Abstract
This review is dedicated to the effect of water as the main by-product of the Fischer–Tropsch synthesis on the process. The reasons for the negative effect of water are analyzed and the possible versions of the control of its participation in the process are considered. As an optimal solution to the problem, the use of zeolites in the H form as the constituents of cobalt catalysts for the Fischer–Tropsch synthesis is proposed. Bibliography: 148 references.
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References
Synthetic Fuels, Ronald, F., Probstein, R., and Edwin, H., Eds., New York: Courier Corporation, 2006, p. 490.
Greener Fischer–Tropsch Processes, Maitlis, P.M. and Klerk, A., Eds., Weinheim: Wiley-VCH, 2013, p. 372.
Fischer–Tropsch Technology. Studies in Surface Science and Catalysis, Dry, M. and Steynberg, A., Eds., Amsterdam: Elsevier B.V., 2004, p. 700.
Eliseev, O.L., Zhurn. Ros. Khim. ob-va im. D.I. Mendeleeva, 2008, vol. 52, p. 53.
Iglesia, E., Appl. Catal. A: Gen, 1997, vol. 161, p. 59.
Lapidus, A.L. and Krylova, A.Yu., Usp. Khim., 1998, vol. 67, p. 1032.
Sineva, L.V., Asalieva, E.Yu., and Mordkovich, V.Z., Usp. Khim., 2015, vol. 84.
Mordkovich, V.Z., Sineva, L.V., Kul’chakovskaya, E.V., and Asalieva, E.Yu., Kataliz P-sti, 2015, vol. 15, p. 23.
Tang, Q., Wang, Y., Zhang, Q., and Wan, H., Catal. Commun., 2003, vol. 4, p. 253.
Sartipi, S., Parashar, K., Makkee, M., Gascon, J., and Kapteijn, F., Catal. Sci. Techn., 2013, vol. 3, p. 572.
Sartipi, S., Alberts, M., Meijerink, M.J., Keller, T.C., Perez-Ramerez, J., Gascon, J., and Kapteijn, F., Chem. Sus. Chem., 2013, vol. 6, p. 1646.
Sartipi, S., Parashar, K., Valero-Romero, M.J., Santos, V.P., van der Linden, B., Makkee, M., Kapteijn, F., and Gascon, J., J. Catal., 2013, vol. 305, p. 179.
Kibby, C. Jothimurugesan, K., Das, T., Lacheen, H.S., Rea, T., and Saxton, R.J., Catal. Today, 2013, vol. 215, p. 131.
Ngamcharussrivichai, C., Liu, X., Li, X., Vitidsant, T., and Fujimoto, K., Fuel, 2007, vol. 86, p. 50.
Lee, D.-K., Kim, D.-S., Kim, T.-H., Lee, Y.-K., Jeong, S.-E., Le, N.Th., Cho, M.-J., and Henam, S.D., Catal. Today, 2010, vol. 154, p. 237.
Wang, Y., Wu, H., Zhang, Q., and Tang, Q., Micropor. Mesopor. Mater., 2005, vol. 86, p. 38.
Sineva, L.V., Mordkovich, V.Z., Ermolaev, V.S., Ermolaev, I.S., Mitberg, E.B., and Solomonik, I.G., Kataliz v Prom-ti, 2012, vol. 6, p. 13.
Tsubaki, N., Yoneyama, Y., Michiki, K., and Fujimoto, K., Catal. Commun., 2003, vol. 4, p. 108.
Li, X., Asami, K., Luo, M., Michiki, K., Tsubaki, N., and Fujimoto, K., Catal. Today, 2003, vol. 84, p. 59.
Martinez, A., Rollan, J., Arribas, M.A., Cerqueira, H.S., Costa, A.F., and Aguiar, E.F.S., J. Catal., 2007, vol. 249, p. 162.
Sineva, L.V., Khatkova, E.Yu., Kriventceva, E.V., and Mordkovich, V.Z., Mendeleev Commun., 2014, vol. 24, p. 316.
