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Return to Literature References Table of Contents Literature ReferencesAugust 22, 2004 Update
Aasberg-Petersen, K., Christensen, T. S., Stub Nielsen, C., Dybkjaer, I., “Recent developments in autothermal reforming and pre-reforming for synthesis gas production in GTL applications”, Fuel Proc. Tech., 83(1-3), 2003, pp. 253-261. Abbate, M., Fuggle, J. C., Fujimori, A., Tjeng, L. H., Chen, C. T., Potze, R., Sawatzky, G. A., Eisaki, H., Uchida, S., “The electronic structure and the spin-state transition of LaCoO3”, Phys. Rev. B, 47, 1993, pp. 16124-16130. Abbate, M., Potze, R., Sawatzky, G. A., Fujimori, A., “Band-structure and cluster-model calculations of LaCoO3 in the low-spin phase”, Phys. Rev. B, 49, 1994, pp. 7210-7218, Abbott, J., Clark, N. J., Baker, B. G., “Effects of sodium, aluminium and manganese on the Fischer-Tropsch synthesis over alumina-supported iron catalysts”, Appl. Catal., 26, 1986, pp. 141-153. Aika, K.-I., Yamaguchi, T., Onishi, T., “Characterization and catalytic behaviour of graphite lamellar compounds of iron, nickel and cobalt”, Appl. Catal., 23(1), 1986, pp. 129-137. Akimoto, K., Sakisaka, Y., Nishijima, N., Onchi, M., “Electron Energy-Loss Spectra of CO-Adsorbed Ni(100) Surfaces”, Surf. Sci., 88, 1979, pp. 109-120. Akin, A. N., Ataman, M., Aksoylu, A. E., Önsan, Z. I., "CO2 fixation by hydrogenation over Co-precipitated Co/Al2O3”, React. Kinet. Catal. Lett., 76(2), 2002, pp. 265-270. Akretche, S., Antari, A., Mokrani, T., “The South African GTL technology: an opportunity to monetize African natural gas”, Chem. Tech. - Bedfordview, April, 2003, pp. 5-8. Albers, M. O., Coville, N. J., “Reagent and catalyst induced substitution reactions of metal carbonyl complexes”, Coord. Chem. Rev., 53, 1984, pp. 227-259. Albertos, F., Harji, B. H., Kenney, C. N., Burstein, G. T., “Catalytic behaviour of some glassy alloys to the Fischer-Tropsch reaction at high pressures”, Appl. Catal., 65(1), 1990, pp. 85-100. Alden, M., Mirbt, S., Skriver, H. L., Rosengaard, N. M., Johansson, B., “Surface magnetism in iron, cobalt, and nickel”, Phys. Rev. B, 46, 1992, p. 6303. Alessi, P., Cortesi, A., Fermeglia, M., Fontana, M., Kikic, I., “Prediction of solubility in heavy ends by means of PHCT”, Fluid Phase Equ., 53, 1989, pp. 397-406. Allison, J. N., Goddard, III, W. A., “Theoretical studies of CO/Ni(100): Geometry, vibrational frequencies and ionization potentials for the on-top site”, Surf. Sci., 115(3), 1982, pp. 553-568. Alvarez Collado, J. R., “On the calculation of atomic spin densities of hcp surface clusters of transition metals (Co, Ni, Cu), of medium size (100-1000 atoms)”, Surf. Sci., 531(2), 2003, pp. 103-112. Alvero, R., Bernal, A., Carrizosa, I., Odriozola, J. A. “Characterization of lanthanide oxide-promoted rhodium alumina catalysts”, Inorg. Chim. Acta, 140, 1987, pp. 45-47. Amick, P., Geosits, R., Kramer, S., “A coal to hydrogen plant”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 199. Anabtawi, M. Z. A., Abu-Eishah, S. I., Hilal, N., Nabhan, M. B. W., “Hydrodynamic studies in both bi-dimensional and three-dimensional bubble columns with a single sparger”, Chem. Eng. Proc., 42(5), 2003, pp. 403-408. Anderson, J. R., “Methane to higher hydrocarbons”, Appl. Catal., 47(2), 1989, pp. 177-196. Apai, G., Baetzold, R. C., Jupiter, P. J., Viescas, A. J., Lindau, I., “Influence of acceptor and donor adsorbates (CO, K, NH3) on Pt surface core-level shifts”, Surf. Sci., 134(1), 1983, pp. 122-134. Apai, G., Wehner, P. S., Stöhr, J., Williams, R. S., Shirley, D. A., “Photoemission from Co on Pt(111) using synchrotron radiation in the range 40 eV to 150 eV”, Solid State Comm., 20(12), 1976, pp. 1141-1145. Apple, T. M., Dybowski, C., “TPD-NMR study of hydrogen irreversibly adsorbed on Rh/TiO2”, Surf. Sci., 121(2), 1982, pp. 243-248. Armstrong, R. S., Bell, T., Chaffee, A. L., Chin, V. W. L., Loehb, H. J., Lucchese, A. B. J., Masters, A. F., Williams, M. A., “Supported Metal Cluster Compounds as Precursors of Fischer-Tropsch Catalysts”, Appl. Catal., 47(2), 1989, pp. 243-252. Armstrong, R. S., Bell, T., Masters, A. F., Williams, M. A., Chaffee, A. L., “Fischer-tropsch catalysts derived from surface confined [HnFeCo3(CO)12]n-1 (n = 0, 1)”, Polyhedron, 9(23), 1990, pp. 2815-2822. Arranz, A., Perez-Dieste, V., Palacio, C., “Growth, electronic properties and thermal stability of the Fe/Al2O3 interface”, Surf. Sci., 521(1-2), 2002, pp. 77-83. Azpitarte, O. E., Buscaglia, G. C., “Analytical and numerical evaluation of two-fluid model solutions for laminar fully developed bubbly two-phase flows”, Chem. Eng. Sci., 58(16), 2003, pp. 3765-3776. Bai, R.-X., Tan, Y.-S., Han, Y.-Z., “Effects of Fe Content on the Hydrogenation of Carbon Dioxide over Fe-Zn-M/HY Composite Catalysts”, J. Fuel Chem. Tech., 31(5), 2003, pp. 424-428. Baibich, I. M., Gerbase, A. E., da Rose, R. G., Amaral, L., Vasquez, A., “Mössbauer and infrared study of the thermal decomposition of iron and nickel compounds impregnated in alumina”, Spectrochim. Acta A, 45(9), 1989, pp. 933-936. Baker, C. G. J., Al-Rashidi, T. S. T., Khan, A. R., “Studies on Liquid-Gas and Three-Phase Fluidized Beds with Pulsating Air Flows”, Can. J. Chem. Eng., 81(1), 2003, pp. 17-25. Baker, J. E., Burch, R., Golunski, S. E., “Thermal analysis of catalyst surfaces”, Thermochim. Acta, 142(2), 1989, pp. 329-342. Baker, J. E., Burch, R., Hibble, S. J., Loader, P. K., “Properties of silica-supported Cu/Co bimetallic catalysts in the synthesis of higher alcohols”, Appl. Catal., 65(1), 1990, pp. 281-292. Baker, J. M., Bessell, S., Seddon, D., “Conversion of propene into gasoline and middle distillate using alkalised ZSM-5 zeolite catalysts”, Appl. Catal., 45(1), 1988, pp. L1-L9. Balek, V., Mitsuhashi, T., Watanabe, A., Zeleak, V., Subrt, J., Bezdika, P., Bohaek, J., “Oxidation behavior of Ru/TiO2 and metallic Ru fine particles on heating in air”, J. Coll. Interface Sci., 260(1), 2003, pp. 70-74. Ballard, D. G. H., “Mechanism of fischer-tropsch synthesis: CH2 polymerisation versus CO insertion”, J. Molec. Catal., 19(3), 1983, pp. 393-397. Ballivet-Tkatchenko, D., Coudurier, G., Mozzanega, H., Tkatchenko, I., Kiennemann, A., “Molecular clusters in zeolites. I. Iron-based catalytic precursors in the Fischer-Tropsch synthesis”, J. Molec. Catal., 6(4), 1979, pp. 293-297. Baltrus, J. P., Diehl, J. R., McDonald, M. A., Zarochak, M. F., “Effects of pretreatment on the surface properties of iron Fischer-Tropsch catalysts”, Appl. Catal., 48(1), 1989, pp. 199-213. Banãres-Alcántara, R., Ko, E. I., Westerberg, A. W., Rychener, M. D., “DECADE - a hybrid expert system for catalyst selection - II. Final architecture and results”, Comput. Chem. Eng., 12(9-10), 1988, pp. 923-938. Bañares-Alcántara, R., Westerberg, A. W., Ko, E. I., Rychener, M. D., “Decade - A hybrid expert system for catalyst selection - I. Expert system consideration”, Comput. Chem. Eng., 11(3), 1987, pp. 265-277. Bando, Y., Chaya, M., Hamano, S.-I., Yasuda, K., Nakamura, M., Osada, K., Matsui, M., “Effect of Liquid Height on Flow Characteristics in Bubble Column Using Highly Viscous Liquid”, J. Chem. Eng. Japan, 36(5), 2003, pp. 523-529. Barbier, A., Ohresser, P., Da Costa, V., Carrière, B., Deville, J.-P., “Preparation and characterization of Co(10-10) surfaces”, Surf. Sci., 405, 1998, pp. 298-307. Barghi, S., Briens, C. L., Bergougnou, M. A., “Measurement of Solid Circulation Patterns in Liquid-Solid and Gas-Liquid-Solid Fluidized Beds”, Can. J. Chem. Eng., 81(1), 2003, pp. 124-128. Baró, A. M., Erley, W., “The chemisorption of hydrogen on a (110) iron crystal studied by vibrational spectroscopy (EELS)”, Surf. Sci. Lett., 112(1-3), 1981, pp. L759-L764. Barrault, J., Blanchard, M., Derouault, A., Ksibi, M., Zaki, M. I., “Infrared observation of the chemical consequences of cobalt catalyst produced in mixed solutions of Al(Et)3 and Co(acac)2”, J. Molec. Catal., 93(3), 1994, pp. 289-304. Barrault, J., Chafik, A., Gallezot, P., “Conversion of carbon oxide(s) on carbon-supported, nickel-rare earth catalysts”, Appl. Catal., 67(1), 1990, pp. 257-268. Barrault, J., Forquy, C., “Effects of manganese oxide and sulphate on olefin selectivity of iron supported catalysts in the Fischer-Tropsch reaction”, Appl. Catal., 5(1), 1983, pp. 119-125. Barrault, J., Forquy, C., Perrichon, V., “Hydrogenation of carbon monoxide to light olefins on iron-alumina catalysts”, J. Molec. Catal., 17(2-3), 1982, pp. 195-203. Barresi, A., Baldi, G., “Solid dispersion in an agitated vessel: effect of particle shape and density”, Chem. Eng. Sci., 42(12), 1987, pp. 2969-2972. Bartholin, M., Graillat, C., Guyot, A., “Evolution et activite catalytique de complexes de rhodium sur silice phosphinee”, J. Molec. Catal., 10(1), 1980, pp. 99-106. Bartholomew, C. H., Zennaro, R., Huber, G. W., “Kinetics of Fischer-Tropsch Synthesis on Titania-Supported Cobalt,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 69. Basile, A., Paturzo, L., Gallucci, F., “Co-current and counter-current modes for water gas shift membrane reactor”, Catal. Today, 82(1-4), 2003, pp. 275-281. Basile, A., Paturzo, L., Vazzana, A., “Membrane reactor for the production of hydrogen and higher hydrocarbons from methane over Ru/Al2O3 catalyst”, Chem. Eng. J., 93(1), 2003, pp. 31-39. Basset, J. M., Candy, J. P., Choplin, A., Santini, C., Theolier, A., “Some recent aspects of surface organometallic chemistry”, Catal. Today, 6(1-2), 1989, pp. 1-26. Basset, J. M., Choplin, A., “Surface organometallic chemistry: A new approach to heterogeneous Catalysis ?”, J. Molec. Catal., 21(1-3), 1993, pp. 95-108. Batchelor, G. K., “The stability of large