Full-text resources of PSJD and other databases are now available in the new Library of Science.
Visit https://bibliotekanauki.pl

PL EN


Preferences help
enabled [disable] Abstract
Number of results
2010 | 5 | 71-83

Article title

Zespolenie technologii MTG (methanol to gasoline) z nowymi procesami wytwarzania metanolu jako sposób na pozyskiwanie paliw syntetycznych

Title variants

Languages of publication

PL

Abstracts

Keywords

Contributors

  • UMCS w Lublinie, Zakład Chemii Środowiskowej, Wydział Chemii UMCS, 20-031 Lublin, Pl. M. Curie-Skłodowskiej 3

References

  • 1. W. Kotowski, Karbo, 1 (2001) 227.
  • 2. J. L. Dubois, Catalysis Today, 99 (2005) 5.
  • 3. J. H. Edwards, Catalysis Today, 23 (1995) 59.
  • 4. A. L. Chung-Chieng, D.E. Dietrich, M.J. Bowman, Topics in Catalysis, 32 (2005) 95.
  • 5. J. Merkisz, Ekologiczne problemy silników spalinowych, T. 2, Wydawnictwo Politechniki Poznańskiej, Poznań, 1998.
  • 6. J. Winiarski, Gospodarka Paliwami i Energią, 7 (1999) 13.
  • 7. P. Olszowiec, Gigawat Energia, 8-9 (2005) 23.
  • 8. J. Molenda, K. Steczko, Ochrona środowiska w gazownictwie i wykorzystaniu gazu, Wydawnictwo Naukowo-Techniczne, Warszawa, 2000.
  • 9. W. Kotowski, Karbo, 1 (2001) 27.
  • 10. www.foresightenergetyczny.pl/cscore/files/przeglad%20OZE.pps
  • 11. M. Ściążko, H. Zieliński, Termochemiczne przetwórstwo węgla i biomasy, Wydawnictwo Instytutu Chemicznej Przeróbki Węgla i Instytutu Gospodarki Surowcami Mineralnymi i Energią PAN, Zabrze-Kraków, 2003.
  • 12. P. Mastalerz, Chemia organiczna, PWN, Warszawa, 1986.
  • 13. A. Tramer, Karbo 7-8 (2001) 232.
  • 14. W. Kotowski, Karbo, 12 (2001) 437.
  • 15. www.ppr.pl/artykul-ogniwa-paliwowe-energia-przyszlosci-148141.php
  • 16. G. A. Olah, Catalysis Letters, 93 (2004) 1.
  • 17. J. Veser, J. Frauhammer, U. Friedle, Catalysis Today, 61 (2000) 55.
  • 18. K. Otsuka, Y. Wang, Applied Catalysis A: General, 222 (2001) 145.
  • 19. J. McMurry, Chemia organiczna, PWN. Warszawa, 2000.
  • 20. C. E. Taylor, R.P. Noceti, Catalysis Today, 55 (2000) 259.
  • 21. S. H. Taylor, J.S.J. Hargreaves, G.J. Hutchings, R.W.Joyner, C.W. Lembacher, Catalysis Today, 42 (1998) 217.
  • 22. V. D. Sokolovskii, N.J. Coville, A. Parmaliana, I. Eskendirov, M. Makoa, Catalysis Today, 42 (1998) 191.
  • 23. X. Gang, H. Birch, Y. Zhu, H.A. Hjuler, N.J. Bjerrum, Journal of Catalysis, 196 (2000) 287.
  • 24. C. Cellier, D. Le Clef, C. Mateos-Pedrero, P. Ruiz, Catalysis Today, 106 (2005) 47.
  • 25. D. Roth, P. Gelin, A. Kaddouri, E. Garbowski, M. Primet, E. Tena, Catalysis Today, 112 (2006) 134.
  • 26. G. Lapisardi, L. Urfels, P. Gelin, M. Primet, A. Kaddouri, E. Garbowski, S. Toppi, E. Tena, Catalysis Today, 117 (2006) 564.
  • 27. O. Demoulin, M. Navez, P. Ruiz, Catalysis Letters, 103 (2005) 149.
  • 28. M. Schmal, M.M.V.V. Souza, V.V. Alegre, M.A. Periana de Silva, D.V. Cesar, C. A. C. Perez, Catalysis Today 118 (2006) 392.
  • 29. P. Y. Silvert, V. Vijayakrishanan, P. Vibert, R. Herrera-Urbina, K.T. Elhsissen, Nano Structures Materials, 7 (1999) 611.
  • 30. S. Sugawa, K. Sayama, K. Okabe, H. Arakawa, Energy Convers, 36 (1995) 665.
  • 31. Lj. Kundakovic, M. Flytzani-Stepanopoulos, Applied Catalysis A:General, 183 (1999) 35.
  • 32. A. Nagy, G. Mestl, Applied Catalysis A:General, 188 (1999) 337.
  • 33. J. J. Burton, E. Hyman, D.G. Fedak, Journal of Catalysis., 37 (1975) 106.
  • 34. F. J. Kuijers, Ph. D. Thesis, Rijskuniversitet te Leiden, 1978.