Yang, G., Xing, Ch., Hirohama, W., Jin, Y., Zeng, Ch., Suehiro, Y., Wang, T., Yoneyama, Y., and Tsubaki, N., Catal. Today, 2013, vol. 215, p. 29.
Bao, J., He, J., Zhang, Y., Yoneyama, Y., and Tsubaki, N., Angew. Chem., Int. Ed. Engl., 2008, vol. 47, p. 353.
He, J., Liu, Zh., Yoneyama, Y., Nishiyama, N., and Tsubaki, N., Chem.-Eur. J., 2006, vol. 12, p. 8296.
Yang, G., He, J., Yoneyama, Y., Tan, Y., Han, Y., and Tsubaki, N., Appl. Catal. A: Gen., 2007, vol. 329, p. 99.
Sineva, L.V., Mordkovich, V.Z., and Khatkova, E.Yu., Mendeleev Commun., 2013, vol. 23, p. 44.
Kriventseva, E.V., Gryaznov, K.O., Khat’kova, E.Yu., Sineva, L.V., and Mordkovich, V.Z., Vestn. MITKhT, 2013, vol. 8, p. 9.
Kul’chakovskaya, E.V., Asalieva, E.Yu., Gryaznov, K.O., Sineva, L.V., and Mordkovich, V.Z., Neftekhimiya, 2015, vol. 55, p. 1.
Lahijani, P., Zainal, Z.A., Mohammadi, M., and Mohamed, A.R., Renewable Sustainable Energy Rev., 2015, vol. 41, p. 615.
Krylova, A.Yu., Sineva, L.V., and Tarakanov, D.A., Kataliz V Prom-sti, 2005, vol. 5, p. 20.
Hilmen, A.M., Schanke, D., Hanssen, K.F., and Holmen, A., Appl. Catal. A: Gen., 1999, vol. 186, p. 169.
Dalai, A.K. and Davis, B.H., Appl.Catal. A: Gen., 2008, vol. 348, p. 1.
van Steen, E., Claeys, M., Dry, M.E., van de Loosdrecht, J., Viljoen, E.L., and Visagie, J.L., J. Phys. Chem. B, 2005, vol. 109, p. 3575.
Li, J. and Jacobs, G., Das, T., Zhang, Y., and Davis, B.H, Appl. Catal. A: Gen., 2002, vol. 236, p. 67.
Krishnamoorthy, S., Tu, M., Ojeda, M.P., Pinna, D., and Iglesia, E., J. Catal., 2002, vol. 211, p. 422.
Zennaro, R., Tagliabue, M., and Bartholomew, C.H., Catal. Today, 2000, vol. 58, p. 309.
Botes, F.G., Ind. Eng. Chem. Res., 2009, vol. 48, p. 1859.
Das, T.K., Whitney, A.C., Li, J., Jacobs, G., Dry, M.E., and Davis, B.H., Energy Fuels, 2005, vol. 19, p. 1430.
Huber, G.W., Guymon, C.G., Conrad, T.L., Stephenson, B.C., and Bartholomew, C.H., Stud. Surf. Sci. Catal., 2001, vol. 139, p. 423.
Storsæter, S., Borg, Ø., Blekkan, E.A., and Holmen, A., J. Catal., 2005, vol. 231, p. 405.
Borg, Ø., Storsæter, S., Eri, S., Wigum, H., Rytter, E., and Holmen, A., Catal. Lett., 2006, vol. 107, p. 95.
Ma, W., Jacobs, G., Sparks, D.E., Spicer, R.L., Davis, B.H., Klettlinger, J.L.S., and Yen, C.H., Catal. Today, 2014, vol. 228, p. 158.
Kiss, G., Kliewer, C.E., De Martin, G.J., Culross, C.C., and Baumgartner, J.E., J. Catal., 2003, vol. 217, p. 127.
Tavasoli, A., Sadaghiani, K., Nakhaeipour, A., and Ahangari, M.G., Iranian J. Chem. Chem. Eng., 2007, vol. 26, p. 1.