gas bubbles rising through liquid”, J. Fluid Mech., 184, 1987, p. 399. Baudais, F. L., Borschke, A. J., Fedyk, J. D., Dignam, M. J., “The decomposition of methanol on Ni(100)”, Surf. Sci., 100(1), 1980, pp. 210-224. Bazin, D., Borko, L., Koppany, Z., Kovacs, I., Stefler, G., Sajo, L. I., Schay, Z., Guczi, L., “Re-Co/NaY and Re-Co/Al2O3 Bimetallic Catalysts: In Situ EXAFS Study and Catalytic Activity”, Catal. Lett., 84(3-4), 2002, pp. 169-182. Bazin, D., Kovacs, I., Lynch, J., Guczi, L., “Ru-Co/NaY bimetallic catalysts: in situ EXAFS study at Co K- and Ru K-absorption edges”, App. Catal. A, 242(1), 2003, pp. 179-186. Bedel, L., Roger, A. C., Estournes, C., Kiennemann, A., “Co0 from partial reduction of La(Co,Fe)O3 perovskites for Fischer-Tropsch synthesis”, Catal. Today, 85(2-4), 2003, pp. 207-218. Beer, J. M., “Clean and efficient coal based electric power generation”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 205. Begak, O. Yu., Syroezhko, A. M., “Improving the Cetane Number of Diesel Fuels”, Russian J. Appl. Chem., 76(8), 2003, p. 1351. Belyaev, A. A., Yampolskii, Y. P., Starannikova, L. E., Polyakov, A. M., Clarizia, G., Drioli, E., Marigliano, G., Barbieri, G., “Membrane air separation for intensification of coal gasification process”, Fuel Proc. Tech., 80(2), 2002, pp. 119-141. Benndorf, C., Krüger, B., Thieme, F., “Unusually low stretching frequency for CO adsorbed on Fe(100)”, Surf. Sci., 163(1), 1985, pp. L675-L680. Bernasek, S. L., Zappone, M., Jiang, P., “Adsorption and coadsorption of CO and H2 on Fe(111) probed by TEAS”, Surf. Sci., 272(1-3), 1992, pp. 53-64. Bertole, C. J., Mims, C. A., Kiss, G., “Support and rhenium effects on the intrinsic site activity and methane selectivity of cobalt Fischer-Tropsch catalysts”, J. Catal., 221(1), 2003, pp. 191-203. Bertolini, J. C., Tardy, B., “Vibrational EELS studies of CO chemisorption on clean and carbided (111), (100) and (110) nickel surfaces”, Surf. Sci., 102(1), 1981, pp. 131-150. Berty, J. M., “Comments on the paper "An Improved Gas Recirculation Reactor for Catalytic Studies", by L. Caldwell, Applied Catalysis, 8 (1983) 199”, Appl. Catal., 8(2), 1983, pp. 289-291. Bhaga, D., Weber, M. E., “Bubbles in viscous liquids: shapes, wakes and velocities”, J. Fluid Mech., 105, 1981, p. 61. Bhatt, B. L., Tihm, P. J. A., Kornosky, R. M., Heydorn, E. C., Street, B. T., “Liquid Phase Methanol (LPMeOH) Process Development,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 25. Bi, Y., Dalai, A. K., “Selective Production of C4 Hydrocarbons from Syngas Using Fe-Co/ZrO2 and SO42-/ZrO2 Catalysts”, Canadian J. Chem. Eng., 81(2), 2003, pp. 230-242. Bian, G., Mochizuki, T., Fujishita, N., Nomoto, H.,Yamada, M., “Activation and Catalytic Behavior of Several Co/SiO2 Catalysts for Fischer-Tropsch Synthesis”, Energy Fuels, 17(4), 2003, pp. 799-803. Bian, G.-Z., Fujishita, N., Mochizuki, T., Ning, W.-S., Yamada, M., “Investigations on the structural changes of two Co/SiO2 catalysts by performing Fischer-Tropsch synthesis”, App. Catal. A, 252(2), 2003, pp. 251-260. Biloen, P., “Transient kinetic methods”, J. Molec. Catal., 21(1-3), 1993, pp. 17-24. Biwer, B. M., Bernasek, S. L., “Electron spectroscopic study of the iron surface and its interaction with oxygen and nitrogen”, J. Electron Spectr. Related Phenom., 40(4), 1986, pp. 339-351. Blaej, M., Cartland Glover, G. M., Generalis, S. C., Marko, J., “Gas-liquid simulation of an airlift bubble column reactor”, Chem. Eng. Proc., 43(2), 2004, pp. 137-144. Blanks, R. F., “Fischer-Tropsch synthesis gas conversion reactor”, Chem. Eng. Sci., 47(5), 1992, pp. 959-966. Blyholder, G., Head, J., Ruette, F., “Semi-empirical calculation of H atom interaction with a 12 atom iron cluster”, Surf. Sci., 131(2-3), 1983, pp. 403-418. Boellaard, E., Vreeburg, R. J., Gijzeman, O. L. J., Geus, J. W., “The interaction of carbon monoxide with nickel-iron alloys. A comparison between single crystal surfaces and supported catalysts”, J. Molec. Catal., 92(3), 1994, pp. 299-310. Boger, T., Roy, S., Heibel, A. K., Borchers, O., “A monolith loop reactor as an attractive alternative to slurry reactors”, Catal. Today, 79-80, 2003, pp. 441-451. Bohle, D. S., Clark, G. R., Rickard, C. E. F., Roper, W. R., Wright, J. J., “Stable terminal methylene complexes of osmium(II) and ruthenium(II). The unexpected preferential migration of a-aryl ligand to carbon monoxide rather than to methylene”, J. Organomet. Chem., 358(1-3), 1988, pp. 411-447. Bonzel, H. P., “Alkali-metal-affected adsorption of molecules on metal surfaces”, Surf. Sci. Rep., 8(2), 1988, pp. 43-125. Bonzel, H. P., Brodén, G., Krebs, H. J., “X-ray photoemission spectroscopy of potassium promoted Fe and Pt surfaces after H2 reduction and CO/H2 reaction”, Appl. Surf. Sci., 16(3-4), 1983, pp. 373-394. Bonzel, H. P., Krebs, H. J., “Surface science approach to heterogeneous catalysis: CO hydrogenation on transition metals”, Surf. Sci., 117(1-3), 1982, pp. 639-658. Bowker, M., “Effects of sintering on the active site distribution on promoted catalysts”, Appl. Catal., 45(1), 1988, pp. 115-130. Boyle, R. W., Lauterbach, J., Mitchell, W. J., Schick, M., Weinberg, W. H., “Chemisorption of CO on the Ir(111) surface", Ind. Eng. Chem. Res., 35(9), 1996, pp. 2986-2996. Boz, I., “Higher Alcohol Synthesis over a K-Promoted Co2O3/CuO/ZnO/Al2O3 Catalyst”, Catal. Lett., 87(3-4), 2003, pp. 187-194. Bozso, F., Arias, J., Yates, Jr., J. T., Martin, R. M., Metiu, H., “The detection of the 2π* orbital of CO and NO chemisorbed on Ni(111) by surface penning ionization electron spectroscopy”, Chem. Phys. Lett., 94(3), 1983, pp. 243-246. Bozso, F., Ertl, G., Grunze, M., Weiss, M., “Chemisorption of hydrogen on iron surfaces”, Appl. Surf. Sci., 1(1), 1977, pp. 103-119. Brenn, G., Braeske, H., Durst, F., “Investigation of the unsteady two-phase flow with small bubbles in a model bubble column using phase-Doppler anemometry”, Chem. Eng. Sci., 57(24), 2002, pp. 5143-5159. Briard, A.-J., Bouroukba, M., Petitjean, D., Dirand, M., “Models for Estimation of Pure n-Alkanes' Thermodynamic Properties as a Function of Carbon Chain Length”, J. Chem. Eng. Data, 48(6), 2003, pp. 1508-1516. Briard, A.-J., Bouroukba, M., Petitjean, D., Dirand, M., “Variations of Dissolution Enthalpies of Pure n-Alkanes in Heptane as a Function of Carbon Chain Length”, J. Chem. Eng. Data, 48(6), 2003, pp. 1574-1577. Brodén, G., Bonzel, H. P., “Potassium adsorption on Fe(110)”, Surf. Sci., 84(1), 1979, pp. 106-120. Brodén, G., Gafner, G., Bonzel, H. P., “CO adsorption on potassium promoted Fe(110)”, Surf. Sci., 84(2), 1979, pp. 295-314. Bröder, D., Sommerfeld, M., “Combined PIV/PTV-Measurements for the Analysis of Bubble Interactions and Coalescence in a Turbulent Flow”, Canadian J. Chem. Eng., 81(3), 2003, pp. 756-763. Brooks, C. S., Lemkey, F. D., Golden, G. S., “Fibrous hydrogenation catalysts derived from Ni-Al eutectic alloys”, Surf. Tech., 16(1), 1982, pp. 67-85. Brown, T. L., “Models for the adsorption and reactions of metal carbonyl compounds on alumina surfaces”, J. Molec. Catal., 12(1), 1981, pp. 41-62. Bruce, L., Mathews, J. F., “The Fischer-Tropsch activity of nickel-zirconia”, Appl. Catal., 4(4), 1982, pp. 353-369. Bruce, L. A., Hope, G. J., Mathews. J. F., “The activity of cobalt-zirconia and cobalt-nickel-zirconia preparations in the Fischer-Tropsch reaction”, Appl. Catal., 8(3), 1983, pp. 349-358. Bruce, L. A., Hope, G. J., Mathews. J. F., “Conversion of synthesis gas to aromatic-containing hydrocarbons under mild conditions”, Appl. Catal., 9(3), 1984, pp. 351-359. Bub, G., Baerns, M., “Answer to Goyal's, Bakhshi's and Esmail's letter to the editors”, Chem. Eng. Sci., 39(1), 1984, pp. 202-204. Bubendorff, J.-L., Mény, C., Beaurepaire, E., Panissod, J.-P. Bucher, J.-P., “Electrodeposited cobalt films: hcp versus fcc nanostructuring and magnetic properties”, Eur. Phys. J. B, 17, 2000, pp. 635-643. Bukur, D. B., Ding, Y., Sivaraj, C., “Supported Iron Catalysts for Fischer-Tropsch Synthesis”, ACS Div. Petr. Chem. Prepr., 45(2), 2000, pp. 218-220. Bukur, D. B., Lang. X., "A Precipitated Iron Fischer-Tropsch Catalyst for Synthesis Gas Conversion to Liquid Fuels." Stud. Surf. Sci. Catal., 119, 1998, pp. 113-118. Bukur, D. B., Lang, X., Ding, Y., "Effect of Hydrogen Reductions on Performance of a Precipitated Iron Fischer-Tropsch Catalyst in a Slurry Reactor", Chem. Ind., 52, 1998, pp. 257-263. Bukur, D. B., Ma, W., Carreto Vazquez, V. H., Nowicki, L., Adeyiga, A. A., “Spray dried iron catalysts for slurry phase Fischer-Tropsch synthesis”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 727. Burghardt, A., Bartelmus, G., Janecki, D., Szlemp, A., “Hydrodynamics of a three-phase fixed-bed reactor operating in the pulsing flow regime at an elevated pressure”, Chem. Eng. Sci., 57(22-23), 2002, pp. 4855-4863. Burke, L. D., Healy, J. F., Dhubhghaill, O. N., “Preparation of an RuO2-modified semiconductor oxide surface - an optimization procedure of interest in energy conversion systems”, Surf. Tech., 16(4), 1982, pp. 341-347. Buscaglia, G. C., Bombardelli, F. A., Garca, M. H., “Numerical modeling of large-scale bubble plumes accounting for mass transfer effects”, Int. J. Multiphase Flow, 28(11), 2002, pp. 1763-1785. Buwa, V. V., Ranade, V. V., “Dynamics of gas-liquid flow in a rectangular bubble column: experiments and single/multi-group CFD simulations”, Chem. Eng. Sci., 57(22-23), 2002, pp. 4715-4736. Buwa, V. V., Ranade, V. V., “Mixing in Bubble Column Reactors: Role of Unsteady Flow Structures”, Canadian J. Chem. Eng., 81(3), 2003, pp. 402-411. Caceres, P. G., “Effect of hydrogen reduction temperature on the surface chemistry of pure and