunicationGoogle Scholar
  157. 5.153
    J. G. Hust: “Survey of Materials for Hydrogen Service: in Selected Topics on Hydrogen Fuel, NBS Special Publication 419 (National Bureau of Standards, U.S. Government Printing Office, Washington 1975) pp. 4.1–37; J.E. Campbell: “Effects of Hydrogen Gas on Metals at Ambient Temperature”, DMIC Report S-31 (Defense Metals Information Center, Columbus, OH 1970); I. M. Bernstein, A. W. Thompson: Hydrogen in Metals, (American Society for Metals, Metals Park, OH 1974)Google Scholar
  158. 5.154
    H. G. Nelson: “Hydrogen-Metal Interactions”, Proc. of the 1977 DOE Chemical Energy Storage and Hydrogen Energy Systems Contracts Review, Rept. JPL 78-1 (Jet Propulsion Laboratory, Pasadena, CA 1978) pp. 141–145; S.L. Robinson: “Hydrogen Compatibility of Structural Materials for Energy Storage and Transmission Applications”, Rept. SAND77 8296 (Sandia Nat. Labs., Livermore, CA 1978)Google Scholar
  159. 5.155
    K. Ledjef Int. J. Hydrogen Energy 12, 361 (1987); M. Haruta, H. Sano: Int. J. Hydrogen Energy 7, 801 (1982)CrossRefGoogle Scholar
  160. 5.156
    R. G. Barnes (ed.): “Hydrogen Storage materials”, Materials Science Forum, vol. 31 (Trans.Tech., Switzerland 1988)Google Scholar
  161. 5.157
    D. Behrens (ed.): “Wasserstofftechnologie”, Dechema (1986)Google Scholar
  162. 5.158
    S. L. Robinson, J. J. lannucci: “Technologies and Economics of Small-Scale Hydrogen Storage”, Rpt. SAND79-8646 (Sandia Nat. Labs., Livermore, CA 1979)Google Scholar
  163. 5.159
    C. Carpetis: Int. J. Hydrogen Energy 5, 423 (1980)CrossRefGoogle Scholar
  164. 5.160
    C. Carpetis: Int. J. Hydrogen Energy 7, 191 (1982)CrossRefGoogle Scholar
  165. 5.161
    G. Eklund, O. von Krusenstierna: Int. J. Hydrogen Energy 8, 463 (1983)CrossRefGoogle Scholar
  166. 5.162
    R. M. Hartley (Ed.): Hydrogen Progress, 2nd Quarter 1977 (Billings Energy Corp., Provo, UT)Google Scholar
  167. 5.163
    J. H. Kelly, R. Hagler, Jr.: Int. J. Hydrogen Energy 5, 35 (1980)CrossRefGoogle Scholar
  168. 5.164
    Hydrogen Consultants, Inc., 12420 N. Dumont Way, Littleton CO 80125 USAGoogle Scholar
  169. 5.165
    Baseline Industries, Inc. P.O. Box 649, Lyons, CO 80540 USAGoogle Scholar
  170. 5.166
    J. C. McCue: J. Less-Common Met. 74, 333 (1980)CrossRefGoogle Scholar
  171. 5.167
    H. Wenzl, K. H. Klatt: “The Use of FeTi-Hydride for Production and Storage of Suprapure Hydrogen”, in Ref. [5.31 ] pp. 323–327Google Scholar
  172. 5.168
    HWT Gesellschaft fur Hydrid-and Wasserstofftechnik mbH, Postfach 1008 27,4330 Mülheim a.d. Ruhr, FRGGoogle Scholar
  173. 5.169
    Suzuki Shokan Co., 3-1 Kojimachi, Chiyoda-ku, Tokyo 102, JapanGoogle Scholar
  174. 5.170
    N. Baker, L. Huston, F. Lynch, L. Olavson, G. Sandrock: “A Clean Internal Combustion Engine for Underground Mining Machinery”, Final Phase 1 Report for U.S. Bureau of Mines Contract H0202034 (Eimco Mining Machinery International, Salt Lake City, UT 1981) pp. 127–129Google Scholar
  175. 5.171
    G. Strickland, J. J. Reilly, R. H. Wiswall, Jr: “An Engineering-Scale Storage Reservoir of Iron Titanium Hydride”, Proc. of the Hydrogen Economy Miami Energy (THEME) Conference (Univ. of Miami, Coral Gables, FL 1974) pp. S49–S421Google Scholar
  176. 5.172
    M. J. Rosso: “Hydrogen-Technology Advanced-Component Test System (HYTACTS),” Chemical/Hydrogen Energy Storage Systems Program Semi-annual Contracts Review (Brookhaven Nat. Lab., Upton, NY 1980)Google Scholar
  177. 5.173
    P. Guinet, P. Perroud, J. Rebiere: Int. J. Hydrogen Energy 5, 609 (1980)CrossRefGoogle Scholar
  178. 5.174
    R. E. Billings: “Modification and Operation of the Hydrogen Homestead Hydride Vessel Energy Storage System”, Final Report for Contract BNL 481417-S (Billings Energy Corp.,Independence, MO, USA)Google Scholar
  179. 5.175
    H. Suzuki, Y. Osumi, A. Kato, K. Oguro, M. Nakane: J. Less-Common Met. 89,545 (1983)CrossRefGoogle Scholar
  180. 5.176
    Iwatani Information 2 (No. 3) (Iwatani and Co., Ltd. Tokyo, Japan May/June 1982) pp. l, 2Google Scholar
  181. 5.177
    S. Ono, H. Kanazawa, H. Toma: “Development of a Large-Sized Hydrogen Storage Vessel Using Metal Hydrides”, Proc. 5th World Hydrogen Energy Conf. (Pergamon, Oxford 1984) pp.1349–1357Google Scholar
  182. 5.178
    “Hydrogen-The Energy Source of the Future”, Rept. C02 (Mannesmann Röhrenwerke, Dusseldorf, BRD 1984)Google Scholar
  183. 5.179
    S. Suda: Unpublished data (Kogakuin Univ., Tokyo, Japan 1984)Google Scholar
  184. 5.180
    J. M. Burger, P. A. Lewis, R. J. Isler, F. J. Salzano, J. M. King, Jr.: “Energy Storge for Utilities via Hydrogen SystemsZ”, Proc. 9th Intersociety Energy Conversion Engineering Conf. (ASM E,New York 1974) pp. 428–434Google Scholar
  185. 5.181
    R. Povel, J. Töpler, G. Withalm, C. Halene: “Hydrogen Drive in Field Testing”, Proc. 5th World Hydrogen Energy Conf. (Pergamon, Oxford 1984) pp. 1563–1577Google Scholar
  186. 5.182
    Japan Chemical Engineering, Ltd., 3-12-23 Kitahorie, Nishi-ku, Osaka-shi, Osaka, JapanGoogle Scholar
  187. 5.183
