Technologiereport

Abreicherung von CO2 aus CO2-H2-Gemischen mit aminfunktionalisierten Polymermembranen

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11. Literaturverzeichnis

    1. Umweltbereich Luft: S. 17, Frankfurt, Fonds der Chem. Industrie, 1987.
    2. R. Rautenbach, A. Struck: Entwicklungspotential der Gaspermeation für die Abtrennung von CO2 aus Abluft, Aachener Membran Kolloqium, 1995.
    3. RITE(Research Institute of Innovative Technology for the Earth, Kyoto, Japan): Institutsbroschüre, persönliche Mitteilung Herr Shingo Kazama.
    4. B.D. Bhide, S.A. Stern: Membrane Processes for the Removal of Acid Gases from Natural Gas, Journal of Membrane Science, 81 (1993), S. 239-252.
    5. Solarer Wasserstoff: ein möglicher Energieträger der Zukunft, Broschüre zur Ausstellung der Deutschen Forschungsanstalt für Luft- und Raumfahrt (DLR), des Zentrums für Sonnenenergie- und Wasserstoff-Forschung (ZSW) und des Wirtschaftsministeriums des Landes Baden-Würtemberg, 5. Auflage.
    6. J. Friedrich, R. Berretta: Brennstoffzellen Elektro-Fahrzeuge in Erprobung, Tagungsband II, S. 161, DECHEMA Jahrestagung 27 - 29. April 1999, Fachtreffen Brennstoffzellen, Wiesbaden.
    7. K. Lasch, J. Scherer, V. Gogel, L. Jörissen, J. Garche: Materialaspekte der Direkt-Methanol-Brennstoffzelle, Tagungsband II, S. 182, Dechema Jahrestagung 27-29. April 1999, Fachtreffen Brennstoffzellen, Wiesbaden.
    8. Ullmanns Encyklopädie der technischen Chemie, Band 12, S. 128, Verlag Chemie, Weinheim, New York, 4. Auflage.
    9. P.H.M. Feron, A.E. Jansen, R. Klaassen: Membrane Technology in Carbon Dioxide Removal, Energy Convers. Mgmt. , 33 (1992), No. 5-8, S. 421-428.
    10. J.P. Daum: Determining the Costs of Hydrogen, Inform, 4(1993), No .12, S. 1394-1399.
    11. Persönliche Mitteilung, Klaus Giessler, Leiter Gastrennung, Firma Carbo Tech.
    12. UBE CO2 Separation Membrane, Firmenprospekt UBE Industries, LTD, Tokyo, Japan, 1995.
    13. J.M.S. Henis, M.K. Tripodi: Multicomponent Membranes for Gas Separation, U.S. Patent 4,230,463, (1980).
    14. J.M.S. Henis, K. Tripodi: Composite Hollow Fibre Membranes for Gas Separation: the Resistance Model Approach, Journal of Membrane Science, 8 (1981), S. 233-246.
    15. E. Piskin: Synthetic Polymeric Membranes: Separation via Membranes, NATO ASI Ser., Ser. E (Polym. Biomater.), 106 (1986), S. 110-35.
    16. H.K. Lonsdale: The Growth of Membrane Technology, Journal of Membrane Science, 10 (1982), S. 107.
    17. D. Paul: Polymermembranen für die Stofftrennung, Chemie in unserer Zeit, 32 (1998), Nr. 4, S. 197-205.
    18. G.v. Sengbusch: Future of Membranes, Technological and Economical Aspects, Vortrag: Synthetic Membranes in Science and Industry, Tübingen Sept. 1994.
    19. R. Rautenbach, A. Struck: Comparison of different Membrane Gas Separation Processes, Proceedings of ICOM '96, Yokohama, Japan, 1996, S-4-2-3, S. 292.
    20. V.T. Stannett, W.J. Koros, D.R. Paul, H.K. Londsale, R.W. Baker: Recent Advances in Membrane Science and Technology, S. 69-121.
    21. S.A. Stern: Polymers for Gas Separation: the next Decade, Journal of Membrane Science 94 (1994), S. 1-65.
    22. P. H. Pfromm, I. Pinnau, W.J. Koros: Gas Transport through Integral-Asymmetric Membranes: a Comparison to isotropic Film Transport Properties, Journal of applied polymer science, 48 (1993), S. 2161-2171.
    23. E. Staube: Membranen und Membranprozesse, Kap. 9 , Gasseparation, S. 269-311, VCH, Weinheim, 1992. A: S.296; B: S.283; C: S.295
    24. S. Egli, A. Ruf, A. Buck: Gastrennung mittels Membranen, Swiss Chem, 6, (1984), Nr. 9, S. 89-126.
    25. M. Mulder: Energy Requirements in Membrane Separation Processes, Membrane Processes in Separation and Purification, S. 445-475, Kluwer Academic Publishers, 1994.