promoted magnetite”, Appl. Catal. A, 110(2), 1994, pp. 185-196. Caceres, P. G., Behbehani, M. H., “Microstructural and surface area development during hydrogen reduction of magnetite”, Appl. Catal. A, 109(2), 1994, pp. 211-223. Cai, W., Xu, C., Zhou, M., “Theoretical approach to concentration distribution and adhesion efficiency of fine particles around a rising bubble in slurry systems”, Chinese J. Chem. Eng., 10(5), 2002, pp. 550-557. Caldwell, L., “An improved internal gas recirculation reactor for catalytic studies”, Appl. Catal., 8(2), 1983, pp. 199-213. Callaghan, C., Fishtik, I., Datta, R., Carpenter, M., Chmielewski, M., Lugo, A., “An improved microkinetic model for the water gas shift reaction on copper”, Surf. Sci., 541(1-3), 2003, pp. 21-30. Calleja, G., De Lucas, A., Grieken, R., “Cobalt/HZSM-5 zeolite catalyst for the conversion of syngas to hydrocarbons”, Appl. Catal., 68(1), 1991, pp. 11-29. Canning, N. D. S., Chesters, M. A., “The co-adsorption of H2 and CO on Ni(110)”, Surf. Sci., 175(3), 1986, pp. L811-L816. Caputi, L. S., Chiarello, G., Papagno, L., “Carbonaceous layers on Ni (110) and (100) studied by AES and EELS”, Surf. Sci., 162(1-3), 1985, pp. 259-263. Cardoso, O. N., Sotto Mayor, T., Pinto, A. M. F. R., Campos, J. B. L. M., “Axial dispersion of particles in a slugging column-the role of the laminar wake of the bubbles”, Chem. Eng. Sci., 58(18), 2003, pp. 4159-4172. Carley, A. F., Gallagher, D. E., Roberts, M. W., “Activation of carbon dioxide at low temperatures at aluminium surfaces”, Surf. Sci., 183(1-2), 1987, pp. L263-L268. Carlsson, A. F., Naschitzki, M., Baumer, M., Freund, H.-J., “Adsorption and reaction on pristine and oxidized Co-Pd bimetallic particles supported on Al2O3 thin films”, Surf. Sci., 545(1-2), 2003, pp. 143-153. Carolan, M. F., Chen, C. M., Rynders, S. W., “Development of the ceraminc membrane ITM syngas/ITM hydrogen process”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 343. Cartland Glover, G. M., Generalis, S. C., “The modelling of buoyancy driven flow in bubble columns”, Chem. Eng. Proc., 43(2), 2004, pp. 101-115. Cartland Glover, G. M., Generalis, S. C., “Gas-liquid-solid flow modelling in a bubble column”, Chem. Eng. Proc., 43(2), 2004, pp. 117-126. Casey, C. P., Vosejpka, P. C., Crocker, M., “Reactions of nucleophiles with cationic bridging alkylidyne complexes”, J. Organomet. Chem., 394(1-3), 1990, pp. 339-347. Caulton, K. G., “Activation and stoichiometric reduction of carbon monoxide”, J. Molec. Catal., 13(1), 1981, pp. 71-82. Caulton, K. G., “Coordination chemistry of the manganese and rhenium fragments (C5H5)M(CO)2”, Coord. Chem. Rev., 38(1), 1981, pp. 1-43. Ceballos, S. F., Mariotto, G., Jordan, K., Murphy, S., Seoighe, C., Shvets, I. V., “An atomic scale STM study of the Fe3O4(001) surface”, Surf. Sci., 548(1-3), 2004, pp. 106-116. Centi, G., Perathoner, S., “Novel catalyst design for multiphase reactions”, Catal. Today, 79-80, 2003, pp. 3-13. Centi, G., Perathoner, S., Rak, Z. S., “Gas-Phase Electrocatalytic Conversion of CO2 to Fuels over Gas Diffusion Membranes Containing Pt or Pd Nanoclusters”, Stud. Surf. Sci. Catal., 145, 2003, pp. 283-286. Chaffee, A. L., Campbell, I., Valentine, N., “Sulfur Poisoning of Fischer-Tropsch Synthesis Catalysts in a Fixed-Bed Reactor”, Appl. Catal., 47(2), 1989, pp. 253-276. Chaffee, A. L., Loeh, H. J., “Aromatic hydrocarbons from the Kolbel-Engelhardt reaction”, Appl. Catal., 19(2), 1985, pp. 419-422. Chaffee, A. L., Loeh, H. J., “The Kolbel-Engelhardt reaction over a silica supported nickel catalyst. Variation of product distributions with reaction conditions”, Appl. Catal., 26, 1986, pp. 123-139. Chahed, J., Roig, V., Masbernat, L., “Eulerian-Eulerian two-fluid model for turbulent gas-liquid bubbly Flows”, Internat. J. Multiphase Flow, 29(1), 2003, pp. 23-49. Chambers, M. R., “A strategic planning framework for chemicals and fuels production. Part 1: Allocation model”, Eng. Costs Prod. Econ., 8(4), 1985, pp. 291-302. Chambers, M. R., “A strategic planning framework for chemicals and fuels production. Part 2: Economic and energy analytic complementarity”, Eng. Costs Prod. Econ., 9(4), 1985, pp. 335-343. Chang, C.-C., “Studies of the Fischer-Tropsch process on uranium catalysis”, Inorg. Chim. Acta, 94(1-3), 1984, p. 25. Chang, C.-C., “Studies of the Fischer-Tropsch process on uranium catalysts”, Inorg. Chim. Acta, 94(5), 1984, pp. 259-262. Chang, M.-Y., Morsi, B. I., “Mass transfer characteristics of gases in aqueous and organic liquids at elevated pressures and temperatures in agitated reactors”, Chem. Eng. Sci., 46(10), 1991, pp. 2639-2650. Chaudhari, R. V., Hoffmann, H., “Coalescence of gas bubbles in lqiuids”, Rev. Chem. Eng., 10, 1994, p. 131. Chauvel, A., Delmon, B., Hölderich, W. F., “New catalytic processes developed in Europe during the 1980's”, Appl. Catal. A, 115(2), 1994, pp. 173-217. Chen, C. M., Dyer, P. N., “Development of the ITM Syngas Process for GTL Conversion”, ACS Div. Fuel Chem Prepr., 46(2), 2001, pp. 420-421. Chen, C.-S., Cheng, W.-H., Lin, S.-S., “Study of iron-promoted Cu/SiO2 catalyst on high temperature reverse water gas shift reaction”, Appl. Catal. A, 257(1), 2004, pp. 97-106. Chen, J., Hongwei, X., Yongwang, L., Sun, Y., “Advance in Key Techniques of Fischer-Tropsch Synthesis for Liquid Fuel Production”, J. Chem. Ind. Eng. – China, 54(4), 2003, pp. 516-523. Chen, W., Hasegawa, T., Tsutsumi, A., Otawara, K., Shigaki, Y., “Generalized dynamic modeling of local heat transfer in bubble columns”, Chem. Eng. J., 96(1-3), 2003, pp. 37-44. Chen, W., Xiao, Y., Zhang, Y., Cai, G., Lin, X., Wei, K., Zheng, Q., “Au/Fe2O3 Water-Gas Shift Catalyst Prepared by Microemulsion Method I. Effect of Synthesis Parameters on the Catalyst Activity”, Chinese J. Catal., 24(11), 2003, pp. 867-871. Chen, Y., Gong, M., Cao, Z., Zhou, J., Chen, Y., Xin, Q., Guo, X., “Study of Rh-Co Bimetal Catalysts. V. Dynamic Behavior of Chemisorbed CO and CO Disproportionation on Rh2Co2/Al2O3”, Chin. J. Catal., 18, 1997, p. 454. Chen, Y., Gong, M., Cao, Z., Zhou, J., Chen, Y., Xin, Q., Guo, X., “Study of Rh-Co bimetal catalysts. VI. Surface carbonyl hydrides and their dynamic behavior on Rh2Co2/Al2O3”, Chin. J. Catal., 19,1998, p. 9. Chen, T.-W., Wang, H.-T., Goodwin, Jr., J. G., “Fischer-Tropsch synthesis over zeolite-supported ruthenium catalysts derived from Ru3(CO)12”, Appl. Catal., 8(3), 1983, pp. 303-314. Chen, X., Liu, X.-L., Ren, Y.-L., “Economic assessment of motor fuels based on natural gas”, Modern Chem. Ind., 23(2), 2003, pp. 43-45. Chen, Y.-W., Wang, W.-J., “Effects of the addition of zeolites on ruthenium catalysts in carbon monoxide hydrogenation”, Appl. Catal., 49(1), 1989, pp. 45-53. Chen, Y.-W., Wang, W.-J., “Carbon monoxide hydrogenation on ruthenium metal cluster supported on zeolite”, Catal., Today, 6(1-2), 1989, pp. 105-112. Cheng, A. S., “Effect of Oxygenates Blended With Diesel Fuel on Particulate Matter Emissions From a Compression-Ignition Engine”, Ph. D. Thesis, U. California, Berkeley, 2002. Cheng, A. S., Dibble, R. W., “Emissions Performance of Oxygenate-in-Diesel Blends and Fischer-Tropsch Diesel in a Compression-Ignition Engine,” SAE Technical Paper 1999-01-3606, 1999. Cheng, H., Zhou, M., “Prediction of fluid velocity distribution near a rising bubble”, Chinese J. Chem. Eng., 10(5), 2002, pp. 545-549. Chernavskii, P. A., “The Oxidation of Cobalt Nanoparticles in Cobalt-Deposited Catalysts”, Russian J. Phys. Chem., 77(4), 2003, p. 560. Chernavskii, P. A., Pankina, G. V., Lermontov, A. S., Lunin, V. V., “Size Distribution of Cobalt Particles in Catalysts for the Fischer-Tropsch Synthesis”, Kinet. Catal., 44(5), 2003, pp. 657-661. Chickos, J. S., Hanshaw, W.,”Vapor Pressures and Vaporization Enthalpies of the n-Alkanes from C21 to C30 at T = 298.15 K by Correlation Gas Chromatography”, J. Chem. Eng. Data, 49(1), 2004, pp. 77-85. Chinchen, G. C., Spencer, M. S., Waugh, K. C., Whan, D. A., “Reply to "comments on the activity and state of the copper surface in methanol synthesis catalysts [1]"”, Appl. Catal., 32, 1987, pp. 371-372. Chisholm, M. H., “A molecular model for the reductive cleavage of carbon monoxide to carbide and oxide on reduced metal oxides”, J. Organomet. Chem., 334(1-2), 1987, pp. 77-84. Chou, J. S., Chao, K. C., “Correlation of synthesis gas solubility in n-paraffin solvents and Fischer-Tropsch waxes”, Fluid Phase Equ., 46(2-3), 1989, pp. 179-195. Chuang, S. S. C., Pien, S.-I., Ghosal, K., Soong, Y., Noceti, R. P., Schehl, R. R., “Carbon monoxide hydrogenation over Na-Mn-Ni catalysts: Effects of catalyst preparation methods on the C2+ oxygenate selectivity”, Appl. Catal., 70(1), 1991, pp. 101-114. Chuang, S. S. C., Pien, S.