    G. Strickland, J. Milau, M. J. Rosso: “Some Observations on the Effects of the Volumetric Expansion of Iron-Titanium Hydride on Vessels Built at BNL', Rept. BNL 23130 (Brookhaven Nat. Lab. Upton, NY 11973, USA 1977)CrossRefGoogle Scholar
  188. 5.184
    H. K. Abdel-Aal: “The Prospects of Low-Cost Magnesium Hydrides-An Economic Study”, Proc. 3rd World Hydrogen Energy Conf. (Pergamon, Oxford 1981) pp. 849–864Google Scholar
  189. 5.185
    J. J. Reilly, R. H. Wiswall Jr.: Inorganic Chem 7, 2254 (1968)CrossRefGoogle Scholar
  190. 5.186
    A. S. Pedersen, J. Kjoller, B. Larsen, B. Vigeholm: “On the Hydrogenation Mechanism in Magnesium I”, Proc. 5th World Hydrogen Energy Conf. (Pergamon, Oxford 1984) pp. 1269 1277; B. Vigeholm, J. Kjoller, B. Larsen, A.S. Pedersen: J. Less-Common Met. 104,141 (1984)Google Scholar
  191. 5.187
    N. Nishimiya, A. Suzuki, S. Ono: “A Novel Batchwise Hydrogen Transmitting System Using Metal Hydrides”, Proc. 3rd World Hydrogen Energy Conf. (Pergamon, Oxford 1981)pp.917–929Google Scholar
  192. 5.188
    N.J. Bridger: “Improvements in or Relating to Hydrogen from a Hydride Material: U.K. Patent Specification 1 568 374, 29 May 1980Google Scholar
  193. 5.189
    B. Bogdanovic: Int. J. Hydrogen Energy 12, 863 (1987); B. Bogdanovic, K.H. Claus, S. Gürtzgen, B. Spliethoff, U. Wilczok: J. Less-Common Met. 131, 163 (1987); H. Imamura, M. Takashima: Int. J. Hydrogen Energy 15, 911 (1990) and references therein; A.T. Raissi, D.K. Slattery, M.J. Axelrod, R. Zidan: Proc. 8th World Hydrogen Energy Conference (1990), HawaiiCrossRefGoogle Scholar
  194. 5.190
    W. Winsche, R. H. Wiswall, J. Reilly, T. Sheehan, C. Waide, K. Hoffman: “Metal Hydrides as a Source of Fuel for Vehicular Propulsion”, Rpt. BNL-11754 (Brookhaven Nat. Lab.,Upton, NY, USA 1967)Google Scholar
  195. 5.191
    K. C. Hoffman, W. E. Winsche, R. H. Wiswall, J. J. Reilly, T. V. Sheehan, C. H. Waide: “Metal Hydrides as a Source of Fuel for Vehicular Propulsion”, Paper 690232 (Society of Automotivc Engineers, New York 1969)CrossRefGoogle Scholar
  196. 5.192
    J. J. Reilly, K. C. Hoffmann, G. Strickland, R. H. Wiswall: “Iron-Titanium Hydride as a Source of Hydrogen Fuel for Stationary and Automotive Applications”, 26th Power Sources Symposium, Paper BNL-18651 (Brookhaven Nat. Lab., Upton, NY, USA April 1974)Google Scholar
  197. 5.193
    J. J. Reilly, R. H. Wiswall, Jr., K. C. Hoffman: “Metal Hydrides as a Source of Hydrogen Fuel”, American Chemical Soc. Meeting, Paper BNL-14804 (Brookhaven Nat. Lab., Upton, NY, USA Sept. 1970)Google Scholar
  198. 5.194
    A. L. Austin: “A Survey of Hydrogen's Potential as a Vehicular Fuel”, Rpt. UCRL-51228 (Lawrence Livermore Lab., Livermore, CA, USA 1972)Google Scholar
  199. 5.195
    L. O. Williams: Cryogenics 693 (Dec. 1973)Google Scholar
  200. 5.196
    H. Buchner: “Results of Hydride Research and Consequences for the Development of Hydride Vehicles”, Proc. of the 4th International Symposium on Automotive Propulsion Systems, Rpt. CONF-770430/1 (U.S. Dept. of Energy, Washington, 1978) pp. 746–758Google Scholar
  201. 5.197
    D. L. Henriksen, D. B. MacKay, V. R. Anderson: “Prototype Hydrogen Automobile Using a Metal Hydride”, Proc. 1st World Hydrogen Energy Conf. (Univ. of Miami, Coral Gables, FL, USA 1976) pp. 7C1–7C12Google Scholar
  202. 5.198
    R. E. Billings: Int. J. Hydrogen Energy 3, 49 (1978)CrossRefGoogle Scholar
  203. 5.199
    R. L. Woolley: “Design Considerations for the Riverside Hydrogen Bus”, Proc. 2nd World Hydrogen Energy Conf. (Pergamon, Oxford 1978) pp. 1829–1849Google Scholar
  204. 5.200
    V. R. Anderson: “Hydrogen Energy in United States Post Office Delivery Systems”, Proc.2nd World Hydrogen Energy Conf. (Pergamon, Oxford 1978) pp. 1879–1901Google Scholar
  205. 5.201
    “A Car with a Future” Hydrogen Progress (Billings Energy Corp., Independence, MO, USA Spring 1979) pp. 17–21Google Scholar
  206. 5.202
    R. E. Billings, R. L. Wooley, B. C. Campbell, J. H. Ruckman, V. R. Anderson: “The Hydrogen Homestead”, Hydrogen Progress (Billings Energy Corp., Provo, UT, USA Fall 1977)pp. 28–36Google Scholar
  207. 5.203
    R. E. Billings: “Conversion of Hybrid MERADCOM Forklift from Gaseous Hydrogen FuelStorage to a Hydride Hydrogen Storage System”, Project Summary for Contract BNL 491266-S (Billings Energy Corp., Independence, MO, USA May 1980)Google Scholar
  208. 5.204
    D. Davidson, M. Fairlie, A. E. Stuart: “Development of a Hydrogen-Fuelled Farm Tractor”, Proc. 5th World Hydrogen Energy Conf. (Pergamon, Oxford 1984) pp.1623–1630Google Scholar
  209. 5.205
    L. G. Olavson, N. R. Baker, F. E. Lynch, L. C. Mejia: “Hydrogen Fuel for Underground Mining Machinery”, SAE Paper 840133 (SAE, Warrendale, PA, USA 1984)CrossRefGoogle Scholar
  210. 5.206
    R. Billings: “Hydrogen Storage in Automobiles Using Cryogenics and Metal Hydrides”, Proc. of the Hydrogen Economy Miami Energy (THEME) Conf. (U. of Miami, Coral Gables, FL 1974) pp. S8–51 to 61Google Scholar
  211. 5.207
    H. Buchner: Int. J. Hydrogen Energy 8, 373 (1983); 7, 259 (1982)CrossRefGoogle Scholar
  212. 5.208
    H. Buchner: Prog. Energy Comb. Sci. 6, 331 (1980)CrossRefGoogle Scholar
  213. 5.209
    O. Bernauer: Int. J. Hydrogen Energy 14, 727 (1989)CrossRefGoogle Scholar