    26. H. Matsumoto et al.: Fundamental Study on CO2 Removal from the Flue Gas of Thermal Power Plant by Hollow Fibre Gas-Liquid Contactor, Carbone dioxide chemistry, Env. Issues, The Royal Soc. of Chem., Stockholm (1994), S. 270-281.
    27. M. Suzuki: Fundamental Studies for Development of Energy efficient and high Capacity Adsorptive Separation Processes for CO2 Recovery from Stack Gas, http://www.rite.or.jp.
    28. K. Takada, H. Matsuaya, T. Masuda,T. Higashimura: Gas Permeability of Polyacetylenes carrying Substituents, Journal of Applied Polymer Science, 30 (1985), S. 1605-1616.
    29. Proceedings of the ICOM ' 93 Post-Conference Workshop, 1st GKSS Workshop on Membrane Formation, September 6-7, 1993.
    30. Y. Ichiraku; S.A. Stern, T. Nakagawa: An Investigation of the high Gas Permeability of Poly(1-trimethylsilyl-1-propyne), Journal of Membrane Science, 34 (1987), S. 5-18.
    31. N.N. Dutta, S. Baruah, G.S. Patil: Gas separation using Liquid Membrane: Technological Perspectives, Chemical engineering world, 27 (1992), 5 , S. 73-81.
    32. S. Saha, A. Chakma: Selective Separation from CO2/C2H6 Mixtures by immobilizied Diethanolamine/PEG membranes, Journal of Membrane Science, 98 (1995), S. 157-171.
    33. R. Quinn, D.V. Laciak: Polyelectrolyte Membranes for acid Gas Separations, Journal of Membrane Science, 131 (1997), S. 49-60
    34. O.H. LeBlanc, Jr., W.J. Ward, S.L. Matson, S.G. Kimura: Facilated Transport in Ion Exchange Membranes, Journal of Membrane Science, 6 (1980), S. 339-343.
    35. J.D. Way, R.D. Noble, D.L. Reed, G.M. Ginley: Facilated Transport of CO2 in Ion Exchange Membranes, AIChE Journal, 33 (1987) , No. 3, S. 480-487.
    36. J.D. Way: Facilated Transport of Carbon Dioxide and Hydrogen Sulphide in Ion Exchange Membranes, Dissertation Abstracts International, Vol 47, No. 9, March (1987), 3878 B Order DA 8700398.
    37. T. Yamaguchi, L.M. Boetje, C.A. Koval, R.D. Noble, C. N. Bowman: Transport Properties of Carbon Dioxide through Amine functionalized Carrier Membranes, Ind. Eng. Chem. Res., 34 (1995), S. 4071-4077.
    38. D. Langevin, M. Pinoche, E. Selegny, M. Metayer, R. Roux: CO2 facilated Transport through functionalized Cation Exchange Membranes, Journal of Membrane Science, 82 (1993), S. 51-63.
    39. H. Matsuyama, M. Teramoto, K. Iwai: Development of a new functional Cation Exchange Membrane and its Application to facilated Transport of CO2, Journal of Membrane Science, 93 (1994), S. 237-244.
    40. H. Matsuyama, M. Teramoto, H. Skakura, K. Iwai: Facilated Transport of CO2 through various Ion Exchange Membranes prepared by Plasma Graft Polymerization, Journal of Membrane Science, 117 (1996), S. 251-260.
    41. M. Yoshikawa, T. Ezaki, K. Sanui, N. Ogata: Selective Permeation of Carbon Dioxide through synthetic Polymer Membranes having Pyridine Moiety as a fixed Carrier, Journal of applied Polymer Science, 35 (1988), S. 145-154.
    42. H. Matsuyama, M. Teramoto, H. Sakakura: Selective Permeation of CO2 through Poly(2-(N,N-dimethyl)aminoethylmethacrylate) Membrane prepared by Plasma-graft Polymerisation Technique, Journal of Membrane Science, 114 (1996), S. 193-200.
    43. H. Matsuyama, K. Hirai, M. Teramoto: Selective Permeation of Carbon Dioxide through Plasma polymerised Membrane from Diisopropylamine, Journal of Membrane Science, 92 (1994), S. 257-265.
    44. K. Okamoto, N. Yasugi, T. Kawabata, K. Tanaka, H. Kita: Amine-modified Polyimide Membranes for CO2/N2 Gas Separation, Proceedings of ICOM 1996, August 1996, Yokohama Japan, S-4-3-1, S. 302-303.
