Return to Literature References Table of Contents Literature References
Abel, F. R., Resch, J., “A method for the analysis of hot-film anemometer signals in two-phase flows”, Internat. J. Multiphase Flow, 4(5-6), 1978, pp. 523-533.
Abramova, A. V., Panin, A. A., Kliger, G. A., Kulikova, E. A., Slivinsky, E. V., “Production of synthetic fuels from alternative petroleum raw material by method of Fischer-Tropsch on zeolite catalysts”, Stud. Surf. Sci. Catal., 158B, 2005, pp. 1709-1716.
Abrevaya, H., Cohn, M. J., Targos, W. M., Robota, H. J., “Structure sensitive reactions over supported ruthenium catalysts during Fischer-Tropsch synthesis”, Catal. Lett., 7(1-4), 1990, pp. 183-195.
Abrosimov, B. Z., Vikhman, Yu. L., Elin, I. P., Mel'nikov, S. M., Yaroslavtsev, A. D., “Mechanization of casting and packing paraffin wax”, Chem. Petrol. Eng., 5(1), 1969, pp. 81-82.
Adamiec, J., “Hydrogen adsorption on chromia-supported iridium catalyst”, React. Kinet. Catal. Lett., 31(1), 1986, pp. 133-137.
Adrian, R. J., “Twenty years of particle image velocimetry”, Experim. Fluids, 39(2), 2005, pp. 159-169.
Aguayo, A. T., Erena, J., Sierra, I., Olazar, M., Bilbao, J., “Deactivation and regeneration of hybrid catalysts in the single-step synthesis of dimethyl ether from syngas and CO2”, Catal. Today, 106(1-4), 2005, pp. 265-270.
Aguilera, M. E., de Ramos, A. L., “Effect of electrolytes on bubble coalescence in columns observed through visualization techniques”, International Symposium on Visualization and Imaging in Transport Phenomena, Antalya, Turkey, 05-10 May 2002.
Akhrem, I. S., Bernadyuk, S. Z., Vol'pin, M. E., “Ruthenium catalysts of liquid-phase hydrocracking of n-alkanes”, Russian Chem. Bull., 41(5), 1992, pp. 955-957.
Akhverdiev, R. B., Timakov, I. A., Sarmurzina, R. G., Yakerson, V. I., Rustamov, M. I., Guseinova, M. K., Seitzhanova, Sh. K., “Phase composition and structure of cobalt-, nickel-, and copper-containing oxide catalysts based on activated alumina”, Russian Chem. Bull., 38(3), 1989, pp. 455-458.
Al-Masry, W. A., Al-Ahmed, M. I., “Effect of scale-up on wall shear rates in circulating bubble columns”, J. Chem. Tech. Biotech., 80(11), 2005, pp. 1230-1235.
Al-Masry, W. A., Ali, E. M., Aqeel, Y. M., “Determination of Bubble Characteristics in Bubble Columns Using Statistical Analysis of Acoustic Sound Measurements”, Chem. Eng. Res. Des., 83(10), 2005, pp. 1196-1207.
Alekseev, O. S., Poluboyarov, V. A., Ryndin, Yu. A., Anufrienko, V. F., “EPR study of the nature of active sites and the type of their deactivation in CO hydrogenation on (Ni+Ti)/SiO2 catalysts”, React. Kinet. Catal. Lett., 38(2), 1989, pp. 319-324.
Aleshin, E. G., Alimov, M. A., Ashavskaya, G. A., Slovetskaya, K. I., “Cobalt/silica gel system as a chemisorbent for oxygen”, Russian Chem. Bull., 41(1), 1992, pp. 28-31.
An, X., Ren, F., Li, J., Wang, J., “A Highly Active Cu/ZnO/Al2O3 Nanofiber Catalyst for Methanol Synthesis through CO2 and CO Hydrogenation”, Chinese J. Catal., 26(9), 2005, pp. 729-730.
Andreev, A., Idakiev, V., Kostov, K., Gabrovska, M., “Water-gas shift reaction over nickel hydroxides”, Catal. Lett., 31(2-3), 1995, pp. 245-252.
Andreussi, P., Di Donfrancesco, A., Messia, M., “An impedance method for the measurement of liquid hold-up in two-phase flow”, Internat. J. Multiphase Flow, 14(6), 1988, pp. 777-785.
Ansorge, J., Förster, H., “Infrared and mass spectroscopic evidence for hydrocarbon formation on a supported cobalt catalyst”, React. Kinet. Catal. Lett., 10(1), 1979, pp. 99-103.
Antoshin, G. V., Shpiro, E. S., Belyatskii, V. N., Tkachenko, O. P., Minachev, Kh. M., “State of Ru and Co in mono- and bimetallic deposited catalysts”, Russian Chem. Bull., 32(8), 1983, pp. 1737-1739.
Arunarkavalli, T., Kulkarni, G. U., Rao, C. N. R., “An EXAFS study of Cu/ZnO and Cu/ZnO-Al2O3 methanol synthesis catalysts”, Catal. Lett., 20(3-4), 1993, pp. 259-268.
Atanasova, V. D., Shvets, V. A., Kazansky, V. B., “ESR study of carbon monoxide adsorption on rhodium exchanged Y zeolites”, React. Kinet. Catal. Lett., 9(4), 1979, pp. 349-352.
Avaev, V. I., Ryashentseva, M. A., Minachev, Kh. M., “Effect of the reaction medium on the hydrogenating properties of Re/γ-Al2O3”, Russian Chem. Bull., 26(10), 1977, pp. 2219-2220.
Avramenko, V. A., Bylin, G. A., Glushchenko, V. Yu., Radaev, E. F., “Kinetics of the adsorption of aliphatic alcohols from aqueous solution by activated charcoal”, Russian Chem. Bull., 27(1), 1978, pp. 13-15.
Babaeva, M. A., Tsyganenko, A. A., “Infrared spectroscopic evidence for the formation of carbonite (CO2)2− ions in CO interaction with basic oxide surfaces”, React. Kinet. Catal. Lett., 34(1), 1987, pp. 9-14.
Badyal, J. P. S., Gellman, A. J., Judd, R. W., Lambert, R. M., “Single crystal modelling of the SMSI phenomenon: Structure, composition, electronic effects and CO chemisorption at the Ru(0001)/TiOx interface”, Catal. Lett., 1(1-3), 1988, pp. 41-50.
Bai, L., Liu, L.-J., Li, X.-B., Zhang, Z.-X., Xiang, H.-W., Li, Y.-W., Han, Y.-Z., “Investigation on the adaptability of an industrial fixed - bed Fe-Cu-K catalyst to slurry reactor”, J. Fuel Chem. Tech., 33(2), 2005, pp. 211-217.
Bailey, S., Froment, G. F., Snoeck, J. W., Waugh, K. C., “A DRIFTS study of the morphology and surface adsorbate composition of an operating methanol synthesis catalyst”, Catal. Lett., 30(1-4), 1994, pp. 99-111.
Bailie, J. E., Rochester, C. H., Millar, G. J., “Spectroscopic evidence for adsorption sites located at Cu/ZnO interfaces”, Catal. Lett., 31(4), 1995, pp. 333-340.
Bailliard-Letournel, R. M., Gomez Cobo, A. J., Mirodatos, C., Primet, M., Dalmon, J. A., “About the nature of the Co-Cu interaction in Co-based catalysts for higher alcohols synthesis”, Catal. Lett., 2(3), 1989, pp. 149-156.
Bajusz, I.-G., Kwik, D. J., Goodwin, J. G., “Methanation on K+-modified Pt/SiO2: the impact of reaction conditions on the effective role of the promotor”, Catal. Lett., 48(3-4), 1997, pp. 151-157.
Bakkerud, P. K., “Update on synthesis gas production for GTL”, Catal. Today, 106(1-4), 2005, pp. 30-33.
Bakopoulos, A., “Multiphase fluidization in large-scale slurry jet loop bubble columns for methanol and or dimethyl ether production”, Chem. Eng. Sci., 61(2), 2006, pp. 538-557.
Balachandar, S., Prosperetti, A., “Report on a symposium on ‘Computational approaches to disperse multiphase flow’”, Internat. J. Multiphase Flow, 31(12), 2005, pp. 1337-1341.
Baltrus, J. P., Gormley, R. J., Link, D. D., “Potential for Sulfur Contamination of Low-Sulfur Fuels When Contacting Surfaces Previously Exposed to High-Sulfur Fuels during Their Storage and Handling”, Energy & Fuels, 19(5), 2005, pp. 2148-2154.
Baltrus, J. P., Link, D. D., Zandhuis, P. H., Gormley, R. J., “Screening of Potential O-Ring Swelling Additives for Ultra-Clean Transportation Fuels”, ACS Div. Fuel Chem. Prepr., 50(2), 2005, p. 764.
Bando, K. K., Arakawa, H., Ichikuni, N., “CO2 hydrogenation over micro- and mesoporous oxides supported Ru catalysts”, Catal. Lett., 60(3), 1999, pp. 125-132.
Bando, K. K., Saito, T., Sato, K., Tanaka, T., Dumeignil, F., Imamura, M., Matsubayashi, N., Shimada, H., “In-situ XAFS Analysis of Y Zeolite-Supported Rh Catalysts during High-Pressure Hydrogenation of CO2”, Top. Catal., 18(1-2), 2002, pp. 59-65.
Barbieri, G., Brunetti, A., Granato, T., Bernardo, P., Drioli, E., “Engineering Evaluations of a Catalytic Membrane Reactor for the Water Gas Shift Reaction”, Ind. Eng. Chem. Res., 44(20), 2005, pp. 7676-7683.
Barcicki, J., Borowiecki, T., Grzegorczyk, W., Nazimek, D., Denis, A., Pielach, M., “Effect of hydrogen sulfide on the activity of nickel catalysts for methanation”, React. Kinet. Catal. Lett., 18(3-4), 1981, pp. 437-442.
Barea, E., Batlle, X., Bourges, P., Corma, A., Fornés, V., Labarta, A., Puntes, V. F., “Synthesis and Characterization of Stabilized Subnanometric Cobalt Metal Particles”, J. Am. Chem. Soc., 127(51), 2005, pp. 18026-18030.
Barkar, L. I., Nikolaev, N. A., “Intensification of mass transfer in gas-liquid systems by introducing a finely dispersed solid phase”, Chem. Petrol. Eng., 20(7), 1984, pp. 337-339.
Barkova, A. P., Bragin, O. V., Furman, D. B., “Activation of low-percentage Re-Al2O3 and Tc-Al2O3 catalysts for the dehydrogenation of paraffins”, Russian Chem. Bull., 42(3), 1993, pp. 436-440.
Barkova, A. P., Furman, D. B., Bragin, O. V., “Preparation of efficient rhenium/alumina and technetium/alumina catalysts for the dehydrogenation of normal paraffins”, Russian Chem. Bull., 41(2), 1992, pp. 379-379.
Barrault, J., Forquy, C., Menezo, J. C., Maurel, R., “Hydrocondensation of CO2 (CO) over supported iron catalysts”, React. Kinet. Catal. Lett., 17(3-4), 1981, pp. 373-378.
Barrault, J., Forquy, C., Menezo, J. C., Maurel, R., “Selective hydrocondensation of CO to light olefins with alumina-supported iron catalysts”, React. Kinet. Catal. Lett., 15(2), 1980, pp. 153-158.
Barrault, J., Ghazi, M., Renard, C., “Carbon monoxide hydrocondensation on iron catalysts prepared from metal carbonyl compounds”, React. Kinet. Catal. Lett., 27(2), 1985, pp. 251-257.
Barreira, M. N., de Toledo, E. C. V., Filho, R. M., das Graças Enrique, M., “Use of Different Numerical Solution Approaches for a Three-Phase Slurry Catalytic Reactor Model”, Internat. Chem. React. Eng., 1, 2003, A53.
Bartholomew, C. H., Farrauto, R. J., “Hydrogen Production and Synthesis Gas Reactions”, Chapter 6.5 in “Fundamentals of Industrial Catalytic Processes (2nd Edition)”, Wiley-Interscience, New Jersey, 2006, pp. 337-486.
Basargin, B. N., Gel'perin, N. I., Ossovskii, B. S., Kuzyanov, G. A., Baraev, A. A., “Selection of operating parameters and geometry for liquid-gas injector”, Chem. Petrol. Eng., 6(10), 1970, pp. 834-838.
Bashkirov, A. N., Kagan, Yu. B., Kliger, G. A., “Composition of the products in the synthesis of amines from carbon monoxide, hydrogen, and ammonia”, Russian Chem. Bull., 7(4), 1958, pp. 484-486.
Basini, L., “Issues in H2 and synthesis gas technologies for refinery, GTL and small and distributed industrial needs”, Catal. Today, 106(1-4), 2005, pp. 34-40.
Basińska, A., Domka, F., “Iron-ruthenium catalyst for the water-gas shift reaction”, Catal. Lett., 17(3-4), 1993, pp. 327-332.
Basińska, A., Domka, F., “Chlorine-free iron-ruthenium catalyst for the water-gas shift reaction”, Catal. Lett., 22(4), 1993, pp. 327-331.
Baudon, A., Lemberton, J. L., Guisnet, M., Marchal, N., Mignard, S., “Hydrocracking of n-heptane on a sulfided NiMo-Y zeolite catalyst: effect of the sulfidation method”, Catal. Lett., 36(3-4), 1996, pp. 245-247.
Bech, K., “Dynamic simulation of a 2D bubble column”, Chem. Eng. Sci., 60(19), 2005, pp. 5294-5304.
Bedel, L., Roger, A.-C., Rehspringer, J.-L., Zimmermann, Y., Kiennemann, A., “La(1−y)Co0.4Fe0.6O3−δ perovskite oxides as catalysts for Fischer–Tropsch synthesis”, J. Catal., 235(2), 2005, pp. 279-294.
Beguin, B., Denise, B., Sneeden, R. P. A., “Hydrocondensation of CO2: Reaction of CO2(CO)/H2 on CuO/ZnO contact masses”, React. Kinet. Catal. Lett., 14(1), 1980, pp. 9-14.
Behkish, A., Lemoine, R., Oukaci, R., Morsi, B. I., “Novel correlations for gas holdup in large-scale slurry bubble column reactors operating under elevated pressures and temperatures”, Chem. Eng. J., 115(3), 2006, pp. 157-171.
Bekauri, N. G., Shuikin, N. I., “Contact catalytic conversions of C11-C18 n-alkanes under hydrogen pressure in a flow system”, Russian Chem. Bull., 10(2), 1961, pp. 286-291.
Bekauri, N. G., Shuikin, N. N., Shakarashvili, T. S., “Conversions of n-nonadecane and eicosane in a flow system over metal oxide catalysts under hydrogen pressure”, Russian Chem. Bull., 10(2), 1961, pp. 292-298.
Bell, A. T., “CO hydrogenation over group VII metals: New insights into factors controlling catalyst activity and selectivity”, React. Kinet. Catal. Lett., 35(1-2), 1987, pp. 107-121.
Bengoa, J. F., Cagnoli, M. V., Gallegos, N. G., Alvarez, A. M., Mogni, L. V., Moreno, M. S., Marchetti, S. G., “Iron oxide nanoparticles inside the MCM-41 channels: Study of the structural stability of the support”, Micropor. Mesopor. Materials, 84(1-3), 2005, pp. 153-160.
Berndt, H., Briehn, V., Evert, S., Gutschick, D., Kotowski, W., “Relation between preparation, porosity and selectivity of CuO-ZnO-MeOx catalysts in the synthesis of alcohol mixtures”, Catal. Lett., 14(2), 1992, pp. 185-195.
Berres, S., Bürger, R., Tory, E. M., “Applications of polydisperse sedimentation models”, Chem. Eng. J., 111(2-3), 2005, pp. 105-117.
Bertola, F., Vanni, M., Baldi, G., “Application of Computational Fluid Dynamics to Multiphase Flow in Bubble Columns”, Internat. J. Chem. React. Eng., 1, 2003, A3.
Bertola, V., “A time-averaged technique for gas-liquid flow structure reconstruction from local void fraction measurements”, J. Flow Vis. Image Proc., 11(2), 2004, pp.
Bezemer, G. L., Falke, U., van Dillen, A. J., de Jong, K. P., “Cobalt on carbon nanofiber catalysts: auspicious system for study of manganese promotion in Fischer–Tropsch catalysis”, Chem. Comm., 2005(6), pp. 731-733.
Bezemer, G. L., Radstake, P. B., Falke, U., Oosterbeek, H., Kuipers, H. P. C. E., van Dillen, A. J., de Jong, K. P., “Investigation of promoter effects of manganese oxide on carbon nanofiber-supported cobalt catalysts for Fischer–Tropsch synthesis”, J. Catal., 237(1), 2006, pp. 152-161.
Bezemer, G. L., Radstake, P. B., Koot, V., van Dillen, A. J., Geus, J. W., de Jong, K. P., “Preparation of Fischer–Tropsch cobalt catalysts supported on carbon nanofibers and silica using homogeneous deposition-precipitation”, J. Catal., 237(2), 2006, pp. 291-302.
Bhatt, B. L., Frame, R., Hoek, A., Kinnari, K., Rao, V. U. S., Tungate, F. L., “Catalyst and process scale-up for Fischer-Tropsch synthesis”, Top. Catal., 2(1-4), 1995, pp. 235-257.
Bianchi, C. L., Carli, R., Lanzani, S., Lorenzetti, D., Vergani, G., Ragaini, V., “A new method to prepare highly dispersed supported metal catalysts”, Catal. Lett., 22(4), 1993, pp. 319-325.
Biesbroek, R., “Fischer-Tropsch synthese met silica gedragen Ru- en RuFe-katalysatoren in een geroerde slurry reactor”, Dissertation, Technische Hogeschool Eindhoven, 1986.
Bilicki, Z., Kestin, J., “Transition criteria for two-phase flow patterns in vertical upward flow”, Internat. J. Multiphase Flow, 13(3), 1987, pp. 283-294.
Blanchard, M., Derule, H., Canesson, P., “Cobalt catalysts for the production of alcohols in the F.T. Synthesis”, Catal. Lett., 2(5), 1989, pp. 319-322.
Block, J. H., Kruse, N., “Chemical surface reactions of CO on the atomic scale: Investigations by field ion microscopy and mass spectrometry”, React. Kinet. Catal. Lett., 35(1-2), 1987, pp. 11-20.
Bødker, F., Mørup, S., Niemantsverdriet, J. W., “In situ Mössbauer spectroscopy of carbon-supported iron catalysts at cryogenic temperatures and in external magnetic fields”, Catal. Lett., 13(3), 1992, pp. 195-202.
Bohlbro, H., “An investigation on the kinetics of the conversion of carbon monoxide with water vapour over iron oxide based catalysts”, Dissertation, Denmark University of Technology, Lygnby, 1966.
Bohlmann, W., Mulla-Osman, S., Michel, D., “1H and 13C NMR Studies of Long Chain Hydrocarbons Adsorbed on MCM-41 and Zeolite NaX”, Stud. Surf. Sci. Catal., 154(B), 2004, pp. 1823-1829.
Bolder, F. H. A., Mulder, H., “Dehydration of alcohols in the presence of carbonyl compounds and carboxylic acids in a Fischer–Tropsch hydrocarbons matrix”, Appl. Catal. A, 300(1), 2006, pp. 36-40.
Bork, O., Schlueter, M., Raebiger, N., “The Impact of Local Phenomena on Mass Transfer in Gas-Liquid Systems”, Canadian J. Chem. Eng., 83(4), 2005, pp. 658-666.
Borovkov, V. Yu., Kazansky, V. B., “Comparative IR diffuse reflectance study of fundamental C=O stretching and combination C=O plus M-C stretching vibrational modes of CO linearly adsorbed on Ir/Al2O3 catalyst”, Catal. Lett., 23(1-2), 1994, pp. 107-112.
Bos, J.-W. G., Attfield, J. P., “Crystal and magnetic structures of the double perovskite La2CoRuO6”, J. Mater. Chem., 2005(6), pp. 715-720.
Boujana, S., Demri, D., Cressely, J., Kiennemann, A., Hindermann, J. P., “FT-IR and TPD studies on support-metal and promoter-metal interaction. Pt and Pd catalysts”, Catal. Lett., 7(5-6), 1990, pp. 359-366.
Boure, J. A., “Two-phase flow models: the closure issue”, Multiphase Sci. Tech., 3, 1987, pp. 3-30.
Bove, S., Solberg, T., Hjertager, B. H., “Numerical Aspects of Bubble Column Simulations”, Internat. J. Chem. React. Eng., 2, 2004, A1.
Brannon, D. H., Lesnick, R. M., “Choosing the Proper Technology to Monetize Large, Remote Gas Reserves”, in “5th Topical Conference on Natural Gas Utilization, AIChE Spring National Meeting, 2005, Atlanta, GA”, paper 104c.
Braun, Th., Wohlers, M., Belz, T., Nowitzke, G., Wortmann, G., Uchida, Y., Pfänder, N., Schlögl, R., “Fullerene-based ruthenium catalysts: a novel approach for anchoring metal to carbonaceous supports. I. Structure”, Catal. Lett., 43(3-4), 1997, pp. 167-173.
Braun, Th., Wohlers, M., Belz, T., Schlögl, R., “Fullerene-based ruthenium catalysts: a novel approach for anchoring metal to carbonaceous supports. II. Hydrogenation activity”, Catal. Lett., 43(3-4), 1997, pp. 175-180.
Bregadze, T. A., Bykhovskii, M. Ya., Seleznev, V. A., “Adsorption heats of carbon monoxide on zeolites, containing ions of the transition metals”, Russian Chem. Bull., 22(2), 1973, pp. 427-429.
Bremaud, M., Fongarland, P., Anfray, J., Jallais, S., Schweich, D., Khodakov, A. Y., “Influence of syngas composition on the transient behavior of a Fischer-Tropsch continuous slurry reactor”, Catal. Today, 106(1-4), 2005, pp. 137-142.
Briens, L. A., Ellis, N., “Hydrodynamics of three-phase fluidized bed systems examined by statistical, fractal, chaos and wavelet analysis methods”, Chem. Eng. Sci., 60(22), 2005, pp. 6094-6106.
Brodersen, K., “Die massenspektrometrische Bestimmung von Alkoholen in Produkten der Fischer-Tropsch- Synthese”, Anal. Bioanal. Chem., 167(6), 1959, pp. 447-447.
Brumby, A., Verhelst, M., Cheret, D., “Recycling GTL catalysts-A new challenge”, Catal. Today, 106(1-4), 2005, pp. 166-169.
Bukur, D. B., “Attrition studies with catalysts and supports for slurry phase Fischer-Tropsch synthesis”, Catal. Today, 106(1-4), 2005, pp. 275-281.
Bukur, D. B., Lang, X., Nowicki, L., “Comparative Study of an Iron Fischer-Tropsch Catalyst Performance in Stirred Tank Slurry and Fixed-Bed Reactors”, Ind. Eng. Chem. Res., 44(16), 2005, pp. 6038-6044.
Bulanova, T. F., Éidus, Ya. T., Sergeeva, N. S., “The effect of additions of certain oxides of rare and rare-earth elements on the activities of cobalt catalysts in the synthesis of hydrocarbons from carbon monoxide and hydrogen”, Russian Chem. Bull., 16(12), 1967, pp. 2601-2603.
Bulanova, T. F., Lapidus, A. L., Sergeeva, N. S., Éidus, Ya. T., “The activity of Co-MgO-kieselguhr catalysts in the synthesis of hydrocarbons from carbon monoxide and hydrogen at atmospheric pressure”, Russian Chem. Bull., 20(9), 1971, pp. 1802-1804.
Burch, R., Flambard, A. R., “Reaction specificity in catalysts reported to exhibit strong metal-support interactions”, React. Kinet. Catal. Lett., 17(1-2), 1981, pp. 23-28.
Burch, R., Golunski, S. E., Spencer, M. S., “The role of hydrogen in methanol synthesis over copper catalysts”, Catal. Lett., 5(1), 1990, pp. 55-60.
Burghardt, A., Bartelmus, G., Janecki, D., “The analysis of the mathematical criteria of the hydrodynamic regimes changeover in the three-phase reactors”, Inzyn. Chem. Proc., 26(2), 2005, pp. 239-258.
Burghardt, A., Bartelmus, G., Szlemp, A., Janecki, D., “Hydrodynamics of the cocurrent gas-liquid flow through a three-phase reactor”, Inzyn. Chem. Proc., 26(2), 2005, pp. 259-280.
Bursian, N. R., Kogan, S. B., “Catalytic conversion of paraffinic hydrocarbons into isoparaffins and olefins”, Russian Chem. Rev., 58(3), 1989, pp. 272-285.
Butt, J. B., “Carbide phases on iron-based Fischer-Tropsch synthesis catalysts part I: Characterization studies”, Catal. Lett., 7(1-4), 1990, pp. 61-81.
Butt, J. B., “Carbide phases on iron-based Fischer-Tropsch synthesis catalysts part II: Some reaction studies”, Catal. Lett., 7(1-4), 1990, pp. 83-105.
Butterworth, D., “A comparison of some void-fraction relationships for co-current gas-liquid flow”, Internat. J. Multiphase Flow, 1(6), 1975, pp. 845-850.
Cabilla, G. C., Bonivardi, A. L., Baltanás, M. A., “Characterization by CO/FTIR spectroscopy of Pd/silica catalysts and its correlation with syngas conversion”, Catal. Lett., 55(3-4), 1998, pp. 147-156.
Caga, I. T., Winterbottom, J. M., Harris, I. R., “Pd-based hydrogen diffusion membranes as catalysts in carbon monoxide hydrogenation”, Catal. Lett., 3(4), 1989, pp. 309-316.
Cai, W., Li, X., Xu, C., Zhou, M., “Enhancement of gas-liquid mass transfer of reactive slurry”, J. Chem. Ind. Eng., 56(4), 2005, pp. 579-586.
Calemma, V., Correra, S., Perego, C., Pollesel, P., Pellegrini, L., “Hydroconversion of Fischer-Tropsch waxes: Assessment of the operating conditions effect by factorial design experiments”, Catal. Today, 106(1-4), 2005, pp. 282-287.
Carley, A. F., Roberts, M. W., Strutt, A. J., “Chemical reactivity of CO and CO2 at a Cu(110)-Cs surface”, Catal. Lett., 29(1-2), 1994, pp. 169-175.
Carreto Vazquez, V. H., “Spray drying and attrition behavior of iron catalysts for slurry phase Fischer-Tropsch synthesis”, Thesis, Texas A&M University, 2004.
Cavalcanti, F. A. P., Dossi, C., Sheu, L. L., Sachtler, W. M. H., “CO hydrogenation over NaY encaged Pd clusters”, Catal. Lett., 6(3-6), 1990, pp. 289-299.
Cents, A. H. G., Jansen, D. J. W., Brilman, D. W. F., Versteeg, G. F., “Influence of Small Amounts of Additives on Gas Hold-Up, Bubble Size, and Interfacial Area”, Ind. Eng. Chem. Res., 44(14), 2005, pp. 4863-4870.
Chafik, T., Bianchi, D., Teichner, S. J., “On the mechanism of the methanol synthesis involving a catalyst based on zirconia support”, Top. Catal., 2(1-4), 1995, pp. 103-116.
Chai, J. W., Pan, J. S., Wang, S. J., Huan, C. H. A., Lau, G. S., Zheng, Y. B., Xu, S., “Thermal behaviour of ultra-thin Co overlayers on rutile TiO2(100) surface”, Surf. Sci., 589(1-3), 2005, pp. 32-41.
Chakor-Alami, A., Hindermann, J. P., Kiennemann, A., “Dehydration of alcohols on iron Fischer-Tropsch type catalysts”, React. Kinet. Catal. Lett., 26(3-4), 1984, pp. 391-398.
Chang, J., Chen, J., Teng, B., Xiang, H., Li, Y., Sun, Y., Liu, T., Xie, Y., Zhang, J., Hu, T., “Effect of ZrO2 Promoter on Structural Change of Co/SiO2 Catalyst During Its Deactivation in F-T Synthesis”, Chinese J. Catal., 26(9), pp. 731-733.
Chang, J., Teng, B., Bai, L., Chen, J., Zhang, R., Xu, Y., Xiang, H., Li, Y., Sun, Y., “Detailed Kinetic Study of Fischer-Tropsch Synthesis on Co/ZrO2/SiO2 Catalyst II. Construction and Regression of Kinetic Models”, Chinese J. Catal., 26(10), 2005, pp. 859-868.
Chang, J., Teng, B., Bai, L., Zhang, R., Chen, J., Xu, Y., Xiang, H., Li, Y., Sun, Y., “Detailed Kinetic Study of Fischer-Tropsch Synthesis on Co/ZrO2/SiO2 Catalyst I. Analysis of Reaction Pathways”, Chinese J. Catal., 26(7), 2005, pp. 614-620.
Chang, L.-P., “Present status and developing trends of coal liquefaction techniques”, Modern Chem. Ind., 25(10), 2005, pp. 17-20.
Chaumat, H., Billet-Duquenne, A. M., Augier, F., Mathieu, C., Delmas, H., “Mass transfer in bubble column for industrial conditions-effects of organic medium, gas and liquid flow rates and column design”, Chem. Eng. Sci., 60(22), 2005, pp. 5930-5936.
Chaumette, P., Verdon, C., Boucot, P., “Influence of the hydrocarbons distribution on the heat produced during Fischer-Tropsch synthesis”, Top. Catal., 2(1-4), 1995, pp. 301-311.
Chen, N. Y., Garwood, W. E., Dwyer, F. G., “Applications in Alternate Fuels and Light Olefins”, Chapter 7 in “Shape Selective Catalysis in Industrial Applications”, Marcel Dekker, New York, 1989, pp. 219-250.
Chen, Y., Yang, J., Sun, Y., Chen, M., “A density functional study of the adsorption of CO on Fe(111) surface”, Chem. J. Internet, 6(10), 2004, p. 70.
Chen, Y.-W., “Fischer-Tropsch synthesis on Ru/NaY catalysts: Effect of the acidity of the zeolite”, React. Kinet. Catal. Lett., 34(1), 1987, pp. 219-224.
Chen, Y.-W., Goodwin, J. G., “La and Zn promotion of Ru Fischer-Tropsch catalysts”, React. Kinet. Catal. Lett., 26(3-4), 1984, pp. 453-459.
Chen, Y.-W., Hsu, W.-C., Lin, C.-S., “Fischer-tropsch synthesis over ruthenium/Y-zeolite catalysts: Effects of the neutralizing cations of zeolites”, React. Kinet. Catal. Lett., 40(2), 1989, pp. 301-306.
Chepaikin, E. G., Bezruchenko, A. P., Sal'nikova, E. N., Io, F., Tom, Z., Beck, M. T., Khidekel', M. L., “Water-gas shift reaction in the liquid phase: Catalysis by water-soluble rhodium complexes”, Russian Chem. Bull., 38(3), 1989, pp. 476-482.
Chernavskii, P. A., “Preparation of Fischer–Tropsch Catalysts”, Kinet. Catal., 46(5), 2005, pp. 634-640.