  214. 5.210
    J. G. Finegold, J. T. McKinnon, M. E. Karpuk: “Dissociated Methanol as a Consumable Hydride for Automobiles and Gas Turbines”, Proc. 4th World Hydrogen Energy Conf. (Pergamon, Oxford 1982) pp. 1359–1369Google Scholar
  215. 5.211
    C. Carpetis: Int. J. Hydrogen Energy 7, 61 (1982)CrossRefGoogle Scholar
  216. 5.212
    R. Gordon: “Composite Pressure Vessels for Gaseous Hydrogen Powered Vehicles”, Proc.5th World Hydrogen Energy Conf. (Pergamon, Oxford 1984) pp. 1225–1236Google Scholar
  217. 5.213
    E. W. Morley: Smithsonian Contributions to Knowledge 29, 56 (1892–1903)Google Scholar
  218. 5.214
    Wang Qi-dong, Wu Jing, Chen Chang-pin, Lou Wei-fang, Fang Tian-Shui: “Improvement on Metal Hydride Suprapure Hydrogen Purifier with Oxygen-Removing Molecular Sieve and Double-Valve Blow-Off Technique”, Proc. 6th World Hydrogen Energy Conf. (Pergamon, New York 1986) pp. 881–892Google Scholar
  219. 5.215
    Wu Yan-min: “A New Ultrapure Hydrogen Purifier”, Proc. 6th World Hydrogen Energy Conf. (Pergamon, New York 1986) pp. 893–897Google Scholar
  220. 5.216
    J. J. Reilly, R. H. Wiswall Jr.: “Separation of Hydrogen from Other Gases”, U.S. Patent 3 793 435 (February 19, 1974)Google Scholar
  221. 5.217
    D. Gidaspow, Y. Liu: “Hydrogen Separation and Compression Through Hydride Formation and Dissociation by Low-Level Heat”, Proc. 11 th Intersociety Energy Conversion Engineering Conf. (AIChE, New York 1976) pp. 920–925Google Scholar
  222. 5.218
    V. Cholera, D. Gidaspow: “Hydrogen Separation and Production from Coal-Derived Gases Using Fe,,TiNi1–x”, Proc. 12th Intersociety Energy Conversion Engineering Conf. (Am.Nuclear Soc., LaGrange Park, IL, USA 1977) pp.981–986Google Scholar
  223. 5.219
    R. W. Meyerhoff: “Hydrogen from Ammonia”, U.S. Pat. 4544527, Oct. 1, 1985Google Scholar
  224. 5.220
    Wang Qi-dong, Wu Jing, Chen Chang-pin, Ye Zhou: J. Less-Common Met. 131, 321 (1987)CrossRefGoogle Scholar
  225. 5.221
    J. M. S. Henis, M. K. Tripodi: Science 220, 11 (1983)CrossRefGoogle Scholar
  226. 5.222
    S. Sircar, J.W. Zondlo: “Hydrogen Purification by Selective Adsorption”, U.S. Patent 4 077 779, March 7, 1978Google Scholar
  227. 5.223
    J. Zwiebel, D. B. Broughton, D. T. Camp (Eds.): Gas Purification by Absorption(AIChE, NewYork 1973)Google Scholar
  228. 5.224
    E. L. Huston, J. J. Sheridan III: “Applications for Rechargeable Metal Hydrides”, in Industrial Applications of Rare Earth Elements, ACS Symposium Series 164 (Am. Chem. Soc., Washington 1981) pp. 223–250CrossRefGoogle Scholar
  229. 5.225
    S. Imoto, T. Tanabe, K. Utsunomiya: Int. J. Hydrogen Energy 7, 597 (1982)CrossRefGoogle Scholar
  230. 5.226
    F.A. Lewis: The Palladium Hydrogen System. (Academic, London 1967)Google Scholar
  231. 5.227
    R. Lasser, K.H. Klatt: Phys. Rev. B 28, 748 (1983)CrossRefGoogle Scholar
  232. 5.228
    R.H. Wiswall Jr., J.J. Reilly: Inorg. Chem. 11, 1691 (1972)CrossRefGoogle Scholar
  233. 5.229
    A. Biris, R.V. Bucur, P. Ghete, E. Indrea, D. Luper: J. Less-Common Met. 49, 477 (1976)CrossRefGoogle Scholar
  234. 5.230
    D. Dayan, M.P. Dariel: Mater. Res. Bull. 16, 137 (1981)CrossRefGoogle Scholar
  235. 5.231
    A. Yawny, G. Friedlmeier, J. C. Bolcich: Int. J. Hydrogen Energy 14, 587 (1989)CrossRefGoogle Scholar
  236. 5.232
    J. Tanaka, R. H. Wiswall, J. J Reilly: Inorg. Chem. 17, 498 (1978)CrossRefGoogle Scholar
  237. 5.233
    J. Volkl, G. Alefeld: ldDiffusion of Hydrogen in Metals”, in Hydrogen in Metals 1, Basic Properties, Topics Appl. Phys. 28, 321 (1978)CrossRefGoogle Scholar
  238. 5.234
    G. Sicking, P. zAlbers, E. Magomedbekov: J. Less-Common Met. 89, 373 (1983)CrossRefGoogle Scholar
  239. 5.235
    R. Lasser: J. Less-Common Met. 131, 263 (1987); T. Schober, C. Dieker, R. Lasser, H. Trinkaus: J. Less-Common Met. 131, 293 (1987)CrossRefGoogle Scholar
  240. 5.236
    J. L. Flament, G. Lozes: Proc. 3rd Int. Conf. “Hydrogen and Materials”, Paris 1982, vol. 1, Inst. Sup. Mater. Constr. Mech., St. Ouen, FranceGoogle Scholar
  241. 5.237
    E. Gluekauf, G. P. Kitt: “Chromatographic Separations of Hydrogen Isotopes”, in Vapor Phase Chromatography (Butterworths, London 1957) p.422Google Scholar
  242. 5.238
    F. T. Aldridge: “Chromatographic Hydrogen Isotope Separation”, U.S. Pat. 4276060, June 30, 1981; J. Less-Common Met. 108, 131 (1985)Google Scholar
  243. 5.239
    Y. W. Wong, F. B. Hill: A.I.Ch.E.J. 25, 592 (1979)CrossRefGoogle Scholar
  244. 5.240
    Y. W. Wong, F. B. Hill, Y. N. I. Chan: Separation Sci. Tech. 15,423 (1980)CrossRefGoogle Scholar
  245. 5.241
    F. B. Hill, V. Grzetic: J. Less-Common Met. 89, 399 (1983)CrossRefGoogle Scholar
  246. 5.242
    H. K. Rae (Ed.): Separation of hydrogen Isotopes, (Am. Chem. Soc., Washington 1978)Google Scholar
  247. 5.243
    H. Buchner: “Method for Preparation of Deuterium by Isotope Separation”, U.P. Pat. 3 940 912, Mar. 2, 1976Google Scholar
  248. 5.244
    J. J. Reilly: Brookhaven Nat. Lab., Upton, NY USA, Unpublished data (1977)Google Scholar
  249. 5.245
    G.D. Sandrock: ERGENICS, Inc., Wyckoff, NJ, USA, Unpublished data (1977)Google Scholar