-I., Narayanan, R., “C2 oxygenate synthesis from CO hydrogenation on AgRh/SiO2”, Appl. Catal., 57(1), 1990, pp. 241-251. Chung, J. S., Yun, H. G., Koh, D. J., Kim, Y. G., “Preparation and Fischer-Tropsch reaction of highly-reduced cobalt clusters in cobalt-exchanged zeolite”, J. Molec. Catal., 79(1-3), 1993, pp. 199-215. Cichowlas, A., Yesodharan, E. P., Brenner, A., “Fischer-Tropsch synthesis over supported tungsten hexacarbonyl”, Appl. Catal., 11(2), 1984, pp. 353-356. Ciobica, I. M., Kramer, G. J., Ge, Q., Neurock, M., van Santen, R. A., “Mechanisms for Chain Growth in Fischer-Tropsch Synthesis over Ru(0001)”, J. Catal., 212(2), 2002, pp. 136-144. Clark, K. N., Foster, N. R., “Application of neutron techniques to studies of reactor fluid dynamics”, Chem. Eng. J., 34(1), 1987, pp. 35-46. Clarke, S., Ghaemmaghami, B., “Advances in gas-to-liquids projects are analysed”, TCE – Chem. Eng., 745, 2003, pp. 34-37. Coenen, J. W. E., van Nisselrooy, P. F. M. T., de Croon, M. H. J. M., van Dooren, P. F. H. A., van Meerten, R. Z. C., “The dynamics of methanation of carbon monoxide on nickel catalysts”, Appl. Catal., 25, 1986, pp. 1-8. Collado, J. R. A., “On the calculation of atomic spin densities of hcp surface clusters of transition metals (Co, Ni, Cu), of medium size (100-1000 atoms)”, Surf. Sci., 531(2), 2003, pp. 103-112. Cobalt/manganese oxide catalysts Colley, S. E., Copperthwaite, R. G., Hutchings, G. J., Foulds, G. A., Coville, N. J., “Use of chromium promoters for long chain hydrocarbon production”, Appl. Catal. A, 84(1), 1992, pp. 1-15. Colson, D., Vanhove, D., “Solubility of alkanes in o-terphenyl for Fischer-Tropsch liquid-phase reactor study. Modelization of liquid-vapor equilibrium”, Chem. Eng. Sci., 44(10), 1989, pp. 2165-2179. Conesa, J. C., Sainz, M. T., Sorla, J., Munuera, G., Rives-Arnau, V., Muñoz, A., “Reactivity of CO with a Rh/TiO2 catalyst”, J. Molec. Catal., 17(2-3), 1982, pp. 231-240. Cooke, M., Forrow, N. J., Knox, S. A. R., “Generation of hydrocarbons from oligo-methylene chains linking two metal centres”, J. Organomet. Chem., 222(2), 1981, pp. C21-C24. Cooper, M. E., Frost, J., “New iron/nickel alloy catalyst for Fischer-Tropsch synthesis”, Appl. Catal., 57(1), 1990, pp. L5-L8. Copperthwaite, R. G., Hack, H., Hutchings, G. J., Sellschop, J. P. F., “X-ray photoelectron spectroscopic evidence for iron enrichment on doped manganese oxide surfaces”, Surf. Sci., 164(2-3), 1985, pp. L827-L830. Copperthwaite, R. G., Loggenberg, P. M., Derry, T. E., Sellschop, J. P. F., “Surface studies of Fischer-Tropsch catalysts using a high pressure reactor and sample transfer system”, Vacuum, 38(4-5), 1988, pp. 413-416. Curtis, M. D., Penner-Hahn, J. E., Schwank, J., Baralt, O., McCabe, D. J., Thompson, L., Waldo, G., “Syngas and HDS catalysts derived from sulphido bimetallic clusters”, Polyhedron, 7(22-23), 1988, pp. 2411-2420. Czyzyk, M. T., Potze, R., Sawatzky, G. A., “Band theory description of high-energy spectroscopy and the electronic structure of LiCoO2”, Phys. Rev. B, 46, 1992, pp. 3729-3735. Dalai, A. K., Idem, R. O., Malyala, R. V., Sethuraman, R., Katikaneni, S.P.R., Bakhshi, N.N., “Performance of Co-Ni/ZrO2 and SO42-/TiO2 Catalysts in a Dual-Bed Reactor for the Selective Production of C4 Hydrocarbons from Syngas,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 79. Dalmon, J. A., Chaumette, P., Mirodatos, C., “Higher alcohols synthesis on cobalt based model catalysts”, Catal. Today, 15(1), 1992, pp. 101-127. d'Alnoncourt, R. N., Kurtz, M., Wilmer, H., Loffler, E., Hagen, V., Shen, J., Martin Muhler, M., “The influence of ZnO on the differential heat of adsorption of CO on Cu catalysts: a microcalorimetric study”, J. Catal., 220(1), 2003, pp. 249-253. Daniell, W., Weingand, T., Knozinger, H., “Redox properties of Re2O7/Al2O3 as investigated by FTIR spectroscopy of adsorbed CO”, J. Mol. Catal. A, 204-205, 2003, pp. 519-526. Das, D., Ravichandran, G., Chakrabarty, D. K., Piramanayagam, S. N., Shringi, S. N., “Selective synthesis of light alkenes from carbon monoxide and hydrogen on silicalite supported iron-manganese catalysts”, Appl. Catal. A, 107(1), 1993, pp. 73-81. Das, T. K., Jacobs, G., Patterson, P. M., Conner, W. A., Li, J., Davis, B. H., “Fischer-Tropsch synthesis: characterization and catalytic properties of rhenium promoted cobalt alumina catalysts”, Fuel, 82(7), 2003, pp. 805-815. Dasandhi, Y. C., Bandopadhyay, P., “Effect of beneficiation on the performance of iron Fischer-Tropsch catalyst in coal conversion”, Indian J. Chem. Tech., 10(2), 2003, pp. 143-149. Datsevich, L. B., “Oscillations in pores of a catalyst particle in exothermic liquid (liquid-gas) reactions”, App. Catal. A, 250(1), 2003, pp. 125-141. Davenport, W. G., Richardson, F. D., Bradshaw, A. V., “Spherical cap bubbles in low density liquids”, Chem. Eng. Sci., 22, 1967, p. 1221. Davis, B. H., “Indirect Coal Liquefaction – Where Do We Stand?,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 20. Davis, B. H., “Relationship Between Iron Catalyst Composition,” in “AICHE – Second Topical Conference on Natural Gas Utilization – Conference Proceedings, March 10-14, 2002”, p. 421. Davis, B. H., “Clean fuels from coal: the path to 1972”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 141. Davis, B. H., “Fischer-Tropsch synthesis: relationship between iron catalyst composition and process variables”, Catal. Today, 84(1-2), 2003, pp. 83-98. Davis, B. H., “Fischer-Tropsch synthesis: Overview of reactor development and future potentialities”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 787. Davis, R., Woodruff, D. P., Hofmann, Ph., Schaff, O., Fernandez, V., Schindler, K.-M., Fritzsche, V., Bradshaw, A. M., “Local structure determination for low-coverage CO on Ni(111)”, J. Phys. Condens. Matter, 8, 1996, pp. 1367-1379. Davis, R., Woodruff, D. P., Schaff, O., Fernandez, V., Schindler, K.-M., Hofmann, Ph., Weiss, K.-U., Dippel, R., Fritzsche, V., Bradshaw, A. M., “Structure determination of an alkali metal-CO coadsorption phase: Ni(111)-K/CO”, Phys. Rev. Lett., 74, 1995, pp. 1621-1624. de Deugd, R. M., Chougule, R. B., Kreutzer, M. T., Meeuse, F. M., Grievink, J., Kapteijn, F., Moulijn, J. A., “Is a monolithic loop reactor a viable option for Fischer-Tropsch synthesis?”, Chem. Eng. Sci., 58(3-6), 2003, pp. 583-591. de Deugd, R. M., Kapteijn, F., Moulijn, J. A., “Using monolithic catalysts for highly selective Fischer–Tropsch synthesis”, Catal. Today, 79-80, 2003, pp. 495-501. de Jong, K. P., “Efficient catalytic processes for the manufacture of high-quality tranportation fuels”, Catal. Today, 29, 1996, pp. 171-178. de Jong, K. P., Post, M. F. M., Knoester, A., “Deposition of iron from iron-carbonyl onto a working Co-based Fischer Tropsch catalyst: The serendipitious discovery of a direct probe for diffusion limitation”, Stud. Surf. Sci. Catal., 119, 1998, pp. 119-124. de Klerk, A., “Continuous-Mode Thermal Oxidation of Fischer-Tropsch Waxes”, Ind. Eng. Chem. Res., 42(25), 2003, pp. 6545-6548. de la Pena, O'Shea, V. A., Menendez, N. N., Tornero, J. D., Fierro, J. L., “Unusually High Selectivity to C2+ Alcohols on Bimetallic CoFe Catalysts During CO Hydrogenation”, Catal. Lett., 88(3-4), 2003, pp. 123-128. Deluzarche, A., Hindermann, J. P., Kieffer, “Reactions CO, H2 - methanation (nickel) (P. Atm), Espece formyle”, Tetrahedron Lett., 19(31), 1978, pp. 2787-2790. Deluzarche, A., Hindermann, J. P., Kieffer, R., Muth, A., Papadopoulos, M., Tanielia, C., “Synthese de fischer-tropsch (CO, H2) II. Mecanisme de reaction et application de la chromatographie en phase gazeuse a son etude en catalyse heterogene”, Tetrahedron Lett., 18(9), 1977, pp. 797-800. Deluzarche, A., Hindermann, J.-P., Kiennemann, A., Kieffer, R., “Application of chemical trapping to the determination of surface species and to the study of their evolution under reaction conditions in heterogeneous catalysis”, J. Molec. Catal., 31(2), 1985, pp. 225-250. Demuth, J. E., Ibach, H., “Observation of a methoxy species on Ni(111) by high-resolution electron energy-loss spectroscopy”, Chem. Phys. Lett., 60(3), 1979, pp. 395-399. Dennler, S., Morillo, J., Pastor, G. M., “Calculation of magnetic and structural properties of small Co-Rh clusters”, Surf. Sci., 5320535, 2003, pp. 334-340. Denzler, D. N., Wagner, S., Wolf, M., Ertl, G., “Isotope effects in the thermal desorption of water from Ru(0 0 1)”, Surf. Sci., 532-535, 2003, pp. 113-119. Derule, H., Blanchard, M., Canesson, P., “Preparation of supported catalysts by reduction of metal complexes - Cobalt supported on alumina”, Appl. Catal., 50(1), 1989, pp. L1-L4. Desai, A., Mahajan, D., Rafailovic, M. H., “Synthesis and characterization of nano-sized iron particles on a polystyrene support as potential Fischer-Tropsch catalysts”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 783. Dhotre, M. T., Joshi, J. B., “CFD Simulation of Gas Chamber for Gas Distributor Design”, Canadian J. Chem. Eng., 81(3), 2003, pp. 677-683. Diamond, L. W., Akinfiev, N. N., “Solubility of CO2 in water from -1.5 to 100oC and from 0.1 to 100 MPa: evaluation of literature data and thermodynamic modelling”, Fluid Phase Eq., 208(1-2), 2003, pp. 265-290. Dianis, W. P., “Characterization of metal sulfide Fischer-Tropsch catalysts by temperature programmed desorption”, Appl. Catal., 30(1), 1987, pp. 99-121. Dingye, F., Baiquan, D., “Methanol Synthesis and Dimethyl Ether Synthesis in Gas-Liquid-Solid Three Phase Reactors”, Chem. Ind. Eng. Prog., 22(3), 2003, pp. 233-238. Di Sanzo, F. P., Lane, J. L., Bergquist, P. M., Mooney, S. A., Wu, B. G., “Determination of total oxygenates in Fischer-Tropsch liquid products”, J. Chromatography A, 281, 1983, pp. 101-108. Do, D. D., Rice, R. G., “A parametric investigation of minima in a CSTR containing porous catalyst pellet”, Chem. Eng. Sci., 39(1), 1984, p. 204. Doering, D. L., Semancik, S., “Low temperature ordering of sodium overlayers on Ru(001)”, Surf. Sci., 129(1), 1983, pp. 177-191. Dong, X., Zhang, H. B., Lin, G. D., Yuan, Y. Z., Tsai, K. R., “Highly Active CNT-Promoted Cu-ZnO-Al2O3 Catalyst for Methanol Synthesis from H2/CO/CO2”, Catal. Lett., 85(3-4), 2003, pp. 237-246. Donnelly, T. J., Satterfield, C. N., “Performance testing with a gas-liquid-solid system in a mechanically stirred reactor: the Fischer-Tropsch synthesis”, Appl. Catal., 56(1), 1989, pp. 231-251. Dossi, C., Psaro, R., Ugo, R., “Surface-supported metal carbonyl clusters: an IR investigation of the behaviour of Rh6(CO)16 supported on highly decarbonated magnesium oxide”, J. Organomet. Chem., 353(2), 1988, pp. 259-266. Doyle, M. J., Kouwenhoven, A. P., Schaap, C. A., van Oort, B., “The activity of solutions of Ru3(CO)12 as catalysts for the fischer-tropsch reaction”, J. Organomet. Chem., 174(3), 1979, pp. C55-C58. Dreisbach, F., Seif A. H., R., Losch, H. W., “Gravimetric Measurement of Adsorption Equilibria of Gas Mixture CO/H2 with a Magnetic Suspension Balance”, Chem. Eng. Tech., 25(11), 2002, pp. 1060-1065. Dry, M. A., “the Fischer-Tropsch process to clean fuels and chemicals”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 211. Dry, R. J., Christensen, I. N., Thomas, G. C., “The effect of naturally-occurring interparticle forces on the fluidisation characteristics of fine iron oxide powders”, Chem. Eng. Sci., 43(5), 1988, pp. 1033-1038. Dry, R. J., Judd, M. R., “Fluidised beds of fine, dense powders: scale-up and reactor modelling”, Powder Tech., 43(1), 1985, pp. 41-53. Duko, P., Petrovi, D., “An experimental study of the minimum fluidization velocity in a three-phase external-loop air-lift reactor”, Chem. Eng. Sci., 43(5), 1988, pp. 1161-1165. Dun, J. W., Gulari, E., Ngu, K. Y. S., “Fischer-Tropsch synthesis on charcoal-supported molybdenum: The effect of preparation conditions and potassium promotion on activity and selectivity”, Appl. Catal., 15(2), 1985, pp. 247-263. Dun, J.