Chernavskii, P. A., Pankina, G. V., Lermontov, A. S., “The Kinetics of Reduction of Cobalt Oxide Nanoparticles on Silica Gel”, Russian J. Phys. Chem., 796, 2005, pp. 875-880.
Cheskis, A. B., “Design of gas-liquid injectors and ejectors”, Chem. Petrol. Eng., 3(6), 1967, pp. 447-450.
Chilekar, V. P., Warnier, M. J. F., van der Schaaf, J., Kuster, B. F. M., Schouten, J. C., van Ommen, J. R., “Bubble Size Estimation in Slurry Bubble Columns from Pressure Fluctuations”, AIChE J., 51(7), 2005, pp. 1924-1937.
Chin, Y. H., Hu, J., Cao, C., Gao, Y., Wang, Y., “Preparation of a novel structured catalyst based on aligned carbon nanotube arrays for a microchannel Fischer-Tropsch synthesis reactor”, Catal. Today, 110(1-2), 2005, pp. 47-52.
Chu, W., Xiong, G., Chen, H. R., Sheng, S. S., Guo, X. X., “ESCA studies on copper-cobalt based catalysts”, React. Kinet. Catal. Lett., 56(2), 1995, pp. 331-339.
Chuang, S. S. C., Pien, S.-I., “Infrared studies of reaction of ethylene with syngas on Ni/SiO2”, Catal. Lett., 3(4), 1989, pp. 323-329.
Chuang, S. S. C., Soong, Y., Noceti, R. P., Schehl, R. R., “Characterization of Cu−Rh/SiO2 by temperature-programmed desorption (TPD) of hydrogen”, React. Kinet. Catal. Lett., 48(1), 1992, pp. 31-36.
Clark, N. N., Flemmer, R. L. C., “A method for determining frictional pressure losses in two phase flow”, Internat. J. Multiphase Flow, 10(6), 1984, pp. 737-738.
Collado, J. R. A., “On the theoretical description of the chemisorption of the hydrogen atom on the metallic surface. Calculation of energy interaction of H with HCP Co and Ni surface clusters”, Surf. Sci., 600(1), 2006, pp. 133-142.
Comelli, R., Finelli, Z., Canavese, S., Fígoli, N., “Hydrocarbons from synthesis gas; effect of Mg addition over Pd impregnated silica-alumina catalysts”, React. Kinet. Catal. Lett., 55(1), 1995, pp. 171-181.
Corro, G., Gómez, R., “Carbon monoxide adsorption and hydrogen-oxygen titration on Ru/Al2O3”, React. Kinet. Catal. Lett., 12(2), 1979, pp. 145-150.
Cuesters, J. M. G., “Fischer-Tropsch synthese met een K-gepromoteerde Fe-katalysator in een geroerde slurryreactor: de rol van secundaire reacties”, Dissertation, Technische Universiteit Eindhoven, 1987.
Dabrowski, A. J., Solik-Dabrowska, M., “Infrared studies of Co2(CO)8 adsorption on zeolites Y”, React. Kinet. Catal. Lett., 34(2), 1987, pp. 367-372.
Dalai, A. K., Das, T. K., Chaudhari, K. V., Jacobs, G., Davis, B. H., “Fischer–Tropsch synthesis: Water effects on Co supported on narrow and wide-pore silica”, Appl. Catal. A, 289(2), 2005, pp. 135-142.
Dan, Z., ChunJian, X., Ming, Z., “Gas-Liquid Mass Transfer Enhanced by Finely Dispersed Particles”, Chem. React. Eng. Tech., 21(3), 2005, pp. 267-273.
Daniels, J. J., Arther, A. R., Lee, B. L., Stagg-Williams, S. M., “Infrared Spectroscopy Study of CO and CO2 on Ce- and La-promoted Pt/ZrO2 Catalysts”, Catal. Lett., 103(3-4), 2005. pp. 169-178.
Das, T. K., Conner, W. A., Li, J., Jacobs, G., Dry, M. E., Davis, B. H., “Fischer-Tropsch Synthesis: Kinetics and Effect of Water for a Co/SiO2 Catalyst”, Energy & Fuels, 19(4), 2005, pp. 1430-1439.
Davis, B. H., Jacobs, G., Chaudhari, K., Luo, M., Das, T. K., “Fischer-Tropsch Synthesis: Impact of Water on Iron and Cobalt Catalysts During Synthesis”, in “5th Topical Conference on Natural Gas Utilization, AIChE Spring National Meeting, 2005, Atlanta, GA”, paper 104e.
Davis, M. R., Fungtamasan, B., “Large scale structure in gas-liquid mixture flows”, Internat. J. Multiphase Flow, 10(6), 1984, pp. 663-675.
Davydov, A. A., Shepot'ko, M. L., “Investigation of the state of copper cations in CuCr2O4 /Al2O3 catalysts based on the IR spectra of adsorbed carbon monoxide”, Theor. Exp. Chem., 26(5), 1991, pp. 597-600.
de Beer, P. J. F. M., “Synthesis of light olefins on cobalt catalysts by way of the Fischer-Tropsch reaction”, Dissertation, Technische Hogeschool Eindhoven, 1978.
de Blok, W. J., “Mass transfer in three-phase slurry reactors”, Dissertation, Universiteit van Amsterdam, 1984.
de Klerk, A., “Thermal Upgrading of Fischer-Tropsch Olefins”, Energy & Fuels, 19(4), 2005, pp. 1462-1467.
de Lucas, A., Sánchez, P., Dorado, F., Ramos, M. J., Valverde, J. L., “Kinetic Model of the n-Octane Hydroisomerization on PtBeta Agglomerated Catalyst: Influence of the Reaction Conditions”, Ind. Eng. Chem. Res., 45(3), 2006, pp. 978-985.
Deckert, H., “Alkylierung zyklischer Amine bei der Koelbel-Engelhardt- und Fischer-Tropsch-Synthese”, Dissertation, Technische Universitaet Berlin, 1977.
Dehaeck, S., van Beeck, J. P. A. J., Riethmuller, M. L., “Extended glare point velocimetry and sizing for bubbly flows”, Experim. Fluids, 39(2), 2005, pp. 407-419.
Deldari, H., “Suitable catalysts for hydroisomerization of long-chain normal paraffins”, Appl. Catal. A., 293, 2005, pp. 1-10.
Demidov, M. B., Savinov, E. N., Parmon, V. N., “Gas phase electrocatalytic reduction of carbon monoxide in a cell with a solid proton-conducting electrolyte”, React. Kinet. Catal. Lett., 38(2), 1989, pp. 295-299.
Demirci, U. B., Garin, F., “From Bifunctional Site to Metal–Proton Adduct Site in Alkane Reforming Reactions on Sulphated-Zirconia-Supported Pt or Pd or Ir Catalysts”, Catal. Lett., 76(1-2), 2001, pp. 45-51.
Demri, D., Hindermann, J. P., Kiennemann, A., Mazzocchia, C., “CO hydrogenation on rhodium catalysts as studied by temperature programmed desorption and reaction”, Catal. Lett., 23(3-4), 1994, pp. 227-236.
den Braanker, W. G., “Onderzoek naar de reactiekinetiek van de Fischer-Tropsch synthese op ruthenihum met behulp van een pulsreactor”, Dissertation, Technische Hogeschool Eindhoven, 1983.
Denayer, J. F., Ocakoglu, A. R., De Jonckheere, B. A., Martens, J. A., Thybaut, J. W., Marin, G. B., Baron, G. V., “Adsorption Competition Effects in Hydroconversion of Alkane Mixtures on Zeolites”, Internat. J. Chem. React. Eng., 1, 2003, A36.
Denayer, J. F. M., van der Beken, S., de Meyer, K., Martens, J. A., Baron, G. V., “Chromatographic Liquid Phase Separation of n-Alkane Mixtures using Zeolites”, Stud. Surf. Sci. Catal., 154(B), 2004, pp. 1944-1949.
Denise, B., Sneeden, R. P. A., “Hydrogenation of CO on thoria supported group VIII (Pd, Pt, Ir) metal catalysts”, React. Kinet. Catal. Lett., 26(3-4), 1984, pp. 265-268.
Denisenko, L. A., Tsyganenko, A. A., Filimonov, V. N., “Infrared study of the interaction between adsorbed molecules in the Co/ZnO system”, React. Kinet. Catal. Lett., 25(1-2), 1984, pp. 23-26.
Dhaouadi, H., Poncin, S., Hornut, J. M., Wild, G., “Solid effects on hydrodynamics and heat transfer in an external loop airlift reactor”, Chem. Eng. Sci., 61(4), 2006, pp. 1300-1311.
Dmitriev, R. V., Avaev, V. I., Ryashentseva, M. A., Minachev, Kh. M., “Certain aspects of the reduction of Re/γ-Al2O3 and Re/SiO2 catalysts by hydrogen”, Russian Chem. Bull., 26(11), 1977, pp. 2269-2274.
Dmitriev, R. V., Zubareva, N. D., Vedenyapin, A. A., Klabunovskii, E. I., Minachev, Kh. M., “The state and behavior of hydrogen on ruthenium catalysts”, Russian Chem. Bull., 26(5), 1977, pp. 905-909.
Dmitriev, R. V., Zubareva, N. D., Vedenyapin, A. A., Klabunovskii, E. I., Minachev, Kh. M., “Chemisorption and hydrogen spillover on framework ruthenium catalysts”, Russian Chem. Bull., 37(8), 1988, pp. 1523-1526.
Domka, F., Laniecki, M., Ruszkowski, Z., “Catalytic activity of the Fe2O3−MgO system in the carbon monoxide-steam reaction”, React. Kinet. Catal. Lett., 3(3), 1975, pp. 261-269.
Doshi, Y. K., Pandit, A. B., “Effect of internals and sparger design on mixing behavior in sectionalized bubble column”, Chem. Eng. J., 112(1-3), 2005, pp. 117-129.
Dry, M. E., “Fischer-Tropsch synthesis over iron catalysts”, Catal. Lett., 7(1-4), 1990, pp. 241-251.
Dukler, A. E., Taitel, Y., “Flow pattern transitions in gas-liquid systems: measurement and modeling”, Multiphase Sci. Tech., 2, 1986, pp. 1-94.
Dupain, X., Krul, R. A., Makkee, M., Moulijn, J. A., “Are Fischer-Tropsch waxes good feedstocks for fluid catalytic cracking units?”, Catal. Today, 106(1-4), 2005, pp. 288-292.
Dutartre, R., Primet, M., Martin, G. A., “Interaction of hydrogen with Fe−MgO catalysts studied by magnetic methods and infrared spectroscopy”, React. Kinet. Catal. Lett., 3(3), 1975, pp. 249-253.
Duvenhage, D. J., Coville, N. J., “Fe:Co/TiO2 bimetallic catalysts for the Fischer–Tropsch reaction Part 3: The effect of Fe:Co ratio, mixing and loading on FT product selectivity”, Appl. Catal. A, 289(2), 2005, pp. 231-239.
Duvenhage, D. J., Coville, N. J., “Deactivation of a precipitated iron Fischer–Tropsch catalyst - A pilot plant study”, Appl. Cata. A, 298, 2006, pp. 211-216.
Duvenhage, D. J., Coville, N. J., “Effect of K, Mn and Cr on the Fischer–Tropsch Activity of Fe:Co/TiO2 Catalysts”, Catal. Lett., 104(3-4), 2005, pp. 129-133.
Dykh, Zh. L., Lafer, L. I., Yakerson, V. I., Rubinshtein, A. M., “Infrared spectra of catalysts and adsorbed molecules Communication 36. Formation of cobalt carbonyl catalysts on various mineral supports”, Russian Chem. Bull., 36(7), 1987, pp. 1359-1362.
Dziallas, H., Michele, V., Hempel, D. C., “Measurement and modeling of local phase holdup and flow structure in three-phase bubble columns”, MFTP 2000 - International Symposium on Multiphase Flow and Transport Phenomena, Antalya, Turkey, 5-10 November 2000.
Echevskii, G. V., Ione, K. G., “Influence of sulfur compounds on the activity and selectivity of paraffin hydrocracking on nickel-zeolite catalysts”, React. Kinet. Catal. Lett., 11(2), 1979, pp. 193-198.
Egazar’yants, S. V., Karakhanov, E. A., Kardashev, S. V., Maksimov, A. L., Minos’yants, S. S., “Carbon Dioxide Hydrogenation on Macromolecular Rhodium and Ruthenium Complexes”, Petrol. Chem., 44(1), 2004, p. 13.
Éidus, Ya. T., “Semicatalytic hydrogenation and dehydrational condensation in the mechanism of the iso synthesis”, Russian Chem. Bull., 2(6), 1953, pp. 913-920.
Éidus, Ya. T., “Synthesis of liquid hydrocarbons from carbon monoxide and hydrogen in the presence of skeletal Co-Ni-Al catalyst at atmospheric pressure”, Russian Chem. Bull., 20(3), 1971, pp. 589-591.
Éidus, Ya. T., Ershov, N. I., “Synthesis of liquid hydrocarbons from carbon monoxide and hydrogen over a mixed cobalt-nickel catalyst”, Russian Chem. Bull., 8(9), 1959, pp. 1581-1582.
Éidus, Ya. T., Guseva, I. V., “Effect of adding ammonia on synthesis of hydrocarbons from carbon monoxide, hydrogen, and ethylene”, Russian Chem. Bull., 24(1), 1975, pp. 153-155.
Éidus, Ya. T., Iem, K. C., Ershov, N. I., “Effect of type of aluminosilicate support for Co catalyst on the initiating effect of carbon monoxide in the hydropolymerization of ethylene”, Russian Chem. Bull., 24(4), 1975, pp. 850-852.
Ekambara, K., Dhotre, M. T., Joshi, J. B., “CFD simulations of bubble column reactors: 1D, 2D and 3D approach”, Chem. Eng. Sci., 60(23), 2005, pp. 6733-6746.
El-Hefnawy, M., Tanaka, R., “Density and Relative Permittivity for 1-Alkanols + Dodecane at 298.15 K”, J. Chem. Eng. Data., 50(5), 2005, pp. 1651-1656.
Elbashir, N. O., Dutta, P., Seehra, M. S., Roberts, C. B., “Stability and Structure of Cobalt Catalyst Systems in Fischer-Tropsch Synthesis: Supercritical Fluid Media Versus Conventional Gas Phase Media”, ACS Div. Fuel Chem. Prepr., 50(2), 2005, p. 598.
Eliseev, N. A., Sterligov, O. D., Isagulyants, G. V., “Thermodynamic parameters of dehydrogenation reactions of normal paraffins with a C10-C15 hydrocarbon composition to olefins”, Russian Chem. Bull., 36(4), 1987, pp. 674-677.
Ellenberger, J., van Baten, J. M., Krishna, R., “Exploiting the Bjerknes force in bubble column reactors”, Chem. Eng. Sci., 60(22), 2005, pp. 5962-5970.
Ellis, C., “Reduction of carbon oxides. I. Methanol Synthesis”, Chapter 53 in “Hydrogenation of Organic Substances – Including Fats and Fuels (3rd Edition)”, Van Nostrand, New York, 1930, pp. 653-673.
Ellis, C., “Reduction of carbon oxides. II. Methane. III. Other high pressure synthesis of hydrocarbons and synthol”, Chapter 54 in “Hydrogenation of Organic Substances – Including Fats and Fuels (3rd Edition)”, Van Nostrand, New York, 1930, pp. 674-691.
Ellis, C., “Reduction of carbon oxides. IV. Synthin. V. Other carbon oxide reductions and related syntheses”, Chapter 55 in “Hydrogenation of Organic Substances – Including Fats and Fuels (3rd Edition)”, Van Nostrand, New York, 1930, pp. 692-707.
Erena, J., Garona, R., Arandes, J. M., Aguayo, A. T., Bilbao, J., “Effect of operating conditions on the synthesis of dimethyl ether over a CuO-ZnO-Al2O3/NaHZSM-5 bifunctional catalyst”, Catal. Today, 107-108, 2005, pp. 467-473.
Erokhina, K. D., Ryashentseva, M. A., Izmailov, R. I., Minachev, Kh. M., “Influence of heat treatment of bimetallic catalysts on the metal surface of platinum, palladium, and rhenium deposited on aluminum oxide”, Russian Chem. Bull., 30(9), 1981, pp. 1600-1604.
Errani, E., Trifiro, F., Vaccari, A., Richter, M., Del Piero, G., “Structure and reactivity of Zn-Cr mixed oxides. Role of non-stoichiometry in the catalytic synthesis of methanol”, Catal. Lett., 3(1), 1989, pp. 65-72.
Escobar-Remolina, J. C. M., “Prediction of characteristics of wax precipitation in synthetic mixtures and fluids of petroleum: A new model”, Fluid Phase Equ., 240(2), 2006, pp. 197-203.
Essadki, A. H., Nikov, I., Delmas, H., “Local shear and skin friction on particles in three-phase fluidized beds”, Chem. Eng. Sci., 60(22), 2005, pp. 6034-6042.
Fadavi, A., Chisti, Y., “Gas–liquid mass transfer in a novel forced circulation loop reactor”, Chem. Eng. J., 112(1-3), 2005, pp. 73-80.
Fan, J. M., Cui, Z., “Effect of Acoustic Standing Wave in a Bubble Column”, Ind. Eng. Chem. Res., 44(17), 2005, pp. 7010-7018.
Fan, L.-S., “Gas-Liquid-Solid Fluidization: Perspectives”, Internat. J. Chem. React. Eng., 2, 2004, P5.
Faria, M. A. F., de Sa, C. F., Lima, G. R., Filho, J. I. B. C., Martins, R. J., de MCardoso, M. J. E., Barcia, O. E., “Measurement of Density and Viscosity of Binary 1-Alkanol Systems (C8-C11) at 101 kPa and Temperatures from (283.15 to 313.15) K”, J. Chem. Eng. Data., 50(6), 2005, pp. 1938-1943.
Farrugia, L. J., Evans, C., “Experimental X-ray Charge Density Studies on the Binary Carbonyls Cr(CO)6, Fe(CO)5, and Ni(CO)4”, J. Phys. Chem., 109(39), 2005, pp. 8834-8848.
Feng, W., Wen, J., Fan, J., Yuan, Q., Jia, X., Sun, Y., “Local hydrodynamics of gas-liquid-nanoparticles three-phase fluidization”, Chem. Eng. Sci., 60(24), 2005, pp. 6887-6898.
Fernandes, F. A. N., “Polymerization Kinetics of Fischer-Tropsch Reaction on Iron Based Catalysts and Product Grade Optimization”, Chem. Eng. Tech., 28(8), 2005, pp. 930-938.
Fernandes, F. A. N., “Modeling and Product Grade Optimization of Fischer-Tropsch Synthesis in a Slurry Reactor”, Ind. Eng. Chem. Res., 45(3), 2006, pp. 1047-1057.
Ferreira, A. F. P., Mittelmeijer, M., Bliek, A., “Time Resolved Multicomponent Sorption of Linear and Branched Alkane Isomers on Zeolites, using NIR Spectroscopy”, Stud. Surf. Sci. Catal., 154(B), 2004, pp. 1971-1977.
Ferreira, A. S., Massarani, G., “Physico-mathematical modeling of crossflow filtration”, Chem. Eng. J., 111(2-3), 2005, pp. 199-204.
Fierro, J. L. G., “Catalysis in C1 chemistry: Future and prospect”, Catal. Lett., 22(1-2), 1993, pp. 67-91.
Fierro, G., Jacono, M. L., Inversi, M., Dragone, R., Porta, P., “TPR and XPS study of cobalt–copper mixed oxide catalysts: evidence of a strong Co–Cu interaction”, Top. Catal., 10(1-2), 2000, pp. 39-48.
Figueiredo, R. T., Ramos, A. L. D., de Andrade, H. M. C., Fierro, J. L. G., “Effect of low steam/carbon ratio on water gas shift reaction”, Catal. Today, 107-108, 2005, pp. 671-675.
Fisher, I. A., Woo, H. C., Bell, A. T., “Effects of zirconia promotion on the activity of Cu/SiO2 for methanol synthesis from CO/H2 and CO2/H2”, Catal. Lett., 44(1-2), 1997, pp. 11-17.
Fohl, W., “Elektronenspektroskopische in-situ-Untersuchungen der katalytischen Hydrierung von adsorbiertem Kohlenstoff auf polykristallinem Nickel”, Dissertation, Hamburg Univ., 1987.
Fournier, C., Ducottet, C., Fournel, T., “Digital holographic particle image velocimetry: 3d velocity field extraction using correlation”, J. Flow Vis. Image Proc., 11(1), 2004, pp.
Fraguío, M. S., Cassanello, M. C., Larachi, F., Chaouki, J., “Flow regime transition pointers in three-phase fluidized beds inferred from a solid tracer trajectory”, Chem. Eng. Proc., 45(5), 2006, pp. 350-358.
Freerks, R., Taylor, J. D., “Starting Diesel Engines at Low Temperature–Impact of Ignition Quality”, ACS Div. Fuel Chem. Prepr., 50(2), 2005, p. 801.
French, S. A., Sokol, A. A., Bromley, S. T., Catlow, C. R. A., Sherwood, P., “Identification and Characterization of Active Sites and Their Catalytic Processes-the Cu/ZnO Methanol Catalyst”, Top. Catal., 24(1-4), 2003, pp. 161-172.
Frerichs, M., Schweiger, F. X., Voigts, F., Rudenkiy, S., Maus-Friedrichs, W., Kempter, V., “Interaction of O2, CO and CO2 with Co films”, Surf. Interface Anal., 37(7), 2005, pp. 633-640.
Froehlich, C., “In-situ FTIR Studien der CO2 Hydrierung an Kupfer/Silber-Zirkondioxid-Katalysatoren”, Dissertation, Eidgenoessische Technische Hochschule Zuerich, 1994.
Frolov, V. M., Zhilyaeva, N. A., Volnina, E. L., Shuikina, L. P., “Carbon Dioxide Methanation in the Presence of Catalysts Based on Ruthenium and Rhodium Complexes with Trioctylamine”, Petrol. Chem., 41(6), 2002, p. 395.
Frøseth, V., Storsæter, S., Borg, O., Blekkan, E. A., Rønning, M., Holmen, A., “Steady state isotopic transient kinetic analysis (SSITKA) of CO hydrogenation on different Co catalysts”, J. Appl. Catal. A, 289(1), 2005, pp. 10-15.
Fu, J., Urquhart, S. G., “Linear Dichroism in the X-ray Absorption Spectra of Linear n-Alkanes”, J. Phys. Chem., 109(51), 2005, pp. 11724-11732.
Fujita, S.-I., Nakamura, M., Takezawa, N., “Methanation of CO in transient states over Ru/SiO2, Ni/SiO2 and Pt/SiO2”, React. Kinet. Catal. Lett., 49(1), 1993, pp. 39-43.
Fujita, S.-I., Ito, H., Takezawa, N., “Remarks on the assignments of temperature programmed desorption peaks for the surface species formed on Cu/ZnO and ZnO in the methanol synthesis from CO”, Catal. Lett., 33(1-2), 1995, pp. 67-74.
Fujita, S.-I., Satriyo, A. M., Shen, G. C., Takezawa, N., “Mechanism of the formation of precursors for the Cu/ZnO methanol synthesis catalysts by a coprecipitation method”, Catal. Lett., 34(1-2), 1995, pp. 85-92.
Fujita, S.-I., Usui, M., Ohara, E., Takezawa, N., “Methanol synthesis from carbon dioxide at atmospheric pressure over Cu/ZnO catalyst. Role of methoxide species formed on ZnO support”, Catal. Lett., 13(4), 1992, pp. 349-358.
Fujitani, T., Nakamura, I., “The effect of ZnO in methanol synthesis catalysts on Cu dispersion and the specific activity”, Catal. Lett., 56(2-3), 1998, pp. 119-124.
Fujitani, T., Nakamura, I., Watanabe, T., Uchijima, T., Nakamura, J., “Methanol synthesis by the hydrogenation of CO2 over Zn-deposited Cu(111) and Cu(110) surfaces”, Catal. Lett., 35(3-4), 1995, pp. 297-302.
Fujitani, T., Saito, M., Kanai, Y., Kakumoto, T., Watanabe, T., Nakamura, J., Uchijima, T., “The role of metal oxides in promoting a copper catalyst for methanol synthesis”, Catal. Lett., 25(2-3), 1994, pp. 271-276.
Gallegos, N. G., Alvarez, A. M., Cagnoli, M. V., Bengoa, J. F., Cano, L. A., Mercader, R. C., Marchetti, S. G., “Fischer-Tropsch synthesis using iron supported on potassic LTL zeolite and modified with Cs”, Catal. Today, 107-108, 2005, pp. 355-361.
Gallegos, N. G., Bengoa, J. F., Cagnoli, M. V., Alvarez, A. M., Mercader, R. C., Marchetti, S. G., “Effect of the Calcination Temperature on the Structural Properties and Catalytic Activity in the Fe/SiO System”, AIP Conf. Proc., 765(1), 2005, pp. 37-42.
Gamwo, I. K., Gidaspow, D., Jung, J., “Optimum Catalyst Size for Slurry Bubble Column Reactors”, Ind. Eng. Chem. Res., 44(16), 2005, pp. 6393-6402.
García-Salas, S., Orozco-Alvarez, C., Porter, R. M., Thalasso, F., “Measurement of local gas holdup in bubble columns via a non-isokinetic withdrawal method”, Chem. Eng. Sci., 60(24), 2005, pp. 6929-6938.
Garin, V. A., Mazaev, V. V., Semenov, A. F., Poplavskii, Yu. V., “Study of turbulent mass transfer columns”, Chem. Petrol. Eng., 8(7), 1972, pp. 630-631.
Gartsman, A. N., Ermakova, A., Rassadnikova, N. I., “Calculation of the mass transfer coefficient with a chemical reaction in a gas-liquid system”, React. Kinet. Catal. Lett., 6(3), 1977, pp. 323-327.
Geerlings, I. J. C., Zonnevylle, M. C., Groot, C. P. M., “The Fischer-Tropsch reaction on a cobalt (0001) single crystal”, Catal. Lett., 5(3), 1990, pp. 309-314.
Gel'man, V. N., Sobolevskii, V. S., Golosman, E. Z., Yakerson, V. I., “Thermal desorption study of catalytic systems. Communication 19. Determination of activation energy for desorption of H2O and CO2 from surface of copper-containing catalysts”, Russian Chem. Bull., 33(6), 2984, pp. 1129-1134.
Gel'man, V. N., Varlamova, A. M., Golosman, E. Z., Shutov, Yu. M., Rozanov, V. V., Danyushevskii, V. Ya., Yakerson, V. I., “Use of the thermal desorption method to study water adsorption on catalyst for low-temperature conversion of carbon monoxide by steam”, Russian Chem. Bull., 26(8), 1977, pp. 1738-1740.
Gel'man, V. N., Varlamova, A. M., Sobolevskii, V. S., Golosman, E. Z., Yakerson, V. I., “Thermal desorption study of catalytic systems. 17. Reaction of carbon monoxide with water on the surface of skeletal copper”, Russian Chem. Bull., 31(5), 1982, pp. 873-876.
Gerges, I., Shoukri, M., Hassan, I., “Local measurements of interfacial area and void fraction for upward bubbly flow in a large diameter pipe”, MFTP 2000 - International Symposium on Multiphase Flow and Transport Phenomena, Antalya, Turkey, 5-10 November 2000.
Gerogiorgis, D. I., Ydstie, B. E., “Multiphysics CFD Modelling for Design and Simulation of a Multiphase Chemical Reactor”, Chem. Eng. Res. Des., 83(6), 2005, pp. 603-610.
Gerasimov, S. F., Filimonov, V. N., “Photoinduced reactions of H2+CO and CH4+CO mixtures on η-Al2O3 and V/η-Al2O3”, React. Kinet. Catal. Lett., 29(2), 1985, pp. 387-393.
Ghorai, D. K., Sanyal, R. M., Sen, B., Ghosh, S. K., Banerji, K. C., Shpiro, E. S., Minachev, Kh. M., “Studies on the SMSI of Rh/ZnO by XPS and XAES and its effect on CO-H2 reaction”, React. Kinet. Catal. Lett., 40(2), 1989, pp. 259-267.
Ghorai, S., Nigam, K. D. P., “CFD modeling of flow profiles and interfacial phenomena in two-phase flow in pipes”, Chem. Eng. Proc., 45(1), 2006, pp 55-65.
Giamello, E., Fubini, B., “Characterization of the interaction of CO and H2 at the ZnO surface by adsorption microcalorimetry”, React. Kinet. Catal. Lett., 16(4), 1981, pp. 355-358.
Giehring, H., “Der Einfluss des Kaliumkarbonats als struktureller und energetischer Promotor in Eisenkatalysatoren auf die Produktverteilung der Fischer-Tropsch-Synthese”, Dissertation, Technische Universitaet Berlin, 1961.
Girardon, J.-S., Constant-Griboval, A., Gengembre, L., Chernavskii, P. A., Khodakov, A. Y., “Optimization of the pretreatment procedure in the design of cobalt silica supported Fischer-Tropsch catalysts”, Catal. Today, 106(1-4), 2005, pp. 161-165.
Girardon, J.-S., Khodakov, A. Y., Capron, M., Cristol, S., Dujardin, C., Dhainaut, F., Nikitenko, S., Meneau, F., Bras, W., Payen, E., “A new experimental cell for in situ and operando X-ray absorption measurements in heterogeneous catalysis”, J. Synchr. Rad., 12, 2005, pp. 680-684.
Glebov, L. S., Kliger, G. A., “The molecular weight distribution of the products of the Fischer-Tropsch synthesis”, Russian Chem. Rev., .63(2), 1994, pp. 185-195.
Gloor, A. P., “Untersuchungen ueber den Einfluss von Chlor in der CO-Hydrierung ueber Rh/SiO2- und Pd/SiO2-Katalysatoren”, Dissertation, Eidgenoessische Technische Hochschule Zuerich, 1993.
Goerts, P. C., “Oxidation and reduction reactions on cobalt single crystals”, Disseration, Universiteit Utrecht, 1995.
Goguet, A., Shekhtman, S. O., Burch, R., Hardacre, C., Meunier, F. C., Yablonsky, G. S., “Pulse-response TAP studies of the reverse water–gas shift reaction over a Pt/CeO2 catalyst”, J. Catal., 237(1), 2006, pp. 102-110.
Golodets, G. I., Chashechnikova, I. T., Svintsova, L. G., Vorotyntsev, V. M., Borovik, V. V., “Influence of crystal modification of TiO2 on catalytic properties of Ni−TiO2 contacts for Fischer-Tropsch synthesis”, React. Kinet. Catal. Lett., 34(2), 1987, pp. 267-272.
Golodets, G. I., Pavlenko, N. V., Tripolskii, A. I., “Determination of CO adsorption heats from kinetic data for CO hydrogenation over metals”, React. Kinet. Catal. Lett., 34(2), 1987, pp. 373-376.
Golodets, G. I., Pavlenko, N. V., Tripolskii, A. I., “Kinetics of CO hydrogenation on group VIII metals”, React. Kinet. Catal. Lett., 32(2), 1986, pp. 481-485.