    45. M. Yoshikawa, K. Fujimoto, H. Kinugawa, T. Kitao, N. Ogata, Chem.Let., (1994), S. 243-246.
    46. M. Yoshikawa, K. Fujimoto, H. Kinugawa, T. Kitao, Y. Kamiya, N. Ogata, J. Appl. Polym. Sci. , 58 (1995), S. 1771-1778.
    47. M. Ballhorn, K. Jakoby, K.-V. Peinemann, H. Höcker: Investigation on fixed site Carrier Membranes for Carbon Dioxide Separation from Gas Streams, Proceedings of Euromembrane 1999, Leuven, Belgium PJ-08, S. 420.
    48. Kirk-Othmer Encyclopedia of Chemical Technology, Polyelectrolytes, Vol. 18, S. 495, (1982).
    49. US 5336298: Polyelectrolyte Membranes for the Separation of acid Gases.
    50. EP 94305935.2: Membrane for the Separation of Carbon Dioxide.
    51. Chemical approach for CO2-Fixation and Utilization, New Energy and Industrial Technology Development Organization (NEDO), Tokyo, Japan, 1999.
    52. Y. Hirayama, N. Tanihara, Y. Kuski, H. Mano, K. Haraya, M. Sato: Plasma polymerised Membranes for Carbon Dioxide Separation, Proceedings of ICOM 1996, P-4-1-5, S. 322-23.
    53. K. Okamato et al., Macromol., 28 (1995), S. 6950.
    54. Y. Kase, N. Tanihara, Y. Hirayama, Y. Kusuki, K. Haraya, C. Kamizawa: Permeation Properties of CO2 and N2 through ultrathin crosslinked Films containing Poly(ethylene oxide), Proceedings of Euromembrane 1999, Leuven, Belgium PL-03, S. 475.
    55. W.J. Koros, G.K. Fleming: Membrane based Gas Separation, Journal of Membrane Science, 83 (1993), S. 1-80.
    56. UBE Gas Separation System by Polyimide Membrane, Firmenprospekt UBE Industries, LTD, Tokyo, Japan 1994.
    57. G. Härtl, F. Rompf, T. Püschel: Separation of CO2/H2 Gas Mixture under High Pressure with Polyethylene Terephtalate Membranes, Journal of Membrane Science, 113 (1996), S. 115-120.
    58. G. Härtl, F. Rompf: Trennung eines Kohlendioxid/Wasserstoff-Gasgemisches unter hohen Drücken mit polymeren Membranmaterialien, Chemie Ingenieur Technik, 69 (1997), 4, S. 506-510.
    59. L. Sartorelli, W. Kulcke, G. Brunner: Basic Investigation of the Capacities for organic and composite Membranes for Separations in supercritical Carbon Dioxide, Proccedings of Euromembrane 1999, Leuven, Belgium, Lectures B-10.
    60. Research and development of high temperature CO2-Separation and Utilization technology, New Energy and Industrial Technology Development Organization (NEDO), Tokyo, Japan, 1996.
    61. Y. Sasuda, Y. Izaki, M. Moritsuka: Preparation and Evaluation of H2-Permselective Ceramic Membrane for High Temperature Gas Separation, Proceedings of Euromembrane 1997, Twente, Netherlands, S. 79.
    62. J.D. Way, R.D. Noble, L.A. Powers: Gas Separation using Ion Exchange Membranes, Final Report DOE/MC/21271-2341, Unites States Department of Energy, Mai 1986.
    63. Firmenprospekt Carbon Membranes Ltd.,1998, D.N. Arava, Israel.
    64. T. Graham, Trans. R. Soc. (London), 153 (1863), S. 385.
    65. M.B. Rao, S. Sircar: Nanoporous Carbon Membranes for Separation of Gas Mixtures by selective Surface Flow, Journal of Membrane Science, 85 (1993), S. 253-264.
    66. F.M. Plathe: Permeation of Polymers - a computational Approach, Acta Polymer, 45 (1994), S. 259-293.
    67. E. Staube: Membranen und Membranprozesse, Kap. 9 , Gasseparation, S. 269-311, VCH, Weinheim, 1992.
    68. L.M. Robeson, W. F. Burgoyne, M. Langsam, A. C. Savoca, C; F. Tien: High Performance Polymers for Membrane Separation, Polymer, 35 (1994), 23, S. 4970-8.
