Katalizatory do konwersji metanolu w gazowe paliwa silnikowe

• Autorzy: Cęckiewicz S.

Warianty tytułu

EN

Catalysts for methanol conversion into gaseous engine fuels

• Języki publikacji: PL

Abstrakty

PL

W nawiązaniu do koncepcji konwersji metanolu w paliwa gazowe określono najważniejsze środki techniczne niezbędne do realizacji pomysłu w praktyce. W oparciu o literaturę (78 odnośników) wytypowano katalizatory zeolitowe ZSM-5 jako odpowiednie do przetwarzania metanolu w eter dimetylowy lub węglowodory lekkie (C2/C5). Podano schemat i zasadę działania samochodowego konwertora metanolu.

EN

Regarding to a general outline of methanol conversion into gaseous fuels, the most important technical means have been determined to put the idea into practice. Zeolite catalysts of a ZSM-5 type were specified on the basis of literature (78 references), as suitable for methanol transformation to dimethyl ether or light hydrocarbons (C2/C5). A scheme of a methanol converter, assigned for a car, was given.

Słowa kluczowe

PL

katalizatory; metanol; paliwa gazowe; paliwa silnikowe; konwertor metanolu

EN

catalysts; methanol; gaseous fuels; engine fuels; methanol converter

• Wydawca: Instytut Nafty i Gazu - Państwowy Instytut Badawczy
• Czasopismo: Nafta-Gaz
• Rocznik: 2005
• Tom: R. 61, nr 2
• Strony: 57--70
• Opis fizyczny: Bibliogr. 78 poz.,fot., tab.,rys.

Twórcy

autor

Cęckiewicz S.