Golovnya, R. V., Grigor'eva, D. N., “Change in the differential molar free energy of sorption of a methylene group as a function of the length of the chain of an n-alkane under the conditions of GC analysis”, Russian Chem. Bull., 32(5), 1983, pp. 898-903.
Golovnya, R. V., Grigor'eva, D. N., “Calculation of specific retention volumes of substances from their retention indices and the specific retention volumes of n-alkanes”, Russian Chem. Bull., 32(6), 1983, pp. 1124-1127.
Gonzalez, S., Illas, F., “CO adsorption on monometallic Pd, Rh, Cu and bimetallic PdCu and RhCu monolayers supported on Ru(0001)”, Surf. Sci., 598(1-3), 2005, pp. 144-155.
Görke, O., Pfeifer, P., Schubert, K., “Highly selective methanation by the use of a microchannel reactor”, Catal. Today, 110(1-2), 2005, pp. 132-139.
Gotti, A., Prins, R., “Effect of metal oxide additives on the CO hydrogenation to methanol over Rh/SiO2 and Pd/SiO2”, Catal. Lett., 37(3-4), 1996, pp. 143-151.
Gourich, B., Vial, C., Essadki, A. H., Allam, F., Soulami, M. B., Ziyad, M., “Identification of flow regimes and transition points in a bubble column through analysis of differential pressure signal - Influence of the coalescence behavior of the liquid phase”, Chem. Eng. Proc., 45(3), 2006, pp. 214-223.
Gran-Heedfeld, J., Deerberg, G., Hennig, T., Weidner, E., “Mikrofluidisches Mischen als Bestandteil mikroreaktionstechnischer Modellierung”, Chem.-Ing.-Tech., 77(10), 2005, pp. 1501-1511.
Grieken, R., Peña, J. L., Lucas, A., Calleja, G., Rojas, M. L., Fierro, J. L. G., “Selective production of methanol from syngas over LaTi(1−x)CuxO3 mixed oxides”, Catal. Lett., 8(5-6), 1991, pp. 335-344.
Griffith, P., “Experimental data set no. 2: characteristics of bubbly flow”, Multiphase Sci. Tech., 3, 1987, pp. 155-162.
Grigor'ev, V. V., Gel'man, V. N., Sobolevskii, V. S., Kreindel', A. I., Golosman, E. Z., Salomatin, G. I., Dantsig, G. A., Abdullaev, T. R., Lafer, L. I., Yakerson, V. I., “Study of reaction mechanism for conversion of carbon monoxide and steam on copper catalysts employing mass spectrometry and IR spectroscopy”, Russian Chem. Bull., 27(5), 1978, pp. 1015-1017.
Grinev, V. E., Krylov, O. V., “Kinetic studies of hydrogen and carbon monoxide adsorption on Re2O7/Al2O3 catalysts”, React. Kinet. Catal. Lett., 25(3-4), 1984, pp. 251-254.
Groenen, F. G. D. M., “De Fischer-Tropsch synthese in een bellenkolom : bouw van de opstelling en resultaten van de eerste (test) run”, Dissertation, TU Eindhoven, 1986.
Grunwaldt, J.-D., Clausen, B. S., “Combining XRD and EXAFS with on-Line Catalytic Studies for in situ Characterization of Catalysts”, Top. Catal., 18(1-2), 2002, pp. 37-43.
Gu, L.-L., Shi, Y.-F., Yu, H.-R., “Correlation Dimension of Pressure Fluctuation in Gas-Liquid-Solid Three Phase Co-current up-Flow System”, J. Kunming Univ. Sci. Tech., 27(5), 2002, paper 02531.
Guan, N., “Katalysatorentwicklung für die FT-Synthese und die direkte Herstellung von Aromaten aus Synthesegas”, Dissertation, Bochum Univ., 1991.
Guerrero-Ruiz, A., López-González, J. D., Rodríguez-Ramos, I., Rodríguez-Reinoso, F., “Hydrogenation of CO2 on Fe/carbon catalysts”, React. Kinet. Catal. Lett., 31(2), 1986, pp. 349-354.
Guerrero-Ruiz, A., Rodríguez-Ramos, I., “An attempt to correlate selectivity in CO hydrogenation and morphology of iron catalysts”, Catal. Lett., 2(5), 1989, pp. 273-278.
Guerrero-Ruiz, A., Rodríguez-Ramos, I., “Hydrogenation of CO2 on carbon-supported nickel and cobalt”, React. Kinet. Catal. Lett., 29(1), 1985, pp. 93-99.
Guo, X., Song, Z., Zhang, L., Xiang, N., Zhai, R., “Kinetic study of gas-surface molecular exchange between CO/CO on metals”, Catal. Lett., 12(1-3), 1992, pp. 7-15.
Gupta, N. M., Kamble, V. S., Iyer, R. M., Thampi, K. R., Gratzel, M., “FTIR studies on the CO, CO2 and H2 co-adsorption over Ru-RuOx/TiO2 catalyst”, Catal. Lett., 21(3-4), 1993, pp. 245-255.
Gur'yanova, O. S., Serov, Yu. M., Lapidus, A. L., Dmitriev, R. V., Gul'yanova, S. G., Gryaznov, V. M., Minachev, Kh. M., “Absorption and disproportionation of CO on palladium alloys”, Russian Chem. Bull., 36(11), 1987, pp. 2252-2254.
Guttel, R., Kunz, U., Turek, T., Bauer, T., Lange, R., “Theoretische Untersuchungen zum Einsatz von Monolithreaktoren in der Fischer-Tropsch-Synthese”, Chem.-Ing.-Tech., 77(8), 2005, p. 1175.
Ha, Z., Ring, Z., Liu, S., “Derivation of Molecular Representations of Middle Distillates”, Energy & Fules, 19(5), 2005, pp. 2378-2393.
Haan, J. G. J., “De Fischer-Tropsch-synthese aan ijzerkatalysatoren”, Dissertation, Technische Hogeschool Eindhoven, 1978.
Habermehl-Ćwirzeń, K., Lahtinen, J., Hautojärvi, P., “Methanol on Co(0001): XPS, TDS, WF and LEED results”, Surf. Sci., 598(1-3), 2005, pp. 128-135.
Hadden, R. A., Sakakini, B., Tabatabaei, J., Waugh, K. C., “Adsorption and reaction induced morphological changes of the copper surface of a methanol synthesis catalyst”, Catal. Lett., 44(3-4), 1997, pp. 145-151.
Hadzhieva, F. S., Anufrienko, V. F., Yurieva, T. M., Vorobiev, V. N., Minyukova, T. P., “Electron spectroscopic studies of copper in catalysts for methanol synthesis”, React. Kinet. Catal. Lett., 30(1), 1986, pp. 85-92.
Hagey, L., de Lasa, H. I., “Conversion of Synthesis Gas into Light Hydrocarbons. Modelling of the Catalytic Reaction Network”, Internat. J. Chem. React. Eng., 2, 2004, A9.
Halachev, T., Matveev, V., Idakiev, V., Maksimov, Yu., Andreev, A., “Cobalt promoted iron based catalysts for water-gas shift reaction. Structure and catalytic activity”, React. Kinet. Catal. Lett., 32(2), 1986, pp. 257-262.
Hall, K. R., “A new gas to liquids (GTL) or gas to ethylene (GTE) technology”, Catal. Today, 106(1-4), 2005, pp. 243-246.
Hao, Q., Bai, L., Li, Y., Li, X., Xiang, H., Li, Y., “Effect of Reaction Parameters on Catalytic Performance of Fe/Cu/K/SiO2 for Slurry Phase Fischer-Tropsch Synthesis”, Chinese J. Catal., 26(9), 2005, pp. 791-796.
Hao, Q., Wang, H., Liu, F., Bai, L., Zhang, Z., Xiang, H., Li, Y., “Effect of Calcination Temperature on Catalytic Performance of Iron-Based Catalyst for Slurry Fischer-Tropsch Synthesis Reaction”, Chinese J. Catal., 26(4), 2005, pp. 340-348.
Hao, Q.-L., Bai, L., Hao, X., Xiang, H.-W., Li, Y.-W., Yi, F., Xu, B.-F., “Effect of reduction temperature and duration on iron-based catalyst for slurry phase Fischer-Tropsch synthesis”, J. Fuel Chem. Tech., 33(5), 2005, pp. 590-596.
Hardy, J. E., Hylton, J. O., “Electrical impedance string probes for two-phase void and velocity measurements”, Internat. J. Multiphase Flow, 10(5), 1984, pp. 541-556.
Harrison, M. J., Woodruff, D. P., Robinson, J., “Density functional theory investigation of CN on Cu(111), Ni(111) and Ni(100)”, Surf. Sci., 600(2), 2006, pp. 340-347.
Hasanen, A., Orivuori, P., Aittamaa, J., “Measurements of local bubble size distributions from various flexible membrane diffusers”, Chem. Eng. Proc., 45(4), 2006, pp. 291-302.
Hassan, Y. A., Ortiz-Villafuerte, J., Todd, D. R., “Velocity measurements in bubbly flows with particle tracking velocimetry”, J. Flow Vis. Image Proc., 8(2-3), 2001, pp.
Haut, B., Cartage, T., “Mathematical modeling of gas-liquid mass transfer rate in bubble columns operated in the heterogeneous regime”, Chem. Eng. Sci., 60(22), 2005, pp. 5937-5944.
Hayek, K., Jenewein, B., Klötzer, B., Reichl, W., “Surface reactions on inverse model catalysts: CO adsorption and CO hydrogenation on vanadia- and ceria-modified surfaces of rhodium and palladium”, Top. Catal., 14(1-4), 2000, pp. 25-33.
Hazejager, J. A., “Fischer Tropsch synthese over FeCux katalysatoren: invloed van koper op de katalysator eigenschappen”, Dissertation, Technische Universiteit Eindhoven, 1988.
He, H., Tanaka, K.-I., “Oxygen induced direct hydrogenation of CO on Ni(100) surface”, Catal. Lett., 25(1-2), 1994, pp. 105-113.
Henriquez, L. R., “The Fischer-Tropsch synthesis on iron catalyst in vacuum”, Technische Hogeschool Eindhoven, 1980.
Herzog, K., “Kinetische und reaktionstechnische Untersuchungen zur Fischer-Tropsch-Synthese an alkalisierten und nicht alkalisierten Eisenfaellungskatalysatoren”, Dissertation, Technische Hochschule Darmstadt, 1985.
Hewitt, G. F., “Multiphase flow: views of the future”, Multiphase Sci. Tech., 11(1), 1999, pp. 59-77.
Hewitt, G. F., Bouré, J. A., “Some recent results and development in gas-liquid flow: a review”, Internat. J. Multiphase Flow, 1(1), 1973, pp. 139-171.
Hightower, J. W., Emmett, P. H., “Tracer studies with C14. The formation and behavior of aromatics during the cracking o n-hexadecane over a silica-alumina catalyst”, in “Proceedings of the Third International Congress on Catalysis” (W. M. H. Sachtler, G. C. A. Schuit, P. Zwietering, eds.), North-Holland, Amsterdam, 1965, Volume 1, pp. 688-697.
Hilmen, A. M., Bergene, E., Lindvag, O. A., Schanke, D., Eri, S., Holmen, A., “Fischer-Tropsch synthesis on monolithic catalysts with oil circulation”, Catal. Today, 105(3-4), 2005, pp. 357-361.
Hindermann, J. P., Razzaghi, A., Breault, R., Kieffer, R., Kiennemann, A., “Orientation towards alcohols in CO, H2 reactions on some iron catalysts”, React. Kinet. Catal. Lett., 26(3-4), 1984, pp. 221-226.
Hippe, C., Lamber, R., Schulz-Ekloff, G., Schubert, U., “Influence of the strong metal-support interaction on the CO chemisorption at a Pt/SiO2 catalyst”, Catal. Lett., 43(3-4), 1997, pp. 195-199.
Hiscock, J., Ching, C. Y., “Gas bubble size and velocity measurements using high-speed images of gas-liquid flows”, J. Flow Vis. Image Proc., 8(4), 2001, pp.
Hoek, A., “The Shell GTL Process: Towards a World Scale Project in Qatar”, Chem.-Ing.-Tech., 77(8), 2005, p. 1172.
Hoflund, G. B., Gilbert, R. E., Melendez, O., “Study of CO chemisorption on polycrystalline Pt”, React. Kinet. Catal. Lett., 52(2), 1994, pp. 357-365.
Højlund-Nielsen, P. E., Pedersen, K., Rostrup-Nielsen, J. R., “Hydrocarbon synthesis over sulfide catalysts. Break-down of the Anderson-Schulz-Flory distribution”, Top. Catal., 2(1-4), 1995, pp. 207-221.
Hovingh, C., “Fischer-Tropsch synthese in een geroerde slurry reaktor: selektieve bereiding van kleine olefinen met een ijzerkatalysator”, Dissertation, Technische Hogeschool Eindhoven, 1984.
Hsu, C.-H., Chen, P.-C., Kung, K.-Y., Lai, C., “Impacts of ratio of asymptotic bubble width to diameter of circular tube and Reynolds number in a gas bubble driven flow”, Chem. Eng. Sci., 60(19), 2005, pp. 5341-5355.
Huang, W., Li, D., Kang, X., Shi, Y., Nie, H., “Hydroisomerization of n-Hexadecane on Zeolite Catalysts”, Stud. Surf. Sci. Catal., 154(C), 2004, pp. 2353-2358.
Huang, Y.-C., Li, Y.-W., Ren, J., Zhou, L.-B., “Combustion and emission characteristics of a direct injection diesel engine operating on Fischer-Tropsch diesel fuel”, J. Fuel. Chem. Tech., 33(4), 2005, pp. 492-496.
Hubers, J. L., Striegel, A. C., Heindel, T. J., Gray, J. N., Jensen, T. C., “X-ray computed tomography in large bubble columns”, Chem. Eng. Sci., 60(22), 2005, pp. 6124-6133.
Hums, E., Krauss, H.-L., “Oberflächenverbindungen von Übergangsmetallen. XXX. Fischer-Tropsch-analoge Umsetzung von CO/H2 bzw. CO2/H2 an Oberflächen-Chrom(II)”, Z. Anorg. Allge. Chem., 537(6), 1986, pp. 154-162.
Hunt, J. C. R., Auton, T. R., Sene, K., Thomas, N. H., Kowe, R., “Bubble motions in large eddies and turbulent flows”, in “Transient Phenomena in Multiphase Flow” (N. H. Afgan, ed.), Hemisphere Publishing, New York, 1988, pp. 103-125.
Hussein, E. M. A., Meneley, D. A., Banerjee, S., “Single-exposure neutron tomography of two-phase flow”, Internat. J. Multiphase Flow, 12(1), 1986, pp. 1-34.
Hutchings, G. J., Copperthwaite, R. G., van der Riet, M., “Low methane selectivity using Co/MnO catalysts for the Fischer-Tropsch reaction: Effect of increasing pressure and Co-feeding ethene”, Top. Catal., 2(1-4), 1995, pp. 163-172.
Hüttig, G. F., Kassler, R., “Beiträge zur Kenntnis der Oxydhydrate. XXII. Über die katalytische Wirksamkeit des aus verschiedenen Kobaltoxydhydraten hergestellten metallischen Kobalts”, Z. Anorg. Allge. Chem., 187(1), 1930, pp. 24-28.
Hwang, J.-S., Chang, J.-S., Park, S.-E., Ikeue, K., Anpo, M., “Photoreduction of Carbon Dioxide on Surface Functionalized Nanoporous Catalysts”, Top. Catal., 35(3-4), 2005, pp. 311-319.
Iem, K. C., Khlebnikova, T. V., Lapidus, A. L., “Effect of the addition of acetylene on the synthesis of hydrocarbons from CO and H2 in the presence of cobalt catalysts”, Russian Chem. Bull., 33(2), 1984, pp. 329-333.
Iida, H., Igarashi, A., “Characterization of a Pt/TiO2 (rutile) catalyst for water gas shift reaction at low-temperature”, Appl. Catal. A, 298, 2006, pp. 152-160.
Ilinich, G. N., Startseva, L. Ya., Semikolenov, V. A., Likholobov, V. A., Yermakov, Yu. I., “Influence of alkaline and acidic promoters on the catalytic properties of metallic palladium and rhodium in CO hydrogenation”, React. Kinet. Catal. Lett., 31(1), 1986, pp. 55-60.
Imamura, H., Kasuga, Y., Abe, K., Sakata, Y., Tsuchiya, S., “Lanthanide metal overlayers by deposition of lanthanide metals dissolved in liquid ammonia on Co and Ni. Effects of particle sizes of parent Co and Ni metals”, Catal. Lett., 32(1-2), 1995, pp. 115-122.
Isaeva, L. S., Drogunova, G. I., “Reaction of hydride complexes of nickel with carbon monoxide”, Russian Chem. Bull., 30(8), 1981, pp. 1584-1585.
Isagulyants, G. V., Bursian, N. R., Greish, A. A., Kogan, S. B., Kovalenko, L. I., Moroz, A. M., Smirnov, A. N., Gorodetskaya, I. V., “Effect of added base on the conversion of paraffin hydrocarbons on aluminum-platinum catalysts”, Russian Chem. Bull., 29(11), 1980, pp. 1722-1726.
Isagulyants, G. V., Sterligov, O. D., Barkova, A. P., Babashova, T. V., “Effect of the conditions of n-decane dehydrogenation on deactivation of the alumina-platinum catalyst”, Russian Chem. Bull., 30(5), 1981, pp. 745-749.
Isagulyants, G. V., Sterligov, O. D., Barkova, A. P., Babashova, T. V., “Dehydrogenation of n-decane on deposited techetium catalysts”, Russian Chem. Bull., 33(2), 1984, pp. 429-431.
Isagulyants, G. V., Sterligov, O. D., Barkova, A. P., Maslova, L. K., Shubochkina, E. F., “Effect of nature of platinum compounds on physicochemical and catalytic properties of aluminum-platinum catalysts for the dehydrogenation of higher paraffin hydrocarbons”, Russian Chem. Bull., 31(2), 1982, pp. 392-394.
Isagulyants, G. V., Sterligov, O. D., Barkova, A. P., Yakovlev, I. P., Panfilova, M. A., Maslova, L. K., Eliseev, N. A., “Composition of olefins formed in the dehydrogenation of n-decane over aluminum-platinum catalysts”, Russian Chem. Bull., 33(9), 1984, pp. 1869-1873.
Ishii, M., “Two-fluid model for two-phase flow”, Multiphase Sci. Tech., 5, 1990, pp. 1-63.
Ishioka, M., Okada, T., Matsubara, K., Endo, M., “Formation of vapor-grown carbon fibers in CO-CO2-H2 mixtures, II. Influence of catalyst”, Carbon, 30(6), 1992, pp. 865-868.
Itina, G. V., Davydov, A. A., Osipova, M. A., Kurina, L. N., “Promoting effect of potassium on catalytic and surface properties and phase commposition of catalysts for synthesis of alcohols”, React. Kinet. Catal. Lett., 45(2), 1991, pp. 243-249.
Ito, S.-I., Ishiguro, S., Nagashima, K., Kunimori, K., “CO hydrogenation over a RhVO4/SiO2 catalyst after H2 reduction”, Catal. Lett., 55(3-4), 1998, pp. 197-199.
Ivankovskii, V. E., Timofeeva, E. A., “Selectivity of chromium-aluminum catalysts in dehydrogenation of n-undecane”, Russian Chem. Bull., 25(4), 1976, pp. 803-805.
Ivanov, V. P., Trukhan, S. N., “Ion-induced CO adsorption on polycrystalline nickel. Secondary ion mass spectrometry study”, React. Kinet. Catal. Lett., 55(1), 1995, pp. 111-120.
Jackson, S. D., “Fractal analysis of CO hydrogenation over rhodium catalysts”, React. Kinet. Catal. Lett., 39(2), 1989, pp. 223-226.
Jackson, S. D., “The lability of carbon monoxide adsorbed on rhodium”, React. Kinet. Catal. Lett., 34(2), 1987, pp. 239-242.
Jakobsen, H. A., Bourg, I., Hjarbo, K. W., Svendsen, H. F., “Multiphase and Reacting Flows - Interaction Between Reaction Kinetics and Flow Structure in Bubble Column Reactors”, in “Parallel Computational Fluid Dynamics: Trends and Applications: Proceedings of the Parallel CFD 2000 Conference, Trondheim, Norway (May 22-25, 2000)”, North Holland, 2001, pp. 543-551.
Jakobsen, H. A., Lindborg, H., Dorao, C. A., “Modeling of Bubble Column Reactors: Progress and Limitations”, Ind. Eng. Chem. Res., 44(14), 2005, pp. 5107-5151.
Janssen, J. W. F., “Bereiding en karakterisering van monometallische ruthenium- en bimetallische ruthenium-iridium katalysatoren gedragen op alumina, toegepast in de Fischer-Tropsch synthese”, Dissertation, Technische Hogeschool Eindhoven, 1985.
Jenner, G., Kiennemann, A., Bagherzadah, E., Deluzarche, A., “Liquid phase CO+H2 reactions in presence of ruthenium catalysts”, React. Kinet. Catal. Lett., 15(1), 1980, pp. 103-112.
Jeon, J.-K., Ihm, S.-K., “Effect of metal dispersion on CO hydrogenation over Pd/HZSM-5 catalysts”, Catal. Lett., 31(4), 1995, pp. 341-350.
Ji, Y., Xiang, H., Li, Y., Xu, Y., Zhong, B., “Lumped mechanism kinetics of Fischer-Tropsch synthesis over ultrafine particle Fe-Mn commercial catalyst (I) Reaction mechanism and kinetic model description”, J. Chem. Ind. Eng., 56(6), 2005, pp. 1020-1025.
Ji, Y., Xiang, H., Li, Y., Xu, Y., Zhong, B., “Lumped mechanism kinetics of Fischer-Tropsch synthesis over ultrafine particle Fe-Mn commercial catalyst (II) Evaluation of parameter and discrimination of model”, J. Chem. Ind. Eng., 56(6), 2005, pp. 1026-1030
Jia, G., Tan, Y., Han, Y., “A Comparative Study on the Thermodynamics of Dimethyl Ether Synthesis from CO Hydrogenation and CO2 Hydrogenation”, Ind. Eng. Chem. Res., 45(3), 2006, pp. 1152-1159.
Jiang, Y., Guo, J., Al-Dahhan, M. H., “Multiphase Flow Packed-Bed Reactor Modeling: Combining CFD and Cell Network Model”, Ind. Eng. Chem. Res., 44(14), 2005, pp. 4940-4948.
Jianping, W., Qing, Y., Lei, P., Guozhu, M., “Treatment of the refinery wastewater in a gas-liquid-solid three-phase flow airlift loop bioreactor”, J. Chem. Tech. Biotech., 80(7), 2005, pp. 767-771.
Jianping, W., Xiaoqiang, J., Xianrui, C., Peng, Y., “Flow Behavior in the Three-Phase Internal-Loop Airlift Reactor with Large Gas Recirculation through the Downcomer”, Chem. Biochem. Eng. Q., 19(2), 2005, pp. 133-140.
Jin, H., Yang, S., Guo, Z., He, G., Tong, Z., “The axial distribution of holdups in an industrial-scale bubble column with evaluated pressure using gamma-ray attenuation approach”, Chem. Eng. J., 115(1-2), 2005, pp. 45-50.
Johannsen, L. T., “Die quantitative Analyse von Fischer-Tropsch-Katalysatoren durch Röntgenstrahlbeugung”, Anal. Bioanal. Chem., 177(6), 1960, pp. 439-439.
John, S., Schlüter, M., Scheid, S., Parchmann, H., Räbiger, N., “Eine Methode zur Berechnung der Relativgeschwindigkeit von Gasblasen in Dreiphasenströmungen - Teil 1: Blasenbewegung unter Feststoffeinfluss”, Chem.-Ing.-Tech., 77(12), 2005, pp. 1885-1891.
John, S., Schlüter, M., Scheid, S., Parchmann, H., Räbiger, N., “Eine Methode zur Berechnung der Relativgeschwindigkeit von Gasblasen in Dreiphasenströmungen - Teil 2: Praxisrelevante Gasgehalte”, Chem.-Ing.-Tech., 78(1-2), 2006, pp. 64-72.
Jones, A. V., Prosperetti, A., “On the suitability of first-order differential models for two-phase flow prediction”, Internat. J. Multiphase Flow, 11(2), 1985, pp. 133-148.
Jongsomjit, B., Sakdamnuson, C., Praserthdam, P., “Dependence of crystalline phases in titania on catalytic properties during CO hydrogenation of Co/TiO2 catalysts”, Materials Chem. Phys., 89(2-3), 2005, pp. 395-401.
Jongsomjit, B., Wongsalee, T., Praserthdam, P., “Study of cobalt dispersion on titania consisting various rutile:anatase ratios”, Materials Chem. Phys., 92(2-3), 2005, pp. 572-577.
Jongsomjit, B., Wongsalee, T., Praserthdam, P., “Characteristics and catalytic properties of Co/TiO2 for various rutile:anatase ratios”, Catal. Comm., 6(11), 2005, pp. 705-710.
Joseph, S., Shah, Y. T., “A two-bubble class model for churn-turbulent bubble column slurry reactor”, in “Chemical and Catalytic Reactor Modeling” (M. P. Dudukovic, P. L. Mills, eds.), ACS Symp. Ser., 237, 1984, pp. 149-167.
Joyner, R. W., “The mechanism of chain growth in the Fischer-Tropsch hydrocarbon synthesis”, Catal. Lett., 1(10), 1988, pp. 307-310.
Jóźwiak, W. K., “Influence of reoxidation temperature on TPR of zirconia supported rhodium”, React. Kinet. Catal. Lett., 30(2), 1986, pp. 345-351.
Jóźwiak, W. K., “Temperature programmed desorption of hydrogen from 5% Rh/ZrO2 catalyst”, React. Kinet. Catal. Lett., 30(2), 1986, pp. 353-360.
Juan, A., Damiani, D. E., Castellani, N. J., “Theoretical studies of CO adsorption and dissociation on Ru in presence of Cl or MoOx”, Catal. Lett., 19(1), 1993, pp. 43-53.
Kadelka, J., “Zur Reaktion von Metall- -Kohlenstoff-Bindungen mit CO, H2 bzw. CO/H2”, Dissertation, Techn. Hochsch. Aachen, 1980.
Kagan, Yu. B., Bashkirov, A. N., Kliger, G. A., Ermakov, Yu. I., “Conversion of n-butylamine in the course of synthesis from carbon monoxide and hydrogen”, Russian Chem. Bull., 8(7), 1959, pp. 1299-1300.
Kagan, Yu. B., Bashkirov, A. N., Kriukov, Iu. B., Loktev, S. M., Orlova, N. A., “Concerning the mechanism of catalytic action of fused iron catalysts in syntheses from CO and H2”, Russin Chem. Bull., 7(10), 1958, pp. 1231-1233.
Kagan, Yu. B., Kruzkov, Yu. B., Kamzelkin, E. V., Bashkirov, A. N., “Role of oxygen-containing compounds in the synthesis of hydrocarbons from carbon monoxide and hydrogen”, Russian Chem. Bull., 1(4), 1952, pp. 601-606.
Kagan, Yu. B., Rumyantsev, V. Yu., Slivinskii, E. V., Loktev, S. M., “Initiated syntheses of bifunctional oxygen-containing organic compounds from co and H2”, Russian Chem. Bull., 35(9), 1986, pp. 1953-1955.
Kaland, L. A., “Fischer-Tropsch synthese in een geroerde slurry reactor”, Dissertation, Technische Hogeschool Eindhoven, 1985.
Kanai, T., Kawase, Y., “Simulation of Bubble Colunn Type Reactors: Approach and Application”, Chem. Eng. (Japan), 41, 1996, pp. 385-389.
Kanai, Y., Watanabe, T., Fujitani, T., Saito, M., Nakamura, J., Uchijima, T., “Evidence for the migration of ZnOx in a Cu/ZnO methanol synthesis catalyst”, Catal. Lett., 27(1-2), 1994, pp. 67-78.
Kanai, Y., Watanabe, T., Fujitani, T., Uchijima, T., Nakamura, J., “The synergy between Cu and ZnO in methanol synthesis catalysts”, Catal. Lett., 38(3-4), 1996, pp. 157-163.
Kanoun, N., Astier, M. P., Pajonk, G. M., “Catalytic properties of new Cu based catalysts containing Zr and/or V for methanol synthesis from a carbon dioxide and hydrogen mixture”, catal. Lett., 15(3), 1992, pp. 231-235.
Kantcheva, M., Sayan, S., “On the mechanism of CO adsorption on a silica supported ruthenium catalyst”, Catal. Lett., 60(1-2), 1999, pp. 27-38.
Kapteijn, F., de Deugd, R. M., Moulijn, J. A., “Fischer-Tropsch synthesis using monolithic catalysts”, Catal Today, 105(3-4), 2005, pp. 350-356.
Karakhanov, E. A., Egazar’yants, S. V., Kardashev, S. V., Maksimov, A. L., Minos’yants, S. S., Sedykh, A. D., “Catalytic Hydrogenation of Carbon Dioxide to Formic Acid in Aqueous Solutions of Polyethylene Oxide”, Petrol. Chem., 41(4), 2001, p. 268.
Kasat, G. R., Pandit, A. B., “Review on Mixing Characteristics in Solid-Liquid and Solid-Liquid-Gas Reactor Vessels”, Canadian J. Chem. Eng., 83(4), 2005, pp. 618-643.
Kawamura, T., Kodama, Y., “Numerical simulation method to resolve interactions between bubbles and turbulence”, Internat. J. Heat and Fluid Flow, 23(5), 2002, pp. 627-638.
Kawase, Y., “Bubble Column: Slurry Bubble Column”, Kagaku Kogaku, 62, 1998, pp. 509-510.
Kawase, Y., Shimizu, K., “More Rational Design of Bubble Columns”, Kagaku Kogaku, 62, 1998, pp. 182-185.
Keim, W., Falter, W., “Isobutanol from synthesis gas”, Catal. Lett., 3(1), 1989, pp. 59-63.
Kemp, N. T., Singh, N. K., “Evidence of carbon–carbon bond formation on GaAs(100) via Fischer-Tropsch methylene insertion reaction mechanism”, Chem. Comm., 2005(34), pp, 4348-4350.
Kemperman, E. A. W., “Kinetiek van de Fischer-Tropsch reactie bij lage druk : een onderzoek naar de aktivering van een Fischer-Tropsch katalysator door de reactie bij lage druk (P=1-1000 Pa) uit te voeren”, Dissertation, Technische Hogeschool Eindhoven, 1983.
Keogh, R. A., Davis, B. H., “Hydroconversion of n-hexadecane with Pt-promoted monoclinic and/or tetragonal sulfated zirconia catalysts”, Catal. Lett., 57(1-2), 1999, pp. 33-35.
Khamadieva, R., Böhm, U., “Mass transfer to the wall of a packed and unpacked bubble column operating with Newtonian and non-Newtonian liquids”, Chem. Eng. J., 116(2), 2006, pp. 105-113.