  250. 5.246
    W. Rummel: Siemens Forsch-u. Entwick.-Ber. 10, 371 (1981)Google Scholar
  251. 5.247
    P. della Porta: J. Vac. Sci. Technol. 9, 532 (1972)CrossRefGoogle Scholar
  252. 5.248
    H. S. Cullingford, M. G. Wheeler, J. W. McMullen: “A Hydrogen Storage Bed Design for Tritium Test Assembly”, in Metal-Hydrogen Systems, (Pergamon, Oxford 1982) pp. 601–617CrossRefGoogle Scholar
  253. 5.249
    C. Boffto, F. Doni, L. Rosai: J. Less-Common Met. 104, 149 (1984); C. Boffto, B. Ferrario, P. della Porat, L. Rosai: J. Vac. Sci. Technol. 18, 1117 (1981)CrossRefGoogle Scholar
  254. 5.250
    St-101 and St 707 Non-Evaporable Getters, (S.A.E.S. Getters, S.p.A, Milan, Italy 1977, 1987)Google Scholar
  255. 5.251
    F. Doni, C. Boffito, B. Ferrario: J. Vac. Sci. Technol. A4, 2474 (1986)Google Scholar
  256. 5.252
    M. H. Mendelsohn, D. M. Gruen: J. Less-Common Met. 74,449 (1980); D. Shaltiel, L. Jacob, D. Davidov: J. Less-Common Met. 53, 117 (1977)CrossRefGoogle Scholar
  257. 5.253
    F. Meli, Z. Sheng, I. Vedel, L. Schlapbach: Vacuum 41, (1990)Google Scholar
  258. 5.254
    S. Bredendiek-Kamp, H. Klewe-Nebenius, G. Pfennig, M. Bruns, M. Devillers, H. J. Ache:Fesenius Z. Anal. Chem. 335, 669 (1989); R.D. Penzenhorn, M. Devillers, M. Sirch: J. Nucl. Mater. 170, 217 (1990)CrossRefGoogle Scholar
  259. 5.255
    J. J. Reilly, A. Holtz, R. H. Wiswall Jr.: Rev. Sci. Inst. 42, 1485 (1971)CrossRefGoogle Scholar
  260. 5.256
    H. H. van Mal: Chemie-Ing.-Techn. 45, 80 (1973)CrossRefGoogle Scholar
  261. 5.257
    J. J. Reilly, R. H. Wiswall: “Hydrogen Storage and Purification III, Rpt. BNL 21322(Brookhaven Nat. Lab, Upton, NY, USA 1976)Google Scholar
  262. 5.258
    F. E. Lynch, R. A. Nye, P. P. Turillon: “Hydride Chemical Compressor”, Phase I Final Report to Contract BNL 484822-S (Ergenics, Inc., Wyckoff, NJ, USA 1981)Google Scholar
  263. 5.259
    E. Tuscher, O. J. Eder, P. Weinzierl: “A Chemical Compressor Based on Compacted Metal Hydrides”, in Metal-Hydrogen Systems, (Pergamon, Oxford 1982)Google Scholar
  264. 5.260
    K. Nomura, E. Akiba, S. Ono: J. Less-Common Met. 89, 551 (1983)CrossRefGoogle Scholar
  265. 5.261
    Wang Qi-dong, Wu Jing, Chen Chang-pin, Au Ming, Fang Tian-shui: “Research and Development on High Pressure Suprapure Hydrogen Hydride Compressors”, Proc. 6th World Hydrogen Energy Conf. (Pergamon, New York 1986) pp. 872–880Google Scholar
  266. 5.266
    P. M. Golben: “Mufti-Stage Hydride-Hydrogen Compressor”, Proc. 18th Intersociety Energy Conversion Engineering Conf. (A.I.Ch.E., New York 1983) pp. 1746–1753Google Scholar
  267. 5.267
    R. W. Meyerhoff: Efficiency of Hydrogen Compression by Means of Hydrides”, Proc. 2nd Miami Int. Sym. on Alternative Energy Sources, (Hemisphere, Washington 1981) pp. 3555–3567Google Scholar
  268. 5.268
    G. G. Libowitz: “Metal Hydrides for Thermal Energy Storage”, Proc. 9th Intersociety Energy Conversion Engineering Conf. (Am. Soc. Mech. Eng., New York 1974) pp. 322–325Google Scholar
  269. 5.269
    G. G. Libowitz, Z. Blank: “An Evaluation of the Use of Metal Hydrides for Solar Thermal Energy Storage”, Proc. 11th Intersociety Energy Conversion Engineering Conf. (A.I.Ch.E.,New York 1976) pp. 673–680Google Scholar
  270. 5.270
    G. Alefeld, P. Maier-Laxhuber, M. Rothmeyer: “Thermochemical Heat Storage and Heat Transformation with Zeolites as Absorbents”, Technologies and Their Commercialization, Vol. 1 (Springer, Berlin, Heidelberg 1981) pp. 796–820Google Scholar
  271. 5.271
    B. Bogdanovic, B. Spliethoff, A. Ritter: Z. Phys. Chem. NF 164, 1497 (1989) and VDI-Berichte 725, 37 (1989); J. Kleinwiichter, B. Bogdanovic, H. Spliethoff, A. Ritter: Proc. 4th Int. Symp. on Research Development and Applications of Solar Thermal Technology, Santa Fe, 1988; Bomin Solar, D-7850 Lörach, BRDCrossRefGoogle Scholar
  272. 5.272
    M. Wierse, R. Werner, M. Groll: J. Less-Common Metals 172–174, 1111 (1991)CrossRefGoogle Scholar
  273. 5.273
    S. Ono: “Solar Energy Storage by Metal Hydride”, in Solar-Hydrogen Energy Systems,(Pergamon, Oxford 1979) pp. 193–224Google Scholar
  274. 5.274
    I. Yonezu, K. Nasako, N. Honda, T. Sakai: J. Less-Common Met. 89, 351 (1983); K. Nasako, T. Yonesaki, I. Yonezu, S. Fujitani, T. Saito, M. Moroto, M. Osumi, N. Furukawa: Proc. ISES Solar World Congress, Kobe, Japan (1989)CrossRefGoogle Scholar
  275. 5.275
    B. Bogdanovic: Private communicationGoogle Scholar
  276. 5.276
    “Hydride System Able to Warm Cold Engines”, Design News, Aug. 8, 1983, p.17; H. Buchner, H. Saufl'erer: “Parking Heater and Method Using Hydrides in Motor Vehicles Powered by Hydrogen”, U.S. Pat. 4214699, July 29, 1980Google Scholar
  277. 5.277
    A. W. McClaine: “Method and Apparatus for Heat Transfer, Using Metal Hydrides”, U.S. Pat. 4039023, August 2, 1977Google Scholar
  278. 5.278
    J. G. Cottingham: “Hydride Heat Pump”, U.S. Pat. 4044819, August 30, 1977Google Scholar
  279. 5.279
    L. E. Terry: “Hydrogen-Hydride Absorption Systems and Methods for Refrigeration and Heat Pump Cycles”, U.S. Pat. 4055962, Nov. 1, 1977 (Reissued as Re. 30840, Jan. 5, 1982)Google Scholar
  280. 5.280