Claeys, M., Dry, M.E., van Steen, E., van Berge, P.J., Booyens, S., Crous, R., van Helden, P., Labuschagne, J., Moodley, D.J., and Saibb, A.M., ACS Catal, 2015, vol. 5, p. 841.
Jacobs, G., Patterson, P.M., and Zhang, Y., Das, T., Li, J., and Davis, B.H, Appl. Catal. A: Gen., 2002, vol. 233, p. 215.
Jacobs, G. Patterson, P.M., Das, T.K., Luo, M., and Davis, B.H., Appl. Catal A: Gen., 2004, vol. 270, p. 65.
Dalai, A.K., Das, T.K., Chaudhari, K.V., Jacobs, G., and Davis, B.H., Appl. Catal. A: Gen., 2005, vol. 289, p. 135.
Patent EU355218, 2008.
Bertole, C.J., Mims, C.A., and Kiss, G., J. Catal., 2002, vol. 210, p. 84.
Tsakoumis, N.E., Ronning, M., Borg, O., Rytter, E., and Holmen, A., Catal. Today, 2010, vol. 154, p. 162.
Patent EU339 923, 1988.
Fischer, N., van Steen, E., and Claeys, M., J. Catal., 2013, vol. 299, p. 67.
Tavasoli, A., Irani, M., Malekabbaslou, R.M., Trepanier, M., and Dalai A.K, Can. J. Chem. Eng., 2008, vol. 86, p. 1070.
Storsæter, S., Borg, Ø., Blekkan, E.A., Totdal, B., and Holmen, A., Catal. Today, 2005, vol. 100, p. 343.
Dinse, A., Aigner, M., Ulbrich, M., Johnson, G.R., and Bell, A.T., J. Catal., 2012, vol. 288, p. 104.
Asalieva, E.Yu., Sineva, L.V., Zhukova, E.A., Mordkovich, V.Z., and Bulychev, B.M., Izv. Akad. Nauk, Ser. Khim., 2015, p. 2371.
Shi, L., Chen, J., Fang, K., and Sun, Y., Fuel, 2008, vol. 87, p. 521.
Wang, W.J. and Chen, Y.W., Appl. Catal., 1991, vol. 77, p. 21.
Arik, I.C., Denayer, J.F., and Baron, G.V., Micro. Meso. Mater., 2003, vol. 60, p. 111.
Eder, F., Stockenhuber, M., and Lercher, J.A., Phys. Chem., 1997, vol. 101, p. 5414.
Titiloye, J.O., Parker, S.C., Stone, F.S., and Catlow, C.R.A., J. Phys. Chem., 1991, vol. 1991, p. 4038.
Smit, B. and Siepmann, J.I., Phys. Chem., 1994, vol. 98, p. 8443.
Berke, C.H., Kiss, A., Kleinschmit, P., and Weitkamp, J., Chem. Eng. Techn., 1991, vol. 63, p. 623.
Yonli, A.H., Gener, I., and Mignard, S., Micropor. Mesopor. Mater., 2010, vol. 132, p. 37.
Yonli, A.H., Gener, I., and Mignard, S., Micropor. Mesopor. Mater., 2009, vol. 122, p. 135.
Martinez, A., Valencia, S., Murciano, R., Cerqueira, H.S., Costa, A.F., and Aguiar, E.F.S., Appl. Catal. A: Gen., 2008, vol. 346, p. 117.
Liu, Z.W., Li, X., Asami, K., and Fujimoto, K., Appl. Catal. A: Gen., 2006, vol. 300, p. 162.
Dunn, B.C., Covington, D.J., Cole, P., Pugmire, R.J., Meuzelaar, H.L.C., Ernst, R.D., Heider, E.C., Eyring, E.M., Shah, N., Huffman, G.P., Seehra, M.S., Manivannan, A., and Dutta, P., Energy Fuels, 2004, vol. 18, p. 1519.
Panpranot, J., Goodwin, J.G.Jr., and Sayari, A., Catal. Today, 2002, vol. 77, p. 269.
Wang, B., A Thesis for the degree of Doctor of Philosophy, London: Department of Chemical Engineering London University College, 2007.