Khassin, A. A., Sipatrov, A. G., Chermashetseva, G. K., Yurieva, T. M., Parmon, V. N., “Fischer–Tropsch synthesis using plug-through contactor membranes based on permeable composite monoliths. Selectivity control by porous structure parameters and membrane geometry”, Top. Catal., 32(1-2), 2005, pp. 39-46.
Khassin, A. A., Sipatrov, A. G., Yurieva, T. M., Chermashentseva, G. K., Rudina, N. A., Parmon, V. N., “Performance of a catalytic membrane reactor for the Fischer-Tropsch synthesis”, Catal. Today, 105(3-4), 2005, pp. 362-366.
Khlebnikova, T. V., Krylova, A. Yu., Sominskii, S. D., Lapidus, A. L., “Synthesis of hydrocarbons from CO and H2 using Co-mixed-oxide catalysts”, Russian Chem. Bull., 37(11), 1988, pp. 2227-2230.
Khoang, C. I., Krylova, A. Yu., Salekhuddin, S. M., Lapidus, A. L., “Influence of spinel formation on Fischer-Tropsch synthesis in the presence of Co/Al2O3 catalysts”, Russian Chem. Bull., 33(6), 1984, pp. 1143-1148.
Khoang, C. I., Krylova, A. Yu., Salekhuddin, S. M., Lapidus, A. L., “Properties of Co-Al2O3 catalysts in the synthesis of hydrocarbons from CO and H2”, Russian Chem. Bull., 32(9), 1983, pp. 1829-1831.
Khodakov, A. Y., Peregryn, B., Lermontov, A. S., Girardon, J.-S., Pietrzyk, S., “Transient studies of the elementary steps of Fischer-Tropsch synthesis”, Catal. Today, 106(1-4), 2005, pp. 132-136.
Khodakov, Yu. S., Kotyaev, K. P., Makarov, P. A., Vytnova, L. A., Lin, G. I., Rozovskii, A. Ya., Minachev, Kh. M., “Thermal desorption study of surface properties of SNM-1 methanol synthesis catalyst”, Russian Chem. Bull., 33(2), 1984, pp. 255-259.
Khomenko, T. I., Kadushin, A. A., Khandozhko, V. N., “Catalytic properties of applied polynuclear cobalt complexes in the reaction of hydrogenation of CO”, Russian Chem. Bull., 37(1), 1988, pp. 20-23.
Khomenko, T. I., Khandozhko, V. N., Kadushin, A. A., Kolobova, N. E., “Catalytic activity of deposited cluster cobalt carbonyl complexes in the synthesis of hydrocarbons from CO and H2”, Russian Chem. Bull., 33(4), 1984, pp. 886-886.
Kieffer, R., Ramaroson, E., Deluzarche, A., “A comparison of reactivity in the synthesis of methanol from CO2+H2 and CO+H2 (catalysts Cu, Zn/Al2O3, P=515×104 Pa)”, React. Kinet. Catal. Lett., 16(2-3), 1981, pp. 207-212.
Kiennemann, A., Kieffer, R., Chornet, E., “CO/H2 and CO2/H2 reactions with amorphous carbon-metal catalysts”, React. Kinet. Catal. Lett., 16(4), 1981, pp. 371-376.
Kikhtyanin, O. V., Urzuntsev, G. A., Ajupov, A. B., Vostrikova, L. A., Toktarev, A. V., Echevsky, G. V., “Influence of silica content on acidity of SAPO-31 materials and their properties in hydroisomerization of n-paraffins”, Stud. Surf. Sci. Catal., 158B, 2005, pp. 1771-1778.
Kim, C.-H., Lee, J. S., Trimm, D. L., “The Preparation and Characterisation of Pd–ZnO Catalysts for Methanol Synthesis”, Top. Catal., 22(3-4), 2003, pp. 319-324.
Kim, D.-J., Dunn, B. C., Cole, P., Turpin, G., Ernst, R. D., Pugmire, R. J., Kang, M., Kim, J. M., Eyring, E. M., “Enhancement in the reducibility of cobalt oxides on a mesoporous silica supported cobalt catalyst”, Chem. Comm., 2005(11), pp. 1462-1464.
Kim, D.-J., Dunn, B. C., Kang, M., Yie, J. E., Eyring, E. M., “SBA-15 Supported Cobalt and Iron Catalysts for Fischer-Tropsch Synthesis”, ACS Div. Fuel Chem. Prepr., 50(2), 2005, p. 632.
Kim, H.-G., Lee, K. H., Lee, J. S., “Carbon monoxide hydrogenation over molybdenum carbide catalysts”, Research Chem. Intermed., 26(5), 2000, p. 427.
Kimura, T., Fukuoka, A., Fumagalli, A., Ichikawa, M., “Fe-Promoted selective methanol synthesis in CO hydrogenation catalyzed on SiO2-supported Ir4Fe and Pd6Fe6 bimetallic carbonyl cluster-derived catalysts”, Catal. Lett., 2(4), 1989, pp. 227-233.
King, R. B., King, A. D., “Metal carbonyl catalysis of carbon monoxide and formate reactions”, Russian Chem. Bull., 43(9), 1994, pp. 1445-1450.
Kint, R. G. A., “Het effect van de koolmonoxideconversie en de productgasrecirculatie op de olefineselectiviteit in een bellenkolom recirculatiereactor voor Fischer-Tropsch synthese”, Dissertation, Technische Universiteit Eindhoven, 1987.
Kip, B. J., “Oxygenated products from carbon monoxide hydrogenation over supported rhodium and iridium catalysts: a catalytic and characterization study”, Dissertation, Technische Universiteit Eindhoven, 1987.
Kirillov, V. L., Ryndin, Yu. A., “Methanol synthesis on palladium nanoparticles: Size effect”, React. Kinet. Catal. Lett., 59(2), 1996, pp. 351-357.
Kishan, G., Lee, M.-W., Nam, S.-S., Choi, M.-J., Lee, K.-W., “The catalytic conversion of CO2 to hydrocarbons over Fe–K supported on Al2O3–MgO mixed oxides”, Catal. Lett., 56(4), 1998, pp. 215-219.
Kissin, Yu. V., “Relative reactivities of alkanes in multi-component catalytic cracking reactions”, Catal. Lett., 19(2-3), 1993, pp. 181-187.
Kitaigorodskii, A. I., Mnyukh, Yu. V., “Crystal structure of paraffins in the triclinic modification”, Russian Chem. Bull., 8(12), 1959, pp. 1992-1997.
Klevtsova, V. P., Rapoport, I. B., Vselyubskii, S. B., “The synthesis of hydrocarbons and oxygen-containing compounds from carbon monoxide and hydrogen over iron-copper catalysts”, Chem. Tech. Fuels Oils, 1(6), 1965, pp. 424-429.
Kliger, G. A., Glebov, L. S., Ryzhikov, V. P., Shiryaeva, V. E., Popova, T. P., Loktev, S. M., “Hydroamination of aliphatic alcohols under fischer-tropsch synthesis conditions on a fused iron catalyst”, Russian Chem. Bull., 36(8), 1987, pp. 1738-1740.
Kliger, G. A., Lesik, O. A., Mikaya, A. I., Marchevskaya, E. V., Zaikin, V. G., Glebov, L. S., Loktev, S. M., “Piperidine-modified fischer-tropsch synthesis”, Russian Chem. Bull., 40(2), 1991, pp. 435-438.
Klissurski, D., Uzunova, E., Ivanov, K., “Binary spinel cobaltites of nickel, copper and zinc as precursors of catalysts for carbon oxides methanation”, Catal. Lett., 15(4), 1992, pp. 385-391.
Klyueva, N. V., Valcheva, M. L., Davidova, N. P., Ione, K. G., Shopov, D. P., “Specific action of nickel-zeolite catalysts in the methanation of carbon monoxide”, React. Kinet. Catal. Lett., 17(3-4), 1981, pp. 315-318.
Knegtel, J. T., “Het gedrag van carbonzuren in de Fischer-Tropsch synthese”, Dissertation, Delft Technical University, 1959.
Knopf, F. C., Ma, J., Rice, R. G., Nikitopoulos, D., “Pulsing to improve bubble column performance: I. Low gas rates”, AIChE J., 52(3), 2006, pp. 1103-1115.
Knopf, F. C., Waghmare, Y., Ma, J., Rice, R. G., “Pulsing to improve bubble column performance: II. Jetting gas rates”, AIChE J., 52(3), 2006, pp. 1116-1126.
Ko, J. B., Bae, C. M., Jung, Y. S., Kim, D. H., “Cu/ZrO2 Catalysts for Water-gas-shift Reaction at Low Temperatures”, Catal. Lett., 105(3-4), 2005, pp. 157-161.
Kobayashi, M., Saitoh, M., Ishida, K., Yachi H., “Viscosity Properties and Molecular Structure of Lube Base Oil Prepared from Fischer-Tropsch Waxes”, J. Japanese Petrol. Inst., 48(6), 2005, pp. 365-372.
Kochubey, D. I., Feodorov, V. K., Williams, C., Nogin, Yu. N., Stenin, M. V., Ryndin, Yu. A., Thomas, J. M., Zamaraev, K. I., “An EXAFS study of the influence of the metal particle size, nature of support, and adsorption of H2 and CO on the structure of palladium catalysts”, Catal. Lett., 5(4-6), 1990, pp. 349-352.
Koenig, L., “Untersuchungen zur Wirkung von Alkaliverbindungen als Promotor bei der Fischer-Tropsch-Synthese an Eisenfaellungskatalysatoren”, Dissertation, Technische Hochschule Darmstadt, 1984.
Kogan, S. B., Herskowitz, M., “Geometric and electronic factors in paraffin dehydrogenation on bimetallic platinum catalysts”, React. Kinet. Catal. Lett., 85(2), 2005, pp. 341-345.
Kok, J. B. W., “Hydrodynamic equiation and effective properties of bubbly flows”, in “Transient Phenomena in Multiphase Flow” (N. H. Afgan, ed.), Hemisphere Publishing, New York, 1988, pp. 127-136.
Kolb, G., Pennemann, H., Zapf, R., “Water-gas shift reaction in micro-channels—Results from catalyst screening and optimisation”, Catal. Today, 110(1-2), 2005, pp. 121-131.
Kolesnichenko, N. V., Ezhova, N. N., Kremleva, E. V., Slivinskii, E. V., “Hydrogenation of carbon dioxide in the presence of rhodium catalysts”, Russian Chem. Bull., 53(11), 2004, pp. 2542-2545.
Kolomogorov, I. V., Ershova, N. I., “Corrosion of different materials in carbon monoxide and carbon dioxide medium”, Chem. Petrol. Eng., 4(1), 1968, pp. 49-50.
Koopman, P. G. J., “Ruthenium hydrogenation catalysts : activation characterization application”, Dissertation, Delft University, 1980.
Koornneef, G., “Fischer-Tropsch-dieselbrandstof: puur of 'on the rocks'?: de kansen van een alternatieve brandstof in historisch perspectief”, Dissertation, Technische Universiteit Eindhoven, 2003.
Koppenhagen, H., “Einfluss von Halogen-Ionen auf die Selektivität von Eisen-Fällungskatalysatoren für die Fischer-Tropsch-Synthese”, Dissertation, Techn. Hochsch., Aachen, 1979.
Korányi, T. I., Mihály, J., Pfeifer, E., Németh, C., Yuzhakova, T., Mink, J., “Infrared Emission and Theoretical Study of Carbon Monoxide Adsorbed on Alumina-Supported Rh, Ir, and Pt Catalysts”, J. Phys. Chem. A, 110(5), 2006, pp. 1817-1823.
Kotyaev, K. P., Lin, G. I., Rozovskii, A. Ya., Khodakov, Yu. S., Minachev, Kh. M., “Thermal desorption studies of the properties of surface compounds. On a copper-containing industrial methanol synthesis catalyst”, Russian Chem. Bull., 35(12), 1986, pp. 2430-2433.
Kreja, L., “The electronic factor in catalysis, III. Electric conductivity of cobalt catalysts pulverized in hydrogen and carbon monoxide”, React. Kinet. Catal. Lett., 2(4), 1975, pp. 337-342.
Kriger, T. A., Suzdorf, A. R., Plyasova, L. M., Kuznetsova, L. I., Shkarin1, A. V., Kuznetsov, B. N., Fomicheva, L. P., “Genesis of phase composition in Fe−Mn catalysts for synthesis of olefins from CO and H2 under catalytic conditions in situ”, React. Kinet. Catal. Lett., 34(2), 1987, pp. 339-344.
Krishna, K. R., Bell, A. T., “The role of C2 intermediates in Fischer-Tropsch synthesis over ruthenium”, Catal. Lett., 14(3-4), 1992, pp. 305-313.
Krishna, R., van Baten, J. M., “The Darken Relation for Multicomponent Diffusion in Liquid Mixtures of Linear Alkanes: An Investigation Using Molecular Dynamics (MD) Simulations”, Ind. Eng. Chem. Res., 44(17), 2005, pp. 6939-6947.
Kriukov, Iu. B., Bashkirov, A. N., Butiugin, V. K., Liberov, L. G., Stepanova, N. D., “Transformations of butene under the conditions of synthesis from CO and H2 over fused iron catalysts”, Russian Chem. Bull., 7(5), 1958, pp. 625-627.
Krump, H., Luyt, A. S., Molefi, J. A., “Changes in free surface energy as an indicator of polymer blend miscibility”, Materials Lett., 59(4), 2005, pp. 517-519.
Krylova, A. Yu., Lapidus, A. L., Kapur, M. P., Vershinin, V. I., Mel'nikov, V. B., “Metallosilicates as supports of Co catalysts for the synthesis of liquid hydrocarbons from CO and H2”, Russian Chem. Bull., 42(3), 1993, pp. 432-434.
Krylova, A. Yu., Lapidus, A. L., Sominskii, S. D., Rar, L. F., Zukal, A., Ratkousky, J., Jancalkova, M., Yakerson, V. I., “Investigation of a Co-MgO-ZSM catalyst by temperature-programmed reduction, temperature-programmed desorption, and IR spectroscopy”, Russian Chem. Bull., 41(1), 1992, pp. 41-45.
Krylova, A. Yu., Lapidus, A. L., Zukal, A., Kozlova, G. V., Kondrat'ev, L. T., Zhuk, M. I., Ratkhouski, I., Kapichka, I., Yanchalkova, M., “Influence of preliminary treatment on activity and selectivity of Co-alumosilicate catalyst in hydrocarbon synthesis from CO and H2”, Russian Chem. Bull., 39(8), 1990, pp. 1547-1550.
Krylova, A. Yu., Lapidus, A. L., Zukal, A., Ratkhouski, I., Yanchalkova, M., Kozlova, G. V., “Effect of the nature of the carrier on the properties of Co catalysts preheated in air in synthesis of hydrocarbons from CO and H2”, Russian Chem. Bull., 49(11), 1991, pp. 2134-2138.
Krylova, A. Yu., Malykh, O. A., Emel'yanova, G. I., Lapidus, A. L., “Synthesis of hydrocarbons from CO and H2 on promoted cobalt-carbon fiber catalysts”, Russian Chem. Bull., 37(11), 1988, pp. 2374-2375.
Kuczynski, M., Browne, W. I., Fontein, H. J., Westerterp, K. R., “Reaction kinetics for the synthesis of methanol from CO and H2 on a copper catalyst”, Chem. Eng. Proc., 20(4), 1987, pp. 179-191.
Kulkarni, A. A., Joshi, J. B., “Measurement of eddy diffusivity in bubble column and validation based on the intermittency models”, Chem. Eng. Sci., 60(22), 2005, pp. 6146-6159.
Kulkarni, A. A., Joshi, J. B., “Bubble Formation and Bubble Rise Velocity in Gas-Liquid Systems: A Review”, Ind. Eng. Chem. Res., 44(16), 2005, pp. 5873-5931.
Kulshreshtha, S. K., Sasikala, R., Gupta, N. M., Iyer, R. M., “Carbon monoxide methanation over FeTi(1-x)Sn(x) intermetallics: Role of second phase”, Catal. Lett., 4(2), 1990, pp. 129-138.
Kuz’min, A. E., Dyatlova, Yu. N., Tikhov, S. F., Kurkin, V. I., Sadykov, V. A., Slivinskii, E. V., Bogolepova, E. I., Tsybulya, S. V., Fenelonov, V. B., Mordovin, V. P., Litvak, G. S., Salanov, A. N., “Fischer–Tropsch Catalysts Based on Zr–Fe Intermetallides Encapsulated in an Al2O3/Al Matrix”, Kinet. Catal., 46(5), 2005, pp. 743-751.
Kuz'minskii, M. B., Bagaturyants, A. A., Kazanskii, V. B., “Quantum chemical study of the role of zinc oxide in the synthesis of methanol on oxide catalysts containing cuprous ions in the molecular model approximation”, Russian Chem. Bull., 37(2), 1988, pp. 399-401.
Kuznetsov, M. A., Gorbachev, A. S., “Determination of the Specific Heat of the Normal Alkanes C7-C11”, Theor. Found. Chem. Eng., 39(4), 2005, pp. 450-454.
Kuznetsov, M. A., Lazarev, S. I., “Maxima of the Specific Heat at Constant Pressure of the n-Alkanes C7-C9 in the Supercritical Region”, Theor. Found. Chem. Eng., 39(6), 2005, pp. 653-657.
Kuznetsova, L. I., Karelin, D. A., Chumakov, V. G., Kachin, S. V., “Influence of alkaline promoters (potassium) on the properties of Mo/SiO2 catalysts for alcohol synthesis from CO and H2”, React. Kinet. Catal. Lett., 44(2), 1991, pp. 401-407.
Kuznetsova, L. I., Suzdorf, A. R., Fomicheva, L. P., Kuznetsov, B. N., “Influence of alkali promoters on the direction of CO conversion on precipitated Fe catalysts”, React. Kinet. Catal. Lett., 32(2), 1986, pp. 513-518.
Laanen, A. C. M., “Fischer-Tropsch syntheses met bimetallische RuFe/TiO2 katalysatoren”, Dissertation, Technische Hogeschool Eindhoven, 1985.
Laari, A., Turunen, I., “Prediction of Coalescence Properties of Gas Bubbles in a Gas-Liquid Reactor Using Persistence Time Measurements”, Chem. Eng. Res. Des., 83(7), 2005, pp. 881-886.
Lahaije, J. F. E., “Characterisation and testing of supported model catalysts for Fischer-Tropsch synthesis prepared by electron beam lithography techniques”, Dissertation, Eindhoven University of Technology, 1997.
Lahey, R. T., Jr., “Turbulence and phase distribution phenomena in two-phase flow”, in “Transient Phenomena in Multiphase Flow” (N. H. Afgan, ed.), Hemisphere Publishing, New York, 1988, pp. 139-177.
Lahtinen, J., Kantola, P., Jaatinen, S., Habermehl-Cwirzen, K., Salo, P., Vuorinen, J., Lindroos, M., Pussi, K., Seitsonen, A. P., “LEED and DFT investigation on the (2 × 2)-S overlayer on Co(0001)”, Surf Sci., 559(1-3), 2005, pp. 113-121.
Laín, S., Bröder, D., Sommerfeld, M., “Numerical modeling of the hydrodynamics in a bubble column using the Euler-Lagrange approach”, MFTP 2000 - International Symposium on Multiphase Flow and Transport Phenomena, Antalya, Turkey, 5-10 November 2000.
Laitar, D. S., Müller, P. M., Sadighi, J. P., “Efficient Homogeneous Catalysis in the Reduction of CO2 to CO”, J. Am. Chem. Soc., 127(49), 2005, pp. 17196-17197.
Lakatos, B. G., Mihálykó, C., Blickle, T., “Modelling of interactive populations of disperse systems”, Chem. Eng. Sci., 61(1), 2006, pp. 54-62.
Lamme, N., “De synthese van koolwaterstoffen volgens Fischer-Tropsch”, Delft Technical University, 1946.
Lamprecht, R., “Untersuchungen ueber die Abhaengigkeit der katalytischen Aktivitaet vom Reduktionsgrad eines Kobalt-Traegerkatalysators der Fischer-Tropsch-Synthese”, Dissertation, Technische Universitaet Berlin, 1965.
Lapidus, A. L., “Characteristics of the catalytic action of Co systems in the synthesis of hydrocarbons from Co and H2”, Russian Chem. Bull., 33(1), 1984, pp. 51-56.
Lapidus, A. L., “Scientific principles of synthesis of liquid hydrocarbons from CO and H2 in the presence of cobalt catalysts (review)”, Russian Chem. Bull., 40(12), 1991, pp. 2335-2349.
Lapidus, A. L., Abramova, T. V., Krylova, A. Yu., Kondrat'ev, L. T., Sominskii, S. D., Yem, H. C., “Investigation of cobalt carbonyl catalysts for the Fischer-Tropsch synthesis by IR spectroscopy and thermal desorption”, Russian Chem. Bull., 35(8), 1986, pp. 1568-1571.
Lapidus, A. L., Bruk, I. A., Gil'denberg, E. Z., Lunin, V. V., “Catalytic activity of hydrides of intermetallides in the hydrogenation of carbon monoxide”, Russian Chem. Bull., 29(11), 1980, pp. 1719-1722.
Lapidus, A. L., Bruk, I. A., Mal'tsev, V. V., Ivanovskii, A. F., Lunin, V. V., “Hydrogenation of carbon dioxide on hydrides of intermetallides”, Russian Chem. Bull., 30(11), 1981, pp. 2091-2093.
Lapidus, A. L., Frankfurt, G. I., Yakerson, V. I., Golosman, E. Z., Sominskii, S. D., Mamaeva, I. A., Boevskaya, E. A., Nechugovskii, A. I., “Structure of cobalt hydroxoaluminate and catalytic properties of the products of its reduction”, Russian Chem. Bull., 40(4), 1991, pp. 663-668.
Lapidus, A. L., Isakov, Ya. I., Guseva, I. V., Minachev, Kh. M., Éidus, Ya. T., “Co-zeolite catalysts for synthesis of hydrocarbons from CO and H2”, Russian Chem. Bull., 23(6), 1974, pp. 1369-1369.
Lapidus, A. L., Jem, H. C., Krylova, A. Yu., “Effect of the type of carrier on the properties of cobalt catalysts in the synthesis of aliphatic hydrocarbons from carbon monoxide and hydrogen”, Russian Chem. Bull., 31(10), 1982, pp. 1953-1956.
Lapidus, A. L., Kondrat'ev, L. T., Savel'ev, M. M., Yastrebova, E. V., “Effect of H2O and al additions on the catalytic properties of the [Rh(CO)2Cl]2-AlBr3 system in the reduction of CO2 by hydrogen”, Russian Chem. Bull., 33(9), 1984, pp. 1777-1779.
Lapidus, A. L., Krylova, A. Yu., Iem, K. C., “Influence of preparation method on activity of cobalt catalysts for hydrocarbon synthesis from CO and H2”, Russian Chem. Bull., 33(2), 1984, pp. 251-255.
Lapidus, A. L., Krylova, A. Yu., Kapur, M. P., Leongardt, E. V., Fasman, A. B., Mikhailenko, S. D., “Synthesis of hydrocarbons from CO and H2 in the presence of Co-Ru and Co-Pd catalysts containing aluminum oxide”, Russian Chem. Bull., 41(1), 1992, pp. 45-48.
Lapidus, A. L., Krylova, A. Yu., Kapur, M. P., Vershinin, V. L., Mel'nikov, V. B., Zukal, A., Rathousky, I., Starek, I., “Physico-chemical properties of metallosilicate supports and cobalt catalysts based on them”, Russian Chem. Bull., 42(4), 1993, pp. 627-631.
Lapidus, A. L., Krylova, A. Yu., Kazanskii, V. V., Borovkov, V. Yu., Zaitsev, A. V., Kozlova, G. V., Zukal, A., Ratkhouski, I., Yanchalkova, M., “Effect of preliminaey heating on the physicochemical properties of 10% Co/Al2O3 catalyst and its behavior in hydrocarbon synthesis from CO and H2”, Russian Chem. Bull., 40(11), 1991, pp. 2129-2134.
Lapidus, A. L., Krylova, A. Yu., Kim, A. O., Paushkin, Ya. M., “Reaction of CO2 and H2 in the presence of Co and Ni catalysts”, Russian Chem. Bull., 42(3), 1993, pp. 434-436.
Lapidus, A. L., Krylova, A. Yu., Kondrat'ev, L. T., Abramova, T. V., Sominskii, S. D., “Synthesis of hydrocarbons from Co and H2 on Co carbonyl catalysts applied on aluminosilicate”, Russian Chem. Bull., 37(5), 1988, pp. 865-868.
Lapidus, A. L., Krylova, A. Yu., Kozlova, G. V., Kondrat'ev, L. T., “Effect of oxides on the activity of Co-carbonyl catalysts for hydrocarbon synthesis from CO and H2”, Russian Chem. Bull., 38(11), 1989, pp. 2226-2229.
Lapidus, A. L., Krylova, A. Yu., Kozlova, G. V., Kondrat'ev, L. T., Myshenkova, T. N., “Effect of the method of preparation of Co catalysts on their properties in the synthesis of hydrocarbons from CO and H2”, Russian Chem. Bull., 38(5), 1989, pp. 896-899.
Lapidus, A. L., Krylova, A. Yu., Kozlova, G. V., Kondrat'ev, L. T., Myshenkova, T. N., Babenkova, L. V., Kul'evskaya, Yu. G., Sominskii, S. D., “Synthesis of hydrocarbons from Co and H2 in the presence of supported Co catalysts modified by palladium”, Russian Chem. Bull., 39(3), 1990, pp. 452-455.
Lapidus, A. L., Krylova, A. Yu., Petrachkova, N. E., Khlebnikova, T. V., Yem, H. C., “Effect of additions of ammonia on the synthesis of hydrocarbons from CO and H2 in the presence of Co catalysts”, Russian Chem. Bull., 34(6), 1985, pp. 1150-1153.
Lapidus, A. L., Krylova, A. Yu., Tishkova, L. A., Gaidai, N. A., Myshenkova, T. N., “Interaction of Carbon Dioxide with Hydrogen in the Presence of Carbon-Supported Metal Catalysts”, Petrol. Chem., 45(4), 2005, pp. 249-254.
Lapidus, A. L., Malykh, O. A., Krylova, A. Yu., Emel'yanova, G. I., “Catalytic activity of platinum applied on fibrous carbon materials during hydrogenation of carbon monoxide”, Russian Chem. Bull., 37(11), 1988, pp. 2231-2234.
Lapidus, A. L., Mashinskii, V. I., Isakov, Ya. I., Minachev, Kh. M., “Effect of the reduction temperature on the properties of Co-zeolite catalysts for hydrocarbon synthesis from CO and H2”, Russian Chem. Bull., 27(12), 1978, pp. 2404-2407.
Lapidus, A. L., Novak, Z., Savel'ev, M. M., Lyukke, B., Zimmerman, T., Pirozhkov, S. D., Manek, Kh. E., Sominskii, S. D., Rar, L. F., “Synthesis of hydrocarbons and alcohols from CO and H2 in the presence of CO-Rh catalysts”, Russian Chem. Bull., 39(8), 1990, pp. 1545-1547.
Lapidus, A. L., Ping, Ya. Yu., “Organic Syntheses Based on Carbon Dioxide”, Russian Chem. Rev., 50(1), 1981, pp. 63-75.
Lapidus, A. L., Savel'ev, M. M., “Metal Carbonyl Catalysts of the Synthesis of Organic Compounds from Carbon Monoxide and Molecular Hydrogen”, Russian Chem. Rev., 57(1), 1988, pp. 17-28.
Lapidus, A. L., Savel'ev, M. M., “New catalysts for the synthesis of aliphatic hydrocarbons from CO and H2”, Russian Chem. Bull., 27(6), 1978, pp. 1288-1288.
Lapidus, A. L., Savel'ev, M. M., “Synthesis of aliphatic hydrocarbons from CO and H2 on RH-complex catalysts”, Russian Chem. Bull., 29(2), 1980, pp. 251-254.
Lapidus, A. L., Savel'ev, M. M., “Transition Metal Complexes as Catalysts of the Synthesis of Hydrocarbons from Carbon Oxides and Hydrogen”, Russian Chem. Rev., 53(6), 1984, pp. 535-546.
Lapidus, A. L., Savel'ev, M. M., Kondrat'ev, L. T., Yastrebova, E. V., “Effect of composition of Rh- complex catalysts on their properties in the synthesis of hydrocarbons from CO and H2”, Russian Chem. Bull., 30(7), 1981, pp. 1261-1265.
Lapidus, A. L., Savel'ev, M. M., Muranova, L. M., Borisovich, I. G., Vasserberg, V. E., Minachev, Kh. M., “Iron/zeolite catalysts for synthesis of hydrocarbons from CO and H2”, Russian Chem. Bull., 35(1), 1986, pp. 16-18.
Lapidus, A. L., Savel'ev, M. M., Muranova, L. M., Sominskii, S. D., Kondrat'ev, L. T., Borisovich, I. G., Vasserberg, V. E., “Catalytic properties of iron carbonyls supported on zeolites in hydrocarbon synthesis from CO and H2”, Russian Chem. Bull., 34(1), 1985, pp. 18-23.
Lapidus, A. L., Savel'ev, M. M., Tsapkina, M. V., Minachev, Kh. M., “Synthesis of C1-C4 hydrocarbons from CO and H2 on cobalt carbonyl zeolite catalysts”, Russian Chem. Bull., 37(12), 1988, pp. 2560-2562.
Lapidus, A. L., Savel'ev, M. M., Tsapkina, M. V., Solodov, S. N., “Synthesis of C1-C3 hydrocarbons on catalysts derived from iron carbonyl complexes”, Russian Chem. Bull., 34(4), 1985, pp. 688-691.
Lapidus, A. L., Tsapkina, M. V., Krylova, A. Y., Tonkonogov, B. P., “Bimetallic cobalt catalysts for the synthesis of hydrocarbons from CO and H2”, Russian Chem. Rev., 74(6), 2005, pp. 577-586.
Lapidus, A. L., Yen, H. C., Krylova, A. Yu., “Synthesis of hydrocarbons from carbon monoxide and hydrogen in the presence of Co catalysts containing high-silicon zeolites”, Russian Chem. Bull., 32(1), 1983, pp. 124-128.
Lapidus, A. L., Yushin, S. V., Mishchenko, O. I., Vedenyapin, A. A., Kondrat'ev, L. T., “Synthesis of hydrocarbons from CO and H2 on supported nickel-palladium catalysts”, Russian Chem. Bull., 40(7), 1991, pp. 1499-1501.
Lars, S., Andersson, T., “An XPS study of dispersion and valence state of TiO2 supported vanadium oxide catalysts”, Catal. Lett., 7(5-6), 1990, pp. 351-358.
Leckel, D., “Hydrocracking of Iron-Catalyzed Fischer-Tropsch Waxes”, Energy & Fuels, 19(5), 2005, pp. 1795-1803.
Lede, J., Villermaux, J., “Measurement of the rate constant of hydrogen atoms with carbon monoxide in tubular and jet stirred open reactors”, React. Kinet. Catal. Lett., 6(2), 1977, pp. 225-230.