    H. H. van Mal, E. T. Ferguson: “Cyclic Desorption Refrigerator and Heat Pump, Respectively”, U.S. Pat. 4111002, Sept. 5, 1978Google Scholar
  281. 5.281
    W. H. Bowman, B. E. Sirovich: “Moving Bed Hydride/Dehydride Systems”, U.S. Pat. 4 178 987, Dec. 18, 1979Google Scholar
  282. 5.282
    L. Terry: “Hydrogen-Hydride Absorption Systems and Methods for Regrigeration and Heat Pump Cycles”, U.S. Pat. 4188795, Feb. 19, 1980Google Scholar
  283. 5.283
    B. E. Sirovich: “Hydride Heat Pump”, U.S. Pat. 4 200144, Apr. 29, 1980Google Scholar
  284. 5.284
    D. M. Gruen, P. R. Fields: “System for Thermal Energy Storage, Space Heating and Cooling and Power Conversion”, U.S. Pat. 4262739, Apr. 21, 1981Google Scholar
  285. 5.285
    P. Dantzer, E. Orgaz: J. Chem. Phys. 85, 2961 (1986); P. Dantzer, E. Orgaz: Int. J. Hydrogen Energy 11, 797 (1986); E. Orgaz, P. Dantzer: J. Less-Common Met. 131, 385 (1987)CrossRefGoogle Scholar
  286. 5.286
    S. Wolf “Hydrogen Sponge Heat Pump”, Proc. 10th Intersociety Energy Conversion Engineering Conf. (IEEE, New York 1975) pp. 1348–1351Google Scholar
  287. 5.287
    M. Groll, R. Werner: IEA Task VII, “Hydrogen Storage, Conversion and Safety“, Workshop Osaka, Japan (1989) unpublished; M. Groll, W. Supper, R. Werner: Z. Phys. Chem. NF 164, 1485 (1989); R. Werner, M. Groll: “Design aspects of metal hydride heat transformers” in Récent progŕes en Genie des Procédes: Pompes a chaleurs, Vol. 2-88, no. 5 p. 320; R. Werner, M. Groll: J. Less-Common Met. 172–174, 1122 (1991)Google Scholar
  288. 5.288
    D.-W. Sun, S.-J. Deng: Int. J. Hydrogen Energy 15, 331 (1990)CrossRefGoogle Scholar
  289. 5.289
    J. G. Cottingham: “A Hydride Heat Pump to Enhance Solar Energy Collection and Storage and for Waste Heat Scavenging”, Rpt. BNL-19914 (Brookhaven Nat. Lab., Upton, NY, USAMar. 1975)Google Scholar
  290. 5.290
    G. Alefeld: “A Metal Hydrogen Heat Pump as Topping Process for Power Generation”, Proc. 2nd World Hydrogen Energy Conf (Pergamon, Oxford 1978) pp. 1947–1957Google Scholar
  291. 5.291
    D. M. Gruen, I. Sheft: “Metal Hydride Systems for Solar Energy Storage and Conversion”, Proc. of the Workshop on Solar Energy Storage Subsystems for the Heating and Cooling of Buildings, Rpt. NSF-RA-N075-041 (National Science Foundation, Washington, 1975)pp. 96–99Google Scholar
  292. 5.292
    I. Sheft, D. M. Gruen, G. J. Lamich, L. W. Carlson, A. E. Knox, J. M. Nixon, M. H. Mendelsohn: “HYCSOS: A System for Evaluation of Hydrides as Chemical Heat Pumps”, in Ref. [5.31] pp. 551–567Google Scholar
  293. 5.293
    D. M. Gruen, F. Schreiner, I. Sheft: Int. J. Hydrogen Energy 3, 303 (1978)CrossRefGoogle Scholar
  294. 5.294
    D.M. Gruen, M. Mendelsohn, I. Sheft, G. Lamich: “Materials and Performance Characteristics of the HYCSOS Chemical Heat Pump and Energy Conversion Systems”, Proc. 2nd World Hydrogen Energy Conf. (Pergamon, Oxford 1978) pp. 1931–1946Google Scholar
  295. 5.295
    G. Anevi, D. Lewis: “HEPTA 5. A Summary of Exploratory Work on Potential Uses of Metalic Hydrides”, Rpt. ET-81/118 (Studsvik Energiteknik AB, Nykoping, Sweden 1981)Google Scholar
  296. 5.296
    D.A. Rohy, T.A. Argabright, G.W. Wade: “Metal Hydride Heat Pump”, Proc. 17th Intersociety Energy Conversion Engineering Conf. (IEEE, New York 1982) pp. 1160–1165Google Scholar
  297. 5.297
    H. Buchner: BMFT Status Seminar (Bundes ministerium für Forschung, BRD 1979) p. 338Google Scholar
  298. 5.298
    N. Nishizaki, M. Miyamoto, K. Miyamato, K. Yoshida, Y. Nataka: “Experimental Studies on Metal Hydride Heat Pump for Residential Heating, Air Conditioning, and Hot Water Supply” Proc. 17th Falll Meeting (Soc. Chem. Eng. Japan, Sendai, Japan 1983) p. 18Google Scholar
  299. 5.299
    K. Yamamura, R. Ishikawa, S. Houno, T. Kanno, T. Kumagaya: “Development of Metal Hydride Heat Pump for Industrial Waste Heat Recovery”, Proc. 17th Fall Meeting (Soc. Chem. Eng. Japan, Sendai, Japan 1983) p. 21Google Scholar
  300. 5.300
    Y. Matsubara, Y. Kamazaki, M. Nagel, T. Amaiwa, S. Suda: “Development of Metal Hydride Air-Conditioner for Industrial Uses”, Proc. 17th Fall Meeting (Soc. Chem. Eng. Japan, Sendai, Japan 1983) p. 19Google Scholar
  301. 5.301
    Y. Yanai, M. Shichiri, S. Tuboi, T. Imamura, Y. Mizuno: “Testing Results of a Metal Hydride Heat Pump”, Proc. 17th Fall Meeting (Soc. Chem. Eng. Japan, Sendai, Japan 1983) p. 20Google Scholar
  302. 5.302
    S. Suda: J. Less-Common Met. 104, 209 (1984)CrossRefGoogle Scholar
  303. 5.303
    P.P. Turillon: “Hydride Heat Pump for Industrial Waste Heat Recovery”, Final Rept. for New York State ERDA Contract No. ER-215-78/79 (ERGENICS, Inc., Wyckoff, NJ, USA 1984)Google Scholar
  304. 5.304
    L.E. Terry, G.D. Sandrock, E.L. Huston, R.W. Meyerhoff: “Solar Powered Hydride Refrigerator”, Unpublished Data (ERGENICS, Inc., Wyckoff, NJ, USA 1981)Google Scholar
  305. 5.305
    M. Ron: J. Less-Common Met. 104, 259 (1984)CrossRefGoogle Scholar
  306. 5.306
    E. Tuscher, P. Weinzierl, O.J. Elder: Int. J. Hydrogen Energy 9, 783 (1984)CrossRefGoogle Scholar
  307. 5.307