-W., Gulari, E., Streusand, B., “Report on the catalytic activity of 6-heteropolymolybdates as potential Fischer-Tropsch synthesis catalysts”, Appl. Catal., 21(1), 1986, pp. 61-72. Dunn, B. C., Cole, P., Covington, D. J., Heider, E. C., Gasser, J., Eyring, E. M., Meuzelaar, H. L. C., Pugmire, R. J., “Fischer-Tropsch catalysts supported on sol-gel derived silica”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 212. Durst, F., Schonung, B. Selanger, K., Winter, K., “Bubble-driven liquid flows”, J. Fluid Mech., 170, 1986, pp. 53-82. Dyszel, S. M., Pettitt, B. C., “Distinguishing hydrocarbon and polyalkylene waxes by gas chromatography and differential scanning calorimetry”, Thermochim. Acta, 86, 1985, pp. 329-336. Dziembaj, R., Makowski, W., Wedler, G., Schmidt, A., Landes, H., “A model study of carbiding of polycrystalline iron films by carbon monoxide”, Reactivity of Solids, 7(4), 1989, pp. 343-358. Eberhardt, W., Hoffmann, F. M., dePaola, R., Heskett, D., Plummer, E. W., Moser, H. R., “The Final State Shape Resonance of CO on an Alkali Modified Transition Metal Surface”, Chem. Phys. Lett., 124, 1986, p. 237. Ebert, L. B., “Catalysis by graphite intercalation compounds”, J. Molec. Catal., 15(3), 1982, pp. 275-296. Eck, S., Castellarin-Cudia, C., Surnev, S., Prince, K. C., Ramsey, M. G., Netzer, F. P., “Adsorption and reaction of CO on a ceria-Rh(111) ‘inverse model catalyst’ surface”, Surf. Sci., 536(1-3), 2003, pp. 166-176. Egawa, C., Aruga, T., Iwasawa, Y., “Epitaxial growth of an Fe overlayer on a Ru(001) surface and adsorption of CO and NH3 on the Fe commensurate overlayer”, Surf. Sci., 185(1-2), 1987, pp. L506-L510. Egiebor, N. O., Cooper, W. C., “The polyfunctionality of iron catalysts during carbon monoxide hydrogenation I. Occurrence of dual chain propagation sites”, Appl. Catal., 14, 1985, pp. 323-332. Egiebor, N. O., Cooper, W. C., “The polyfunctionality of iron catalysts during carbon monoxide hydrogenation II. The formation of secondary products by α-olefin isomerization”, Appl. Catal., 17(1), 1985, pp. 23-45. Egiebor, N. O., Cooper, W. C., Wojciechowski, B. W., “Synthesis of motor fuels from HY-zeolite supported Fischer-Tropsch iron catalysts”, Appl. Catal., 55(1), 1989, pp. 47-64. Eichler, A., “CO adsorption on Ni(111)-a density functional theory study”, Surf. Sci., 256(3), 2003, pp. 332-340. Ekambara, K., Joshi, J. B., “CFD Simulation of Residence Time Distribution and Mixing in Bubble Column Reactors”, Canadian J. Chem. Eng., 81(3), 2003, pp. 669-676. Ekambara, K., Joshi, J. B., “CFD Simulation of Mixing and Dispersion in Bubble Columns”, Chem. Eng. Res. Des., 81(8), 2003, pp. 987-1002. Ekstrom, A., Lapszewicz, J., “The direct conversion of synthesis gas of low H2/CO ratio to liquid hydrocarbons”, Appl. Catal., 21(1), 1986, pp. 111-117. Ellenberger, J., Krishna, R., “Improving mass transfer in gas-liquid dispersions by vibration excitement”, Chem. Eng. Sci., 57(22-23), 2002, pp. 4809-4815. Ellenberger, J., Krishna, R., “Shaken, not stirred, bubble column reactors: Enhancement of mass transfer by vibration excitement”, Chem. Eng. Sci., 58(3-6), 2003, pp. 705-710. Ellenberger, J., Krishna, R., “Intensification of Slurry Bubble Columns by Vibration Excitement”, Canadian J. Chem. Eng., 81(3), 2003, pp. 655-659. Ellenberger, J., van Baten, J. M., Krishna, R., “Intensification of bubble columns by vibration excitement”, Catal. Today, 79-80, 2003, pp. 181-188. Emami, A., Briens, C., “A Method for the Detection of Defluidized Zones in Slurry Bubble Columns”, Canadian J. Chem. Eng., 81(3), 2003, pp. 451-455. Enb, J. H., Schallenberg, J., Michele, V., Hempel, D. C., “Measurement and Modeling of Flow Structures and Phases Contents in Ternary Flow in Bubble Column Reactors”, Chem.-Ing.-Tech.,74(9), 2002, pp. 1326-1330. Erena, J., Arandes, J. M., Garona, R., Gayubo, A. G., Bilbao, J., “Study of the preparation and composition of the metallic function for the selective hydrogenation of CO2 to gasoline over bifunctional catalysts”, J. Chem. Tech. Biotech., 78(2-3), 2003, pp. 161-193. Ermakova, A., Kuzmin, V. A., Umbetov, A. S., "Investigation of mass transfer from individual particles to a liquid IV. Three-phase systems: fixed and fluidized beds. Derivation of generalized mass transfer correlation", International Chem. Chem., 28, 1988, pp. 559-569. Ertl, G., Lee, S. B., Weiss, M., “The influence of potassium on the adsorption of hydrogen on iron”, Surf. Sci., 111(2), 1981, pp. L711-L715. Escudey, M., Moya. S. A., “Use of volcanic-ash-derived soil as iron oxide supported catalysts”, Colloids and Surfaces, 37, 1989, pp. 141-148. Esen, E., Abbot, R. E., “Life Cycle Analysis Methodology for Fuel Production Processes,” in “AICHE – Second Topical Conference on Natural Gas Utilization – Conference Proceedings, March 10-14, 2002”, p. 411. Espino, R. L., Robbins, J. L., “Hydrocarbon Fuels for Future Automotive Engines”, ACS Div. Fuel Chem. Prepr., 43(3), 1998, pp. 388-391. Espinoza, R. L., Jack, D. S., Wright, H. A., Allison, J. D., Landis, S. R., “Steps in the development of the GTL process”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 725. Falter, W., Golob, L., Keim, W., Finkeldei, C.-H., Jaeger, B., Verkert, K. A. N., “Synthesis of Oxygenates from Syngas by Using ZrO2 as Support,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 28 Feulner, P., Menzel, D., “The adsorption of hydrogen on ruthenium (001): Adsorption states, dipole moments and kinetics of adsorption and desorption”, Surf. Sci., 154(2-3), 1985, pp. 465-488. Finocchio, E., Montanari, T., Resini, C., Busca, G., “Spectroscopic characterization of cobalt-containing solid catalysts”, J. Mol. Catal. A, 204-205, 2003, pp. 535-544. Fisher, G. B., “Photoemission studies of H2S, H2 and S adsorbed on Ru(110): Evidence for an adsorbed SH species”, Surf. Sci., 87(1), 1979, pp. 215-227. Florusse, L. J., Peters, C. J., Pamies, J. C., Vega, L. F., Meijer, H., “Solubility of Hydrogen in Heavy n-Alkanes: Experiments and SAFT Modeling”, AIChE, 49(12), 2003, pp. 3260-3269. Forret, A., Schweitzer, J.-M.,. Gauthier, T., Krishna, R., Schweich, D., “Influence of scale on the hydrodynamics of bubble column reactors: an experimental study in columns of 0.1, 0.4 and 1m diameters”, Chem. Eng. Sci., 58(3-6), 2003, pp. 719-724. Forret, A., Schweitzer, J.-M.,. Gauthier, T., Krishna, R., Schweich, D., “Liquid Dispersion in Large Diameter Bubble Columns, with and without Internals”, Canadian J. Chem. Eng., 81(3), 2003, pp. 360-366. Fox, J. M., Fischer-Tropsch reactor selection”, Catal. Lett., 7, 1990, p. 281. Franklin, R., Goulding, P., Haviland, J., Joyner, R. W., McAlpine, I., Moles, P., Norman, C., Nowell, T., “Stabilisation and catalytic properties of high surface area zirconia”, Catal. Today, 10(3), 1991, pp. 405-407. Frese, Jr., K. W., “Calculation of surface binding energy for hydrogen, oxygen, and carbon atoms on metallic surfaces”, Surf. Sci., 182(1-2), 1987, pp. 85-97. Freund, H.-J., Behner, H., Bartos, B., Wedler, G., Kuhlenbeck, H., Neumann, M., “CO2 adsorption and reaction on Fe(111): An angle resolved photoemission (ARUPS) study”, Surf. Sci., 180(2-3), 1987, pp. 550-564. Freund, H. J., Greuter, F., Heskett, D., Plummer, E. W., “Chemisorption of CO on Cobalt: II. Multielectron Excitations”, Phys. Rev. B, 28, 1983, p. 1727. Fu, Q., Kudriavtseva, S., Saltsburg, H., Flytzani-Stephanopoulos, M., “Gold-ceria catalysts for low-temperature water-gas shift reaction”, Chem. Eng. J., 93(1), pp. 41-53. Fujimoto, K., Oba, T., “Synthesis of C1-C7 alcohols from synthesis gas with supported cobalt catalysts”, Appl. Catal., 13(2), 1985, pp. 289-293. Fukuda, Y., Rabalais, J. W., “Chemisorption of CO on clean and carbonized osmium”, Chem. Phys. Lett., 76(1), 1980, pp. 47-50. Fukuma, M. Sata, M., Muroyama, K., Yasunishi, A., “Particle to liquid mass transfer in gas-liquid-solid fluidization”, J. Chem. Eng. Japan, 21, 1988, pp. 231-237. Fukuoka, A., Kimura, T., Rao, L.