Lee, D., Jung, G. S., Lee, H. C., Lee, J. S., “Methanol synthesis over Pd/SiO2 with narrow Pd size distribution prepared by using MCM-41 as a support precursor”, Catal. Today, 111(3-4), 2006, pp. 373-378.
Lee, G. D., Moon, M. J., Park, J. H., Park, S. S., Hong, S. S., “Raney Ni Catalysts Derived from Different Alloy Precursors Part II. CO and CO2 Methanation Activity”, Korean J. Chem. Eng., 22(4), 2005, pp. 541-546.
Lee, J. S., Kim, S., Kim, Y. G., “Electronic and geometric effects of alkali promoters in CO hydrogenation over K/Mo2C catalysts”, Top. Catal., 2(1-4), 1995, pp. 127-140.
Lee, J. S., Moon, K. I., Lee, S. H., Lee, S. Y., Kim, Y. G., “Modified Cu/ZnO/Al2O3 catalysts for methanol synthesis from CO2/H2 and CO/H2”, Catal. Lett., 34(1-2), 1995, pp. 93-99.
Lee, S. J., Kim, S., “Simultaneous measurement of size and velocity of microbubbles moving in an opaque tube using an X-ray particle tracking velocimetry technique”, Experim. Fluids, 39(3), 2005, pp. 492-497.
Leenders, A. P. M., “Fischer-Tropsch synthese : deactivering van ijzer/koper-katalysatoren”, Dissertation, Technische Universiteit Eindhoven, 1988.
Lei, Y., Cant, N. W., Trimm, D. L., “Kinetics of the water–gas shift reaction over a rhodium-promoted iron–chromium oxide catalyst”, Chem. Eng. J., 114(1-3), 2005, pp. 81-85.
Leshchev, S. M., Novik, N. P., “Extractive Fractionation of High-Molecular-Mass Paraffin and Ceresin Hydrocarbons”, Petrol. Chem., 42(5), 2002, p. 360.
Li, D., Zhao, N., Qi, H., Li, W., Sun, Y. H., Zhong, B., “Ultrasonic preparation of Ni modified K2CO3/MoS2 catalyst for higher alcohols synthesis”, Catal. Comm., 6(10), 2005, pp. 674-678.
Li, H., Wang, S., Ling, F., Li, J., “Studies on MCM-48 supported cobalt catalyst for Fischer–Tropsch synthesis”, J. Molec. Catal. A, 244(1-2), 2006, pp. 33-40.
Li, X., Liu, X., Liu, Z.-W., Asami, K., Fujimoto, K, “Supercritical phase process for direct synthesis of middle iso-paraffins from modified Fischer-Tropsch reaction”, Catal. Today, 106(1-4), 2005, pp. 154-160.
Li, X., Zhong, B., Peng, S., Wang, Q., ‘Fischer-Tropsch synthesis on Fe-Mn ultrafine catalysts”, Catal. Lett., 23(3-4), 1994, pp. 245-250.
Li, X. Q. D., Vanselow, R., “Dissociation of CO on stepped/kinked surface areas of a rounded Pt crystal: I. Clean surface”, Catal. Lett., 2(2), 1989, pp. 113-120.
Linden, G., “Zur Fischer-Tropsch-Synthese an multifunktionellen Cobalt/Zeolith-Katalysatoren”, Technische Hochschule Aken, 1985.
Linghu, W., Li, X., Asami, K., Fujimoto, K., “Process Design and Solvent Recycle for the Supercritical Fischer-Tropsch Synthesis”, Energy & Fuels, 20(1), 2006, pp. 7-10.
Linghu, W., Li, X., Asami, K., Fujimoto, K., “Reaction behavior of Fischer-Tropsch synthesis in supercritical n-hexane media”, J. Fuel Chem. Tech., 33(5), 2005, pp. 520-524.
Linkov, V. M., Sanderson, R. D., Lapidus, A. L., Krylova, A. J., “Carbon membrane-based catalysts for hydrogenation of CO”, Catal. Lett., 27(1-2), 1994, pp. 97-101.
Liu, F., Armentrout, P. B., “Guided ion-beam studies of the kinetic-energy-dependent reactions of Co (n=2–16) with D: Cobalt cluster-deuteride bond energies”, J. Chem. Phys., 122, 2005, pp.
Liu, H.-W., Nie, Z.-G., Liu, D.-H., Ying, W.-Y., Fang, D.-Y., “Direct synthesis of dimethyl ether from syngas containing N2 in a slurry reactor in tandem with a fixed-bed reactor”, J. Fuel Chem. Tech., 33(3), 2005, pp. 329-333.
Liu, M.-Y., Wang, H., Lin, R.-T., “Visual investigations on radial solid holdup in vapor–liquid–solid fluidized bed evaporator with a CCD measuring system”, Chem. Eng. Sci., 61(2), 2006, pp. 802-813.
Liu, Z., Zheng, Y., “A Local Model for Gas-Liquid Mass Transfer in a Gas-Liquid-Solid Circulating Fluidized Bed”, Internat. J. Chem. React. Eng., 2, 2004, A13.
Liu, Z.-W., Li, X., Asami, K., Fujimoto, K., “Formation of Isoparaffins through Pd/ Zeolite Application in Fischer-Tropsch Synthesis”, Energy & Fuels, 19(5), 2005, pp. 1790-1794.
Liu, Z.-W., Li, X., Asami, K., Fujimoto, K., “High performance Pd/beta catalyst for the production of gasoline-range iso-paraffins via a modified Fischer–Tropsch reaction”, Appl. Catal. A., 300(2), 2006, pp. 162-169.
Liu, Z.-W., Li, X., Asami, K., Fujimoto, K., “Insights into a Multifunctional Hybrid Catalyst Composed of Co/SiO2 and Pd/Beta for Isoparaffin Production from Syngas”, Ind. Eng. Chem. Res., 44(19), 2005, pp. 7329-7336.
Liu, Z.-W., Li, X., Asami, K., Fujimoto, K., “Selective production of iso-paraffins from syngas over Co/SiO2 and Pd/beta hybrid catalysts”, Catal. Comm., 6(8), 2005, pp. 503-506.
Llorca, J., Barbier, A., Martin, G. A., Sales, J., de la Piscina, P. R., Homs, N., “Selective synthesis of alcohols from syngas and hydroformylation of ethylene over supported cluster-derived cobalt catalysts”, Catal. Lett., 42(1-2), 1996, pp. 87-91.
Loonen, T., “Exergie-analyse van de productie van Fischer-Tropsch vloeistoffen door vergassing van biomassa”, Dissertation, Technische Universiteit Eindhoven, 2001.
Loosdrecht, J., Kraan, A. M., Dillen, A. J., Geus, J. W., “Metal-support interaction: titania-supported nickel-iron catalysts”, Catal. Lett., 41(1-2), 1996, pp. 27-34.
López, J. A., Cardona, C. A., “Phase equilibrium calculations for carbon dioxide + n -alkanes binary mixtures with the Wong–Sandler mixing rules”, Fluid Phase Equ., 239(2), 2006, pp. 206-212.
Lu, J. P., Albert, M. R., Bernasek, S. L., “The decomposition of surface methoxy on clean and oxygen post dosed Fe(100); control of reaction selectivity”, Catal. Lett., 6(2), 1990, pp. 245-253.
Lu, W.-Z., Teng, L.-H., Xiao, W.-D., “Theoretical Analysis of Fluidized-Bed Reactor for Dimethyl Ether Synthesis from Syngas”, Internat. Chem. React. Eng., 1, 2003, S2.
Luengen-Schaeuble, S., “Fischer-Tropsch-Mitteldruck-Synthese im Festbett an Fe- und Co-Katalysatoren unter Verwendung der Zeolithe L, omega, beta, ZSM 11 und ZSM 12, Erionit und Mordenit”, Dissertation, Rheinisch-Westfaelische Technische Hochschule Aachen, 1991.
Lukinskas, P., Kuba, S., Spliethoff, B., Grasselli, R. K., Tesche, B., Knözinger, H., “Role of Promoters on Tungstated Zirconia Catalysts”, Top. Catal., 23(1-4), 2003, pp. 163-173.
Lunin, V. V., Kryukov, O. V., Lapidus, A. L., “The effect of the composition of Zr-Co intermetallic compounds on their catalytic properties in the hydrogenation of carbon monoxide”, Russian Chem. Bull., 34(4), 1985, pp. 682-688.
Lunin, V. V., Kryukov, O. V., Savel'ev, M. M., Lapidus, A. L., “Hydrogenation of carbon monoxide on nickel-containing catalysts”, Russian Chem. Bull., 32(6), 1983, pp. 1135-1139.
Lykov, O. P., “Production of motor fuels from natural gas”, Chem. Tech. Fuels Oils, 32(3), 1996, pp. 122-136.
Ma, J., Fan, B., Li, R., Cao, J., “Characteristics of Fe/AlPO4-5 catalyst prepared with organic solution”, Catal. Lett., 23(1-2), 1994, pp. 189-194.
Ma, L., Tran, T., Wainwright, M. S., “Hydrogenation of CO2 Over Skeletal Copper Surfaces Containing Precipitated ZnO”, Top. Catal., 22(3-4), 2003, pp. 287-293.
Ma, L., Tran, T., Wainwright, M. S., “Methanol Synthesis from CO2 Using Skeletal Copper Catalysts Containing Co-precipitated Cr2O3 and ZnO”, Top. Catal., 22(3-4), 2003, pp. 295-304.
Ma, L., Trimm, D. L., Wainwright, M. S., “Structural and catalytic promotion of skeletal copper catalysts by zinc and chromium oxides”, Top. Catal., 8(3-4), 1999, pp. 271-277.
Maack, M., Friis-Jensen, H., Sckerl, S., Larsen, J. H., Chorkendorff, I., “Methanol Synthesis on Potassium-Modified Cu(100) from CO + H2 and CO + CO2 + H2”, Top. Catal., 22(3-4), 2003, pp. 151-160.
Maesen, T. L. M., Beerdsen, E., Calero, S., Dubbeldam, D., Smit, B., “Understanding cage effects in the n -alkane conversion on zeolites”, J. Catal., 237(2), 2006, pp. 278-290.
Maisonnier, G., “Gas to liquids - Fischer tropsch: quel avenir ?”, Rev. Energie, 56(4), 2005, pp. 100-104.
Makgoba, N. P., Sakuneka, T. M., Koortzen, J. G., van Schalkwyk, C., Botha, J. M., Nicolaides, C. P., “Silication of γ-alumina catalyst during the dehydration of linear primary alcohols”, Appl. Catal. A, 297(2), 2005, pp. 145-150.
Maksimov, Yu. V., Suzdalev, I. P., Arents, R. A., Loktev, S. M., “Study of nucleation of carbide phase on defective sections of promoted iron catalyst by gamma-resonance spectroscopy method”, Russian Chem. Bull., 23(7), 1974, pp. 1542-1544.
Maksimov, Yu. V., Suzdalev, I. P., Matveev, A. I., Makarov, E. F., Kravtsov, A. V., “Investigation on structure modification of oxide catalysts in the process of synthesis of organic compounds from CO and H2O using γ-resonance spectroscopy”, Russian Chem. Bull., 24(12), 1975, pp. 2551-2555.
Malet, P., Benitez, J. J., Capitan, M. J., Centeno, M. A., Carrizosa, I., Odriozola, J. A., “EXAFS and DRIFTS study of lanthanide doped rhodium catalysts”, Catal. Lett., 18(1-2), 1993, pp. 81-97.
Malinovskaya, O. A., Rozovskii, A. Ya., Zolotarskii, I. A., Lender, Yu. V., Matros, Yu. Sh., Lin, G. I., Dubovich, G. V., Popova, N. A., Savostina, N. V., “Synthesis of methanol on Cu-based catalyst: Kinetic model”, React. Kinet. Catal. Lett., 34(1), 1987, pp. 87-92.
Mann, R. F., Amphlett, J. C., Peppley, B., Thurgood, C. P., “A Mechanistic Model for the Water Gas Shift Reaction Over Commercial Catalysts Containing CuO/ZnO”, Internat. J. Chem. React. Eng., 2, 2004, A5.
Mao, D., Zhang, B., Song, Q., Yang, W., Chen, Q., “Effect of Mg-Modified HZSM-5 on Catalytic Performance of Cu-ZnO-Al2O3/HZSM-5 for Direct Synthesis of Dimethyl Ether from Syngas”, Chinese J. Catal., 26(5), 2005, pp. 365-370.
Marcelin, G., Lester, J. E., “Effect of supports on the energetics of CO chemisorption on rhodium catalysts”, React. Kinet. Catal. Lett., 28(2), 1985, pp. 281-286.
Marchi, A. J., Apesteguía, C. R., “Alcohol formation from synthesis gas: A thermodynamic study”, React. Kinet. Catal. Lett., 31(1), 1986, pp. 107-112.
Mariano, A. P., de Toledo, E. C. D., da Silva, J. M. F., Maciel, M. R. W., Filho, R. M., “Development of a software for simulation analysis of the phenomenon of phase change of three-phase catalytic slurry reactor”, Computers & Chem. Eng., 29(6), 2005, pp. 1369-1378.
Marsh, E. M., Petitto, S. C., Harbison, G. S., Wulser, K. W., Langell, M. A., “Deconvolution of the Co3O4(110) Fuchs-Kliewer phonon spectrum”, J. Vac. Sci. Tech. A, 23(4), 2005, pp. 1061-1066.
Martin, A., Lücke, B., Jaeger, N. J., Schulz-Ekloff, G., Gutschick, D., Miessner, H., “Metal dispersion dependent selectivities for syngas conversion on faujasite X hosted rhodium”, Catal. Lett., 13(3), 1992, pp. 247-259.
Martín, M., Montes, F. J., Galán, M. A., “Numerical calculation of shapes and detachment times of bubbles generated from a sieve plate”, Chem. Eng. Sci., 61(2), 2006, pp. 363-369.
Martínez, A., López, C., “The influence of ZSM-5 zeolite composition and crystal size on the in situ conversion of Fischer–Tropsch products over hybrid catalysts”, Appl. Catal. A, 294(2), 2005, pp. 251-259.
Martinez, A., Lopez, C., Peris, E., Corma, A., “In situ transformation of Fischer-Tropsch products into high-octane gasoline-range hydrocarbons by using hybrid zeolite-based catalysts”, Stud. Surf. Sci. Catal., 158B, 2005, pp. 1327-1334.
Martra, G., Marchese, L., Arena, F., Parmaliana, A., Coluccia, S., “Surface structure of Ni/MgO catalysts: Effects of carbon and hydrogen on the reactivity towards CO. HRTEM and FTIR studies”, Top. Catal., 1(1-2), 1994, pp. 63-73.
Maruya, K.-I., “Synergic enhancement effect of zirconium oxide, cerium oxide and iron or cobalt oxide on the formation of isobutene from CO and H2”, Catal. Lett., 24(3-4), 1994, pp. 349-354.
Maruya, K.-I., Ito, K., Kushihashi, K., Kishida, Y., Domen, K., Onishi, T., “Isoprene formation from CO and H2 over CeO2 catalysts”, Catal. Lett., 14(1), 1992, pp. 123-126.
Marvast, M. A., Sohrabi, M., Zarrinpashne, S., Baghmisheh, G., “Fischer-Tropsch Synthesis: Modeling and Performance Study for Fe-HZSM5 Bifunctional Catalyst”, Chem. Eng. Tech., 28(1), 2005, pp. 78-86.
Mashinskii, V. I., Postnikov, V. A., Novikov, Yu. N., Lapidus, A. L., Vol'pin, M. E., Éidus, Ya. T., “The catalytic activity of laminar compounds of graphite with transition metals in the synthesis of hydrocarbons from CO and H2”, Russian Chem. Bull., 25(9), 1976, pp. 1894-1896.
Matjie, R. H., Scurrell, M. S., Bunt, J., “The selective dissolution of alumina, cobalt and platinum from a calcined spent catalyst using different lixiviants”, Minerals Eng., 18(8), 2005, pp. 801-810.
Matsuzaki, T., Hanaoka, T.-A., Takeuchi, K., Sugi, Y., Reinikainen, M., “Effects of modification of highly dispersed cobalt catalysts with alkali cations on the hydrogenation of carbon monoxide”, Catal. Lett., 10(3-4), 1991, pp. 193-199.
Mattheij, V. M. G., “Synthesis of light olefins on cobalt catalysts by way of the Fischer-Tropsch reaction : kinetics of the reaction”, Dissertation, Technische Hogeschool Eindhoven, 1977.
Matveev, A. I., Maksimov, Yu. V., Suzdalev, I. P., Makarov, E. F., Kushnerev, M. Ya., Kravtsov, A. V., Golovko, A. K., “A Mössbauer investigation of the structure of modified SA-I catalyst for synthesizing organic compounds from CO and H2O”, Russian Chem. Bull., 25(7), 1976, pp. 1377-1379.
Maxey, M. R., Patel, B. K., Chang, E. J., Wang, L.-P., “Simulations of dispersed turbulent multiphase flow”, Fluid Dynamics Research, 20(1-6), 1997, pp. 143-156.
Maxwell, I. E., Naber, J. E., “New and improved catalytic processes for clean fuels”, Catal. Lett., 12(1-3), 1992, pp. 105-115.
McCartney, J. T., Anderson, R. B., “Crystalline Aggregation of Cobalt Powder”, J. Appl. Phys., 18(10), 1947, pp. 902-903.
McQuillan, K. W., Whalley, P. B., “Flow patterns in vertical two-phase flow”, Internat. J. Multiphase Flow, 11(2), 1985, pp. 161-175.
Meeks, Th. H. M., “Synthese van lichte olefines via de Fischer-Tropsch reaktie”, Dissertation, Technische Hogeschool Eindhoven, 1975.
Melsheimer, J., Guo, W., Ziegler, D., Wesemann, M., Schlögl, R., “Methanation of carbon dioxide over Ru/Titania at room temperature: explorations for a photoassisted catalytic reaction”, Catal. Lett., 11(2), 1991, pp. 157-168.
Mena, P. C., Ruzicka, M. C., Rocha, F. A., Teixeira, J. A., Drahos, J., “Effect of solids on homogeneous-heterogeneous flow regime transition in bubble columns”, Chem. Eng. Sci., 60(22), 2005, pp. 6013-6026.
Meshcheryakov, A. P., Erzyutova, E. I., Chun'-I, G., “Catalytic synthesis of high-density C20-C38 isoparaffins”, Russian Chem. Bull, 10(12), 1961, pp. 2055-2059.
Miessner, H., Orita, H., Naito, S., Tamaru, K., “CO hydrogenation on a highly loaded Rh/TiO2 catalyst and the influence of strong metal-support interaction”, React. Kinet. Catal. Lett., 28(2), 1985, pp. 295-300.
Mikhailov, B. M., Bogdanov, V. S., Kiselev, V. G., “Reduction of carbon dioxide with hydrogen under the influence of fast electrons”, Russian Chem. Bull., 14(7), 1965, pp. 1236-1237.
Mikhailov, B. M., Kiselev, V. G., Bogdanov, V. S., “Conversion of water gas under the action of fast electrons”, Russian Chem. Bull., 13(8), 1964, pp. 1430-1432.
Milhet, M., Pauly, J., Coutinho, J. A. P., Dirand, M., Daridon, J. L., “Liquid-solid equilibria under high pressure of tetradecane+pentadecane and tetradecane+hexadecane binary systems”, Fluid Phase Equ., 235(2), 2005, pp. 173-181.
Millar, G. J., Rochester, C. H., Waugh, K. C., “An in situ high pressure FT-IR study of CO2/H2 interactions with model ZnO/SiO2, Cu/SiO2 and Cu/ZnO/SiO2 methanol synthesis catalysts”, Catal. Lett., 14(3-4), 1992, pp. 289-295.
Minachev, Kh. M., Kotyaev, K. P., Lin, G. I., Rozovskii, A. Y., “Temperature-programmed surface reactions of methanol on commercial Cu-containing catalysts”, Catal. Lett., 3(4), 1989, pp. 299-307.
Minachev, Kh. M., Shpiro, E. S., “Formation of the active surface of zeolite catalysts for hydrocarbon synthesis and conversion”, React. Kinet. Catal. Lett., 35(1-2), 1987, pp. 195-206.
Minachev, Kh. M., Shuikin, N. I., Feofanova, L. M., “Transformations of n-heptane over oxide-Metal catalysts in a flow system in presence of hydrogen under pressure”, Russian Chem. Bull., 7(3), 1958, pp. 290-292.
Minachev, Kh. M., Shuikin, N. I., Feofanova, L. M., Egorov, Yu. P., “High-temperature reactions of decane over platinized alumina in presence of hydrogen at high pressure”, Russian Chem. Bull., 5(3), 1956, pp. 337-341.
Minachev, Kh. M., Shuikin, N. I., Feofanova, L. M., Egorov, Yu. P., “High-temperature transformations of n-nonane on a platinized aluminum silicate in a flow system in presence of hydrogen at high pressure”, Russian Chem. Bull., 6(10), 1957, pp. 1241-1245.
Minachev, Kh. M., Shuikin, N. I., Feofanova, L. M., Egorov, Yu. P., “Transformations of n-undecane in presence of various Group VIII metals and hydrogen under pressure in a flow system”, Russian Chem. Bull., 7(2), 1958, pp. 162-167.
Minachev, Kh. M., Shuikin, N. I., Markov, M. A., “Effect of the specific surface of platinized aluminum silicate on the conversion of nonane: Communication 1. Change in the catalytic activity of platinized aluminum silicate on treatment of the carrier with hydrogen”, Russian Chem. Bull., 9(5), 1960, pp. 844-848.
Minachev, Kh. M., Shuikin, N. I., Markov, M. A., “Effect of the specific surface of platinized aluminum silicate on the conversion of nonane: Communication 2. Change of the catalytic activity of platinized aluminum silicate on treatment of the carrier with steam”, Russian Chem. Bull., 9(8), 1960, pp. 1362-1365.
Mirodatos, C., Pereira, E. B., Cobo, A. G., Dalmon, J. A., Martin, G. A., “CO hydrogenation over Ni- and Co-based catalysts: Influence of alkali addition on morphological and catalytic properties”, Top. Catal., 2(1-4), 1995, pp. 183-192.
Mirzaei, A. A., Habibpour, R., Kashi, E., “Preparation and optimization of mixed iron cobalt oxide catalysts for conversion of synthesis gas to light olefins”, Appl. Catal. A, 256(2), 2005, pp. 222-231.
Mitov, I., Asenov, S., Tomov, T., Andreev, A., “In situ Mössbauer spectroscopic investigation of iron-oxide based water-gas shift catalysts”, React. Kinet. Catal. Lett., 50(1-2), 1993, pp. 145-150.
Mitsudo, T.-A., Komiya, Y., Boku, H., Watanabe, Y., “Selective hydrogenation of carbon monoxide to light olefins catalyzed by supported potassium tetracarbonylhydridoferrate”, React. Kinet. Catal. Lett., 27(2), 1985, pp. 399-402.
Mohammed, M. S., “Optimierung der Fischer-Tropsch-Fluessigphasesynthese in Richtung maximaler Raum-Zeit-Ausbeute an kurkzettigen C2-C4-Olefinen”, Technische Universitaet Berlin, 1977.
Mokhatab, S., “Fundamentals of Multiphase Flow”, Canadian J. Chem. Eng., 83(5), 2005, pp. 911-911.
Molina, W., Perrichon, V., Sneeden, R. P. A., Turlier, P., “Hydrocondensation of CO on iron-alumina catalysts. Influence of ethylene”, React. Kinet. Catal. Lett., 13(1), 1980, pp. 69-75.
Monahan, S. M., Vitankar, V. S., Fox, R. O., “CFD Predictions for Flow-Regime Transitions in Bubble Columns”, AIChE J., 51(7), 1005, pp. 1897-1923.
Montes, A., Perot, G., Guisnet, M., “Coke formation during hydroisomerization and hydrocracking of normal paraffins on physically mixed catalysts containing hydrogen-mordenite”, React. Kinet. Catal. Lett., 13(1), 1980, pp. 77-81.
Moraga, F. J., Larreteguy, A. E., Drew, D. A., Lahey, Jr., R. T., “A center-averaged two-fluid model for wall-bounded bubbly flows”, Computers & Fluids, 35(4), 2006, pp. 429-461.
Moral, P., Praliaud, H., Martin, G.-A., “Potassium addition to Fe/MgO, Ni/MgO and Ni/SiO2: Reducibility, dispersity and stabilization of the promoter by the support”, React. Kinet. Catal. Lett., 34(1), 1987, pp. 1-7.
Morales, F., Grandjean, D., De Groot, F. M. F., Stephan, O., Weckhuysen, B. M., “Combined EXAFS and STEM-EELS study of the electronic state and location of Mn as promoter in Co-based Fischer-Tropsch catalysts”, Phys. Chem. Chem. Phys., 7(4), 2005, pp. 568-572.
Mori, T., “Rate measurement by pulse technique for individual steps involved in CO hydrogenation and its application to catalyst design”, Catal. Lett., 7(1-4), 1990, pp. 151-155.
Mori, T., Miyamoto, A., Niizuma, H., Hattori, T., Murakami, Y., “Effect of alkaline additives on the C−O bond dissociation of adsorbed CO in methanation over Ru/Al2O3 catalyst”, React. Kinet. Catal. Lett., 26(3-4), 1984, pp. 335-338.
Muhler, M., Törnqvist, E., Nielsen, L. P., Clausen, B. S., Topsøe, H., “On the role of adsorbed atomic oxygen and CO2 in copper based methanol synthesis catalysts”, Catal. Lett., 25(1-2), 1994, pp. 1-10.
Mukherjee, M., Sundaresan, S., “ExStol: Exelus Synthesis Gas-to-Liquids Technology”, ACS Div. Fuel Chem. Prepr., 50(2), 2005, p. 758.
Mul, J. N. W., “De Fischer Tropsch synthese met sulfaat-houdende cobaltkatalysatoren : verhoging van de olefineselektiviteit door sulfaat promotie?”, Dissertation, Technische Hogeschool Eindhoven, 1984.
Munholand, L., Soucy, G., “Comparison of four conductive needle probe designs for determination of bubble velocity and local gas holdup”, Rev. Sci. Instrum., 76, 2005, pp. 95-101.
Mutelet, F., Vitu, S., Privat, R., Jaubert, J.-N., “Solubility of CO2 in branched alkanes in order to extend the PPR78 model (predictive 1978, Peng–Robinson EOS with temperature-dependent k ij calculated through a group contribution method) to such systems”, Fluid Phase Eq., 238(2), 2005, pp. 157-168.
Nagai, M., Kurakami, T., “Reverse Water Gas Shift Reaction over Molybdenum Carbide”, J. Chem. Eng. Japan, 38(10), 2005, pp. 807-812.
Nahon, N., Perrichon, V., Turlier, P., “Hydrocondensation of CO: Catalytic activity of modified iron-alumina catalysts”, React. Kinet. Catal. Lett., 12(2), 1979, pp. 139-144.
Nahon, N., Perrichon, V., Turlier, P., Bussière, P., “Hydrocondensation of Co: Physicochemical studies of H2 activation-thermodesorption cycles on iron alumina catalysts”, React. Kinet. Catal. Lett., 11(3), 1979, pp. 281-286.
Nakamura, J., Choi, Y., Fujitani, T., “On the Issue of the Active Site and the Role of ZnO in Cu/ZnO Methanol Synthesis Catalysts”, Top. Catal., 22(3-4), 2003, pp. 277-285.
Nakamura, J., Nakamura, I., Uchijima, T., Kanai, Y., Watanabe, T., Saito, M., Fujitani, T., “Methanol synthesis over a Zn-deposited copper model catalyst”, Catal. Lett., 31(4), 1995, pp. 325-331.
Nakamura, T., Fujita, K., Kawanishi, K., Yamaguchi, N., Tsuge, A., “Study on the Vibrational Characteristics of a Tube Array Caused by Two-Phase Flow. Part I: Random Vibration”, J. Fluids & Structures, 9(5), 1995, pp. 519-538.
Nakamura, T., Fujita, K., Kawanishi, K., Yamaguchi, N., Tsuge, A., “Study on the Vibrational Characteristics of a Tube Array Caused by Two-Phase Flow. Part II: Fluidelastic Vibration”, J. Fluids & Structures, 9(5), 1995, pp. 539-562.
Nakoryakov, V. E., Pokusaev, B. G., Pribaturin, N. A., Lezhnin, S. I., “Pressure wave dynamics in slug regime of gas-liquid flows”, in “Transient Phenomena in Multiphase Flow” (N. H. Afgan, ed.), Hemisphere Publishing, New York, 1988, pp. 387-394.
Nasirzadeh, K., Neueder, R., Kunz, W., “Vapor Pressure Determination of the Aliphatic C5 to C8 1-Alcohols”, J. Chem. Eng. Data., 51(1), 2006, pp. 7-10.
Navarro, R. M., Alvarez-Galvan, M. C., Rosa, F., Fierro, J. L. G., “Hydrogen production by oxidative reforming of hexadecane over Ni and Pt catalysts supported on Ce/La-doped Al2O3”, Appl. Catal. A, 297(1), 2006, pp. 60-72.
Nefedov, B. K., Eidus, Ya. T., “The Development Of Catalytic Syntheses Of Organic Compounds From Carbon Monoxide And Hydrogen”, Russian Chem. Rev., 34(4), 1965, pp. 272-284.
Nelson, S. G., Spencer, M. J. S., Snook, I. K., Yarovsky, I., “Effect of S contamination on properties of Fe(100) surfaces”, Surf. Sci., 590(1), 2005, pp. 63-75.
Nerlov, J., Chorkendorff, I., “Promotion through gas phase induced surface segregation: methanol synthesis from CO, CO2 and H2 over Ni/Cu(100)”, Catal. Lett., 54(4), 1998, pp. 171-176.
Nesterov, G. A., Paukshtis, E. A., Zakharov, V. A., “IR spectroscopic studies of CO interaction with surface zirconium hydrides”, React. Kinet. Catal. Lett., 26(3-4), 1984, pp. 357-361.
Nghiem, V. T., Sapaly, G., Mériaudeau, P., Naccache, C., “Monodimensional tubular medium pore molecular sieves for selective hydroisomerisation of long chain alkanes: n-octane reaction on ZSM and SAPO type catalysts”, Top. Catal., 14(1-4), 2000, pp. 131-138.
Ngwenya, T., Glasser, D., Hildebrandt, D., Coville, N., Mukoma, P., “Fischer-Tropsch Results and Their Analysis for Reactor Synthesis”, Ind. Eng. Chem. Res., 44(16), 2005, pp. 5987-5994.
Nickens, H. V., Yannitell, D. W., “The effects of surface tension and viscosity on the rise velocity of a large gas bubble in a closed, vertical liquid-filled tube”, Internat. J. Multiphase Flow, 13(1), 1987, pp. 57-69.
Niemelä, M. K., “Catalytic Reactions of Synthesis Gas, Part I: Methanation and CO Hydrogenation”, Ind. Chem. Publ. Ser., 1, HUT, Espoo, Finland, 1992, p. 85.