  • 35. D. P. VanderWiel, M. Pruski, T. S. King, Journal of Catalysis, 188 (1999) 186.
  • 36. J. Barcicki, Podstawy katalizy heterogenicznej, Wydawnictwo UMCS, Lublin, 1998.
  • 37. J. J. Burton, E. Hyman, D. G. Fedak, Journal of Catalysis, 37 (1975) 106-113. Y.
  • 38. D. Ciuparu, L. Pfefferle, Applied Catalysis A: General, 509 (2001) 415.
  • 39. C. Qi, L. An, H. Wang, Applied Catalysis A: General, 140 (1996) 17.
  • 40. H. Arai, T. Yamada, K. Equchi, T. Seigama, Applied Catalysis, 26 (1986) 265.
  • 41. J. J Rooney, Journal of Molecular Catalysis A: Chemical, 129 (1998) 131.
  • 42. G. C. Bond, Journal of Catalysis, 163 (1996) 319.
  • 43. W. Grzegorczyk – dane nie publikowane 2007 – opracowanie do projektu zamawianego PZB-KBN-116/T09/2004/1C.
  • 44. D. Nazimek, M. Kuśmierz, P. Kirszensztejn, P.J. of Apllied of Chemistry, 50 (2006) 41.
  • 45. J. Barcicki, D. Nazimek, W. Grzegorczyk, T. Borowiecki, R. Frąk, M. Pielach, React. Kinet. Catal.Lett., 17(1981) 169.
  • 46. D. Nazimek, J. Ryczkowski, Studies in Surf.Sci. and Catalysis, 119 (1998) 623.
  • 47. D. Nazimek, Chemia Stosowana, 33 (1989) 363.
  • 48. D. Nazimek, Applied Catalysis, 12 (1984) 227.
  • 49. D. Nazimek, J. Ryczkowski, Applied Catalysis, 26 (1986)47.
  • 50. A. Machocki, M. Rotko, B. Stasińska, SSITKA investigation of Pd(PdO)/Al2O3 catalyst in complete oxidation of methane, 8th European Congress on Catalysis EUROPACAT-VIII, 26-31 August 2007, Turku, Finland, Book of Abstracts and CD-ROM Extended Abstracts, P4-36.
  • 51. A. Machocki, M. Rotko, B. Stasinska, Palladium dispersion influence on the lattice oxygen participation in the complete oxidation of methane over Pd/Al2O3 catalysts, 8th European Congress on Catalysis EUROPACAT-VIII, 26-31 August 2007, Turku, Finland, Book of Abstracts and CD-ROM Extended Abstracts, P13-57.
  • 52. C.D. Chang, Hydrocarbons from methanol, ed. Marcel Dekker, New York, 1983.
  • 53. C.D. Chang, C.T.W. Chu, R.F. Socha, Journal of Catalysis, 86 (1984) 289.
  • 54. C.D. Chang, A.J. Silvestri, Journal of Catalysis, 47 (1977) 249.
  • 55. N.Y. Chen, W.J. Reagan, Journal of Catalysis, 59 (1979) 123.
  • 56. www.siliconvalleypower.com
  • 57. www.gasification.org
  • 58. J.E. Penick, W. Lee, J. Maziuk, „Development of the Methanol-to-Gasoline Process”, Chemical Reaction Engineering, plenary lectures, ACS Symposium Series No 226, 19, 1983, Studies in Surface Science and Catalysis, “Methane conversion”, ed. D.M. Bibby, C.D. Chang, S. Yurchak, Elsevier Science Publishers, ISBN 0-444-42935-2, vol. 36, New York, 1988.
  • 59. J. Haggin, Chem. and Eng. News, 25 (1985) 39.
  • 60. R. Mihail, S. Straja, G. Moria, G. Musa, G. Pop, Chem. Eng. Sci., 3 8(1983) 1581.
  • 61. J. Sebastian, Y.T. Shah, „I-A. Methanol to Gasoline Process”, C.P.E.D. University of Pittsburg, Reports, 1990.
  • 62. Opis patentowy P-384999.
  • 63. D. Nazimek, J. Niećko, P.J.Environmental Science, - in press 2010.
  • 64. Ch.-Ch. Lo, Ch.-H. Hung, Ch.-Sh. Yuan, J.-F. Wu, Sol. En. Mat. & Sol.Cell., 91 (2007) 1765.
  • 65. T. Matsuda, T. Shizuta, M. Yoshizawa, J. Kikuchi, Applied Catalysis, A 125 (1995) 293.
  • 66. J. Zhang, Y. Wang, L. Chang, Applied Catalysis, A 126 (1995) L205.
  • 67. J. Toyir, P. R. de la Piscina, J. L. G. Fierro, N. Homs, Applied Catalysis, B: Environ., 29 (2001) 207.
  • 68. J. C.S. Wu, H.-M. Lin, Ch.-L. Lai, Applied Catalysis, A: General, 335 (2008) 112.
  • 69. T. Inoue, A. Fujishima, S. Konishi, K. Honda, Nature, 227 (1979) 637.