-F., Ichikawa, M., “Heteronuclear CO activation in CO based reactions catalyzed by SiO2-supported RhFe and PdFe bimetallic clusters”, Catal. Today6(1-2), 1989, pp. 55-62. Gallini, N. T., “Sequential development of correlated projects - An application to coal liquefaction”, Energy Econ., 5(1), 1983, pp. 37-48. Gamwo, I. K., Halow, J. S., Gidaspow, D., Mostofi, R., “CFD models for methanol synthesis three-phase reactors: reactor optimization”, Chem. Eng. J., 93(2), 2003, pp. 103-112. Gao, W., Robinson, Jr., R. L., Gasem, K. A. M., "Improved Correlations for Heavy n-Paraffin Physical Properties," Fluid Phase Equil., 179, 2001, pp. 207-216. Gao, W., Robinson, Jr., R. L., Gasem, K. A. M., "Solubilities of Hydrogen in Hexane and Carbon Monoxide in Cyclohexane at Temperatures from 344.3 to 410.9 K and Pressures to 15.0 MPa." J. Chem. Eng. Data, 46(3), 2001, pp. 609-612. Gentile, F., Oleschko, H., Veverka, P., Machoň, V., Paglianti, A., Bujalski, W., Etchells III, A. W., Nienow, A. W., “Some Effects of Particle Wettability in Agitated Solid-Gas-Liquid Systems: Gas-Liquid Mass Transfer and the Dispersion of Floating Solids”, Canadian J. Chem. Eng., 81(3), 2003, pp. 581-587. Gheysens, J.-L. G., Wells, W. J. III, “Advanced Ether Oxygenates Synthesis from Natural Gas, Oil and Refinery By-Products by Simplified Gas/Liquid Reactions,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 41. Ghosh, A., Chapman, W. G., “SAFT Modeling of the Effect of Various Carriers on the Operating Range of Slurry Reactors”, Ind. Eng. Chem. Res., 41(22), 2002, pp. 5529-5533. Giessler, S., Jordan, L., Diniz da Costa, J. C., Lu, G. Q., “Performance of hydrophobic and hydrophilic silica membrane reactors for the water gas shift reaction”, Sep. Purif. Tech., 32(1-3), 2003, pp. 255-264. Gilbert, R. E., Mount, C. K., Melendez, O., Hoflund, G. B., "Investigation of CO and H2 Adsorption on Polycrystalline Pt," J. Phys. Cond. Matter, 5, 1993, p. A213. Gladden, L. F., “Recent Advances in MRI Studies of Chemical Reactors: Ultrafast Imaging of Multiphase Flows”, Top. Catal., 24(1-4), 2003, p. 19. Glebov, L. S., Kliger, G. A., Popova, T. P., Shiryaeva, V. E., Ryzhikov, V. P., Marchevskaya, E. V., Lesik, O. A., Loktev, S. M., Beryezkin, V. G., “Obtaining dimethylalkylamines from CO, H2 and (CH3)2NH by the modified Fischer-Tropsch synthesis on a reduced fused magnetite catalyst: molecular weight distribution of the products and synthesis mechanism”, J. Molec. Catal., 35(3), 1986, pp. 335-348. Gnotke, O., Benk, H.,. Loth, R., “Experimental study on the number density distribution function in turbulent bubbly flows with coalescence and break-up”, Exp. Thermal Fluid Sci., 27(7), 2003, pp. 803-816. Gochin, M., Moss, J. R., “On the structure of H2Os3(CO)12”, J. Organomet. Chem., 192(3), 1980, pp. 409-419. Goda, H., Hibiki, T., Kim, S., Ishii, M., Uhle, J., “Drift-flux model for downward two-phase flow”, International J. Heat Mass Trans., 46(25), 2003, pp. 4835-4844. Goldwasser, M. R., Dorantes, V. E., Perez-Zurita, M. J., Sojo, P. R., Cubeiro, M. L., Pietri, E., Gonzalez-Jimenez, F., Ng Lee, Y., Moronta, D., “Modified iron perovskites as catalysts precursors for the conversion of syngas to low molecular weight alkenes”, J. Molec. Catal. A, 193(1-2), 2003, pp. 227-236. Golombok, M., Teunissen, W., “A Chemical Alternative to Natural Gas Flaring”, Ind. Eng. Chem. Res., 42(20), 2003, pp. 5003-5006. Gonzalez, S., Sousa, C., Illas, F., “Electric field effects in the chemisorption of CO on bimetallic RhCu surface models”, Surf. Sci., 548(1-3), 2004, pp. 209-219. Goodman, D. W., “Catalysis: from single crystals to the ‘real world’”, Surf. Sci., 299-300, 1994, pp. 837-848. Goossens, A., de Jongh, L. J., Butter, K., Philipse, A. P., Craje, M. W., van der Kraan, A. M., “Monodisperse Magnetic Iron Colloids Grafted with Polyisobutene: A Model System for Fischer-Tropsch Catalysts ?”, Hyperfine Interactions, 141-142(1-4), 2002, pp. 381-386. Gopalakrishnan R., Vetrivel, R., Viswanathan, B., “Interaction of carbon monoxide and hydrogen on cobalt surface in relation to Fischer Tropsch reaction”, Indian J. Tech., 21, 1983, pp. 344-348. Gopalakrishnan, R., Viswanathan, B., “Interaction of CO and hydrogen on cobalt surfaces a Temperatue Programmed Desorption study”, Surf. Tech., 23, 1984, pp. 173-177. Gopalakrishnan, R., Viswanathan, B., “Coadsorption of carbon monoxide and hydrogen on cobalt Fischer Tropsch catalysts, Chem. Age India, 37, 1986, pp. 411-413. Gordon, P. A., “Characterizing Isoparaffin Transport Properties with Stokes-Einstein Relationships”, Ind. Eng. Chem. Res., 42(26), 2003, pp. 7025-7036. Gouder, T., Colmenares, C. A., Naegele, J. R., Spirlet, J. C., Verbist, J., “Study of the CO adsorption on U, UNi2 and UNi5”, Surf. Sci., 264(3), 1992, pp. 354-364. Govindarao, V. M. H., Chidambaram, M., "On the steady state performance of cocurrent bubble column slurry reactors”, Chem. Eng. J., 27(1), 1983, pp. 29-36. Goyal, S. K., Bakhshi, N. N., Esmail, M. N., “On the prediction of the performance of catalytic fixed bed reactors for Fischer-Tropsch synthesis”, Chem. Eng. Sci., 39(1), 1984, pp. 200-201. Greuter, F., Heskett, D., Plummer, E. W., Freund, H. J., “The Chemisorption of CO on Co(0001): I. Structure and Electronic Properties”, Phys. Rev. B, 15, 1983, p. 7117. Griboval-Constant, A., Khodakov, A. Y., Bechara, R., Zholobenko, V. L., “Support mesoporosity: a tool for better control of catalytic behavior of cobalt supported Fischer Tropsch catalysts”, Stud. Surf. Sci. Catal., 144, 2002, pp. 609-616. Gruber, R., Melin, T., “Radial mass-transfer enhancement in bubble-train flow”, International J. Heat Mass Trans., 46(15), 2003, pp. 2799-2808. Grzesik, M., Skrzypek, J., Wojciechowski, B. W., “Time-on-stream catalyst decay behaviour in fluidized-bed catalytic reactors under the influence of intraparticle diffusion”, Chem. Eng. Sci., 48(18), 1993, pp. 3273-3282. Grzybek, T., Papp, H., Baerns, M., “Iron/manganese oxide catalysts for Fischer-Tropsch synthesis, Part VI: Surface characterization during start-up period and pseudo-steady state synthesis”, Appl. Catal., 29(2), 1987, pp. 351-359. Grzybek, T., Papp, H., Baerns, M., “Fe/Mn oxide catalysts for Fischer-Tropsch synthesis - Part V. XPS surface characterization of calcined and reduced samples”, Appl. Catal., 29(2), 1987, pp. 335-350. Guczi, L., Stefler, G., Borko, L., Koppany, Zs., Mizukami, F., Toba, M., Niwa, S., “Re-Co bimetallic catalysts prepared by sol/gel technique: characterization and catalytic properties”, App. Catal. A, 246(1), 2003, pp. 79-86. Guczi, L., Takacs, L., Stefler, G.,. Koppany, Zs., Borko, L., “Re-Co/Al2O3 bimetallic catalysts prepared by mechanical treatment: CO hydrogenation and CH4 conversion”, Catal. Today, 77(3), 2002, pp. 237-243. Guet, S., Ooms, G., Oliemans, R. V. A., Mudde, R. F., “Bubble Injector Effect on the Gaslift Efficiency”, AIChE J., 49(9), 2003, pp. 2242-2252. Guevara, A., Bacaud, R., Vrinat, M., “Solvent effect in gas-liquid hydrotreatment reactions”, App. Catal. A, 253(2), 2003, pp. 515-526. Gunturu, A. K., Kugler, E. L., Cropley, J. B., Dadyburjor, D. B., “A Kinetic Model for the Synthesis of High-Molecular-Weight Alcohols over a Sulfided Co-K-Mo/C Catalyst," Ind. Eng. Chem. Res., 37(6), 1998, pp. 2107-2115. Gür, T. M., Huggins, R. A., “Electrocatalytic synthesis of methane on stabilized zirconia from H2/CO2 mixtures”, Solid State Ionics, 5, 1981, pp. 563-566. Haber, J., “Catalysis - an interdisciplinary field of research”, J. Molec. Catal., 54(3), 1989, pp. 370-388. Hackenbruch, J., Keim, W., Röper, M., Strutz, H., “Mechanistic considerations for the formation of oxygenated species in the Fischer-Tropsch synthesis”, J. Molec. Catal., 26(1), 1984, pp. 129-134. Hadjigeorghiou, G. A., Richardson, J. T., “Promotion of nickel catalysts for Fischer-Tropsch reactions”, Appl. Catal., 21(1), 1986, pp. 37-45. Hadjigeorghiou, G. A., Richardson, J. T., “Fischer-Tropsch activity in NiO-ThO2 catalysts”, Appl. Catal., 21(1), 1986, pp. 47-59. Hagey, H. L., “Kinetic modelling of synthesis gas into hydrocarbons”, Ph. D. Thesis, University Of Western Ontario, 2001. Hagh, B. F., “Optimization of autothermal reactor for maximum hydrogen production”, Internat. J. Hyd. Energy, 28(12), 2003, pp. 1369-1377. Han, H., Fang, D.-Y., Zhu, B.-C., “Study of Volumetric Liquid-phase Mass Transfer Coefficient in High Solid-holdup Three-phase Bubble Column Slurry Reactor and the Comparison of its Using Two Types of Gas Distributor”, J. Chem. Eng. Chinese Univ., 17(4), 2003, pp. 383-388. Hannaman, D. J., Passler, M. A., “Structural determination of Ni(110)-(2 × 1)2CO by LEED: Differentiation of substrate-C and C-O tilt angles”, Surf. Sci., 203(3), 1988, pp. 449-462. Hao, L., Shan, S., Tian, R., Ding, Y., Chen, G., Zhuang, S., “Study on CuCrAl and CuCrZr Oxides as Catalysts for Low-Temperature Slurry Phase Methanol Synthesis”, Chinese J. Catal., 24(9), 2003, pp. 711-715. Haq, S., Love, J. G., King, D. A., “The adsorption of CO on Ni{110} and its interaction with hydrogen: a RAIRS study”, Surf. Sci., 275(3), 1992, pp. 170-184. Harrison, K., Prince, R. H., Lambert, R. M., “Structure and properties of ultrathin iron films on Ru(1010): The formation of metastable surface phases of λ-Fe”, Surf. Sci., 201(3), 1988, pp. 393-407. Harteveld, W. K., Mudde, R. F., van den Akker, H. E. A., “Dynamics of a Bubble Column: Influence of Gas Distribution on Coherent Structures”, Canadian J. Chem. Eng., 81(3), 2003, pp. 389-394. Hartmann, M., Elangovan, S. P., “Isomerization and Hydrocracking of n-Decane over Magnesium-Containing Molecular Sieves with AEL, AFI, and AFO Topology”, Chem. Eng. Tech., 26(12), 2003, pp. 1232-1235. Hassanien, S. Delmas, H., Riba, J. L., “Transport desmatiere liquide particles en fluidisation a trois phases”, Entropie, 119, 1984, pp. 17-26. Hatada, M., Matsuda, K., “Radiation effects on Fischer-Tropsch syntheses”, Radiation Phys. Chem., 10(3), 1977, pp. 195-197 Hawthorne, S. B., Miller, D. J., “Analysis of commercial waxes using capillary supercritical fluid chromatography - mass spectrometry”, J. Chromat. A, 388, 1987, pp. 397-409. He, D., Ding, Y., Yin, H., Wang, T., Luo, H., Li, C., “Synthesis and Surface Characteristics of Zirconia and Modified Zirconia: Performance of CO Hydrogenation”, Catal. Lett., 84(1-2), 2002, pp. 89-93. He, D., Ding, Y., Yin, H., Zhu, H., Xiong, J., Luo, H., “Effect of Pd on Catalytic Performance of Zr-Mn-K Catalyst for CO Hydrogenation to Methanol and Isobutanol”, Chinese J. Catal., 24(9), 2003, pp. 658-662. He, R., Kusaka, H., Mavrikakis, M., Dumesic, J. A., “Microcalorimetric, infrared spectroscopic and DFT studies of CO adsorption on Rh and Rh-Te catalysts”, J. Catal., 217(1), 2003, pp. 209-221. Hehn, M., Cherifi-Khodjaoui, K., Ounadjela, K., Bucher, J.