Niemelä, M. K., “Catalytic Reactions of Synthesis Gas, Part II: Methanol Carbonylation and Homologation”, Ind. Chem. Publ. Ser., 2, HUT, Espoo, Finland, 1993, p. 24.
Niemelä, M. K., “Catalytic Reactions of Synthesis Gas, Part III: Determination of Reaction Kinetics”, Ind. Chem. Publ. Ser., 4, HUT, Espoo, Finland, 1993, p. 34.
Niemelä, M. K., “Catalytic Reactions of Synthesis Gas, Part IV: Heterogeneous hydroformylation”, Ind. Chem. Publ. Ser., 5, HUT, Espoo, Finland, 1994, p. 23.
Niemelä, M. K., “Reactions of synthesis gas on silica supported transition metal catalysts”, Dr. Thesis, VTT Publications 310, Espoo, Finland, 1997.
Nikitin, E. D., Popov, A. P., “Vapor-liquid critical properties of squalane measured by the pulse-heating technique”, Fluid Phase Eq., 237(1-2), 2006, pp. 16-20.
Nikolova, D., Edreva-Kardjieva, R., Gouliev, G., Grozeva, T., Tzvetkov, P., “The state of (K)(Ni)Mo/gamma-Al2O3 catalysts after water-gas shift reaction in the presence of sulfur in the feed: XPS and EPR study”, Appl. Catal. A, 297(2), 2006, pp. 135-144.
Nissenbaum, V. D., Rozanov, V. V., Gel'man, V. N., Golosman, E. Z., Rubinshtein, A. M., Krashennikov, S. V., Yakerson, V. I., “Thermal desorption in catalytic systems 13. The surface adsorption of H2O, CO, and CO2 on copper oxide-zinc-aluminum-calcium catalysts for low-temperature conversion of carbon monoxide”, Russian Chem. Bull., 27(10), 1978, pp. 1972-1977.
Nitta, Y., Suwata, O., Ikeda, Y., Okamoto, Y., Imanaka, T., “Copper-zirconia catalysts for methanol synthesis from carbon dioxide: Effect of ZnO addition to Cu-ZrO2 catalysts”, Catal. Lett., 26(3-4), 1994, pp. 345-354.
Nogin, Yu. N., Chesnokov, N. V., Kovalchuk, V. I., “Organometallics derived (Pd + Ln)/SiO2 catalysts for the reactions of synthesis gas conversion”, Catal. Lett., 23(1-2), 1994, pp. 79-86.
Nonneman, L. E. Y., Ponec, V., “On the problem of the activity in methanol synthesis of supported, unpromoted copper catalysts”, Catal. Lett., 7(1-4), 1990, pp. 213-217.
Nosova, L. V., Zaikovskii, V. I., Ryndin, Yu. A., “Catalytic properties of PdCu/Al2O3 system obtained via anchored metal complexes”, React. Kinet. Catal. Lett., 53(1), 1994, pp. 131-138.
Nováková, J., Kubelková, L., Dolejsek, Z., Wichterlová, B., Kolihová, D., Andera, V., “Modification of Fe species in FeNaY zeolite by NaCl treatment”, React. Kinet. Catal. Lett., 21(3), 1982, pp. 273-276.
Novikov, I. I., Zakharenko, V. P., Zuev, A. N., Ishchenko, I. I., Kozachek, V. N., Morozov, N. M., Porotskii, M. B., “A solution of the problem of compressing synthesis gas without oil contamination in piston compressors”, Chem. Petrol. Eng., 14(11), 1978, pp. 988-991.
Nuñez, G. M., Rouco, A. J., “Strong H2 chemisorption on Al2O3 or SiO2 supported group VIII metals”, React. Kinet. Catal. Lett., 30(1), 1986, pp. 121-127.
Ohyama, S., “Low-Temperature Methanol Synthesis in Catalytic Systems Composed of Copper-Based Oxides and Alkali Alkoxides in Liquid Media: Effects of Reaction Variables on Catalytic Performance”, Top. Catal., 22(3-4), 2003, pp. 337-343.
Okabe, K., Li, X., Toba, M., Yoshimura, Y., “Fischer-Tropsch synthesis over bimodal Co-Ir-SiO2 catalysts prepared by the alkoxide method”, React. Kinet. Catal. Lett., 86(1), 2005, pp. 3-10.
Olfer'eva, T. G., Krasavin, S. A., Bragin, O. V., “Role of hydrogen in transformations of alkanes and olefins on platinized carbon”, Russian Chem. Bull., 29(11), 1980, pp. 1778-1782.
Olschar, M., Dimmig, T., Kuchling, T., “Erzeugung von Kraftstofffraktionen aus Fischer-Tropsch-Wachsen durch Hydrocracken”, Chem.-Ing.-Tech., 77(8), 2005, p. 1173.
Olszowski, S. T., Coulthard, J., Sayles, R. S., “Measurement of dispersed two-phase gas-liquid flow by cross correlation of modulated ultrasonic signals”, Internat. J. Multiphase Flow, 2(5-6), 1976, pp. 537-548.
Omota, F., Dimian, A. C., Bliek, A., “Adhesion of solid particles to gas bubbles. Part 1: Modelling”, Chem. Eng. Sci., 61(2), 2006, pp. 823-834.
Omota, F., Dimian, A. C., Bliek, A., “Adhesion of solid particles to gas bubbles. Part 2: Experimental”, Chem. Eng. Sci., 61(2), 2006, pp. 835-844.
Orlov, Kh. Ya., Martynov, A. A., “Catalytic conversions of high-molecular paraffins Communication 3. Influence of the addition of benzene in the isomerization of n-octadecane in the presence of the industrial catalyst WS2”, Russian Chem. Bull., 14(5), 2005, pp. 778-781.
Orlov, Kh. Ya., Martynov, A. A., Bulychev, V. P., “Catalytic transformations of paraffins of high molecular weight”, Russian Chem. Bull., 12(9), 1963, pp. 1492-1496.
Orlov, Kh. Ya., Martynov, A. A., Bulychev, V. P., “Catalytic transformations of high-molecular paraffins Communication 2. Isomerization of n-octadecane in the presence of industrial catalysts WS2 and WS2+ aluminosilicates”, Russian Chem. Bull., 14(5), 1965, pp. 774-777.
Orlova, L. B., Lokhov, Yu. A., Ione, K. G., Davydov, A. A., “Use of the IR spectra of adsorbed CO to investigate the state of nickel in zeolites”, Russian Chem. Bull., 28(9), 1979, pp. 1794-1798.
Ortelli, E. E., Weigel, J. M., Wokaun, A., “Methanol synthesis pathway over Cu/ZrO2 catalysts: a time resolved DRIFT 13C labelling experiment”, Catal. Lett., 54(1-2), 1998, pp. 41-48.
Ovchinnikova, A. V., Boldinov, V. A., Esipko, E. A., Prozorova, I. S., “Effect of n-Paraffins on the Low-Temperature Properties of Aviation Diesel Fuel”, Chem. Tech. Fuels Oils, 41(6), 2005, pp. 462-467.
Panich, N. M., Lagutina, T. A., Pirogova, G. N., “Hydrogenation of carbon monoxide over technetium catalysts”, Russian Chem. Bull., 41(7), 1992, pp. 1161-1164.
Pankina, G. V., Chernavskii, P. A., Lunin, V. V., “Magnetic Methods in a Study of the Effect of the Pore Structure of Silica Gels on the Particle Size of Cobalt in Catalysts for the Fischer–Tropsch Synthesis”, Kinet. Catal., 46(5), 2005, pp. 719-723.
Panpranot, J., Kaewgun, S., Praserthdam, P., “Metal-support interaction in mesoporous silica supported cobalt Fischer-Tropsch catalysts”, React. Kinet. Catal. Lett., 85(2), 2005, pp. 299-304.
Panpranot, J., Taochaiyaphum, N., Praserthdam, P., “Glycothermal synthesis of nanocrystalline zirconia and their applications as cobalt catalyst supports”, Materials Chem. Phys., 94(2-3), 2005, pp. 207-212.
Panpranot, J., Taochaiyaphum, N., Praserthdam, P., “Effect of Si addition on the properties of nanocrystalline ZrO2-supported cobalt catalysts”, React. Kinet. Catal. Lett., 87(1), 2005, pp. 185-190.
Panteleev, V. A., Beskov, V. S., Shumilkina, V. A., “Choice of conditions for activity measurements of commercial methanation catalysts”, React. Kinet. Catal. Lett., 19(3-4), 1982, pp. 311-316.
Paping, L. L. M. J., “Synthesis of light olefins by way of the Fischer-Tropsch reaction”, Dissertation, Technische Hogeschool Eindhoven, 1976.
Park, K. Y., Seo, W. K., Lee, J. S., “Selective synthesis of light olefins from syngas over potassium-promoted molybdenum carbide catalysts”, Catal. Lett., 11(3-6), 1991, pp. 349-356.
Paryjczak, T., Góralski, J., Jóźwiak, K., “Chemisorption of H2, O2 and CO on bimetallic catalysts Rh−Ag/Al2O3”, React. Kinet. Catal. Lett., 16(2-3), 1981, pp. 111-114.
Paryjczak, T., Karski, St., “Study of CO and H2 sorption on supported bimetallic Pd−Pb catalysts”, React. Kinet. Catal. Lett., 14(3), 1980, pp. 307-310.
Paryjczak, T., Rynkowski, J., Krzyzanowski, K., “Thermoprogrammed reduction of Co/Al2O3 catalyst”, React. Kinet. Catal. Lett., 26(3-4), 1984, pp. 253-257.
Paryjczak, T., Zielinski, P., Farbotko, J. M., “Temperature-programmed reduction of bimetallic Ir−Fe/Al2O3 catalysts”, React. Kinet. Catal. Lett., 30(1), 1986, pp. 55-62.
Paryjczak, T., Zielinski, P., Józwiak, W. K., “Temperature programmed reduction and oxidation of Ir/Al2O3 catalysts”, React. Kinet. Catal. Lett., 29(1), 1985, pp. 167-173.
Patzschke, G., “Zur Aufklaerung des primaeren Reaktionsschrittes bei der Fischer-Tropsch-Synthese”, Dissertation, Technische Universitaet Berlin, 1964.
Paul, J., Hoffmann, F. M., “CO2 conversion and oxalate stability on alkali promoted metal surfaces: Sodium modified Al(100)”, Catal. Lett., 1(12), 1988, pp. 445-455.
Paushkin, Ya. M., Lapidus, A. L., Adel'son, S. V., “Plant biomass as raw material for the production of olefins and motor fuels”, Chem. Tech. Fuels Oils, 30(6), 1994, pp. 249-252.
Paushkin, Ya. M., Losev, Yu. P., Anan'ev, P. G., “Supression of cracking of low-molecular (C7–C16) and high-molecular hydrocarbons (polyolefins) by alkali metals and their hydroxides”, Russian Chem. Bull., 18(6), 1969, pp. 1176-1182.
Paushkin, Ya. M., Orlov, Kh. Ya., “The isomerization of higher n-paraffines C15-C18”, Russian Chem. Bull., 10(4), 1961, pp. 607-612.
Payne, S. H., McEwen, J.-S., Kreuzer, H. J., Menzel, D., “Adsorption and desorption of CO on Ru(0001): A comprehensive analysis”, Surf. Sci., 594(1-3), 2005, pp. 240-262.
Pelipenko, V. V., Kochubey, D. I., Khassin, A. A., Yurieva, A. T., “Evolution of the Cu/ZnO methanol synthesis catalyst during its reduction and re-oxidation”, React. Kinet. Catal. Lett., 86(2), 2005, pp. 307-314.
Perregaard, J., “Methanol synthesis at near-critical conditions combined with ATR synthesis gas technology. The technology choice for large-scale methanol production”, Catal. Today, 106(1-4), 2005, pp. 99-102.
Pető, G., Molnár, G., Bogdányi, G., Guczi. L., “Valence band density of states of small cobalt particles on Si(111) substrate”, Catal. Lett., 26(3-4), 1994, pp. 383-392.
Petrov, Al. A., Sergienko, S. R., Tsedilina, A. L., Teterina, M. P., “Isomerization of saturated hydrocarbons Communication 2. Isomeric transformations of C12 -C16 paraffins”, Russian Chem. Bull., 7(5), 1958, pp. 557-564.
Petrov, Al. A., Sergienko, S. R., Tsedlina, A. L., Teterina, M. P., Kislinskii, A. N., Gal'pern, G. D., “Isomerization of saturated hydrocarbons”, Russian Chem. Bull., 7(4), 1958, pp. 419-426.
Petrova, G. N., Titkov, A. N., Gal'chenko, Yu. A., Efimov, O. N., “Electrocatalytic reduction of carbon monoxide on an aluminum electrode modified with iron and manganese”, Russian Chem. Bull., 38(1), 1989, pp. 2018-2020.
Pettigrew, D. J., Trimm, D. L., Cant, N. W., “The effects of rare earth oxides on the reverse water-gas shift reaction on palladium/alumina”, Catal. Lett., 28(2-4), 1994, pp. 313-319.
Petushkov, V. A., “Phase Interaction in a Vapor-Liquid Medium in Transient Flow Regimes”, Fluid Dynam., 40(3), 2005, pp. 413-425.
Pilz, R. D., Hempel, D. C., “Mechanical stress on suspended particles in two- and three-phase airlift loop reactors and bubble columns”, Chem. Eng. Sci., 60(22), 2005, pp. 6004-6012.
Plesset, M. S., “The dynamics of vapor bubbles”, in “Transient Phenomena in Multiphase Flow” (N. H. Afgan, ed.), Hemisphere Publishing, New York, 1988, pp. 65-76.
Poels, E. K., “Synthesis gas reactions on Pd and Rh catalysts: selectivity of metal catalysts in the formation of oxygenated products”, Dissertation, Rijksuniversiteit Leiden, 1984.
Poels, E. K., van Broekhoven, E. H., van Barneveld, W. A. A., Ponec, V., “Synthesis gas reactions on Pd-catalysts”, React. Kinet. Catal. Lett., 18(1-2), 1982, pp. 223-228.
Pohorecki, R., Moniuk, W., Bielski, P., Sobieszuk, P., “Diameter of Bubbles in Bubble Column Reactors Operating with Organic Liquids”, Chem. Eng. Res. Des., 83(7), 2005, pp. 827-832.
Pohorecki, R., Moniuk, W., Bielski, P., Sobieszuk, P., Dąbrowiecki, G., “Bubble diameter correlation via numerical experiment”, Chem. Eng. J., 113(1), 2005, pp. 35-39.
Polifke, W., Brandt, M., Gharaibah, E., “Modeling of Mixing and Reaction in Turbulent Multi-Phase Flows with Distribution Functions”, Chem. Eng. Tech., 28(6), 2005, pp. 654-658.
Pomrehn, H., “Modifizierte Fischer-Tropsch-Synthese”, Dissertation, Akademie der Wissenschaften der DDR, Berlin, 1978.
Popova, N. M., Babenkova, L. V., “TPD studies of hydrogen adsorption on group VIII metals”, React. Kinet. Catal. Lett., 11(2), 1979, pp. 187-192.
Potoczna-Petru, D., Kępiński, L., “Effect of oxidation-reduction treatment on the behavior of model silica supported cobalt catalyst”, Catal. Lett., 9(5-6), 1991, pp. 355-362.
Poulina, R. R., “Bepaling van de "turnover"-frequentie van Fischer-Tropsch katalysatoren door middel van pulsexperimenten”, Dissertation, Technische Hogeschool Eindhoven, 1980.
Prohaska, B., “Fischer-Tropsch -- The Future Refinery Technology?”, NAFTA, 53(6-7), 2002, p. 204.
Prudnikova, O. Yu., Makarova, O. V., Yurieva, T. M., “Active state of copper in catalysts for low-temperature methanol synthesis”, React. Kinet. Catal., Lett., 14(4), 1980, pp. 413-416.
Puzitskii, K. V., Éidus, Ya. T., Khudyakov, Yu. T., “Course of the hydrocondensation of carbon monoxide with ethylene under a pressure of 10 atmos”, Russian. Chem. Bull., 8(5), 1959, pp. 913-915.
Pyatnitskii, Yu. I., “Effects of adsorbate interactions on the product distribution in Fischer-Tropsch synthesis”, Theor. Experim. Chem., 25(1), 1989, pp. 87-89.
Qiao, S. Z., Bhatia, S. K., “Diffusion of Linear Paraffins in Nanoporous Silica”, Ind. Eng. Chem. Res., 44(16), 2005, pp. 6477-6484.
Qin, D.-Y., Gao, Z., Qiu, Y.-M., Dong, S.-Z., “Hydrogenation of CO over carbides of tungsten”, Chinese J. Chem., 10(1), 1992, p. 5.
Qin, X., Xianxiang, S., Pinliang, Y., Xiexian, G., “Interaction between metal and support: Effects of support acidity on adspecies of CO over Ru”, React. Kinet. Catal. Lett., 31(2), 1986, pp. 279-283.
Rados, N., Al-Dahhan, M. H., Dudukovic, M. P., “Dynamic Modeling of Slurry Bubble Column Reactors”, Ind. Eng. Chem. Res., 44(16), 2005, pp. 6086-6094.
Rados, N., Shaikh, A., Al-Dahhan, M. H., “Solids flow mapping in a high pressure slurry bubble column”, Chem. Eng. Sci., 60(22), 2005, pp. 6067-6072.
Rafique, M., Chen, P., Dudukovic, M. P., “Computational Modeling of Gas-Liquid Flow in Bubble Columns”, Rev. Chem. Eng., 20(3-4), 2004, p. 225.
Rahimpour, M. R., Moghtaderi, B., Jahanmiri, A., Rezaie, N., “Operability of an Industrial Methanol Synthesis Reactor with Mixtures of Fresh and Partially Deactivated Catalyst”, Chem. Eng. Tech., 28(2), 2005, pp. 226-234.
Rajumon, M. K., Hegde, M. S., Rao, C. N. R., “Adsorption of carbon monoxide on Ni/Ti and Ni/TiO2 surfaces preparedin situ in the electron spectrometer: A combined UPS-XPS study”, Catal. Lett., 1(11), 1988, pp. 351-359.
Ravichandran, G., Chakrabarty, D. K., “Selective synthesis of C2-C4 hydrocarbons from CO + H2 on composite catalysts”, Catal. Lett., 22(3), 1993, pp. 179-187.
Ravishankar, R., Li, M. M., Borgna, A., “Novel utilization of MCM-22 molecular sieves as supports of cobalt catalysts in the Fischer-Tropsch synthesis”, Catal. Today, 106(1-4), 2005, pp. 149-153.
Read, P., Lermit, J., “Bio-energy with carbon storage (BECS): A sequential decision approach to the threat of abrupt climate change”, Energy, 30(14), 2005, pp. 2654-2671.
Reese, J., Chen, R. C., Fan, L. S., “Three-dimensional particle image velocimetry for use in three-phase fluidization systems”, Experim. Fluids, 19(6), 1995, pp. 367-378.
Ren, X.-T., Li, N., Cao, J.-Q., Wang, Z.-Y., Liu, S. Y., Xiang, S.-H., “Hydroisomerization of n-decane over Pt/SAPO-41 catalyst”, Appl. Catal. A, 298, 2006, pp. 144-151.
Ressler, S., Agar, D. W., “Einsatz eines adsorptiven Reaktors am Beispiel der direkten Synthese von Dimethylether aus Synthesegas”, Chem.-Ing.-Tech., 77(8), 2005, p. 1029.
Reyes, P., Fernández, J., Concha, I., Pecchi, G., Granados, M. L., Fierro, J. L. G., “The effect of Mo on the catalytic and surface properties of Rh-Mo/ZrO2 catalysts”, Catal. Lett., 34(3-4), 1995, pp. 331-341.
Richardson, J. T., Ortego, J. D., Coute, N., Twigg, M. V., “Chloride poisoning of water-gas shift activity in nickel catalysts during steam reforming”, Catal. Lett., 41(1-2), 1996, pp. 17-20.
Riskin, I. V., Krasnoyarskii, V. V., “Protection of a carbon monoxide generator from pit corrosion”, Chem. Petrol. Eng., 9(8), 1973, pp. 775-776.
Riverol, C., Cooney, J., “A knowledge-based pattern recognition approach for the prediction of bubble size distribution in Newtonian fluids at high pressure”, Chem. Eng. J., 112(1-3), 2005, pp. 131-135.
Robbins, J. L., Iglesia, E., Kelkar, C. P., DeRites, B., “Methanol synthesis over Cu/SiO2 catalysts”, Catal. Lett., 10(1-2), 1991, pp. 1-10.
Roberg, H., “Sorptionswaermen von Kohlenoxid-Wasserstoffgemischen an Eisenkatalysatoren: zum Reaktionsmechanismus der Fischer-Tropsch-Synthese”, Dissertation, Technische Universitaet Berlin, 1973.
Robinson, W. R. A. M., “De Fischer-Tropsch synthese : Ni/silica- en Ni/kool - katalysatoren voor mechanistische studies”, Dissertation, Technische Hogeschool Eindhoven, 1981.
Rochester, C. H., “The active site for methanol synthesis on a Cu/ZnO/SiO2 catalyst”, Catal. Lett., 52(1-2), 1998, pp. 121-121.
Roeterdink, W. G., Bonn, M., Olsen, R. A., “The CO–H interaction on Pt(1 1 1) studied using temperature programmed vibrational sum frequency generation”, Chem. Phys. Lett., 412(4-6), 2005, pp. 482-487.
Roganov, G. N., Pisarev, P. N., Emel yanenko, V. N., Verevkin, S. P., “Measurement and Prediction of Thermochemical Properties. Improved Benson-Type Increments for the Estimation of Enthalpies of Vaporization and Standard Enthalpies of Formation of Aliphatic Alcohols”, J. Chem. Eng. Data, 50(4), 2005, pp. 1114-1124.
Rohde, M. P., Unruh, D., Schaub, G., “Membrane application in Fischer-Tropsch synthesis reactors-Overview of concepts”, Catal. Today, 106(1-4), 2005, pp. 143-148.
Rohde, M. P., Unruh, D., Schaub, G., “Membrane Application in Fischer-Tropsch Synthesis to Enhance CO2 Hydrogenation”, Ind. Eng. Chem. Res., 44(25), 2005, pp. 9653-9658.
Romanenko, A. V., Kuznetsov, V. L., Shepelin, A. P., Zaikovskii, V. I., Zhdan, P. A., Plyasova, L. M., Yermakov, Yu. I., “Rhodium-tin catalysts in CO hydrogenation”, React. Kinet. Catal. Lett., 21(1-2), 1982, pp. 55-58.
Roy, D., Chaudhari, R. V., “Analysis of a Gas-Liquid-Liquid-Solid Catalytic Reaction: Kinetics and Modeling of a Semibatch Slurry Reactor”, Ind. Eng. Chem. Res., 44(25), 2005, pp. 9586-9593.
Roy, S., Al-Dahhan, M., “Flow distribution characteristics of a gas-liquid monolith reactor”, Catal. Today, 105(3-4), 2005, pp. 396-400,
Rozental, A. L., Goldfarb, Yu. Ya., Sirotkina, I. G., “Kinetics of n-hexadecane hydrocracking on nickelmolybdenum/alumina catalysts”, React. Kinet. Catal. Lett., 40(2), 1989, pp. 337-342.
Rozovskii, A. Ya., Lin, G. I., “Fundamentals of Methanol Synthesis and Decomposition”, Top. Catal., 22(3-4), 2003, pp. 137-150.
Rubinshtein, A. M., Dulov, A. A., Yakerson, V. I., Gorskaya, L. A., Abramova, L. A., “Preparation and properties of coprecipitated catalysts of NiO-TiO2 system”, Russian Chem. Bull., 23(7), 1974, pp. 1568-1570.
Rumyantsev, V. Yu., Slivinskii, E. V., Loktev, S. M., “Conversion of substituted acetylenes and acetonitrile in the synthesis of aliphatic alcohols from CO and H2 on fused iron catalysts”, Russian Chem. Bull., 36(11), 1987, pp. 2324-2326.
Rupprechter, G., Dellwig, T., Unterhalt, H., Freund, H.-J., “CO adsorption on Ni(100) and Pt(111) studied by infrared–visible sum frequency generation spectroscopy: design and application of an SFG-compatible UHV–high-pressure reaction cell”, Top. Catal., 15(1), 2001, pp. 19-26.
Ruthiya, K. C., van der Schaaf, J., Kuster, B. F. M., Schouten, J. C., “Model To Describe Mass-Transfer Enhancement by Catalyst Particles Adhering to a Gas-Liquid Interface”, Ind. Eng. Chem. Res., 44(16), 2005, pp. 6123-6140.
Ruthiya, K. C., Chilekar, V. P., Warnier, M. J. F., van der Schaaf, J., Kuster, B. F. M., Schouten, J. C., van Ommen, J. R., “Detecting Regime Transitions in Slurry Bubble Columns using Pressure Time Series”, AIChE J., 51(7), 2005, pp. 1951-1965.
Ryndin, Yu. A., Gorodova, L. V., Zaikovskii, V. I., Yermakov, Yu. I., “Dispersity of (Ru+Pd)/SiO2 catalysts and their properties in CO hydrogenation and ethane hydrogenolysis”, React. Kinet. Catal. Lett., 26(1-2), 1984, pp. 103-109.
Ryndin, Yu. A., Nogin, Yu. N., Yermakov, Yu. I., “(Pd+Pr)/zeolite catalyst for the synthesis of C2−C4 hydrocarbons from CO and H2”, React. Kinet. Catal. Lett., 36(2), 1988, pp. 345-350.
Ryndin, Yu. A., Nogin, Yu. N., Zverev, Yu. B., Chernyaev, N. P., Abdikova, F. G., Yermakov, Yu. I., “Influence of rare earth ions on the properties of Pd/SiO2 in CO hydrogenation”, React. Kinet. Catal. Lett., 31(1), 1986, pp. 151-158.
Sahibzada, M., “Pd-Promoted Cu/ZnO Catalyst Systems for Methanol Synthesis from CO2/H2”, Chem. Eng. Res. Des. A, 78, 2000, p. 943.
Saib, A. M., “Towards a cobalt Fischer-Tropsch synthesis catalyst with enhanced stability: a combined approach”, Dissertation, Technische Universiteit Eindhoven, 2006.
Saito, M., “R&D activities in Japan on methanol synthesis from CO2 and H2”, Catal. Surveys Japan, 2(2), 1998, pp. 175-184.
Sakanishi, K., “Production and Utilization of Biomass-Derived Fuels”, Marine Eng., 40(6), 2005, pp. 744-748.
Sal'nikova, E. N., Khrushch, A. P., Khidekel, M. L., “Reduction of carbon dioxide in aqueous media”, Russian Chem. Bull., 26(3), 1977, pp. 635-636.
Salmi, T., “Simultaneous determination of kinetic and diffusion parameters for the water-gas shift reaction”, React. Kinet. Catal. Lett., 41(1), 1990, pp. 1-5.
Salomatin, G. I., Lafer, L. I., Yakerson, V. I., “IR spectra of catalysts and adsorbed molecules”, Russian Chem. Bull., 28(7), 1979, pp. 1349-1352.
Salomatin, G. I., Sobolevskii, V. S., Grigor'ev, V. V., Lafer, L. I., Yakerson, V. I., “IR spectra of catalysts and adsorbed molecules. 29. State of the water on the surface of copper-containing catalysts during the low-temperature conversion of carbon monoxide”, Russian Chem. Bull., 28(11), 1979, pp. 2254-2258.
Sanfilippo, D., “Dehydrogenation of Paraffins; Key Technology for Petrochemicals and Fuels”, Cattech, 4(1), 2000, pp. 56-73.
Sanfilippo, D., Miracca, I., “Dehydrogenation of paraffins: synergies between catalyst design and reactor engineering”, Catal. Today, 111(1-2), 2006, pp. 133-139.
Santana, R. C., Do, P. T., Santikunaporn, M., Alvarez, W. E., Taylor, J. D., Sughrue, E. L., Resasco, D.E., “Evaluation of different reaction strategies for the improvement of cetane number in diesel fuels”, Fuel, 85(5-6), 2006, pp. 643-656.
Sanyal, J., Marchisio, D. L., Fox, R. O., Dhanasekharan, K., “On the Comparison between Population Balance Models for CFD Simulation of Bubble Columns”, Ind. Eng. Chem. Res., 44(14), 2005, pp. 5063-5072.
Sato, Y., Koizumi, M., Miyao, T., Naito, S., “The CO–H2 and CO–H2O reactions over TiO2 nanotubes filled with Pt metal nanoparticles”, Catal. Today, 111(3-4), 2006, pp. 164-170.
Sato, Y., Sadatomi, M., Sekoguchi, K., “Momentum and heat transfer in two-phase bubble flow—II. A comparison between experimental data and theoretical calculations”, Internat. J. Multiphase Flow, 7(2), 1981, pp. 179-190.
Sato, Y., Sekoguchi, K., “Liquid velocity distribution in two-phase bubble flow”, Internat. J. Multiphase Flow, 2(1), 1975, pp. 79-95.
Sato, Y., Terada, K., Soma, Y., Miyao, T., Naito, S., “Marked addition effect of Re upon the water gas shift reaction over TiO2 supported Pt, Pd and Ir catalysts”, Catal. Comm., 7(2), 2006, pp. 91-95.
Savel'ev, M. M., Tsapkina, M. V., Koreshkov, Yu. D., Lapidus, A. L., “Molecular mass distribution of aliphatic and aromatic hydrocarbons obtained from CO and H2 in the presence of Fe catalysts”, Russian Chem. Bull., 40(1), 1991, pp. 29-33.
Savel'ev, M. M., Tsapkina, M. V., Lapidus, A. L., “Synthesis of mixtures of aromatic and aliphatic hydrocarbons from CO and H2 over Fe catalysts”, Russian Chem. Bull., 41(3), 1992, pp. 430-434.
Sayari, A., “Carbon oxides hydrogenation on RhNa-Y: Addition of 1-butene”, Catal. Lett., 2(3), 1989, pp. 173-179.
Schallenberg, J., Ensz, J. H., Hempel, D. C., “The important role of local dispersed phase hold-ups for the calculation of three-phase bubble columns”, Chem. Eng. Sci., 60(22), 2005, pp. 6027-6033.
Schay, Z., Guczi, L., “Catalytic hydrogenation of carbon monoxide on RuFe/SiO2 catalysts”, React. Kinet. Catal. Lett., 14(2), 1980, pp. 207-212.
Scheerhoorn, M. W. M., “Fischer-Tropsch synthese onder verhoogde druk in fixed- en fluidbed reaktoren”, Dissertation, Technische Hogeschool Eindhoven, 1986.
Schilke, T. C., Fisher, I. A., Bell, A. T., “Influence of titania on zirconia promoted Cu/SiO2 catalysts for methanol synthesis from CO/H2 and CO2/H2”, Catal. Lett., 54(3), 1998, pp. 105-111.
Schneider, T., Hirschwald, W., “Interaction of carbon dioxide with clean and oxygenated Cu(110) surfaces”, Catal. Lett., 14(2), 1992, pp. 197-205.