    69. B. Alberts: Molekularbiologie der Zelle, S.571, 1. Aufl. , Weinheim, VCH, 1986.
    70. T. Enns: Facilation by Carbonic Anhydrase of Carbon Dioxide Transport, Science, 155 (1967), S. 44-47.
    71. J. E. Huheey: Anorganische Chemie, S.973, Walter de Gruyter, Berlin, New York, 1988.
    72. J.H. Meldon, K.A. Smith, C.K. Colton: The Effect of weak Acids upon the Transport of Carbon Dioxide in alkaline Solutions, Chemical Engineering Science, 32(1977), S. 939-950.
    73. W.J. Ward, W.L.Robb: Science, 156 (1967),S. 1481.
    74. N.C. Otto, J.A. Quinn: The facilated Transport of Carbon Dioxide through Bicarbonate Solutions, Chemical Engineering Science, 26 (1971), S. 949-961.
    75. S.R. Suchdeo, J.S. Schultz: The Permeability of Gases through reacting Solutions: the Carbon Dioxide - Bicarbonate Membrane System, Chemical Engineering Science, 29 (1974), S. 13-23.
    76. T.L. Donaldson, Y.N. Nguyen: Carbon Dioxide Reaction Kinetics and Transport in aqueous Amine Membranes, Ind. Eng. Chem. Fundam., 19 (1980), S. 260-266.
    77. T. Yamaguchi, C.A. Koval, R.D. Noble, C.N. Bowman: Transport Mechanism of Carbon Dioxide through perfluorosulfonate Ionomer Membranes containing an Amine Carrier, Chemical Engineering Science, 51 (1996), 21, S. 4781-4789.
    78. M. Ballhorn: Entwicklung von Carriermembranen zur selektiven Abtrennung von Kohlendioxid aus Gasströmen, Diskussionsbeitrag zum 1. Treffen Network Young Membrains,15-16.Juli 1999, IVT, Aachen.
    79. M. Métayer, D. Langevin, B. El Mahi, M. Pinoche: Facilated Extraction and facilated Transport of nonionic Permeants through Ion Exchange Membranes: Influence of the Stability of the Permeant/Carrier Complexes, Journal of Membrane Science, 61 (1991), S. 191-213.
    80. R.D. Noble: Generalized microscopic Mechanism of Facilitated Transport in fixed site Carrier Membranes, Journal of Membrane Science, 75 (1992), S. 121-129.
    81. J.B. Garcia, G. Ruiz-Ibanez, A. Bidarian, O.C. Sandall: Kinetics of the Reaction between Carbon Dioxide and Triethylamin in aqueous Solutions, Chemical Engineering Science, 45 (1990), 12, S. 3407-3415.
    82. E.B. Rinker, S.S. Ashour, O.C. Sandall: Kinetics and Modelling of Carbon Dioxide Absorption into aqueous Solutions of N-Methyldiethanolamin, Chemical Engineering Science, 50 (1995) 5, S. 755-768.
    83. D.M. Himmelblau: Diffusion of dissolved Gases in Liquids, Chem. Rev., 64 (1964), S. 527-550.
    84. P. Altmeier, A. Konrad: New Anion Exchange Membranes for the Electrodialysis of Acids, Proceedings of the International Congress of Membranes, Yokohama, 1996.
    85. A. Schumpe: The Estimation of Gas Solubilities in Salt Solutions, Chemical Engineering Science, 48 (1993), S. 153-158.
    86. P. Meares: Coupling of Ion and Water Fluxes in Synthetic Membranes, Journal of Membrane Science, 8 (1981), S. 295-307.
    87. F. Helfferich: Ionenaustauscher, Verlag Chemie, Weinheim, 1959.
    88. P. Altmeier: Untersuchungen zum Protonentransport in Anionenaustauschermembranen, Diplomarbeit FB Physikalische Chemie, Universität Saarbrücken, Januar 1995.
    89. P. Pinacci, P. Barbieri, S. Rondinini und G. Cirillo: Proceedings of the 7th International Symposium on Synthetic Membranes in Science and Industry, Tübingen, 1994, S. 423-425.
    90. G. Pourcelly, M. Boudet-Dumy, A. Lindheimer und C. Gavach, Desalination, 80 (1991), S. 193-209.
    91. H. Willersinn: Angewandte makromolekulare Chemie, Vorlesung Universität Kaiserslautern, 1992.
    92. N. Katzumori: Preparation of charged Ultrafiltration Membrane using Polyetherketones as membrane materials, Membrane, 17 (1992), 2, S. 85-90.