-P., Arabski, J., “Engineering magnetic responses in hcp cobalt thin films”, J. Magn. Magn. Mater., 165, 1997, pp. 520-523. Hehn, M., Ounadjela, K., Padovani, S., Bucher, J.-P., Arabski, J., Bardou, N., Bartenlian, B., Chappert, C., Rousseaux, F., Decanini, D., Carcenac, F., Cambril, E., Ravet. M.-F., “Structural and magnetic study of submicronic single crystal cobalt box arrays”, J. Appl. Phys., 79, 1996, pp. 5068-5070. Henderson, H. E., “Gas-to-Liquids: Unbridled stranded gas stands ready at the gate”, Canadian Chem. News, 55(8), 2003, pp. 17-19. Henderson, M. A., Mitchell, G. E., White, J. M., “The chemisorption of methyl halides (Cl, Br and I) on Pt(111)”, Surf. Sci., 184(1-2), 1987, pp. L325-L331. Henrici-olivé, G., Olivé, S., “Mechanism of the Modified Fischer-Tropsch synthesis for the production of amines”, J. Molec. Catal., 4(5), 1978, pp. 379-383. Henrici-olivé, G., Olivé, S., “The role of alkali promoters in the Fischer-Tropsch synthesis”, J. Molec. Catal., 16(2), 1982, pp. 187-193. Henrici-olivé, G., Olivé, S., “Mechanism of Fischer-Tropsch Synthesis: CH2 - Polymerization versus CO Insertion”, J. Molec. Catal., 16(1), 1982, pp. 111-115. Henrici-olivé, G., Olivé, S., “Mechanism of the Fischer-Tropsch synthesis: Origin of oxygenates”, J. Molec. Catal., 24(1), 1984, pp. 7-13. Heras, J. M., Papp, H., Spiess, W., “Face specificity of the H2O adsorption and decomposition on Co surfaces - a LEED, UPS, sp and TPD study”, Surf. Sci., 117(1-3), 1982, pp. 590-604. Hermann, W. A., “Organometallic aspects of the Fischer-Tropsch Synthesis, J. Organomet. Chem., 372, 1989, pp. 117-130. Hernadi, K., Fonseca, A., Piedigrosso, P., Delvaux, M., Nagy, J. B., Bernaerts, D., Riga, J., “Carbon nanotubes production over Co/silica catalysts”, Catal. Lett., 48, 1997, p. 229. Heskett, D., Greuter, F., Freund, H. J., Plummer, E. W., “Angle Resolved Photoemission Study of CO/Co(0001)”, J. Vac. Sci. Tech. 20, 1982, p. 623. Heskett, D., Plummer, E. W., dePaola, R. A., Eberhardt, W., Hoffmann, F. M., Moser, H. R., “Molecule-Molecule and Molecule-Metal Interactions of CO/Ru(001) and N2/Ru(001) Studied by Angle Resolved Photoemission”, Surf. Sci., 164, 1985, p. 490. Hess, Ch., Cho, M., Bonn, M., “Doubly vibrationally resonant spectroscopy of CO on Ru(001)”, Surf. Sci., 502-503, 2003, pp. 123-128. Hess, Ch., Cho, M., Bonn, M., “Femtosecond time-resolved vibrational SFG spectroscopy of CO/Ru(001)”, Surf. Sci., 502-503, 2002, pp. 304-312. Hibiki, T., Situ, R., Mi, Y., Ishii, M., “Local flow measurements of vertical upward bubbly flow in an annulus”, Int. J. Heat Mass Transfer, 46(8), 2003, pp. 1479-1496. Hichri, H., Accary, A., Andrieu, J., “Kinetics and slurry-type reactor modelling during catalytic hydrogenation of o-cresol on Ni/SiO2”, Chem. Eng. Proc., 30(3), 1991, pp. 133-140. Hoffmann, F. M., Robbins, J. L., “Time resolved FT-IRAS at high pressures: hydrogen assisted CO dissociation in the methanation reaction on Ru(001)”, J. Electr. Spectr. Related Phenomena, 45, 1987, pp. 421-428. Højlund-Nielsen, P. E., Bøgild-Hansen, J., “Conversion limitations in hydrocarbon synthesis”, J. Molec. Catal., 17(2-3), 1982, pp. 183-193. Hopster, H., Ibach, H., “Adsorption of CO on Pt(111) and Pt 6(111) × (111) studied by high resolution electron energy loss spectroscopy and thermal desorption spectroscopy”, Surf. Sci., 77(1), 1978, pp. 109-117. Hrbek, J., “Formation of a potassium-dioxygen surface complex on Ru(001)”, Surf. Sci., 205(3), 1988, pp. 408-418. Huang, H. H., Seet, C. S., Xu, G. Q., Hrbek, J. A., “Hydrogen adsorption on sulfur and nitrogen covered Ru(001) surfaces”, Surf. Sci., 319(3), 1994, pp. 344-352. Huang, L., Choplin, A., Basset, J. M., Siriwardane, V., Shore, S. G., Mathieu, R., “A surface organometallic approach to the process of formation of bimetallic particles from bimetallic supported molecular clusters”, J. Molec. Catal., 56(1-3), 1989, pp. 1-19. Huang, M.-R., Li, X.-G., Dong, Z.-Q., “Application of large-scale air separation by membranes”, Modern Chem. Ind., 22(9), 2002, pp. 10-15. Huang, S. H., “Synthesis gas solubility in Fischer-Tropsch slurry”, Ph. D. Thesis, Purdue University, 1987. Huang, S. H., Lin, H. M., Chao, K. C., “Experimental investigation of synthesis gas solubility in Fischer-Tropsch reactor slurry”, Fluid Phase Eq., 36, 1987, pp. 141-148. Huang, W., Li, D., Shi, Y., Kang, X., Meng, X., Wang, K., Dong, W., Nie, H., Li, C., “Hydroisomerization of n-Hexadecane on Zeolite Catalysts”, Chinese J. Catal., 24(9), 2003, pp. 651-657. Huang, X., Roberts, C. B., “Selective Fischer-Tropsch synthesis over an Al2O3 supported cobalt catalyst in supercritical hexane”, Fuel Proc. Tech., 83(1-3), 2003, pp. 81-99. Huang, Y.-J., Schwarz, J. A., Diehl, J. R., Baltrus, J. P., “Effect of catalyst preparation on catalytic activity - VII. The Chemical Structures on Nickel/Alumina Catalysts: Their Impact on the Formation of Metal-Support Interactions”, Appl. Catal., 37, 1988, pp. 229-245. Hughes, I. S. C., Newman, J. O. H., Bond, G. C., “The effect of platinum on catalysts formed from Fe3(CO)12 on λ-Al2O3”, J. Molec. Catal., 25(1-3), 1984, pp. 219-226. Hughes, I. S. C., Newman, J. O. H., Bond, G. C., “The characterisation of unsupported iron and manganese-promoted iron catalysts by x-ray photoelectron spectroscopy and temperature-programmed reduction”, Appl. Catal., 30(2), 1987, pp. 303-311. Huizenga, P., Kuipers, J. A. M., van Swaaij, W. P. M., “A two-dimensional hydrodynamic model of a slurry system with immersed filters”, Chem. Eng. Sci., 58(2), 2003, pp. 457-472. Hung, W.-H., Schwartz, J., Bernasek, S. L., “Sequential oxidation of Fe(100) by water adsorption: formation of an ordered hydroxylated surface”, Surf. Sci., 248(3), 1991, pp. 332-342. Hutson, F. L., Ramaker, D. E., Koel, B. E., Gebhard, S. C., “Interpretation of the carbon Auger line shapes for the adsorption and decomposition of ethylene on Ni(100)”, Surf. Sci., 248(1-2), 1991, pp. 119-133. Huybrechts, W., Mijoin, J., Jacobs, P. A., Martens, J. A., “Development of a fixed-bed continuous-flow high-throughput reactor for long-chain n-alkane hydroconversion”, App. Catal. A, 243(1), 2003, pp. 1-13. Ichikawa, M., “Bimetallic cluster-derived heterogeneous catalysts-heteronuclear two-site activation of CO in syngas conversion to oxygenates”, Polyhedron, 7(22-23), 1988, pp. 2351-2367. Ichikawa, S., “Reactive chemisorption and methanation of carbon dioxide on rhodium particles approaching atomic dispersion”, J. Molec. Catal., 53(1), 1989, pp. 53-65. Idogawa, K., Ikdea, K., Fukuda, T., “Formation and flow of gas bubbles in a pressurized bubble column with a single orifice or nozzle gas distributor”, Chem. Eng. Comm., 59, 1987, pp. 201-212. Iglesia, E., Reyes, S. C., Soled, S. L., “Reaction-Transport Selectivity Models and the Design of Fischer-Tropsch Catalysts”, Chem. & Ind., 34(51), 1993, p. 199. Imbihl, R., Behm, R. J., Christmann, K., Ertl, G., Matsushima, T., “Phase transitions of a two-dimensional chemisorbed system: H on Fe(110)”, Surf. Sci., 117(1-3), 1982, pp. 257-266. Inada, F., Kawamura, K., Yasuo, A., Yoneda, K., “An Experimental Study On The Fluid-elastic Forces Acting On A Square Tube Bundle In Two-Phase Cross-Flow”, J. Fluids Structures, 16(7), 2002, pp. 891-907. Inoue, M., Miyake, T., Takegami, Y., Inui, T., “Alcohol synthesis from syngas on ruthenium-based composite catalysts”, Appl. Catal., 11(1), 1984, pp. 103-116. Inoue, M., Nakajima, K., Kurusu, A., Miyake, T., Inui, T., “Alcohol synthesis from syngas on group VIII metal catalysts promoted by Mo-Na2O”, Appl. Catal., 49(2), 1989, pp. 213-217. Inui, T., Kuroda, T., Takeguchi, T., Miyamoto, A., “Selective conversion of syngas to alkenes and aromatic-rich gasoline on iron-manganese-ruthenium containing composite catalysts”, Appl. Catal., 61(1), 1990, pp. 219-233. Inui, T., Takeuchi, G., Takegami, Y., “A composite zeolite catalyst for olefin synthesis prepared by a novel metal-loading method”, Appl. Catal., 4(3), 1982, pp. 211-221. Iranmahboob, J., Toghiani, H., Hill, D. O., “Dispersion of alkali on the surface of Co-MoS2/clay catalyst: a comparison of K and Cs as a promoter for synthesis of alcohol”, App. Catal. A, 247(2), pp. 207-218. Ishi, S., Viswanathan, B., “Adsorption of carbon monoxide on metal surfaces”, J. Sci. Ind. Res., 46, 1987, pp. 54-167. Ishigaki, Y., Uba, M., Nishida, S., Inui, T., “Application of Co-Mn2O3-Ru catalyst to the process for producing high-calorie substitute natural gas from coke oven gas”, Appl. Catal., 47(2), 1989, pp. 197-208. Ishihara, T., Eguchi, K., Arai, H., “Hydrogenation of carbon monoxide over SiO2-supported Fe-Co, Co-Ni and Ni-Fe bimetallic catalysts”, Appl. Catal., 30(2), 1987, pp. 225-238. Ishihara, T., Eguchi, K., Arai, H., “Supported iron-cobalt-nickel ternary alloy catalysts for the hydrogenation of carbon monoxide”, Appl. Catal., 40, 1988, pp. 87-100. Ishihara, T., Iwakuni, H., Eguchi, K., Arai, H., “Hydrogenation of carbon monoxide over the mixed catalysts composed of cobalt-nickel/manganese oxide-zirconium oxide and zeolite catalysts”, Appl. Catal., 75(1), 