• Ośrodek Badawczo Rozwojowy Budowy Urządzeń Chemicznych CEBEA, Kraków

Bibliografia

• [1] Cęckiewicz S., Lipiarz T.: Konwersja metanolu w gazowe paliwa silnikowe. Nafta-Gaz, Nr 11, s. 576-592.
• [2] Luft S.: Pojazdy Samochodowe. Podstawy budowy silników. Wydawnictwa Komunikacji i Łączności, Warszawa, 2003.
• [3] Majewski W.: Katalizatory Mine-X do oczyszczania spalin z silników Diesla (w oryginale: Exhaust Gas Purifiers for Internal Combustion Engines). Diesel Control Limited, Toronto, 1991.
• [4] Kasedorf J.: Układy wtryskowe i katalizatory (w oryginale: Benzinenspritzung und Katalysatortechnik). Wydawnictwo Komunikacji i Łączności, Warszawa, 1998.
• [5] Derouane E.G., Nagy J.B., Dejaifve P., van Hooff J.H.C., Spekman B.P., Vedrine LC, Naccache C: Elucidation of the Mechanism of Conversion of Methanol and Ethanol to Hydrocarbons on a New Type of Synthetic Zeolite. J. Catal., vol. 53, s. 40-55, 1978.
• [6] Anderson J.R., Mole T., Christov V.: Mechanism of Some Conversions over ZSM-5 Catalyst. J. Catal., vol. 61, s. 477-484, 1980.
• [7] Ono Y., Mori T.: Mechanism of Methanol Conversion into Hydrocarbons over ZSM-5 Zeolite. J. Chem.Soc, Faraday Trans. I, vol. 77, s. 2209-2221, 1981.
• [8] Chang C.D., Chu C.T-W.: On the Mechanism of Hydrocarbon Formation from Methanol over Zeolite Catalyst: Evidence for Carbene Intermediacy. J. Catal., vol. 74, s. 203-206, 1982.
• [9] Haag W.O., Lago R.M., Rodewald P.G.: Aromatics, Light Olefins and Gasoline from Methanol: Mechanistic Pathways with ZSM-5 Zeolite Catalyst. 1 Molecular Catal., vol. 17, s. 161-169, 1982.
• [10] Perot G., Connerais F.X., Guisnet M.: The Role of Ethers in the Methanol-Hydrocarbon Conversion on Silica-Alumina nad ZSM-5 Zeolite. J. Molecular Catal., vol. 17, s. 255-260, 1982.
• [11] Dessau R.M., LaPierre R.B.: On the Mechanism of Methanol Conversion to Hydrocarbons over HZSM-5. J. Catal., vol. 78, s. 136-141, 1982.
• [12] Sayed M.B., Cooney R.P.: A Mechanism for Methanol Conversion over HZSM-5 Catalyst. Aust. J. Chem., vol. 35, s. 2483-2495, 1982.
• [13] Mole T.: Conversion of Methanol to Ethylene over ZSM-5 Zeolite: A Reexamination of the Oxonium-Ylide Hypothesis, Using 13Carbon- and Deuterium-Labeled Feeds. J. Catal., vol. 84, s. 423-434, 1983.
• [14] Espinoza R.L., Mandersloot W.G.B.: Light Olefin Formation in the Catalytic Conversion of Methanol over Zeolite ZSM-5. J. Molecular Catal., vol. 24, s. 127-130, 1984.
• [15] Dessau R.M.: On the H-ZSM-5 Catalyzed Formation of Ethylene from Methanol or Higher Olefins. J. Catal.. vol. 99, s. 111-116, 1986.
• [16] Hutchings G.J., Gottschalk F., Hall M.V.M.: Hydrocarbon Formation from Methylating-Agents over the Zeolite Catalyst ZSM-5. J. Chem. Soc, Faraday Trans. I, vol. 83, s. 571-583, 1987.
• [17] Sayed M.: Fourier-transform Infrared Study of the Role of Zeolite Lewis Sites in Methanol Reactions over HZSM-5 Surfa­ces. J. Chem. Soc, Faraday Trans. 1, vol. 83, s. 1149-1157, 1987.
• [18] Le Van Mao R., Bellistri U., Covini R., Moretti E.: Catalisi su zeoliti: nuove stmtture. Chim. Ind., vol. 61, s. 661-671, 1979.
• [19] Vedrine J.C.:.Zeolite Chemistry in Catalysis. American Chemical Society, No 0097-6156/85, s. 257-274, 1985.
• [20] Zatorski L.W., Krzyżanowski S., Hoser H.: Sposób wytwarzania węglowodorów. Patent PL 110708, 1981.
• [21] Cęckiewicz S.: A Study of Methanol Conversion to Hydrocarbons over the Hydrogen Form of Erionite-Offretite (T) Zeolite. Bull. Acad. Polon. Sei, Ser. sei. chim., vol. 27, s. 629-636, 1979.
• [22] Cęckiewicz S.: Methanol Conversion to Hydrocarbons and Dimethyl Ether on Decationized Zeolite T. React. Kinetic. Catal. Lett., vol. 16, s. 11-16, 1981.
• [23] Cęckiewicz S.: Study of Methanol Transformation over a Hydrogen Form of Zeolite T by the Infrared - Temperature-programmed Desorption Method. J. Chem. Soc, Faraday Trans. I, vol. 77, s. 269-280, 1981.
• [24] Cęckiewicz S.: Sorption and Desorption of Methanol on Decationated Forms of Zeolite T. J. Colloid and Interface Sei., vol. 90, s. 183-190, 1982.
• [25] Cęckiewicz S.: Conversion of Methanol to Light Hydrocarbons on Erionite-Offretite (T) Zeolite. J. Chem. Soc., Faraday Trans. 1, vol. 80, s. 2889-2898, 1984.