Schulz, H., van Steen, E., Claeys, M., “Specific inhibition as the kinetic principle of the Fischer-Tropsch synthesis”, Top. Catal., 2(1-4), 1995, pp. 223-234.
Scirè, S., Crisafulli, C., Maggiore, R., Minicò, S., Galvagno, S., “Influence of the support on CO2 methanation over Ru catalysts: an FT-IR study”, Catal. Lett., 51(1-2), 1998, pp. 41-45.
Seeger, A., Affeld, K., Goubergrits, L., Kertzscher, U., Wellnhofer, E., “X-ray based flow visualization & measurement application in multi-phase flows”, International Symposium on Visualization and Imaging in Transport Phenomena, Antalya, Turkey, 05-10 May 2002.
Seehra, M. S., Dutta, P., Manivannan, A., “Determination of Different Electronic States of Cobalt in Fischer –Tropsch Catalysts”, ACS Div. Fuel Chem. Prepr., 50(2), 2005, p. 638.
Sellmer, C., Prins, R., Kruse, N., “XPS/SIMS studies of the promoter action in methanol synthesis over silica-supported Pd catalysts”, Catal. Lett., 47(2), 1997, pp. 83-89.
Serizawa, A., Kataoka, I., “Phase distribution in two-phase flow”, in “Transient Phenomena in Multiphase Flow” (N. H. Afgan, ed.), Hemisphere Publishing, New York, 1988, pp. 179-224.
Serizawa, A., Kataoka, I., Michiyoshi, I., “Experimental data set no. 24: phase distribution in bubbly flow”, Multiphase Sci. Tech., 6, 1992, pp. 257-301.
Serizawa, A., Kataoka, I., Michiyoshi, I., “Turbulence structure of air-water bubbly flow—III. transport properties”, Internat. J. Multiphase Flow, 2(3), 1975, pp. 247-259.
Shashidhara, G. M., Ravindram, M., “Methanation of CO2 over Ru−SiO2 catalyst”, React. Kinet. Catal. Lett., 46(1), 1992, pp. 365-372.
Sheikh, S., “Calculation the surface tension of heptane, eicosane, docosane, tetracosane, and their asymmetric mixtures”, J. Colloid & Interface Sci., 289(1), 2005, pp. 218-222.
Shen, J., Schmetz, E., Kawalkin, G. J., Stiegel, G. J., Noceti, R. P., Winslow, J. C., Kornosky, R. M., Krastman, D., Venkataraman, V. K., Driscoll, D. J., Cicero, D. C., Haslebacher, W. F., Hsieh, B. C. B., Jain, S. C., Tennant, J. B., “Commercial Deployment of Fischer–Tropsch Synthesis: The Coproduction Option”, Top. Catal., 26(1-4), 2004, pp. 13-20.
Shen, J., Schmetz, E., Stiegel, G. J., Winslow, J. C., Kornorsky, R. M., Jain, S. C., “Ultra-Clean Transportation Fuels from Coal: An Overview”, ACS Div. Fuel Chem. Prepr., 50(2), 2005, p. 756.
Shepot'ko, M. L., Davydov, A. A., “Nature of α-Fe2O3 surface centers”, J. Appl. Spectr., 54(3), 1991, pp. 304-308.
Shi, B., Davis, B. H., “Fischer-Tropsch synthesis: The paraffin to olefin ratio as a function of carbon number”, Catal. Today, 106(1-4), 2005, pp. 129-131.
Shi, B., Davis, B. H., “Fischer–Tropsch Synthesis: Evidence for Chain Initiation by Ethene and Ethanol for an Iron Catalyst”, Top. Catal., 26(1-4), 2003, pp. 157-161.
Shimada, N., Tomiyama, A., Maekawa, M., Suzuta, T., Ozaki, T., “A Numerical Method for Solving Bubbly Flow with Chemisorption in a Bubble Column”, Kagaku Kogaku Ronbunshu, 31(6), 2005, pp. 377-387.
Shpiro, E. S., Grunert, W., Beilin, L. A., Minachev, Kh. M., Tkachenko, O. P., “Selective synthesis of lower olefins from CO and H2 on a Ru/TiO2 catalyst”, Russian Chem. Bull., 36(10), 1987, pp. 2217-2217.
Shpiro, K. S., Telegina, N. S., Gryaznov, V. M., Minachev, Kh. M., Rudny, Yu., “Oscillations of surface composition in Pt-Co alloys induced by CO chemisorption”, Catal. Lett., 12(4), 1992, pp. 375-382.
Shtokolo, L. I., Shteingauer, L. G., Likholobov, V. A., Fedotov, A. V., “Generation of mechanisms of chemical reactions. Gas phase CO+H2 reaction in the absence of catalysts”, React. Kinet. Catal. Lett., 26(3-4), 1984, pp. 227-233.
Shuikin, N. I., Bekauri, N. G., Shakarashvili, T. S., “Heterogeneous catalytic transformation of n-hexadecane in presence of gumbrin”, Russian Chem. Bull., 8(1), 1959, pp. 98-102.
Shuikin, N. I., Berdnikova, N. G., Novikov, S. S., “High-temperature contact-catalysis reactions of normal alkanes in presense of hydrogen at high pressure”, Russian Chem. Bull., 2(5), 1953, pp. 779-786.
Shuikin, N. I., Timofeeva, E. A., Dobrynina, T. P., Plotnikov, Iu. N., Petriaeva, G. S., Kleimenova, V. M., “Transformations of C5-C9 n-alkanes in presence of an alumina-chromia-potassia catalyst”, Russian Chem. Bull., 7(7), 1958, pp. 870-871.
Shuikin, N. I., Timofeeva, E. A., Kleimenova, V. M., “Dehydration of n-alkanes on the catalyst K-5”, Russian Chem. Bull., 10(4), 1961, pp. 603-606.
Shuikin, N. I., Timofeeva, E. A., Plotnikov, Yu. N., Andreev, N. S., “Compositions of the products of the dehydrogenation of C6-C9 N-alkanes over an alumina-chromia-potassia catalyst”, Russian Chem. Bull., 9(12), 1960, pp. 2011-2015.
Shuikin, N. I., Timofeeva, E. A., Smirnov, V. S., “Study on the catalytic dehydrogenation of C6-C10-alkanes”, in “Proceedings of the Third International Congress on Catalysis” (W. M. H. Sachtler, G. C. A. Schuit, P. Zwietering, eds.), North-Holland, Amsterdam, 1965, Volume 1, pp. 495-506.
Sinnema, J. S., “De Fischer-Tropsch synthese van kleine olefinen met behulp van FeRu-katalysatoren”, Dissertation, Technische Hogeschool Eindhoven, 1984.
Sister, V. G., Novozhilov, V. N., “Hydrodynamic Characteristics of the Upward Cocurrent Flow in Variable-Diameter Tubes”, Dokl. Chem., 403(4-6), 2005, pp. 168-170.
Slaa, J. C., van Ommen, J. G., Ross, J. R. H., “The synthesis of alcohols using Cu/ZnO/A12O3 + (Ce or Mn) catalysts”, Top. Catal., 2(1-4), 1995, pp. 79-89.
Slinkin, A. A., Kucherov, A. V., Rubinshtein, A. M., “Adsorption of hydrogen on Ni-SiO2 catalysts”, Russian Chem. Bull., 24(1), 1975, pp. 6-9.
Slivinskii, E. V., Voitsekhovskii, Yu. P., “Development of ideas concerning the mechanism of the Fischer–Tropsch synthesis”, Russian Chem. Rev., .58(1), 1989, pp. 57-72.
Snapkauskiene, V., Valincius, V., Valatkevicius, P., “Peculiarities of CO conversion in a catalytic monolithic reactor containing CuO”, Energetika, 2(2), 2005, pp. 21-27.
Snel, R., “Deviations of Fischer-Tropsch products from an Anderson-Schulz-Flory distribution”, Catal. Lett., 1(10), 1988, pp. 327-330.
Soerensen, K. J., Cant, N. W., “Alternating nitrous oxide/reductant cycles and the determination of copper area in supported copper catalysts”, Catal. Lett., 33(1-2), 1995, pp. 117-125.
Solymosi, F., Tombácz, I., “Photocatalytic reaction of H2O+CO2 over pure and doped Rh/TiO2”, Catal. Lett., 27(1-2), 1994, pp. 61-65.
Song, H.-J., Zhang, H.-T., Ying, W.-Y., “Study on Solubility and Volumetric Mass Transfer Coefficient of Dimethyl Ether in Liquid Paraffin”, J. Chem. Eng. Chinese Univ., 19(2), 2005, pp. 253-257.
Souza, M. J. B., Araujo, A. S., Silva, A. O. S., Pontes, L. A. M., “Fischer-Tropsch Synthesis over Co/SiMCM-41 and Co/SiO2 Materials: The Role of Support at Different Cobalt Loadings”, Stud. Surf. Sci. Catal., 156, 2005, pp. 829-834.
Spadaro, L., Arena, F., Granados, M. L., Ojeda, M., Fierro, J. L. G., Frusteri, F., “Metal–support interactions and reactivity of Co/CeO2 catalysts in the Fischer–Tropsch synthesis reaction”, J. Catal., 234(2), 2005, pp. 451-462.
Spedding, P. L., Chen, J. J. J., “Holdup in two phase flow”, Internat. J. Multiphase Flow, 10(3), 1984, pp. 307-339.
Spencer, M. S., “On the activation energies of the forward and reverse water-gas shift reaction”, Catal. Lett., 32(1-2), 1995, pp. 9-13.
Spencer, M. S., “The role of surface oxygen on copper metal in catalysts for the synthesis of methanol”, Catal. Lett., 60(1-2), 1999, pp. 45-49.
Spencer, M. S., “The role of zinc oxide in Cu/ZnO catalysts for methanol synthesis and the water–gas shift reaction”, Top. Catal., 8(3-4), 1999, pp. 259-266.
Spitsyn, V. I., Korosteleva, R. I., Fedoseev, A. M., Pirogova, G. N., “Catalytic properties of neptunium dioxide in the dehydration of alcohols”, Russian Chem. Bull., 36(8), 1987, pp. 1743-1744.
Spitsyn, V. T., Voronin, Yu. V., Pirogova, G. N., “IR spectroscopic study of forms of CO adsorption on technettum deposited on Al2O3, Y2O3, and MgO”, Russian Chem. Bull., 31(11), 1982, pp. 2297-2299.
Sterligov, O. D., Rybakova, N. I., Adel'son, S. V., Isagulyants, G. V., “Conversion of n-dodecane in the presence of oxygen on an aluminum-vanadium catalyst”, Russian Chem. Bull., 38(1), 1989, pp. 9-12.
Storm, D. A., “The production of higher alcohols from syngas using potassium promoted Co/Mo/A12O3 and Rh/Co/Mo/A12O3”, Top. Catal., 2(1-4), 1995, pp. 91-101.
Storsæter, S., Tøtdal, B., Walmsley, J. C., Tanem, B. S., Holmen, A., “Characterization of alumina-, silica-, and titania-supported cobalt Fischer–Tropsch catalysts”, J. Catal., 236(1), 2005, pp. 139-152.
Stradella, L., “Surface reactivity of carbon monoxide with different gases on ruthenium film under UV illumination”, React. Kinet. Catal. Lett., 58(2), 1996, pp. 261-268.
Stubenrauch, J., Vohs, J. M., “Support effects in the dissociation of CO on Rh/CeO2(111)”, Catal. Lett., 47(1), 1997, pp. 21-25.
Stuer, H., Willneff, J., Maas, H.-G., “The impact of image compression on three-dimensional particle-tracking velocimetry data”, J. Flow Vis. Image Proc., 7(2), 2000, pp.
Sturms, J. P. E., “Hydrodynamics and mass transfer in an organic slurry bubble column with reaction”, Dissertation, Technische Universiteit Eindhoven, 2004.
Sukamon, H., Zhang, Y., Nagamori, S., Tharapong, V., Tsubaki, N., “TiO2 Promoted Co/SiO2 Catalysts for Fischer-Tropsch Synthesis”, J. Japan Petrol. Inst., 49, 2006, p. 45.
Sun, Y., Sermon, P. A., “Cu-doped ZrO2 aerogel: A novel catalyst for CO hydrogenation to CH3OH”, Top. Catal., 1(1-2), 1994, pp. 145-151.
Sun, Y., Sermon, P. A., “Evidence of a metal-support interaction in sol-gel derived Cu-ZrO2 catalysts for CO hydrogenation”, Catal. Lett., 29(3-4), 1994, pp. 361-369.
Sun, Y.-C., Yang, J., Tang, Y., Hao, Q.-L., Tian, L., Zhang, Z.-X., Xiang, H.-W., Li, Y.-W., “Effect of calcination temperature on magnesium promoted iron - based catalyst for Fischer - Tropsch synthesis”, J. Fuel Chem. Tech., 33(2), 2005, pp. 218-223.
Suriye, K., Praserthdam, P., Jongsomjit, B., “Impact of Ti3+ Present in Titania on Characteristics and Catalytic Properties of the Co/TiO2 Catalyst”, Ind. Eng. Chem. Res., 44(17), 2005, pp. 6599-6604.
Suzdorf, A. R., Bakhmutova, N. I., Efremov, A. A., Kuznetsova, L. I., Kuznetsov, B. N., “Promoting effect of sodium on catalytic and adsorption properties of Fe−Mn catalysts for CO hydrogenation”, React. Kinet. Catal. Lett., 31(2), 1986, pp. 343-347.
Swamy, K. M., Keil, F. J., “Fine Bubble Generation In A Column Reactor By Placement Of A Diaphragm Across A Low Frequency Sound Field”, Hung. J. Ind. Chem., 30(1), 2002, p. 77.
Szanyi, J., Goodman, D. W., “Methanol synthesis on a Cu(100) catalyst”, Catal. Lett., 10(5-6), 1991, pp. 383-390.
Szklo, A., Machado, G., Schaeffer, R., Mariano, J., Sala, J., Tavares, M., “The impacts of a GTL plant on Brazil's oil products supply and refinery expansion”, Catal. Today, 106(1-4), 2005, pp. 123-128.
Tabakova, T., Boccuzzi, F., Manzoli, M., Sobczak, J. W., Idakiev, V., Andreeva, D., “A comparative study of nanosized IB/ceria catalysts for low-temperature water-gas shift reaction”, Appl. Catal. A, 298, 2006, pp. 127-143.
Tang, C., Heindel, T. J., “Gas-Liquid-Fiber Flow in a Cocurrent Bubble Column”, AIChE J., 51(10), 2005, pp. 2665-2674.
Tarasova, G. A., Starannikova, L. E., Isagulyants, G. V., “Effect of properties of aluminum oxide on selectivity of Pt/Al2O3 in dehydrogenation of n-alkanes”, Russian Chem. Bull., 27(11), 1978, pp. 2339-2341.
Tatsumi, T., Kunitomi, S., Yoshiwara, J., Muramatsu, A., Tominaga, H.-O., “Synthesis of acetonitrile and related compounds from CO-H2-NH3 over Mo/SiO2”, Catal. Lett., 3(3), 1989, pp. 223-226.
Tavasoli, A., Mortazavi, Y., Khodadadi, A. A., Mousavian, M. A., Sadagiani, K., Ali, K., “Effects of Different Loadings of Ru and Re on Physico-Chemical Properties and Performance of 15% Co/Al2O3 FTS Catalysts”, Internat. J. Chem. Chem. Eng., 24(3), 2005, pp. 9-18.
Teng, B., Chang, J., Liu, Y., Zhang, C., Yang, J., Zheng, H., Zhang, R., Bai, L., Xiang, H.-W., Li, Y., “Detailed Kinetics Model of Fischer-Tropsch Synthesis over an Industrial Fe-Mn Catalyst I. Kinetics Study on Olefin Readsorption”, Chinese J. Catal., 26(8), 2005, pp. 693-700.
Teng, B., Chang, J., Wang, G., Zhang, C., Liu, Y., Zheng, H., Yang, J., Zhang, R., Bai, L., Xiang, H., “Detailed Kinetics Model of Fischer-Tropsch Synthesis over an Industrial Fe-Mn Catalyst II. Kinetics Model Analysis Regressed by Different Correction Methods”, Chinese J. Catal., 26(8), 2005, pp. 701-706.
Teng, B.-T., Chang, J., Zhang, C.-H., Cao, D.-B., Yang, J., Liu, Y., Guo, X.-H., Xiang, H.-W., Li, Y.-W., “A comprehensive kinetics model of Fischer–Tropsch synthesis over an industrial Fe–Mn catalyst”, Appl. Catal. A, 301(1), 2006, pp. 39-50.
Therning, P., Rasmuson, A., “Mass transfer measurements in a non-isothermal bubble column using the uncatalyzed oxidation of sulphite to sulphate”, Chem. Eng. J., 116(2), 2006, pp. 97-103.
Thomas, J. M., Greaves, G. N., “Combined EXAFS and XRD for the in situ structural elucidation of solid catalysts under operating conditions”, Catal. Lett., 20(3-4), 1993, pp. 337-343.
Tianlan, Y., Shaoqing, J., Deqi, P., Xiuming, Y., “Online Fouling - Preventing Technology of Gas-Liquid-Solid Three-phase Fluidization Circulating in Shell-side of Vertical Shell-tube Heat Exchangers”, Chem. Ind. Eng. Prog., 24(7), 2005, pp. 792-795.
Tijmensen, J. A., “Influence of catalyst physical properties on the performance of a slurry bubble column: modelling and experimental study”, Dissertation, Technische Universiteit Eindhoven, 2003.
Timofeeva, E. A., Slovetskaya, K. I., Bryukhanov, V. G., Goryashchenko, S. S., Isagulyants, G. V., Rubinshtein, A. M., “Effect of included oxygen and water vapor on the dehydrogenation of n-dodecane on an aluminum-chromium-potassium catalyst”, Russian Chem. Bull., 30(6), 1981, pp. 962-965.
Timofeeva, E. A., Smirnov, V. S., Bogomolov, V. I., “Dehydrogenation of n-octane and 250–320° synthine fraction in the presence of activated woor charcoal”, Russian Chem. Bull., 10(7)1961, pp. 1227-1231.
Timofeeva, E. A., Tyupaev, A. P., Isagulyants, G. V., “Effect of the platinum concentration in alumina-platinum catalysts in the dehydrogenation of higher linear paraffins”, Russian Chem. Bull., 30(9), 1981, pp. 1695-1698.
Timofeeva, E. A., Tyupaev, A. P., Isagulyants, G. V., “Effect of adding rhenium to alumina-platinum catalysts for dehydrogenating the higher n-paraffins”, Russian Chem. Bull., 31(12), 1982, pp. 2347-2350.
Tincul, I., Govender, V. T., “Degradation of Polyolefins Prepared with Fischer-Tropsch Derived Olefins”, Macromolec. Symp., 225(1), 2005, pp. 179-190.
Titel'man, L. I., Oil'man, V. V., Aksel'rod, Yu. V., Dracheva, N. N., Kozyrev, A. D., Obysova, E. S., “A multistage gas distribution method in bubbling apparatus”, Chem. Petrol. Eng., 13(4), 1977, pp. 317-320.
Tkachenko, O. P., Shpiro, E. S., Grunert, W., Beilin, L. A., Minachev, Kh. M., “Selective synthesis of lower olefins from CO and H2 on a Ru/TiO2 catalyst”, Russian Chem. Bull., 36(10), 1987, pp. 2217-2217.
Toolenaar, F. J. C. M., “Geometric and electronic effects in the infrared spectra of adsorbed carbon monoxide”, Dissertation, Rijksuniversiteit Leiden, 1983.
Topsøe, N.-Y., Topsøe, H., “On the nature of surface structural changes in Cu/ZnO methanol synthesis catalysts”, Top. Catal., 8(3-4), 1999, pp. 267-270.
Treviño, H., Sachtler, W. M. H., “On the nature of catalyst promotion by manganese in CO hydrogenation to oxygenates over RhMn/NaY”, Catal. Lett., 27(3-4), 1994, pp. 251-258.
Trommelen, A. M. B., “Synthesis of light olefins on cobalt catalysts by way of the Fischer-Tropsch reaction”, Dissertation, Technische Hogeschool Eindhoven, 1976.
Tsinman, A. I., Gru, B. A., “Carbonyl corrosion of steels in methanol synthesis”, Chem. Petrol. Eng., 13(4), 1977, pp. 331-332.
Tsodikov, M. V., Katsobashvili, Ya. R., Korneeva, G. A., Ellert, O. G., Novotortsev, V. M., “State of cobalt included in the layer structure of silica and effect of the structure of cobalt-containing sites on the catalytic activity in hydrogenation of CO”, Russian Chem. Bull., 35(8), 1986, pp. 1564-1568.
Tsodikov, M. V., Katsobashvili, Ya. R., Slivinskii, E. V., Maksimov, Yu. V., Matveev, V. V., Suzdalev, I. P., Éllert, O. G., Ivanova, G. F., “A study of the reaction of iron carbonyls with an activated silica matrix and the effect of hydrogen and synthesis gas on the electronic state of iron”, Russian Chem. Bull., 35(12), 1986, pp. 2443-2447.
Tsodikov, M. V., Kugel, V. Ya., Slivinskii, E. V., Mordovin, V. P., “Low-temperature reactions of CO2 in the presence of iron-titanium intermetallide”, Russian Chem. Bull., 44(10), 1995, pp. 1983-1984.
Tsubaki, N., “Fischer-Tropsch Chemistry: Its Catalyst and Process”, Petrotech, 26, 2003, pp. 439-444.
Tsubaki, N., Fujimoto, K., “Promotional SMSI Effect on Supported Palladium Catalysts for Methanol Synthesis”, Top. Catal., 22(3-4), 2003, pp. 325-335.
Tsubaki , N., Yoneyama, Y., “New Methanol Synthesis Method: Route Design and Catalyst Development”, Petrotech, 28, 2005, pp. 399-404.
Tsubaki , N., Yoneyama, Y., Fujimoto, K., “New Low-Temperature Methanol Synthesis Method”, Catalysis and Catalyst, 43, 2001, pp. 511-513.
Tsujimura, M., Kawase, Y., “Design of Bubble and Slurry Bubble Columns”, Chem. Eng. (Japan), 39, 1994, pp. 119-124.
Tsybulevskii, A. M., Klyachko, A. L., Pluzhnikova, M. F., Stepanova, I. N., Brueva, T. R., Kapustin, G. I., Rukhadze, A. D., “Nature of activity and selectivity of catalysts based on dealuminized zeolites Communication 2. Activity of dealuminized Y zeolites and mordenite in cracking straight-chain hydrocarbons”, Russian Chem. Bull., 32(12), 1983, pp. 2395-2399.
Turlier, P., Martin, G. A., “Evidence for a weak metal-support interaction in thoria-supported nickel catalysts”, React. Kinet. Catal. Lett., 25(1-2), 1984, pp. 1-3.
Turpin, G. C., Dunn, B. C., Shi, Y., Ma, Z., Pugmire, R. J., Eyring, E. M., Ernst, R. D., “Aerogel-Supported Transition Metal Catalysts for Fischer-Tropsch and Related Reactions”, ACS Div. Fuel Chem., 50(2), 2005, p. 602.
Tutu, N. K., “Pressure fluctuations and flow pattern recognition in vertical two phase gas-liquid flows”, Internat. J. Multiphase Flow, 8(4), 1982, pp. 443-447.
Twigg, M. V., Spencer, M. S., “Deactivation of Copper Metal Catalysts for Methanol Decomposition, Methanol Steam Reforming and Methanol Synthesis”, Top. Catal., 22(3-4), 2003, pp. 191-203.
Tyupaev, A. P., Timofeeva, E. A., Isagulyants, G. V., “Deactivation of alumina-platinum catalysts with promoting additives in dehydrogenation of higher n-paraffins”, Russian Chem. Bull., 31(11), 1982, pp. 2278-2279.
Tyupaev, A. P., Timofeeva, E. A., Isagulyants, G. V., “Effect of the addition of indium to alumina-platinum catalysts on the dehydrogenation of higher n-paraffins”, Russian Chem. Bull., 31(9), 1982, pp. 1843-1847.
Tyupaev, A. P., Timofeeva, E. A., Isagulyants, G. V., “Effect of platinum concentration and dispersion on the deactivation of Pt/Al2O3 catalysts in the dehydrogenation of higher normal paraffins”, Russian Chem. Bull., 34(1), 1985, pp. 182-185.
Tyupaev, A. P., Timofeeva, E. A., Isagulyants, G. V., “Effect of the specific surface of the support and the dispersity of the metal on the activity and selectivity of aluminum-platinum catalysts with lithium additives in the dehydrogenation of higher normal paraffins”, Russian Chem. Bull., 29(11), 1980, pp. 1727-1730.
Uchiyama, T., “Finite element analysis of gas-liquid two-phase flow across an inline tube bundle”, Hybrid Meth. Eng., 2(4), 2000, pp. 1-20.
Udrea, I., Udrea, M., Frunzä, L., “Methane synthesis from CO/H2O mixture on supported nickel catalysts, I. Influence of the support on the catalytic properties”, React. Kinet. Catal. Lett., 21(3), 1982, pp. 255-259.
Udrea, I., Udrea, M., Frunzä, L., “Methane synthesis from CO/H2O mixture on supported nickel catalysts, II. Surface species in CO−H2 and CO−D2O interaction by IR spectroscopy”, React. Kinet. Catal. Lett., 21(3), 1982, pp. 261-264.
Udrea, I., Udrea, M., Frunzä, L., “Methane synthesis from CO/H2O mixture on supported nickel catalysts, III. Formation of surface carbon and its role in the reaction mechanism”, React. Kinet. Catal. Lett., 21(3), 1982, pp. 265-268.
Unruh, D., Rohde, M. P., Schaub, G., “Membranreaktoren in der Fischer-Tropsch-Synthese zur Verbesserung der Umsetzung von CO2-haltigen Synthesegasen”, Chem.-Ing.-Tech., 77(8), 2005, p. 1173.
Urquhart, A. J., Williams, F. J., Lambert, R. M., “Electrochemical Promotion by Potassium of Rh-Catalysed Fischer–Tropsch Synthesis at High Pressure”, Catal. Lett., 103(1-2), 2005, pp. 137-142.
Vada, S., Hoff, A., Ådnane, E., Schanke, S. D., Holmen, A., “Fischer-Tropsch synthesis on supported cobalt catalysts promoted by platinum and rhenium”, Top. Catal., 2(1-4), 1995, pp. 155-162.
Valenca, G. P., Goncalves, E. S., “Catalyst design for reactions with synthesis gas”, Stud. Surf. Sci. Catal., 133, 2001, pp. 399-407.
Valero, R., Kroes, G.-J., “Identifying spectator bonds in modeling reactions: OH + CO → H + CO2”, Chem. Phys. Lett., 417(1-3), 2006, pp. 43-47.
Valtcheva, E., Stojanova, A., Dombalov, I., “Kinetics of methanol synthesis in the presence of low-temperature catalyst”, React. Kinet. Catal. Lett., 31(2), 1986, pp. 395-402.
van de Laar, H., “De mechanistische beschrijving van deeltjesssuspendering in een drie-fasen slurry-reactor”, Dissertation, Technische Universiteit Eindhoven, 1990.
van de Loosdrecht, J., van der Kraan, A. M., van Dillen, A. J., Geus, J. W., “Metal-support interaction: titania-supported nickel-iron catalysts”, Catal. Lett., 41(1-2), 1996, pp. 27-34.
van de Loosdrecht, J., van Dillen, A. J., van der Horst, A. A., van der Kraan, A. M., Geus, J. W., “Nickel-iron catalysts prepared by homogeneous deposition-precipitation of cyanide complexes on a titania support”, Top. Catal., 2(1-4), 1995, pp. 29-43.
van de Water, H. A. M., “Fischer-Tropsch synthese: onderzoek aan nikkelkatalysatoren ten behoeve van Fischer-Tropsch synthese in een doosreactor”, Dissertation, Technische Hogeschool Eindhoven, 1976.
van den Hengel, E. I. V., Deen, N. G., Kuipers, J. A. M., “Application of Coalescence and Breakup Models in a Discrete Bubble Model for Bubble Columns”, Ind. Eng. Chem. Res., 44(14), 2005, pp. 5233-5245.
van der Lee, G., “Selectivity in synthesis gas reactions: effect of supports and promoters on the selectivity of rhodium catalysts”, Dissertation, Rijksuniversiteit Leiden, 1986.
van der Welle, R., “Turbulence viscosity in vertical adiabatic gas-liquid flow”, Internat. J. Multiphase Flow, 7(4), 1981, pp. 461-473.
van der Welle, R., “Void fraction, bubble velocity and bubble size in two-phase flow”, Internat. J. Multiphase Flow, 11(3), 1985, pp. 317-345.
van Eck, M., De hydrogenering van CO over bimetallische katalysatoren : de Fischer -Tropsch synthese”, Dissertation, Technische Hogeschool Eindhoven, 1977.
van Os, R. J. H. L., “Fischer-Tropsch synthese: invloed van koper op de katalytische eigenschappen van gelegeerde Fe-Cux/Al2O3 katalysatoren”, Dissertation, Technische Universiteit Eindhoven, 1989.
van Ree, R., van der Drift, A., Zwart, R.W.R., Boerrigter, H., “Market competitive Fischer-Tropsch diesel production”, Energy Research Center of the Netherlands, report ECN-RX--05-132, 2005.
van Sint Annaland, M., Deen, N. G., Kuipers, J. A. M., “Numerical simulation of gas-liquid-solid flows using a combined front tracking and discrete particle method”, Chem. Eng. Sci., 60(22), 2005, pp. 6188-6198.
van Sint Annaland, M., Dijkhuizen, W., Deen, N. G., Kuipers, J. A. M., “Numerical simulation of behavior of gas bubbles using a 3-D front-tracking method”, AIChE J., 52(1), 2005, pp. 99-110.
van Miltenburg, A., Zhu, W., Kapteijn, F., Moulijn, J. A., “Zeolite based separation of light olefin and paraffin mixtures”, Stud. Surf. Sci. Catal., 158B, 2005, pp. 979-986.
Vandu, C. O., Van den Berg, B., Krishna, R., “Gas-Liquid Mass Transfer in a Slurry Bubble Column at High Slurry Concentrations and High Gas Velocities”, Chem. Eng. Tech., 28(9), 2005, pp. 998-1002.
Vanselow, R., “CO dissociation activities of clean Pt {430}, {320}, {520}, {310}, {410} and {210}: a comparison with the predictions of Banholzer's orbital symmetry model”, Catal. Lett., 10(1-2), 1991, pp. 19-26.
Vasina, T. V., Masloboishchikova, O. V., Khelkovskaya-Sergeeva, E. G., Kustov, L. M., Houzvicka, J. I., “Hydroisomerization of C6-C14 linear n-alkanes over hybrid catalysts”, Stud. Surf. Sci. catal., 138, 2001, pp. 93-100.
Vazquez, A., Sanchez, R. M., Salinas-Rodriguez, E., Soria, A., Manasseh, R., “A look at three measurement techniques for bubble size determination”, Experim. Therm. Fluid Sci., 30(1), 2005, pp. 49-57.