Pelmenschikov, A.G., Morosi, G., and Gamba, A., J. Phys. Chem., 1992, vol. 96, p. 2241.
Olson, D.H., Haag, W.O., and Borghard, W.S., Micropor. Mesopor. Mater., 2000, vols. 35–36, p. 435.
Lohse, U., Thamm, H., Noack, M., and Fahlke, B., J. Inclusion Phenomena, 1987, vol. 5, p. 307.
Ouckaci, R., Wu, J.C.S., and Goodwin, J.G., J. Catal., 1988, vol. 110, p. 47.
Asalieva, E.Yu., Kul’chakovskaya, E.V, Sineva, L.V., Mordkovich, V.Z., and Bulychev, B.M., Neftekhimiya, 2016, vol. 56, p. 295.
Lapidus, A.L. and Krylova, A.Yu., Ross. Khim. Zh., 2000, vol. 44, p. 43.
Tang, Q., Wang, P., Zhang, Q., and Wang, Y., Chem. Lett., 2006, vol. 35, p. 366.
Lee, D-K., Kim, D-S., Kim, T-H., Lee, Y-K., Jeong, S-E., Le, N.T., Cho, M-J., and Henam S.D, Catal. Today, 2010, vol. 154, p. 237.
Tang, Q., Wang, Y., Zhang, Q., and Wan, H., Catal. Commun., 2003, vol. 4, p. 253.
Guczi, L., Catal. Today, 2005, vol. 101, p. 53.
Wang, W.J., Lin, H.Y., and Chen, Y.W., J. Porous Mater., 2005, vol. 12, p. 5.
Caesar, P.D., Brennan, J.A., Garwood, W.E., and Ciric, J., J. Catal., 1979, vol. 56, p. 274.
Khemthong, P., Klysubun, W., Prayoonpokarach, S., and Wittayakun, J., Mater. Chem. Phys., 2010, vol. 121, p. 131.
Mordkovich, V.Z. and Sineva, L.V., Proc. 11th Novel Gas Conversion Symposium, Tromsyo, 2016.
Sineva, L.V., Kulchakovskaya, E.V., Asalieva, E.Yu., and Mordkovich, V.Z., Mendeleev Commun., 2017, vol. 27, p. 75.
Sineva, L.V., Asalieva, E.Yu., Kul’chakovskaya, E.V., and Mordkovich, V.Z., Tez. 7-I Vseros. tseolitnoi konferentsii “7VTsK”, Zvenigorod, 2015, p. 7.
Lapidus, A.L., Eliseev, O.L., Volkov, A.S., Budtsov, V.S., Gushchin, V.V., Cooley, T.E., and Davydov, P.E., Solid Fuel Chem., 2007, vol. 41, p. 140.
Heterogeneous Catalytic Materials Solid State Chemistry, Busca, G., Ed., Amsterdam: Elsevier B.V., 2014, p. 478.
Studies in Surface Science and Catalysis, van Bekkum, H., Flanigen, E.M., Jacobs, P.A., and Jansen, J.C., Eds., Amsterdam: Elsevier B.V., 2001, p. 821.
Sircar, S., Myers, A.L., Handbook of Zeolite Science and Technology, Auerbach, S.M., Carrado, K.A., and Dutta, P.K., Eds., New York: Dekker, 2003, p. 1204.
Rakhmukov, B.Kh., Seliverstova, I.I., Serpinskii, V.V., and Fomkin, A.A., Izv. Akad. Nauk SSSR, Ser. Khim., 1979, vol. 28, p. 2419.
Yu, J., Luo, J., Zhang, Y., Cao, J., Chang, Ch., Gorte, R.J., and Fan, W., Micropor. Mesopor. Mater., 2016, vol. 225, p. 472.
Tagoa, T., Konno, H., Ikeda, S., Yamazaki, S., Ninomiya, W., Nakasaka, Y., and Masuda, T., Catal. Today, 2011, vol. 164, p. 158.