• [26] Spencer M.S., Whittam T.V.: Catalytic Conversion of Methanol to Hydrocarbons over Zeolite Fu-1. J. Molec. Catal., vol. 17, s. 271-277, 1982.
• [27] Kotanigawa T., Shimokawa K., Yoshida T.: The Production of Alkane Chains from Methanol on HY Zeolite studied by 13C N.M.R. Techniques. J. Chem. Soc, Chem. Commun., No 7, s. 1185-1187, 1982.
• [28] Langner B.E.: Reactions of Methanol on Zeolites with Different Pore Structures. Applied Catal., vol. 2, s. 289-302, 1982.
• [29] Zatorski L.W., Wierzchowski P.T.: Conversion of Methanol to Light Olefins. Proceed, of the 5-th Int. Symp. in Catal., s. 329-333, Varna, October 3-6, 1983.
• [30] Kanazirev V., Tsoncheva T.: Conversion of Methanol on Zeolite Catalysts. Proceed, of the 5-th Int. Symp. in Catal., s. 423-428, Varna (Bulgaria), October 3-6, 1983.
• [31] Chen N.Y., Schlenker J.L., Garwood W.E., Kokotallo G.T.: TMA-Offretite. Relationship between Structural and Catalytic Properties. J. Catal., vol. 86, s. 24-31, 1984.
• [32] Inui T., Morinaga N., Ishihara T., Kanie T., Takegami Y.: Effects of Seed Materials on a Zeolite and Its Performance of Methanol Conversion. J. Catal., vol. 79, s. 176-184, 1983.
• [33] Inui T., Ishihara T., Morinaga M., Takegami Y.: Improvement of the Zeolite Catalyst for Olefin Synthesis from Methanol by Regulating the Shape Factor with the Aid of Seed Crystals. React. Kinet. Catal. Lett., vol. 19, s. 71-73, 1982.
• [34] Bartholomew C.H.: Catalyst Deactivation. Chem. Eng., No 12, s. 96-112, 1984.
• [35] Chang CD.: Hydrocarbons from Methanol. Catal. Rev. Sei. Eng., vol. 25, s. 1-118, 1983.
• [36] Stefaniak L., Ormaniec W., Sałek A., Bieniaszewska T., Berak J.M., Woźniakiewicz-Baj M.: Badanie przemiany metanolu do węglowodorów w modelowym reaktorze jednostkowym. Przemysł Chemiczny, 62/3, s. 154-156, 1983.
• [37] Chen N.Y., Reagan W.J.: Evidence of Autocatalysis in Methanol to Hydrocarbon Reactions over Zeolite Catalyst. J. Catal., vol. 59, s. 123-129, 1979.
• [38] van den Berg J.P., Wolthuizen J.P., van Hooff J.H.C.: The Conversion of Dimethylether to Hydrocarbons on Zeolite H-ZSM-5 - The Reaction Mechanism for Formation of Primary Olefins. Proceed, of the 5-th Int. Conf. on Zeolites, Naples (Italy), 2-6 June, 1980.
• [39] Cormarais F.X., Perot G., Guisnet M.: Selectivity of the Dimethylether to Hydrocarbons Conversion on Various Zeolites. ZEOLITES, vol. 1, s. 141-144, 1981.
• [40] Perot G., Cormarais F.X., Guisnet M.: Carbon-13 Tracer Study of the Conversion of Dimethyl Ether into Hydrocarbons on Silica-Alumina and H-ZSM-5 Zeolite. J. Chem. Research (S), s. 58-59, 1982.
• [41] Cęckiewicz S.: Katalityczne przemiany metanolu na zeolitach. Wiadomości Chemiczne, vol. 36, s. 453-467, 1982.
• [42] Jacobs P.A.: Carboniogenic Activity of Zeolites. Elsevier, Amsterdam-Oxford-New York, 1977.
• [43] http:// chemlab.ucsd.edu/methanol/memos/fmal.html: Final Report, 2004.
• [44] http:// www.iu.hio.no/- peror/oldweb/engabs.htm: Ph.D. thesis - extended abstract.
• [45] Meisel S.L., McCullough J.P., Lechthaler C.H., Weisz P.B.: Gasoline from Methanol in one Step. Chem. Technology, vol. 6, s. 86-89, 1976.
• [46] Chang C.D., Kuo J.C.W., Lang W.H., Jacob S.M., Wise J.J., Silvestri A.J.: Process Studies on the Conversion of Methanol to Gasoline. Ind. Eng. Chem. Process Des. Dev., vol. 17, s. 255-260, 1978.
• [47] Liederman D., Jacob S.M., Voltz S.E., Wise J.J.: Process Variable Effects in the Conversion of Methanol to Gasoline in a Fluid Bed Reactor. Ind. Eng. Chem. Process Des. Dev., vol. 17, s. 340-346, 1978.
• [48] Chang CD.: A Kinetic Model for Methanol Conversion to Hydrocarbons. Chem. Eng. Sei., vol. 35, 619-622, 1980.
• [49] Sałek A., Berak J.M., Obłój J., Oblicka M., Tobola S. Kanik B., Solik-Dąbrowska M.: Badania nad przemianą metanolu do węglowodorów - paliw silnikowych. Przemyśl Chemiczny, 62/2, s. 84-86, 1983.
• [50] lone K.G., Echevskii G.V., Nosyreva G.N.: Study of Stability an Selectivity of Catalytic Action of ZSM-Type Zeolites in Methanol Transformation. J. Catal., vol. 85, s. 287-294, 1984.
• [51] http://www.ccms.elf.stuba.sk/oldpages/ccmsJ)l.html.