    K. Nasako, I. Yonezu, S. Fujitani, A. Furukawa, T. Yonesaki, T. Sakai: MRS Int. Meeting on Adv. Mat. 2, 113 (1989); I. Yonezu, S. Fujitani, K. Nasako, A. Furukawa, T. Yonesaki, N. Furukawa: MRS Int. Meeting on Adv. Mat. 2, 149 (1989)Google Scholar
  308. 5.308
    M. Ron, Y. Josephy: Z. Phys. Chem. NF 147, 241 (1986); 164, 1475 (1989)CrossRefGoogle Scholar
  309. 5.309
    H. Abelson, J.S. Horowitz: “A Thermodynamic Analysis of a Metal Hydride Heat Pump”, Proc. 15th Intersociety Energy Conversion Engineering Conf. (Am. Inst. of Aeronautics and Astronautics, New York 1980) pp. 936–945Google Scholar
  310. 5.310
    T. Nishizaki, K. Miyamoto, K. Yoshida: J. Less-Common Met. 89, 559 (1983)CrossRefGoogle Scholar
  311. 5.311
    R. Gorman, P.S. Moritz: “Design Study and Cost-Effectiveness of the Metal Hydride Solar Heat Pump and Power System (HYCSOS)”, Proc. 14th Intersociety Energy Conversion Engineering Conf. (Am. Chem. Soc., Washington 1979) pp. 109–113Google Scholar
  312. 5.312
    R. Gorman, W.L. Akridge: “Hydride Heat Pump System for Building Air Conditioning Using High Temperature Solar Inputrd, Rpt. for Argonne N.L.P.O. No. 898403 and SN No. 97164 (TRW, Inc., McLean, VA, USA)Google Scholar
  313. 5.313
    W.E. Winsche: “Intermittent Power Source”, U.S. Pat. 3 504494, Apr. 7, 1970Google Scholar
  314. 5.314
    L.E. Terry, R.J. Schoeppel: “Hydride-Dehydride Power System and Methods”, U.S. Pat. 3 943 719, Mar. 16, 1976Google Scholar
  315. 5.315
    L.E. Terry, R.J. Schoeppel: “Power Cycles Based Upon Cyclical Hydriding and Dehydridingg of a Material”, U.S. Patents 4 199 827, Apr. 22, 1980; 4 311014, Jan. 19, 1982; 4 397153, Aug. 9, 1983Google Scholar
  316. 5.316
    J.R. Powell, F.J. Salzano, W-S. Yu, J.S. Milau: “High Efficiency Power Conversion Cycles for Central Station and Peaking Power Plants”, Paper 75-WA/Ever-2 (Am. Soc. Mech. Eng., New York 1975)Google Scholar
  317. 5.317
    J.R. Powell, F.J. Salzano, W-S. Yu, J.S. Milau: “High Efficiency Power Conversion Cycles Using Hydrogen Compressed by Absorption on Metal Hydrides”, Proc. 10th Intersociety Energy Conversion Engineering Conf. (IEEE, New York 1975) pp. 1339–1347Google Scholar
  318. 5.318
    J.R. Powell, F.J. Salzano: “Hydride Compressor”, U.S. Pat. 4085590, Apr. 25, 1978Google Scholar
  319. 5.319
    T.E. Hinkebein, C.J. Northrup, A.A. Heckes: “Closed-Cycle Hydride Engines”, Rept. SAND78-2228 (Sandia Nat. Labs. Albuquerque, NM, USA 1978)Google Scholar
  320. 5.320
    A.A. Heckes, T.E. Hinkebein, C.J.M. Northrup: “Hydride Engines”, Proc. 14th Intersociety Energy Conversion Enginnering Conf. (Am. Chem. Soc., Washington 1979) pp. 743–746Google Scholar
  321. 5.321
    C.J.M. Northrup Jr., A.A. Heckes: J. Less-Common Met. 74, 419 (1980)CrossRefGoogle Scholar
  322. 5.322
    K. Nomura, Y. Ishido, S. Ono: Energy Conversion 19, 45 (1979)CrossRefGoogle Scholar
  323. 5.332
    “Hydride Pump Uses Low-Grade Heat”, World Water, June 1986, p. 47Google Scholar
  324. 5.324
    P. Ghete, R. Sarbu, R. Lupu, R. Lupu, A. Biris, C. Bratu: “Water Pump with Metallic Hydrides”, Proc. 6th World Hydrogen Energy Conf. (Pergamon, New York 1986) pp. 920–932Google Scholar
  325. 5.325
    D.E. Warren, K.A. Faughman, R.A. Fellow, J.W. Godden, B.M. Seck: J Less-Common Met. 104, 375 (1984)CrossRefGoogle Scholar
  326. 5.326
    P.M. Golben: “Metal Hydride Actuation Device”, U.S. Pat. 4282931, Aug. 11, 1981Google Scholar
  327. 5.327
    P.M. Golben: “Thermally Activated Metal Hydride Sensor/Actuator, U.S. Pat. 4 377 209, Mar. 22, 1983Google Scholar
  328. 5.328
    P.M. Golben: “Fast-Acting Self-Resetting Hydride Actuator”, U.S. Pat. 4 385 494, May. 31, 1983Google Scholar
  329. 5.329
    J-M. Welter, J-D. Witt: Regelungstechnische Praxis 25, 51 (1983)Google Scholar
  330. 5.330
    J.M. Welter: J. Less-Common met. 104, 251 (1984)CrossRefGoogle Scholar
  331. 5.331
    K. Shinoda, K. Oguma: “Metal Hydride Thermal Sensors”, Proc. 15th Fall Meeting (Soc. Chem. Eng. Japan, Kanazawa, Japan 1981) p. 427Google Scholar
  332. 5.332
    G.A. Klein, J.A. Jones: “Molecular Absorption Cryogenic Cooler For Liquid Hydrogen Propulsion Systems”, AIAA Paper 82-0830 (Am. Inst. of Aeronautics and Astronautics, New York 1982)Google Scholar
  333. 5.333
    J.A. Jones, P.M. Golben: “Life Test Results of Hydride Compressors for Cryogenic Refrigerators”, AIAA Paper 84-0058 (Am. Inst. of Aeronautics and Astronautics, New York 1984)CrossRefGoogle Scholar
  334. 5.334
    J.A. Jones: “Cryogenic Hydride Refrigeration”, Videotape AVC-038-84CID (Jet Propulsion Laboratory, Pasadena, CA, USA 1984)Google Scholar
  335. 5.335
    D.A. Mathis: Hydrogen Technology for Energy (Noyes Data Corp, Park Ridge, NJ, USA 1976) pp. 55–72Google Scholar
  336. 5.336
    M.J. Rosso, M. Golben: J. Less-Common Met. 131, 283 (1987)CrossRefGoogle Scholar
  337. 5.337
    Netherlands Patent 6 912 908, cited by W.E. Wallace: “Rare Earth and Actinide Intermetallics as Hydrogenation Catalysts”, in Ref. [5.31] pp. 501–514Google Scholar
  338. 5.338
    W.E. Wallace, A. Elattar, H. Imamura, R.S. Craig, A.G. Moldovian: “Intermetallic Compounds: Surface Chemistry, Hydrogen Absorption and Heterogeneous Catalysis” in Science and Technology or Rare Earth Materials (Academic, New York 1980) pp. 329–351CrossRefGoogle Scholar