Venter, J., Nicol, W., Prins, M., Ptasinski, K., “Exergetic optimization of an integrated gas to liquids process”, Chem. Tech., Apr., 2005, pp. 4-9.
Venter, J. J., Vannice, M. A., “Olefin selective carbon-supported K-Fe-Mn CO hydrogenation catalysts: A kinetic, calorimetric, chemisorption, infrared and Mössbauer spectroscopic investigation”, Catal. Lett., 7(1-4), 1990, pp. 219-240.
Verbiest, A. M. G., “Fischer-Tropsch onderzoek aan gedragen ruthenium- en ruthenium/ijzer katalysatoren bij lage druk (1-25 Torr)”, Dissertation, Technische Hogeschool Eindhoven, 1985.
Vigdergauz, M. S., Martynov, A. A., Lezina, S. K., “Method for calculating activity coefficients of paraffin hydrocarbons in squalane solution”, Russian Chem. Bull., 20(7), 1971, p. 1494.
Villa, P., Valli, P. N., Pasquon, I., Del Piero, G., “Synthesis of alcohols from carbon oxides and hydrogen on ZnCrTi oxides: preparation and catalytic activity”, Catal. Lett., 16(4), 1992, pp. 413-419.
Vinod, C. P., Harikumar, K. R., Kulkarni, G. U., Rao, C. N. R., “Interaction of carbon monoxide with Cu–Pd and Cu–Ni bimetallic clusters”, Top. Catal., 11-12(1-4), 2000, pp. 293-298.
Viswanathan, B., Gopalakrishnan, R., Vetrivel, R., “Temperature programmed desorption (TPD) of carbon monoxide from cobalt surfaces”, React. Kinet. Catal. Lett., 18(1-2), 1982, pp. 209-212.
Vlasenko, V. M., Chernobrivets, V. L., Lunev, N. K., Malchevskii, A. I., “Formation of methane in methanol synthesis on zinc-chromium catalysts”, React. Kinet. Catal. Lett., 6(2), 1977, pp. 195-200.
Vlasenko, N. V., Kochkin, Yu. N., “Direct Single-Stage Conversion of Synthesis Gas to Dimethoxymethane: Influence of the Sequence of Metal Introduction into Cu, Pd-Zeolite Catalysts on the Degree of Cu and Pd Reduction and Catalyst Acidity”, Russian J. Appl. Chem., 76(10), 2003, pp. 1615-1619.
Vouitsis, E., Ntziachristos, L., Samaras, Z., “Modelling of diesel exhaust aerosol during laboratory sampling”, Atmospheric Environment, 39(7), 2005, pp. 1335-1345.
Voutsas, E. C., Pappa, G. D., Magoulas, K., Tassios, D. P., “Vapor liquid equilibrium modeling of alkane systems with Equations of State: ‘Simplicity versus complexity’”, Fluid Phase Equ., 240(2), 2006, pp. 127-139.
Vrbka, P., Fenclova, D., Lastovka, V., Dohnal, V., “Measurement of infinite dilution activity coefficients of 1-alkanols (C1-C5) in water as a function of temperature (273-373K)”, Fluid Phase Eq., 237(1-2), 2005, pp. 123-129.
Vredenbregt, L. H. J., “Fischer-Tropsch synthese onder verhoogde druk over een met silica gedragen ijzer-rutheen katalysator”, Dissertation, Technische Universiteit Eindhoven, 1987.
Vroomen, C. H. P. J., “Catalyst support modification characterization and its influence on the hydrodynamics of slurry bubble column”, Dissertation, Technische Universiteit Eindhoven, 2003.
Wallis, G. B., Karlin, A. S., Clark, III , C. R., Bharathan, D., Hagi, Y., Richter, H. J., “Countercurrent gas-liquid flow in parallel vertical tubes”, Internat. J. Multiphase Flow, 7(1), 1981, pp. 1-19.
Wang, C., Na, Y., Liu, S., Zhang, Y., Wang, Q., Xu, L., “Preparation of Iron Carbide Catalysts and Their Activity for CO Hydrogenation”, Chinese J. Catal., 26(7), 2005, pp. 539-541.
Wang, C., Wang, Q., Sun, X., Xu, L., “CO Hydrogenation to Light Alkenes Over Mn/Fe Catalysts Prepared by Coprecipitation and Sol-gel Methods”, Catal. Lett., 105(1-2), 2005, pp. 93-101.
Wang, H., Liu, J., Fu, J., Wan, H., Tsai, K., “Study on the mechanism of ethanol synthesis from syngas by in-situ chemical trapping and isotopic exchange reactions”, Catal. Lett., 12(1-3), 1992, pp. 87-96.
Wang, J., Zeng, C., “Al2O3 Effect on the Catalytic Activity of Cu-ZnO-Al2O3-SiO2 Catalysts for Dimethyl Ether Synthesis from CO2 Hydrogenation”, J. Nat. gas Chem., 14(3), 2005, pp. 156-162.
Wang, L., Qi, Y., Wei, Y., Fang, D., Meng, S., Liu, Z., “Research on the Acidity of the Double-function Catalyst for DME Synthesis from Syngas”, Catal. Lett., 106(1-2), 2006, pp. 61-66.
Wang, L. P., Millman, W. S., Tysoe, W. T., “The hydrogenation of CO over molybdenum/alumina in the presence of ethylene; coupling of olefin metathesis and CO hydrogenation”, Catal. Lett., 1(5), 1988, pp. 159-167.
Wang, M., Tian, S.-B., Gong, A.-J., “Application of analytical technologies in Fischer-Tropsch synthesis”, Nat. Gas Chem. Ind., 30(5), 2005, pp. 71-74.
Wang, T., Wang, J., Jin, Y., “Theoretical prediction of flow regime transition in bubble columns by the population balance model”, Chem. Eng. Sci., 60(22), 2005, pp. 6199-6209.
Wang, T., Wang, J., Jin, Y., “Population Balance Model for Gas-Liquid Flows: Influence of Bubble Coalescence and Breakup Models”, Ind. Eng. Chem. Res., 44(19), 2005, pp. 7540-7549.
Wang, T., Wang, J., Jin, Y., “A CFD-PBM coupled model for gas-liquid flows”, AIChE J., 52(1), 2006, pp. 125-140.
Wang, Y., Levec, J., “Activity of catalyst for liquid phase methanol synthesis”, Chinese J. Chem. Eng., 10(1), 2002, pp. 63-69.
Wang, Z., Tian, Z., Teng, F., Xu, Y., Hu, S., Tan, M., Xu, Z., Lin, L., “Effect of Silanization on Catalytic Performance of Pt/SAPO-11 for Hydroisomerization of n-Dodecane”, Chinese J. Catal., 26(9), 2005, pp. 819-823.
Wang, Z., Tian, Z., Teng, F., Wen, G., Xu, Y., Xu, Z., Lin, L., “Hydroisomerization of Long-Chain Alkane Over Pt/SAPO-11 Catalysts Synthesized from Nonaqueous Media”, Catal. Lett., 103(1-2), 2005, pp. 109-116.
Wang, Z. L., Diao, J., Wang, J. F., Jin, Y., Peng, X. D., “Study on synergy effect in dimethyl ether synthesis from syngas”, Chinese J. Chem. Eng., 9(4), 2001, pp. 412-416.
Warsito, W., Fan, L. S., “Dynamics of spiral bubble plume motion in the entrance region of bubble columns and three-phase fluidized beds using 3D ECT”, Chem. Eng. Sci., 60(22), 2005, pp. 6073-6084.
Waugh, K. C., “On the junction effect theory of activity in methanol synthesis catalysts”, Catal. Lett., 7(5-6), 1990, pp. 345-349.
Weigel, J. M., “Surface species in carbon monoxide and carbon dioxide hydrogenation reactions over zirconia supported catalysts for the synthesis of methanol; a drift spectroscopic study”, Dissertation, Swiss Federal Institute of Technology, Zuerich, 1996.
Wen, J. P., Jia, X. Q., Feng, W., “Hydrodynamic and Mass Transfer of Gas-Liquid-Solid Three-Phase Internal Loop Airlift Reactors with Nanometer Solid Particles”, Chem. Eng. Tech., 28(1), 2005, pp. 53-60.
Wen, J. P., Lei, P., Huang, L., “Modeling and Simulation of Gas-Liquid-Solid Three-Phase Fluidization”, Chem. Eng. Comm., 192(7), 2005, pp. 941-955.
Wieczorek, F., “Physikalisch-chemische Struktur und Aktivität von Eisenkatalysatoren auf unterschiedlichen Aktivkohleträgern am Beispiel der Fischer-Tropsch-Synthese”, Dissertation, Univ.-Gesamthochschule Essen, 1989.
Wiemann, D., Mewes, D., “Prediction of Backmixing and Mass Transfer in Bubble Columns Using a Multifluid Model”, Ind. Eng. Chem. Res., 44(14), 2005, pp. 4959-4967.
Wiemann, D., Mewes, D., “Calculation of flow fields in two and three-phase bubble columns considering mass transfer”, Chem. Eng. Sci., 60(22), 2005, pp. 6085-6093.
Wierzchowski, T., “Hydrogenation of CO2”, React. Kinet. Catal. Lett., 30(2), 1986, pp. 203-207.
Wild, G., Poncin, S., Li, H.-Z., Olmos, E., “Some Aspects of the Hydrodynamics of Bubble Columns”, Internat. J. Chem. React. Eng., 1, 2003, R7.
Williams, K. J., Boffa, A. B., Lahtinen, J., Salmeron, M., Bell, A. T., Somorjai, G. A., “Hydrogenation of CO2, acetone, and CO on a Rh foil promoted by titania overlayers”, Catal. Lett., 5(4-6), 1990, pp. 385-394.
Williams, K. J., Boffa, A. B., Salmeron, M., Bell, A. T., Somorjai, G. A., “The kinetics of CO2 hydrogenation on a Rh foil promoted by titania overlayers”, Catal. Lett., 9(5-6), 1991, pp. 415-426.
Wu, B., Bai, L., Zhang, Z., Xiang, H., Li, Y., Yi, F., Xu, B., “Catalytic Performance of Iron-Based Catalysts Prepared Using Different Precipitating Agents for Fischer-Tropsch Synthesis”, Chinese J. Catal., 26(5), 2005, pp. 371-376.
Wu, B., Tian, L., Xiang, H., Zhang, Z., Li, Y.-W., “Novel precipitated iron Fischer–Tropsch catalysts with Fe3O4 coexisting with a-Fe2O3”, Catal. Lett., 102(3-4), 2005, pp. 211-218.
Wu, J. C., Lin, H. M., Lai, C. L., “Photo reduction of CO2 to methanol using optical-fiber photoreactor”, Appl. Catal. A, 296(2), 2005, pp. 194-200.
Wu, J. J., Wang, D., Li, L. H., Zhou, J., “Characterization of Flow Regimes in Bubble Columns through CCF Analysis of Pressure Fluctuations”, Chem. Eng. Tech., 28(10), 2005, pp. 1109-1112.
Wulff, W., “Computational methods for multiphase flow”, Multiphase Sci. Tech., 5, 1990, pp. 85-238.
Wuts, H., “Kinetisch onderzoek naar Fischer-Tropsch reactie over kobalt, ruthenium en ruthenium gepromote kobalt sponskatalysatoren op de TAP reactor set-up”, Dissertation, Technische Universiteit Eindhoven, 1999.
Xiao, Z., Tan, R. B. H., “A model for bubble-bubble and bubble-wall interaction in bubble formation”, AIChE J., 52(1), 2006, pp. 86-98.
Xiaohong, Z., Jun, W., Yanlai, L., Ziqiu, S., “Intensification of Gas-Liquid Mass Transfer by the Addition of Alcohols or Electrolyte”, Chem. React. Eng. Tech., 21(3), 2005, pp. 221-226.
Xiong, H., Zhang, Y., Wang, S., Li, J., “Fischer–Tropsch synthesis: the effect of Al2O3 porosity on the performance of Co/Al2O3 catalyst”, Catal. Comm., 6(8), 2005, pp. 512-516.
Xiong, J., Ding, Y., Wang, T., Lu, Y., Zhu, H., Luo, H., Lin, L., “Effect of La2O3 Promoter on Reaction Performance of Fischer-Tropsch Synthesis over Co/AC Catalyst”, Chinese J. Catal., 26(10), 2005, pp. 874-878.
Xiong, J., Ding, Y., Wang, T., Yan, L., Chen, W., Zhu, H., Lu, Y., “The formation of Co2C species in activated carbon supported cobalt-based catalysts and its impact on Fischer–Tropsch reaction”, Catal. Lett., 102(3-4), 2005, pp. 265-270.
Xu, B., Fan, Y., Zhang, Y., Tsubaki, N., “Pore Diffusion Simulation Model of Bimodal Catalyst for Fischer-Tropsch Synthesis”, AIChE J., 51(7),2 005, pp. 2068-2076.
Xu, D., Li, W., Duan, H., Ge, Q., Xu, H., “Reaction performance and characterization of Co/Al2O3 Fischer–Tropsch catalysts promoted with Pt, Pd and Ru”, Catal. Lett., 102(3-4), 2005, pp. 229-236.
Xu, D., Li, W., Duan, H., Ge, Q., Xu, H., “Effect of Pt, Ru and Pd Promoters on the Performance of Co/gamma-Al2O3 Catalysts for Fischer-Tropsch Synthesis”, Chinese J. Catal., 26(9), 2005, pp. 780-784.
Xu, L., Wang, Q., Xu, Y., Huang, J., “A new supported Fe-MnO catalyst for the production of light olefins from syngas. II. Effect of support on the secondary reactions of C2H4”, Catal. Lett., 24(1-2), 1994, pp. 187-195.
Xuan, A., Wu, Y., Peng, C., Ma, P., “Correlation of the viscosity of pure liquids at high pressures based on an equation of state”, Fluid Phase Equ., 240(1), 2006, pp. 15-21.
Yaccato, K., Carhart, R., Hagemeyer, A., Lesik, A., Strasser, P., Volpe, A. F., Turner, H., Weinberg, H., Grasselli, R. K., Brooks, C., “Competitive CO and CO2 methanation over supported noble metal catalysts in high throughput scanning mass spectrometer”, Appl. Catal. A., 296(1), 2005, pp. 30-48.
Yagi, J., Akiyama, T., Muramatsu, A., “Catalyst development for methanol and dimethyl ether production from blast furnace off gas”, Stud. Surf. Sci. catal., 133, 2001, pp. 435-443.
Yakerson, V. I., Frankfurt, G. I., Boevskaya, E. A., Lapidus, A. L., Golosman, E. Z., “Phase composition and formation of cobalt-copper cement catalysts”, Russian Chem. Bull., 41(1), 1992, pp. 35-40.
Yakerson, V. I., Lafer, L. I., Danyushevskii, V. Ya., Rubinshtein, A. M., “Infrared spectra of catalysts and adsorbed molecules”, Russian Chem. Bull., 18(1), 1969, pp. 15-20.
Yakerson, V. I., Lafer, L. I., Danyushevskii, V. Ya., Rubinshtein, A. M., “Infrared spectra of catalysts and adsorbed molecules”, Russian Chem. Bull., 18(1), 1969, pp. 21-28.
Yamagishi, T., Furikado, I., Ito, S.-I., Miyao, T., Naito, S., Tomishige, K., Kunimori, K., “Catalytic performance and characterization of RhVO4/SiO2 for hydroformylation and CO hydrogenation”, J. Molec. Catal. A, 244(1-2), 2006, pp. 201-212.
Yang J., “A review of kinetics for Fischer-Tropsch synthesis”, Chem. J. Internet, 6(4), 2004, p. 27.
Yang, J., Sun, Y., Tang, Y., Liu, Y., Wang, H., Tian, L., Wang, H., Zhang, Z., Xiang, H., Li, Y., “Effect of magnesium promoter on iron-based catalyst for Fischer–Tropsch synthesis”, J. Molec. Catal. A, 245(1-2), 2006, pp. 26-36.
Yang, R., Fu, Y., Zhang, Y., Tsubaki, N., “Study of Low-Temperature Methanol Synthesis Mechanism on Cu/ZnO Catalyst from CO2-Containing Syngas using Ethanol Promoter”, Catalysis and Catalyst, 46, 2004, pp. 447-449.
Yang, R., Fu, Y., Zhang, Y., Xu, B., Tsubaki, N., “In situ DRIFT Study of a New Low-Temperature Methanol Synthesis Mechanism”, Bull. Chem. Soc. Japan, 78, 2005, pp. 135-137.
Yang, R., Zhang, Y., Tsubaki, N., “Spectroscopic and Kinetic Analysis of a New Low-Temperature Methanol Synthesis Reaction”, Catal. Lett., 106(3-4), 2006, pp. 153-159.
Yang, W., Fang, D., Xiang, H., Li, Y., Liu, J., “Characterization and Catalytic Performance of Co/HMS and Co/SiO2 Catalysts for Fischer-Tropsch Synthesis”, Chinese J. Catal., 26(4), 2005, pp. 329-334.
Yang, Y., Xiang, H., Zhang, R., Zhong, B., Li, Y., “A highly active and stable Fe-Mn catalyst for slurry Fischer-Tropsch synthesis”, Catal. Today, 106(1-4), 2005, pp. 170-175.
Ye, D. X., Pimanpang, S., Jezewski, C., Tang, F., Senkevich, J. J., Wang, G. C., Lu, T.M., “Low temperature chemical vapor deposition of Co thin films from Co2(CO)8”, Thin Solid Films, 485(1-2), 2005, pp. 95-100.
Yermakova, A., Kuzmin, V. A., Umbetov, A. S., “’Surface renewal’ model to describe the rate of liquid-to-particle mass transfer in two-and three-phase systems”, React. Kinet. Catal. Lett., 27(2), 1985, pp. 325-328.
Yeung, C. M. Y., Yu, K. M. K., Fu, Q. J., Thompsett, D., Petch, M. I., Tsang, S. C., “Engineering Pt in Ceria for a Maximum Metal-Support Interaction in Catalysis”, J. Am. Chem. Soc., 127(51), 2005, pp. 18010-18011.
Yoneyama, Y., He, J., Nishiyama, N., Tsubaki, N., “Development of Capsule Catalyst and the Applications on Ficher-Tropsh Synthesis for One-Step Synthesis of Isoparaffins”, Catalyst and Catalysis, 47, 2005, pp. 403-405.
Yoon, K. B., Kochi, J. K., “Facile reduction of carbon monoxide in zeolites by ionic sodium clusters”, Catal. Lett., 1(6-7), 1988, pp. 183-189.
Yoshihara, J., Parker, S. C., Schafer, A., Campbell, C. T., “Methanol synthesis and reverse water-gas shift kinetics over clean polycrystalline copper”, Catal. Lett., 31(4), 1995, pp. 313-324.
Yu, Y.-M., Zhang, Y.-P., Fei, J.-H., Zheng, X.-M., “Silica Immobilized Ruthenium Catalyst for Formic Acid Synthesis from Supercritical Carbon Dioxide Hydrogenation II: Effect of Reaction Conditions on the Catalyst Performance”, Chinese J. Chem., 23(8), 2005, pp. 977-982.
Yuen, P. S. L., Meneley, D. A., Banerjee, S., “Measurement of void fraction by a neutron-scattering technique with portable sources: Effect of the incident energy spectrum”, Internat. J. Multiphase Flow, 14(4), 1988, pp. 401-412.
Yushko, V. L., Sergienko, I. D., Pushkin, A. G., Muli, V. P., “Determination of the height of a gas-liquid bed on bubble plates”, Chem. Petrol. Eng., 16(3), 1980, pp. 196-198.
Zachos, A., Kaiser, M., Merzkirch, W., “PIV measurements in multiphase flow with nominally high concentration of the solid phase”, Experim. Fluids, 20(3), 1996, pp. 229-231.
Zaera, F., “Spectroscopic study of carbon monoxide and sodium coadsorption on Ni(100)”, Catal. Lett., 1(10), 1988, pp. 317-325.
Zaitsev, A. V., Kozlova, G. V., Borovkov, V. Yu., Krylova, A. Yu.,. Lapidus, A. L., Kazanskii, V. B., “IR spectral study of the effect of the reaction medium on the state of cobalt in a 10% Co/Al2O3 catalyst for aliphatic hydrocarbons from CO and H2”, Russian Chem. Bull., 39(11), 1990, pp. 2394-2396.
Zaitsev, A. V., Tsapkina, M. V., Savel'ev, M. M., Borovkov, V. Yu., Lapidus, A. L., Kazanskii, V. B., “IR spectroscopic study of alumina-iron-potassium catalysts for hydrocarbon synthesis from CO and H2”, Russian Chem. Bull., 34(9), 1985, pp. 1798-1801.
Zaitsev, A. V., Tsapkina, M. V., Savel'ev, M. M., Borovkov, V. Yu., Lapidus, A. L., Kazanskii, V. B., “Effect of the nature of the alkaline promoter on the properties of iron carbonyl catalysts”, Russian Chem. Bull., 35(7), 1986, pp. 1343-1347.
Zaitsev, A. V., Tyupaev, A. P., Borovkov, V. Yu., Sterligov, O. D., Isagulyants, G. V., Kazanskii, V. B., “Physicochemical and catalytic properties of alumoiridium systems modified by indium in the dehydrogenation of normal higher paraffins”, Russian Chem. Bull., 40(10), 1991, pp. 1944-1948.
Zaitsev, A. V., Tyupaev, A. P., Borovkov, V. Yu., Timofeeva, E. A., Isatulyants, G. V., Kazanskii, B. B., “Catalytic and physicochemical properties of aluminoplatinum catalysts modified with indium and gallium”, Russian Chem. Bull., 35(4), 1986, pp. 690-695.
Zaitsev, V. A., Guseva, T. P., “Investigation of hydrodynamics in appartus with aerating devices”, Chem. Petrol. Eng., 19(10), 1983, pp. 429-432.
Zakumbaeva, G. D., Omashev, K. G., Khan, Ch., “Influence of water on the heat of hydrogen adsorption on nickel”, React. Kinet. Catal. Lett., 6(3), 1977, pp. 363-369.
Zakumbaeva, G. D., Urumbaeva, Sh. U., Nigmetova, D. T., Khisametdinov, A. M., Kuanyshev, A. Sh., “CO2 hydrogenation on iron-containing mono- and bimetallic catalysts”, React. Kinet. Catal. Lett., 34(1), 1987, pp. 123-128.
Zaky, M. T., “A Study on the Dependence of Penetration on the Physical and Molecular Characteristics of Paraffin Waxes”, Petrol. Sci. Tech., 23(11/12), 2005, pp. 1381-1392.
Zeng, J., Tsubaki, N., Fujimoto, K., “A New Low-Temperature Methanol Synthesis via Dual Catalysis”, Science in China, 31, 2002, pp. 487-492.
Zeng, J., Tsubaki, N., Fujimoto, K., “New Process of Low-Temperature Methanol Synthesis from CO/CO2/H2 based on Dual-Catalysis”, Science in China B, 45, 2002, pp. 106-112.
Zhang, C., Teng, B., Yang, Y., Tao, Z., Hao, Q., Wan, H., Yi, F., Xu, B., Xiang, H., Li, Y., “Effect of air-exposure on reduction behavior of a Fe–Mn–Cu–K/SiO2 Fischer-Tropsch synthesis catalyst”, J. Molec. Catal. A, 239(1-2), 2005, pp. 15-21.
Zhang, C.-H., Yang, Y., Teng, B.-T., Li, T.-Z., Zheng, H.-Y., Xiang, H.-W., Li, Y.-W., “Study of an iron-manganese Fischer-Tropsch synthesis catalyst promoted with copper”, J. Catal., 237(2), 2006, pp. 405-415.
Zhang, G. D., Cai, W. F., Xu, C. J., Zhou, M., “A general enhancement factor model of the physical absorption of gases in multiphase systems”, Chem. Eng. Sci., 61(2), 2006, pp. 558-568.
Zhang, H., Ying, W., Fang, D., “Modeling of bubble column slurry reactor for dimethyl ether synthesis from syngas”, Chinese J. Chem. Eng., 13(3), 2005, pp. 367-372.
Zhang, H.-B., Dong, X., Lin, G.-D., Liang, X.-L., Li, H.-Y., “Carbon nanotube-promoted Co–Cu catalyst for highly efficient synthesis of higher alcohols from syngas”, Chem. Comm., 2005(40), pp. 5094-5096.
Zhang, K., Zhao, Y., “A scale-up strategy for low-temperature methanol synthesis in a circulating slurry bubble reactor”, Chem. Eng. Sci., 61(5), 2006, pp. 1459-1469.
Zhang, K., Zhao, Y., Zhang, B., “Gas Holdup Characteristics in a Tapered Bubble Column”, Internat. Chem. React. Eng., 1, 2003, S3.
Zhang, W., Yang, H., Su, G., Gao, R., Yin, Y., “CO hydrogenation over Al2O3: pseudo-hydrothermal and basic alkali metal compounds pretreatment effect”, Catal. Lett., 33(1-2), 1995, pp. 31-37.
Zhang, W., Yang, H., Wang, X., Su, G., Gao, R., Yin, Y., “CO hydrogenation on alumina pre-treated with sodium acetate aqueous solution”, Catal. Lett., 30(1-4), 1994, pp. 113-122.
Zhang, X., Ahmadi, G., “Eulerian-Lagrangian simulations of liquid-gas-solid flows in three-phase slurry reactors”, Chem. Eng. Sci., 60(18), 2005, pp. 5089-5104.
Zhang, Y., Hou, L., Tierney, J. W., Wender, I., “Chain Initiation of Fischer-Tropsch with Acetylene Incorporation”, ACS Div. Fuel Chem. Prepr., 50(2), 2005, p. 601.
Zhang, Y., Koike, M., Yang, R., Hinchiranan, S., Vitidsant, T., Tsubaki, N., “Multi-functional alumina–silica bimodal pore catalyst and its application for Fischer-Tropsch synthesis”, Appl. Catal. A, 292, 2005, pp. 252-258.
Zhang, Y., Xiao, Z., Tan, R. B. H., “Interfacial Element Modeling of Bubble Formation with Liquid Viscosity”, J. Chem. Eng. Japan, 38(7), 2005, pp. 478-485.
Zhang, Y., Xiong, H., Liew, K., Li, J., “Effect of magnesia on alumina-supported cobalt Fischer-Tropsch synthesis catalysts”, J. Molec. Catal. A, 237(1-2), 2005, pp. 172-181.
Zhao, Y.-Q., Chen, J.-X., Zhang, J.-X., Zhang, J.-Y., “Study on direct synthesis of dimethyl ether by hydrogenation of carbon dioxide: II Effects of Cu/Zn ratio on structure and properties of catalysts”, J. Fuel Chem. Tech., 33(3), 2005, pp. 334-338.
Zhang, Z., Cavalcanti, F. A. P., Sachtler, W. M. H., “Catalysts by design: genesis and CO hydrogenation of novel Pd carbonyl clusters in zeolite 5A”, Catal. Lett., 12(1-3), 1992, pp. 157-169.
Zhang, Z., Yin, Y.-G., Sachtler, W. M. H., “A novel preparation method for zeolite encaged Co clusters”, Catal. Lett., 18(1-2), 1993, pp. 73-79.
Zhe-quan, Fang, K.-G., Chen, J.-G., Sun, Y.-H., “Feet of pH value of impregnating solution on the performance of Co/TiO, catalyst for Fischer-Tropsch synthesis”, J. Fuel Chem. Tech., 33(4), 2005, pp. 506-508.
Zheng, Y., Zhu, J., Wushouer, A., “Transition from Low Velocity to High Velocity in a Three Phase Fluidized Bed”, Chem. Eng. Tech., 28(9), 2005, pp. 1010-1015.
Zhibin, T., Xiaohu, W., Chao, F., Xinling, Y., “Industrial application of a novel catalyst XNC-98 for low pressure methanol synthesis”, Petrol. Tech. & Applic., 23(5), 2005, pp. 377-379.
Zhilyaeva, N. A., Volnina, E. A., Kukina, M. A., Frolov, V. M., “Carbon Dioxide Hydrogenation Catalysts (a Review)”, Petrol. Chem., 42(6), 2002, p. 367.
Zhou, M., Wang, D., Liu, X., Xiang, N., Guo, X., Zhai, R., “The kinetics of desorption in the presence of a gas phase of the desorbing molecule: CO/Re(001)”, Catal. Lett., 3(1), 1989, pp. 37-47.
Zhou, Z., “Middle Distillate Fuels From Fischer-Tropsch Wax Using Anion Modified Zirconia Catalysts”, Dissertation, U. Pittsburgh, 2004.
Zhu, T.-Q., Fang, K.-G., Zhang, J.-L., Zhao, H.-X., Chen, J.-G., Sun, Y.-H., “Study on reaction performance of Co/ZrO2-Al2O3 catalysts for Fischer-Tropsch synthesis”, J. Fuel Chem. Tech., 33(3), 2005, pp. 320-323.
Zhuang, Y. Q., Claeys, M., van Steen, E., “Novel synthesis route for egg-shell, egg-white and egg-yolk type of cobalt on silica catalysts”, Appl. Catal. A, 301(1), 2006, pp. 138-142.
Zieliński, J., “The effect of water on the reduction of nickel/alumina catalysts”, Catal. Lett., 12(4), 1992, pp. 389-393.
Zielinski, P., Farbotko, J. M., Paryjczak, T., “Temperature-programmed desorption of carbon monoxide from 3% Ir−Fe/Al2O3 catalysts”, React. Kinet. Catal. Lett., 39(1), 1989, pp. 123-127.
Zimowska, M., Wagner, J. B., Dziedzic, J., Camra, J., Borzęcka-Prokop, B., Najbar, M., “Some aspects of metal-support strong interactions in Rh/Al2O3 catalyst under oxidising and reducing conditions”, Chem. Phys. Lett., 417(1-3), 2006, pp. 137-142.
Zippe, C., Hoppe, D., Fietz, J., Hampel, U., Hensel, F., Mäding, P., Prasser, H.-M., Zippe, W., “Messung von Phasen- und Konzentrationsverteilungen in Blasensäulen mit Positronen-Emissions-Tomographie”, Chem.-Ing.-Tech., 77(10), 2005, pp. 1581-1587.
Zubanova, L. G., Krotova, I. N., Sevost’yanov, V. P., “Formation of Carbon Monoxide by Hydrogenation of Carbon Dioxide and Its Role in the Process”, Petrol. Chem., 39(2), 1999, p. 99.
Zubova, K. V., Zubov, A. V., Zubov, V. A., “Cluster Structure of Liquid Alcohols, Water, and n-Hexane”, J. Appl. Spectr., 72(3), 2005, pp. 321-328.
Zun, I., “Transition from wall void peaking to core void peaking in turbulent bubbly flow”, in “Transient Phenomena in Multiphase Flow” (N. H. Afgan, ed.), Hemisphere Publishing, New York, 1988, pp. 225-245.
Zwergal, A., “Die Rolle der Kohlenwasserstoffe bei der Herstellung synthetischer Fettprodukte durch Oxydation in Deutschland”, Coll. Polymer Sci., 112(2-3), 1949, pp. 168-182.
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