Gounder, R., Jones, A.J., Carr, R.T., and Iglesia, E., J. Catal., 2012, vol. 286, p. 214.
de Klerk, A., Energy Fuels, 2006, vol. 20, p. 1799.
Liebner, W. and Wagner, M., Tagungsber, 2004, vol. 1, p. 281.
Shape Selective Catalysis in Industrial Applications. 2nd ed., Chen, N.Y., Garwood, W.E., and Dwyer, F.G., Eds., New York: Dekker, 1996, p. 304.
US Patent 0147263, 2011.
Daage, M., Zeolites for Cleaner Technologies, Guisnet, M., Gilson, J.P, Eds., London: Imperial College Press, 2002, p. 388.
Wallenstein, D. and Harding, R.H., Appl Catal. A: Gen., 2001, vol. 214, p. 11.
Okuhara, T., Chem. Rev., 2002, vol. 102, p. 3641.
Schmidt, R.J., Appl Catal. A: Gen., 2005, vol. 280, p. 89.
Peterson, G.A. and Schmidt, R.J., Handbook of Petrochemicals Production Processes, Meyers, R.A., Ed., New York: McGraw-Hill, 2005, p. 744.
van Bokhoven, J.A., Tromp, M., Koningsberger, D.C., Miller, J.T., Pieterse, J.A.Z., Lercher, J.A., Williams, B.A., and Kung, H.H., J. Catal., 2001, vol. 202, p. 129.
Schmidt, F. and Kohler, E., Zeolites for Cleaner Technologies, Guisnet, M. and Gilson, J.P., Eds. London: Imperial College Press, 2002, p. 388.
Weyda, H. and Kohler, E., Catal. Today, 2003, vol. 81, p. 51.
Catalysis in the Refinement of Fischer Tropsch Syncrude, de Klerk, A. and Furimsk, E., London: RSC, 2010, p. 279.
Corma, A. and Martinez, A., Zeolites for Cleaner Technologies, Guisnet, M. and Gilson, J.P, Eds., London: Imperial College Press, 2002, p. 388.
Sartipi, S., van Dijk, J.E., Gascon, J., and Kapteijn, F., Appl. Catal. A: Gen., 2013, vol. 456, p. 11.
Li, Y., Wang, T., Wu, C., Li, H., Qin, X., and Tsubaki, N., Fuel Process. Technol., 2010, vol. 91, p. 388.
Bessell, S., Appl.Catal. A: Gen., 1993, vol. 126, p. 253.
Jong, S.J. and Cheng, S., Appl.Catal. A: Gen., 1995, vol. 126, p. 51.
Kiselev, A.V., Disc. Faraday Soc., 1965, vol. 40, p. 205.
Halasz, I., Agarwal, M., Marcus, B., and Cormier, W.E., Micropor. Mesopor. Mater., 2005, vol. 84, p. 318.
Barton, S.S., Evans, M.J.B., Holland, J., and Koresh, J.E., Carbon, 1984, vol. 22, p. 265.
Kiselev, A.V., Lopatkin, A.A., and Shulga, A.A., Appl. Spectr., 1985, vol. 5, p. 261.
Ruthven, D.M., Chem. Eng. Prog., 1988, p. 42.
Halasz, I., Kim, S., and Marcus, B., J. Phys. Chem. B, 2001, vol. 105, p. 10788.
Halasz, I., Kim, S., and Marcus, B., Mol. Phys., 2002, vol. 100, p. 3123.
Brek, D., Tseolitovye molekulyarnye sita (Zeolite Molecular Sieves), Moscow: Mir, 1976, p. 782.
Rabo, J.A. and Gajda, G.J., Catal. Rev.–Sci. Eng., 1989-1990, vol. 31, p. 385.
http://www.iza-structure.org/.
Olson, D.H., Haag, W.O., and Lago, R.M., J. Catal., 1980, vol. 61, p. 390.
Nakamoto, H. and Takahashi, H., Appl. Spectr., 1982, vol. 2, p. 67.
Riekert, L., Adv. Catal., 1970, vol. 21, p. 2.