  339. 5.339
    T. Takeshita, W.E. Wallace, R.S. Craig: J. Catal. 44, 236 (1976)CrossRefGoogle Scholar
  340. 5.340
    V.T. Coon, T. Takeshita, W.E. Wallace, R.S. Craig: J. Phys. Chem. 80, 1878 (1976)CrossRefGoogle Scholar
  341. 5.341
    A. Elattar, T. Takeshita, W.E. Wallace, R.S. Craig: Science 196, 1093 (1977)CrossRefGoogle Scholar
  342. 5.342
    A. Elattar, W.E. Wallace, R.S. Craig: “Intermetallic Compounds as Catalysts for Hydrogenation of Carbon Oxides”, in The Rare Earths in Modern Science and Technology (Plenum, New York 1978) pp. 87–92CrossRefGoogle Scholar
  343. 5.343
    G.B. Atkinson, L.J. Nicks: J. Catal. 46, 417 (1977)CrossRefGoogle Scholar
  344. 5.344
    G.B. Atkinson, L.J. Nicks: “Preparation and Use of High Surface Area Transition Metal Catalysts”, U.S. Pat. 4071473, Jan. 31, 1978Google Scholar
  345. 5.345
    J. Barrault, D. Duprez, A. Percheron-Guegan, J.C. Achard: J. Less-Common Met. 89, 537 (1983)CrossRefGoogle Scholar
  346. 5.346
    J. Barrault, A. Guilleminot, A. Percheron-Guegan, V. Paul-Boncour, J.C. Achard: J. Less Common Met. 131, 425 (1987)CrossRefGoogle Scholar
  347. 5.347
    M.N. Ozyagcilar: “Method of Making Ammonia”, European Pat. Appl. 0034403 (European Patent Office, The Hague, Aug. 26, 1981)Google Scholar
  348. 5.348
    T. Hirata: J. Less-Common Met. 124, 11 (1986)CrossRefGoogle Scholar
  349. 5.349
    L. Schlapbach, A. Seiler, F. Stucki: Mater. Res. Bull. 13, 697 (1978)CrossRefGoogle Scholar
  350. 5.350
    L. Schlapbach, A. Seiler, F. Stucki: Mater. Res. Bull. 13, 1031 (1978)CrossRefGoogle Scholar
  351. 5.351
    L. Schlapbach, A. Seiler, F. Stucki: Mater Res. Bull. 14, 785 (1979)CrossRefGoogle Scholar
  352. 5.352
    K. Soga, H. Imamura, S. Ikeda: J. Phys. Chem. 81, 1762 (1977)CrossRefGoogle Scholar
  353. 5.353
    P.A. Chernavskii, V.V. Lunin: Kinetics and Catalysis 24, 769 (1983)Google Scholar
  354. 5.354
    F. Breda, P. Jonville: “Hydrogen Transfer by Metal Hydride Between Aqueous Medium and Organic Compound”, U.S. Pat. 4 120 763, Oct. 17, 1978Google Scholar
  355. 5.355
    D. Lewis: “Method of Producing Ammonia”, U.S. Pat. 4325931, Apr. 20, 1982Google Scholar
  356. 5.356
    M. Klein, B.S. Baker: “Nickel-Hydrogen Battery System”, Proc. 9th Intersociety Energy Conversion Engineering Conf. (Am. Soc. Mech. Eng., New York 1974) pp. 118–122Google Scholar
  357. 5.357
    M.W. Earl, J.D. Dunlop: COMSAT Tech. Rev. 3, 437 (1973)Google Scholar
  358. 5.358
    E.W. Justi, H.H. Ewe, A.W. Kalberlak, N.M. Saridakis, M.H. Schaeffer: Energy Conversion 10, 183 (1970); H. Ewe, Ph.D. thesis, Technical University Braunschweig (1970)CrossRefGoogle Scholar
  359. 5.359
    H. Ewe, E.W. Justi, K. Stephan, Energy Conversion 13, 109 (1973)CrossRefGoogle Scholar
  360. 5.360
    G. Bronoel, S. Sarradin, A. Percheron, J.C. Achard, M. Bonnemay, J. Loriers: French Patents No. 7 516 160 (1975) and No. 7 723 812 (1977)Google Scholar
  361. 5.361
    G. Bronoël Sarradin, M. Bonnemay, A. Percheron, J.C. Achard, L. Schlapbach: Communication at ISE. Meeting, Marcoussis, France 1975 and Int. J. Hydrogen Energy 1, 251 (1976); G. Bronoel, J. Sarradin, A. Percheron-Guegan, J.C. Achard: Mat. Res. Bull. 13, 1265 (1978)Google Scholar
  362. 5.362
    J.J.G. Willems: Philips J. Res. 39 (Suppl. 1), 1 (1984)Google Scholar
  363. 5.363
    J.J.G. Willems, J.R. Beek, K.H. Buschow: European Patent Appl. 84 201493.8, Oct. 1984Google Scholar
  364. 5.364
    J.-P. Schultze, P. Antoine: “Application of Hydrides to the Silver-Hydrogen System”, Rep. SAS-224/82 JPS/MD, 1982, SAFT Aerospace Dept, F-93230 Romain ville, FranceGoogle Scholar
  365. 5.365
    H.F. Bittner, C.C. Badcock: J. Electrochem. Soc. 130, 193C (1983)CrossRefGoogle Scholar
  366. 5.366
    H.F. Bittner, M.V. Quinzio, C.C. Badcock: “Metal Hydrides for Hydrogen Storage in Nickel Hydrogen Batteries”, Proc. 5th World Hydrogen Energy Conf. (Pergamon, Oxford 1984) pp. 1371–1381Google Scholar
  367. 5.367
    T. Sakai, A. Takagi, T. Hazama, H. Miyamura, N. Kuriyama, H. Ishikawa, C. Iwakura: Proc. 3rd Int. Conf. Batteries for Utility Energy Storage, Kobe, Japan Mach 18-22,1991, in pressGoogle Scholar
  368. 5.368
    H Ogawa, M. Ikoma, H. Kawano, I. Matsumoto: In Power Sources 12, ed. by T. Keily, B.W. Baxter, Int. Power Sources Symp. Committee (Taylor and Francis, London 1989) p.393Google Scholar
  369. 5.369
    T. Sakai, H. Miyamura, N. Kuriyama, A. Kato, K. Oguro, H. Ishikawa, C. Iwakura: J. Less-Common Met. 159, 127 (1990)CrossRefGoogle Scholar
  370. 5.370
    T. Sakai, K. Oguro, H. Miyamura, N. Kuriyama, A. Kato, H. Ishikawa, K. Iwakura: J. Less-Common Met. 161, 193 (1990)CrossRefGoogle Scholar
  371. 5.371
    T. Sakai, H. Miyamura, N. Kuriyama, A. Kato, K. Oguro, H. Ishikawa: J. Electrochem. Soc. 137, 795 (1990)CrossRefGoogle Scholar
  372. 5.372
    A. Boonstra, T.M. Bernards: J. Less-Common Met. 161, 245, 355 (1990)CrossRefGoogle Scholar
  373. 5.373
    F. Meli, L. Schlapbach: J. Less-Common Met. 172–174, 1252 (1991)CrossRefGoogle Scholar
  374. 5.374