• [52] Anthony R.G., Singh B.B.: Kinetic Analysis of Complex Reaction Systems - Methanol Conversion to Low Molecular Weight Olefins. Chem. Eng. Commun., vol. 5, s. 1-19, 1980.
• [53] Balkrishnan I., Rao B.S., Hegde S.G., Kotasthane A.N., Kulkami S.B., Ratnaswamy P.: Catalytic Activity and Selectivity in the Conversion of Methanol to Light Olefins. J. Molec. Catal., vol. 17, s. 261-270, 1982
• [54] Inui T., Takegami Y.: Olefins from Methanol by Modified Zeolites. Hydrocarbon Processing, No 11, s. 117-120, 1982.
• [55] Inui T., Ishihara T., Morinaga M., Takeuchi G., Matsuda H., Takegami Y.: Olefin Synthesis from Methanol by a Modified Zeolite Catalyst. Ind. Eng. Chem. Prod. Res. Dev., vol. 22, s. 26-30, 1983.
• [56] Chang C.D., Chu C.T-W., Socha R.F.: Methanol Conversion to Olefins over ZSM-5;1 Effect of Temperature and Zeolite SiO2/Al2O3. J. Catal., vol. 86, s. 289-296, 1984.
• [57] Dessau R.M.: On the H-ZSM-5 Catalyzed Formation of Ethylene from Methanol or Higher Olefins. J. Catal., vol. 99, s. 111-116, 1986.
• [58] Cichowlas A.A., Wierzchowski P.T., Zatorski L.W.: Effect of Methanol Dilution on Process of Light Olefin Formation. React. Kinet. Catal. Lett., vol. 32, s. 341-346, 1986
• [59] Wu E.L., Lawton S.L., Olson D.H., Rohrman Jr. A.C., Kokotallo G.T.: ZSM-5-Type Materials. Factors Affecting Crystal Symmetry. J. Phys. Chem., vol. 83, s. 2777-81, 1979.
• [60] Olson D.H., Haag W.O., Lago R.M.: Chemical and Physical Properties of the ZSM-5 Substitutional Series. J. Catal., vol. 61, s. 390-396, 1980.
• [61] Berak J., Pieniążek J., Czerwińska B., Mejsner J., Mostowicz R.: Ultrazet - wysokokrzemowy zeolit typu ZSM-5, Przemysł Chemiczny, 61/5-6, s. 85-86, 1982.
• [62] Berak J., Czerwińska B., Mejsner J., Bazarnik A.: Termiczna i chemiczna aktywacja vysokokrzemowego zeolitu, Przemysł Chemiczny, 61/7, s. 158-160, 1982.
• [63] Parker L.M., Bibby D.M., Meinhold R.H.: An evaluation by t.d./m.s. of the use of weak bases (ammonia, primary amines and pyridine) as probes for the study of zeolite acid sites. ZEOLITES, vol. 5, s. 384-388, 1985
• [64] Freude D., Hunger M., Pfeifer H.: 1H Mas NMR Studies on the Acidity of Zeolites. Chem. Phys. Letters, vol. 128, s. 62-66, 1986.
• [65] Woolery G.L., Alemany L.B., Dessau R.M., Chester A.W.: Spectroscopic evidence for the presence of internal silanols in highly siliceous ZSM-5. ZEOLITES, vol. 6, s. 14-16, 1986.
• [66] McLellan G.D., Howe R.F., Parker L.M., Bibby D.M.: Effects of Coke Formation on the Acidity of ZSM-5. J. Catal., vol. 99, s. 486-491, 1986.
• [67] Heering J., Kotter M., Reikert L.: Diffusion and Catalytic Reaction in Zeolite ZSM-5. Chem. Eng. Sci. vol. 37, s. 581-584, 1982.
• [68] Suzuki I., Namba S., Yashima T.: Determination of External Surface Area of ZSM-5 Type Zeolite. J. Catal., vol. 81, s. 485-488, 1983.
• [69] Forni L., Viscardi C.F.: Sorption - Diffusion in Molecular Sieves; II. Aromatics in Y and ZSM-5 Zeolites. J. Catal., vol. 97, s. 480-492, 1986.
• [70] Rollmann L.D.: Svstematics of Shape Selectivity in Common Zeolites. J. Catal., vol. 47, s.113-121, 1977.
• [71] Rollmann L.D., Walsh D.E.: Shape Selectivity and Carbon Formation in Zeolites. J. Catal., vol. 56, s. 139-140, 1979.
• [72] Derouane E.G., Gabelica Z.: A Novel Effect of Shape Selectivity: Molecular Traffic Control in Zeolite ZSM-5. J. Catal., vol. 65, s. 486-489, 1980.
• [73] Berak J.M., Kanik B., Czerwińska B., Mostowicz R.: Selektywność strukturalna zeolitów ZSM-5- Przemysł Chemiczny, 59/10, s. 536-538, 1980.
• [74] Derouane E.G.: Shape Selectivity in Catalysis by Zeolites: The Nest Effect. J. Catal.,vol. 100, s. 541-544, 1986.
• [75] Derouane E.G.: Diffusion and Shape-Selective Catalysis in Zeolites. Intercalation Chfmistry, Academic Press Inc., New York, 1982.
• [76] Derouane E.G., Dejaifve P., Gabelica Z., Vedrine J.C.: Molecular Shape Selectivity of ZSM-5. Modified ZSM-5 and ZSM-11 Type Zeolites, vol. 72, s. 331-344, 1982.
• [77] Derouane E.G.: Molecular Shape-Selective Catalysis by Zeolites. NATO ASI Ser., Ser. i (Zeolites, Sci. Technol.), vol. 80, s. 347-371, 1984.
• [78] Chen N.Y., Garwood W.E.: Industrial Application of Shape-Selective Catalysis. Catal. Rev. Sci. Eng., vol. 28, s. 185-264, 1986.