    93. A. Echte: Handbuch der technischen Polymerchemie, S. 472, Weinheim, VCH, 1993.
    94. Polymer Handbook, VII/384, John Wiley& Sons, 3rd edition, 1989.
    95. Sulzer Chemtech (ehemals GFT), D-66540 Neunkirchen, Prospektmaterial.
    96. Porous anion-exchange resin, Mitsubishi Chemical Industries Co., Ltd., Jpn. Kokai Tokkyo Koho JP 5811,046[8311,046], CA 98:199187t.
    97. H. Staudinger: Zur Konstitutionsaufklärung makromolekularer Kunststoffe, Angewandte Chemie, 64 (1952), 6, S. 149-176.
    98. P. J. Flory: Intramolecular Reaction between Neighboring Substituents of Vinyl Polymers, JACS, Vol. 61 (1939), S. 1518-1521.
    99. P. Altmeier: Stark basische Anionenaustauschermembran und Verfahren zu deren Herstellung, PCT WO 95/06083.
    100. P. Altmeier: Struktur und Eigenschaften von Anionenaustauschermembranen basierend auf aliphatischen Polyethern, Dissertation Universität Saarbrücken, Dezember 1999.
    101. M. Schossig Tiedemann, K.V. Peinemann: Permeability Determination of binary Gas Mixtures by Pressure Increase Measurements, Poster presentation, ICOM '93, 30.8-3.9.1993, Heidelberg.
    102. R. Ash, R.M. Barrer: Apparatus and Method for measuring Sorption and Desorption Time Lags in Transport through Membranes, J. Phys. E.: Sci. Instrum., 11 (1978), S. 262-264.
    103. J. Crank: The Mathematics of Diffusion, S. 51, Clarendon Press, Oxford, Second Edition.
    104. N. Brink: Untersuchungen zur Gastrennung mit porösen Membranen, Fortschrittsberichte VDI, Reihe 3, Verfahrenstechnik, Nr. 209, Düsseldorf, 1990.
    105. P. Meares: Ion Exchange Membranes, Ch. 1, S. 16, Flett, Douglas,S. Harwood, Chichester, UK, 1983.
    106. F. Helfferich: Ionenaustauscher, Verlag Chemie, Weinheim, 1959.
    107. T. Yamaguchi, H. Kurtia, S. Nakao: Transport Mechanism of aromatic Vapor through Silver Salt Carrier/Polymer blend Membrane and its humidity Effect, J. Phys. Chem. B, 103 (1999), S. 1831-1835.
    108. J.J. Pelligrino, R. Nassimbene, M. Ko, R.D. Noble: Gas Separation using Ion Exchange Membranes for producing Hydrogen from Synthesis Gas, Proceedings of the 9th Gasification and Gas Stream cleanup Systems Contractors Review Meeting, 27.-29.6.1989, Morgantown, W. Va., S. 211-220.
    109. S.A. Stern: Polymers for Gas Separation: the next Decade, Journal of Membrane Science 94 (1994), S. 1-65.
    110. K. H. Homann: Grundzüge der physikalischen Chemie, Band IV, Reaktionskinetik, S. 14-20, Dr. Dietrich Steinkopf Verlag, Darmstadt, 1975.
    111. U. Hornung: Bestimmung der Vergasungskinetik von Kunststoffen mit Hilfe eines isotherm betriebenen Kreislaufreaktors, Fortschr.-Ber. VDI Reihe 3 Nr. 485. Düsseldorf, VDI Verlag, 1997.
    112. H. Hikita, S.Asai, H. Ishikawa, M. Honda: The Kinetics of Reactions of Carbon Dioxide with Monoisopropanolamine, Diglycolamine and Ethylendiamine by a rapid mixing Method, The Chemical Engineering Journal, 14 (1977), S. 27-30.
    113. J. Benitez-Garcia, G. Ruiz-Ibanez, A. Bidarian, O. C. Sandall: Kinetics of the Reaction between Carbon Dioxide and Triethylamine in aqueous Solutions, Chemical Engineering Science, 45 (1990), 12, S. 3407-3415.
    114. E.B. Rinker, S.S. Ashour, O.R. Sandall: Kinetics and Modelling of Carbon Dioxide Absorption into aqueous Solutions of N-Methyldiethanolamin, Chemical Engineering Science, 50 (1995), No. 5, S. 755-768.
    115. R. Rautenbach, K. Welsch: Grundlagen der Modulauslegung für das Verfahren der Gaspermeation, Maschinenmarkt, 100 (1994) 31/32, S. 18-21.
    116. C.R. Coan, A.D. King: Solubility of Water in compressed Carbon Dioxide, Nitrous Oxide and Ethane., J. Am. Chem. Soc., 93(1971), 8, S. 1857-1862.