    T. Sakai, A. Yuasa, H. Miyamura, N. Kuriyama, K. Kato, H. Ishikawa: J. Less-Common Met. 172–174, 1194 (1991)CrossRefGoogle Scholar
  375. 5.375
    C. Iwakura, Y. Kajiya, H. Yoneyama, T. Sakai, K. Oguro, H. Ishikawa: J. Electrochem. Soc. 136, 1351 (1989)CrossRefGoogle Scholar
  376. 5.376
    T. Sakai, A. Takagi, K. Kinoshita, N. Kuriyama, H. Miyamura, H. Ishikawa: J. Less-Common Met. 172–174, 1185 (1991)CrossRefGoogle Scholar
  377. 5.377
    Y. Moriwaki, T. Gamo, H. Seri, T. Iwaki: J. Less-Common Met. 172–174, 1211 (1991)CrossRefGoogle Scholar
  378. 5.378
    Y. Moriwaki, T. Gamo, A. Shintani, T. Iwaki: Proc. 28th Battery Symp., Japan, 111 (1987); Proc. 29th Battery Symp., Japan, 117 (1988)Google Scholar
  379. 5.379
    M.A. Fetcenko, S. Venkatesan, K.C. Hong, B. Reichman: “Hydrogen Storage Materials for Use in Rechargeable Ni-Metal Hydride Batteries” in Power Sources 12, ed. by T. Keily, B.W. Baxter, Int. Power. Sources Symp. Committee (Taylor and Francis, London 1989) p. 411Google Scholar
  380. 5.380
    B. Reichman, S. Venkatesan, M. Fetcenko, K. Jeffries, S. Stahl, C. Bennett: US Patent 4 716 088 (1987); S. Venkatesan, B. Reichman, M. Fetcenko: US Patent 4 728 586 (1988)Google Scholar
  381. 5.381
    H. Sawa, K. Ohzeki, M. Ohta, H. Nakano, S. Wakao: Z. Phys. Chemie NF 164, 1521 (1989); H. Wawa, M. Ohta, H. Nakano, S. Wakao: Z. Phys. Chemie NF 164, 1527 (1989)CrossRefGoogle Scholar
  382. 5.381a
    P.H.L. Notten, P. Hokkeling: J. Electrochem. Soc. 138, 1877 (1991)CrossRefGoogle Scholar
  383. 5.382
    D.H. Ryan, F. Dumais, B. Patel, J. Kycia, J.O. Strom-Olsen: J. Less-Common Met. 172–174, 1246 (1991)CrossRefGoogle Scholar
  384. 5.383
    Matsushita News, January 12 (1989)Google Scholar
  385. 5.384
    Ovonic Battery Company, Troy, MI, USAGoogle Scholar
  386. 5.385
    M. Kanda, T. Satoh, K. Sasaki, S. Tsuruta, S. Kohan, E. Tagasaki, K. Kurigara: Proc. 27th Battery Symp., Japan, 9 (1986); Proc. 28th Battery Symp., Japan, 109 (1987)Google Scholar
  387. 5.386
    M. Mohri, T. Tajima, H. Tanaka, T. Yomeda, M. Kasahara: Sharp Technical Reports 34, 97 (1986) and 38, 55 (1987)Google Scholar
  388. 5.387
    S. Furukawa, K. Inoue, T. Matsumoto, S. Kameoka: Proc. 28th Battery Symp. Japan, 107 (1987); Proc. 28th Battery Symp. Japan, 119 (1988)Google Scholar
  389. 5.388
    L.R. Dillworth, W.J. Wunderlin: “Fuel Cell and Fuel Cell Electrode Containing Nickel-Rare Earth Intermetallic Catalyst”, U.S. Pat. 3405008, Oct. 5, 1968Google Scholar
  390. 5.389
    C. Folonari, G. Iemmi, F. Manfredi, A. Rolli: J. Less-Common Met. 74, 371 (1980)CrossRefGoogle Scholar
  391. 5.390
    T. Kitamura, C. Iwakura, H. Tamura: Chem. Lett. 965 (1981)Google Scholar
  392. 5.391
    D.E. Hall, V.R. Shepard, Jr.: Int. J. Hydrogen Energy 9, 1005 (1984)CrossRefGoogle Scholar
  393. 5.392
    I.R. Harris: J. Less-Common Met. 131, 245 (1987) and references therein; I.R. Harris, P.J. McGuiness: Proc. 11th Int. Workshop on Rare Earth Magnets and Their Applications, Pittsburgh, 21-14 Oct. 1990, in pressCrossRefGoogle Scholar
  394. 5.393
    P. Dalmas de Reotier, D. Fruchart, P. Wolfers, R. Guillen, P. Vulliet, A. Yaouanc, R. Fruchart, Ph. L'Heritier: J. Phys. Colloq (Paris) 46, 6 (1985); R. Fruchart, R. Madar, A. Rouault, P. L'Heritier, P. Taunier, D. Boursier, D. Fruchart, P. Chaudouet: French Patent 84.10387 (1984); D. Fruchart, S. Miraglia: Proc. MMM Conf., San Diego CA, Nov. 90, J. Appl. Phys. in press (1991)Google Scholar
  395. 5.394
    E. Rozendaal, J. Ormerod, P.J. McGuiness, I.R. Harris: “A Study of Nd-Fe-B Magnets Produced Using a Combination of Hydrogen Decrepitation and Jet Milling” in Concentrated European Action on Magnets, ed. by I.V. Mitchell et al. (Elsevier, London 1989) p. 510CrossRefGoogle Scholar
  396. 5.395
    J. Ormerod: J. Less-Common Met. 111, 49 (1985)CrossRefGoogle Scholar
  397. 5.396
    L. Schlapbach: J. Less-Common Met. 111, 291 (1985)CrossRefGoogle Scholar
  398. 5.397
    R.E. Salomon: Solar Energy 23, 91 (1979)CrossRefGoogle Scholar
  399. 5.398
    P. de Lamberterie, M. Forestier, J. Guitton, A. Rouault, R. Fruchart: J. Less-Common Met.131, 427 (1987)CrossRefGoogle Scholar
  400. 5.399
    E.L. Johnson: “The Texas Instruments Solar Energy System Development”, Proc. 16th Intersociety Energy Conversion Engineering Conf. (Am. Soc. Mech. Eng, New York 1981) pp. 798–804Google Scholar
  401. 5.400
    M.S. Bawa, E.A. Ziem: Int. J. Hydrogen Energy 7, 775 (1982)CrossRefGoogle Scholar
  402. 5.401
    W.D.K. Clark, M.N. Hull, J.T. Arms: “Photoelectrochemical Cell with In-Situ Storage using Hydrogen Storage Electrodes”, Canadian Patent 1142 131, March 1, 1983Google Scholar
  403. 5.402
    “High-Tech Hydrides on the Way”, Chem. Week (Feb. 26, 1986) pp. 49–50Google Scholar
  404. 5.403
    “KHI Commission to Develop Overall Regenerator System for Research on Wild Energy Storage Technology by Metal Hydride”, Kawasaki Topics, No. 143 (Kawasaki Heavy Industries Ltd., Japan 1983)Google Scholar

Copyright information

© Springer-Verlag 1992

Authors and Affiliations

  • Gary Sandrock
  • Seijirau Suda
  • Louis Schlapbach

There are no affiliations available

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