Anderson, M.W. and Klinowski, J., J. Chem. Soc., Faraday Trans., 1986, vol. 82, p. 1449.
Trombetta, M., Busca, G., Lenarda, M., Storaro, L., and Pavan, M., Appl. Catal. A: Gen., 1999, vol. 182, p. 225.
Trombetta, M. and Busca, G., J. Catal., 1999, vol. 187, p. 521.
Gabrienko, A.A., Danilova, I.G., Arzumanov, S.S., Toktarev, A.V., Freude, D., and Stepanov, A.G., Micropor. Mesopor. Mater., 2010, vol. 131, p. 210.
Jentys, A., Warecka, G., Derewinski, M., and Lercher, J.A., J. Phys. Chem., 1989, vol. 93, p. 4837.
Sauer, J., Horn, H., Haser, M., and Ahlrichs, R., Chem. Phys. Lett., 1990, vol. 173, p. 26.
Parker, L.M. and Bibby, D.M., Appl. Spectr., 1991, vol. 11, p. 293.
Malka-Edery, A., Abdallah, K., Grenier, Ph., and Meunier, F., Adsorption, 2001, vol. 7, p. 17.
Kheifets, L.I., Predtechenskaya, D.M., and Pavlov, Yu.V., Vestn. Mosk. Univ., Ser. Khim., 2005, vol. 46, p. 45.
Gupta, N.M., Kamble, V.S., Rao, K.A., and Iyer, R.M., J. Catal., 1989, vol. 120, p. 432.
Tikhii, Ya.V., Kubasov, A.A., and Stepanov, N.F., Zh. Fiz. Khim., 2003, vol. 77, p. 1620.
Kubasov, A.A., Kitaev, L.E., Yushchenko, V.V., and Tikhii, Ya.V., Vestn. MGU, Ser. Khim., 2005, vol. 46, p. 236.
Domracheva, T.M., Novakovskaya, Yu.V., Kubasov, A.A., and Stepanov, N.F., Zhurnal Fizicheskoi Khimii, 1999, vol. 73, p. 1249.
Putsma, M.L., Khimiya tseolitov i kataliz na tseolitakh (Chemistry of Zeolites and Catalysis on Zeolites), Rabo, Dzh., Ed., Moscow: Mir, 1980, 506 p.
Sukhanov, V.P., Pererabotka nefti. 2-e izd (Oil Refining), Moscow: Vysshaya shkola, 1979, p. 335.
US Patent 3287257, 1966.
UK Patent 1148545, 1969.
Echevskii, G.V., Kodenev, E.G., and Nosyreva, G.N., Kataliz v Promyshlennosti, 2013, vol. 4, p. 16.
RF Patent 2481268, 2011.
Sovremennye problemy fizicheskoi khimii (Modern Problems of Physical Chemistry), Shakhparonov, M.I., Akishin, P.A., Eds., Moscow: Izd. GU, 1970, vol. 4, p. 515.
Lombardo, E.A., Sill, G.A., and Hall, W.K., J. Catal., 1971, vol. 22, p. 54.
Novyi spravochnik khimika i tekhnologa. Syr’e i produkty promyshlennosti organicheskikh i neorganicheskikh veshchestv (New Handbook of Chemist and Engineer. Feedstock and the Products of Industry of Organic and Inorganic Substances), Ch.-I, St. Petersburg: ANO NPO “Professional”, 2002, p. 988.
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Original Russian Text © L.V. Sineva, E.V. Kulchakovskaya, V.Z. Mordkovich, 2017, published in Kinetika i Kataliz, 2017, Vol. 58, No. 6, pp. 760–772.
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Sineva, L.V., Kulchakovskaya, E.V. & Mordkovich, V.Z. Participation of Water in the Secondary Transformations of Hydrocarbons on Cobalt–Zeolite Catalysts for the Fischer–Tropsch Synthesis. Kinet Catal 58, 780–792 (2017). https://doi.org/10.1134/S002315841706009X
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DOI: https://doi.org/10.1134/S002315841706009X