  • 70. J. C.S. Wu, H.-M. Lin, Ch.-L. Lai, Applied Catalysis, A 296 (2005) 194.
  • 71. I.-H. Tseng, J.C.S. Wu, H.-Y. Chou, Journal of Catalysis, 221 (2004) 432. – CU
  • 72. I.-H. Tseng, J.C.S. Wu, Catalysis Today, 97 (2004) 113.
  • 73. J. Grodkowski, T. Dhanasekaran, P. Neta, P. Hambright, B. S. Brunschwig, K. Shinozaki, E. Fujita, J. Phys. Chem., A, 104, No 48 (2000) 11332.
  • 74. M. Takeuchi, Y. Sakamoto, S. Niwa, Sci. Total Environ., 277 (2001) 15.
  • 75. G. D. Weatherbee, C. H. Bartolomew, Journal of Catalysis, 68 (1981) 67.
  • 76. J. Wu, S. Luo, J. Toyir, M. Saito, M. Takeuchi, T. Watanabe, Catalysis Today, 45 (1998) 215.
  • 77. G. Guan, T. Kida, T. Harada, M. Isayama, A. Yoshida, Applied Catalysis, B: Environ. 41 (2003) 387.
  • 78. P.-W. Pan, Y.-W. Chen, Catal. Commun. 8 (2007) 1546.
  • 79. Slamet, H. W. Nasution, E. Purnama, S. Kosela, J. Gunlazuardi, Catal. Commun., 6 (2005) 313.
  • 80. M. Subrahmanyam, S. Kaneco, N. Alonso-Vante, Applied Catalysis, B: Environ. 23 (1999) 169.
  • 81. H. Yoneyama, Catalysis Today, 39 (1997) 169.
  • 82. Y. Kohno, T. Tanaka, T. Funabiki, S. Yoshida, Phys. Chem. Chem.Phys., 2 (2000) 5302.
  • 83. Y. Kohno, T. Tanaka, T. Funabiki, S. Yoshida, Phys. Chem. Chem.Phys., 2 (2000) 2635.
  • 84. I-Hsiang Tseng, Wan-Chen Chang, Jeffrey C.S. Wu, Applied Catalysis, B: Environ. 37 (2002) 37.
  • 85. Jeffrey C.S. Wu, Hung-Ming Lin, Chao-Ling Lai, Applied Catalysis, A 296 (2005) 194.
  • 86. T. Inui, K. Kitagawa, T. Takeguchi, T. Hagiwara, Y. Makino, Applied Catalysis, A 94 (1993) 31.
  • 87. H. Yamashita, Y. Fujii, Y. Ichihashia, S. Gou Zhang, K. Ikeue, D. Ryung Park, K. Koyano, T. Tatsumi, M. Anpo, Catalysis Today, 45 (1998) 221.
  • 88. Opis patentowy P-386181.
  • 89. D. Nazimek “Artificial photosynthesis – the way to deal with CO2 emissions”, E-MRS Fall Meeting 2009, Carbon dioxide: A new material for energy storage and a challenge for European industry, Warsaw University of Technology, 14 Sept. 2009, - plenary lectures.
  • 90. K.W. Huang, J. H. Han, C. B. Musgrave, and E. Fujita, Carbon Dioxide Reduction by Pincer Rhodium η2-Dihydrogen Complexes: Hydrogen Binding Modes and Mechanistic Studies by Density Functional. Theory Calculations. Organometallics, 2009 – accepted in press.
  • 91. H. Chen, A. Nambu, W. Wen, J. Graciani, Z. Zhong, J. C. Hanson, E. Fujita, and J. A. Rodríguez, Reaction of NH3 with Titania: N-doping of the Oxide and TiN formation. J. Phys. Chem. B, 2009 – accepted in press.
  • 92. A. Nambu, J. Graciani, J.A. Rodriguez, Q. Wu, E. Fujita, and J. Fernandez-Sanz, J. Chem.Phys. 125 (2006) 094706.
  • 93. C. Creutz, M. H. Chou, E. Fujita, and D. J. Szalda, Coord. Chem, Rev., 249 (2005) 375.
  • 94. www.americanenergyindependence.com/library/pdf/Reddy8.pdf
  • 95. www.sciencedaily.com/releases/2009/03/090311103646.htm
  • 96. D. Nazimek – dane nie publikowane -2009
  • 97. R. Van Hardeveld, F. Hartog, Surf.Sci., 15 (1969)189.
  • 98. J. R. Anderson, Sci.Prog.Oxf., 69 (1985) 461.
  • 99. O.L. Perez, D. Romeu, M. Jose-Yacaman, Appl.Surf.Sci., 13 (1982) 402.
  • 100. www.plazma.efuturo.pl/poster2.htm#membrany
  • 101. kepler.am.gdynia.pl/~zot/pracownie/StaleFizyczne.htm

Document Type

article

Publication order reference

Identifiers

YADDA identifier

bwmeta1.element.psjd-3308c706-6b08-4c1a-8a07-abab4cdd5c23
JavaScript is turned off in your web browser. Turn it on to take full advantage of this site, then refresh the page.