1991, pp. 225-235. Itoh, H., Kikuchi, E., “Liquid phase hydrogenation of carbon monoxide over potassium-promoted ultrafine particles of iron and copper”, Appl. Catal., 67(1), 1990, pp. 1-9. Itoh, H., Nagano, S., Kikuchi, E., “Liquid phase Fischer-Tropsch synthesis on ultrafine particles of iron - Effect of preoxidation treatment”, Appl. Catal., 67(1), 1990, pp. 215-221. Itoh, H., Nagano, S., Takeda, K., Kikuchi, E., “Catalytic properties and crystalline structures of manganese-promoted iron ultrafine particles for liquid-phase hydrogenation of carbon monoxide”, Appl. Catal. A, 96(2), 1993, pp. 125-134. Itoh, H., Nagano, S., Urata, T., Kikuchi, E., “Liquid phase Fischer-Tropsch synthesis on manganese-promoted ultrafine particles of iron used as a catalyst”, Appl. Catal., 77(1), 1991, pp. 37-43. Itoh, H., Tanabe, H., Kikuchi, E., “Novel catalyst for liquid phase Fischer-Tropsch synthesis. Potassium-promoted copper-iron ultrafine particles prepared by liquid-phase chemical deposition”, Appl. Catal., 47(1), 1989, pp. L1-L6. Iton, L. E., Beal, R. B., Hodul, D. T., “A new approach to the generation of metal-bearing, medium-pore, shape-selective zeolites for Fischer-Tropsch catalysis: spectroscopic studies of zeolites”, J. Molec. Catal., 21(1-3), 1993, pp. 151-171. Iwasawa, Y., “Chemical design and characterization of catalysts and catalysis: an approach to dynamic catalyst design”, Catal. Today, 18(1), 1993, pp. 21-72. Iwasawa, Y., Mason, R., Textor, M., Somorjai, G. A., “The reactions of carbon monoxide at coordinatively unsaturated sites on a platinum surface”, Chem. Phy. Lett., 44(3), 1976, pp. 468-470. Jablonski, J. M., Okal, J., Potoczna-Petru, D., Krajczyk, L., “High temperature reduction with hydrogen, phase composition, and activity of cobalt/silica catalysts”, J. Catal., 220(1), 2003, pp. 146-160. Jackson, N. B., Gonzales, M., Evans, L., “Starting Material for Products Formed Over an Iron Fischer-Tropsch Catalyst,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 103. Jackson, S. D., Brandreth, B. J., Winstanley, D., “Carbon monoxide hydrogenation over group VIII metals supported on tungsten and molybdenum trioxides”, Appl. Catal., 27(2), 1986, pp. 325-333. Jacobs, G., Chaudhari, K., Sparks, D., Zhang, Y., Shi, B., Spicer, R., Das, T. K., Li, J., Davis, B. H., “Fischer-Tropsch synthesis: supercritical conversion using a Co/Al2O3 catalyst in a fixed bed reactor”, Fuel, 82(1), 2003, pp. 1251-1260. Jacobs, G., Das, T. K., Patterson, P. M., Li, J., Sanchez, L., Davis, B. H., “Fischer-Tropsch synthesis - XAFS studies of the effect of water on a Pt-promoted Co/Al2O3 catalyst”, App. Catal. A, 247(2), 2003, pp. 335-343. Jaggi, N. K., Schwartz, L. H., Butt, J. B., Papp, H., Baerns, M., “Phase characterization of iron/manganese Fischer-Tropsch catalysts: effect of compositon and reduction conditions”, Appl. Catal., 13(2), 1985, pp. 347-361. Jarrah, N., van Ommen, J. G., Lefferts, L., “Development of monolith with a carbon-nanofiber-washcoat as a structured catalyst support in liquid phase”, Catal. Today, 79-80, 2003, pp. 29-33. Je, Y.-T., Companion, A. L., “On the cobalt (110) surface as a template for hydrocarbon chain formation in Fischer-Tropsch synthesis”, Surf. Sci., 271(1-2), 1992, pp. L345-L349. Jenewein, B., Fuchs, M., Hayek, K., “The CO methanation on Rh/CeO2 and CeO2/Rh model catalysts: a comparative study”, Surf. Sci., 532-535, 2003, pp. 364-369. Jensen, M. P., Shriver, D. F., “CC and CO transformations in ketenylidene cluster compounds”, J. Molec. Catal., 74(1-3), 1992, pp. 73-84. Jeon, J.-K., Park, Y.-K., Ihm, S.-K., “Research and Development of Catalysts for Carbon Dioxide Hydrogenation”, J. Korean Ind. Eng. Chem., 14(1), 2003, pp. 1-15. Jiang, Y., Li, Y., Feng, S., “Characteristics of Flow Rate Transients in Gas-Liquid Flow”, J. Chem. Ind. Eng., 54(3), 2003, pp. 321-326. Jin, Y., Datye, A. K., Mansker, L., “The Nature of the Active Phase in Iron Fischer-Tropsch Catalysts,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 97. Jo, M., Onchi, M., Nishijima, M., “Interactions of H2 with the Ni(110) Surface: EELS and LEED Studies”, Surf. Sci., 154, 1985, pp. 417-434. Johns, M., Collier, P., Spencer, M. S., Alderson, T., Hutchings, G. J., “Combined Steam Reforming of Methane and Fischer-Tropsch Synthesis for the Formation of Hydrocarbons: A Proof of Concept Study”, Catal. Lett., 90(3-4), 2003, pp. 187-194. Johnson, B. F. G., Kelly, R. L., Lewis, J., Thornback, J. R., “Preparation of some metal carbonyl cluster formyl compounds”, J. Organomet. Chem., 190(4), 1980, pp. C91-C94. Jongsomjit, B., Goodwin, Jr., J. G., “Co-support compound formation in Co/Al2O3 catalysts: effect of reduction gas containing CO”, Catal. Today., 77(3), 2002, pp. 191-204. Jongsomjit, B., Panpranot, J., Goodwin, Jr., J. G., “Effect of zirconia-modified alumina on the properties of Co/λ-Al2O3 catalysts”, J. Catal., 215(1), 2003, pp. 66-77. Jordan, U., Saxena, A. K., Schumpe, A., “Dynamic Gas Disengagement in a High-Pressure Bubble Column”, Canadian J. Chem. Eng., 81(3), 2003, pp. 491-498. Jothimurugesan, K., Spivey, J. J., Goodwin, J. G. Jr., Gangwal, S. K., “Development of Fe Fischer-Tropsch Catalysts for Slurry Bubble Column Reactors,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 111. Joyner, R. W., “The role of surface science studies in elucidating the mechanism of the Fischer-Tropsch hydrocarbon synthesis”, Vacuum, 38(4-5), 1988, pp. 309-315. Judd, R. W., Reichelt, M. A., Lambert, R. M., “Carbon monoxide chemisorption on Pt-dosed W(100): Pt strained overlayers, Pt crystallites and W/Pt surface alloys”, Surf. Sci., 198(1-2), 1988, pp. 26-41. Junk, G. A., “Gas Chromatograph-mass spectrometer combinations and their applications”, Internat. J. Mass Spectr. Ion Phys., 8(1), 1972, pp. 1-71. Kasperkiewicz, J., Palczewska, W., “Réactivité superficielle des monocristaux de nickel envers le co dans le processus de carburation”, Appl. Surf. Sci., 17(4), 1984, pp. 477-484. Kato, H., Sakisaka, Y., Nishijima, M., Onchi, M., “Electron-Energy-Loss and Secondary-Electron Emission Spectroscopies of Clean and Hydrogen-Covered Ni(100) Surfaces”, Phys. Rev. B, 22, 1980, pp. 1709-1713. Kato, S., Hoshino, D., Noritomi, H., Nagahama, K., “Determination of Infinite-Dilution Partial Molar Excess Entropies and Enthalpies from the Infinite-Dilution Activity Coefficient Data of Alkane Solutes Diluted in Longer-Chain-Alkane Solvents”, Ind. Eng. Chem. Res., 42(20), 2003, pp. 4927-4938. Kazansky, V. B., Zaitsev, A. V., Borovkov, V. Yu., Lapidus, A. L., “Infrared diffuse reflectance study of alkali promoted iron/alumina and cobalt/alumina Fischer-Tropsch catalysts prepared by decomposition of carbonyls”, Appl. Catal., 40, 1988, pp. 17-25. Keim, W., “Carbon monoxide: feestock for chemicals, present and future”, J. Organomet. Chem., 372(1), 1989, pp. 15-23. Keim, W., Berger, M., Eisenbeis, A., Kadelka, J., Schlup, J., “Mechanistic approaches and high pressure homogeneous hydrogenation of carbon monoxide”, J. Molec. Catal., 13(1), 1981, pp. 95-106. Kelemen, S. R., Kaldor, A., Dwyer, D. J., “The adsorption of CO on clean and potassium promoted FeO surfaces”, Surf. Sci., 121(1), 1982, pp. 45-60. Kendoush, A. A., Mohammed, T. J., Abid, B. A., Hameed, M. S., “Experimental investigation of the hydrodynamic interaction in bubbly two-phase flow”, Chem. Eng. Proc., 43(1), 2004, pp. 23-33. Keurentjes, J. T. F., “Catalytic and Multiphase Reactors for the Future”, Chem. Eng. Tech., 26(8), 2003, pp. 835-840. Khanra, B. C., Modak, S., “Bond-order conservation model studies of methanation and Fischer-Tropsch synthesis on Ni-Cu alloys”, Chem. Phys. Lett., 143(4), 1988, pp. 390-394. Khassin, A. A., Yurieva, T. M., Sipatrov, A. G., Kirillov, V. A., Chermashentseva, G. K., Parmon, V. N., “Fischer–Tropsch synthesis using a porous catalyst packing: experimental evidence of an efficient use of permeable composite monoliths as a novel type of the Fischer–Tropsch synthesis catalyst”, Catal. Today, 79-80, 2003, pp. 465-470. Khodakov, A. Y., Bechara, R., Griboval-Constant, A., “Fischer-Tropsch synthesis over silica supported cobalt catalysts: mesoporous structure versus cobalt surface density”, Appl. Catal. A, 254(2), 2003, pp. 273-288. Khomenko, T., Kadushin, A., Kutyreva, N., Maksimov, Yu., Matveev, V., Slinkin, A., Fedorovskaja, E., Khandozhko, V., “Activity and selectivity of CO hydrogenation catalyst prepared by supporting an Fe-Co bimetallic complex”, J. Molec. Catal., 51(1), 1989, pp. L9-L14. Khomenko, T., Kutyreva, N., Kadushin, A., Maksimov, Yu., Matveev, V., Slinkin, A., Fedorovskaja, E., “A model of the surface and catalytic activity of supported bimetallic Fe- and Co-containing complexes in CO+H2, synthesis reactions”, J. Molec. Catal., 56(1-3), 1989, pp. 61-77. Kiambi, S. L., Duquenne, A.-M., Dupont, J.-B., Colin, C., Risso, F., Delmas, H., “Measurements of Bubble Characteristics: Comparison Between Double Optical Probe and Imaging”, Canadian J. Chem. Eng., 81(3), 2003, pp. 764-770. Kieffer, E. P., Van Der Baan, H. S., “Reactivity of carbonaceous species deposited on precipitated iron catalyst by carbon monoxide and synthesis gas”, Appl. Catal., 3(3), 1982, pp. 245-254. Kiiski, U., Pakkanen, T. A., Krause, O., “Preparation and catalytic properties of anchored ruthenium and rhodium clusters”, J. Molec. Catal., 50(2), 1989, pp. 143-151. Kikuchi, E., Matsumoto, M., Takahashi, T., Machino, A., Morita, Y., “Fischer-Tropsch synthesis over titania-supported ruthenium catalysts”, Appl. Catal., 10(2), 1984, pp. 251-260. Kim, J. J., Summers, D. P., Frese, Jr., K. W., “Reduction of CO2 and CO to methane on Cu foil electrodes”, J. Electroanalyt. Chem., 245(1-2), 1988, pp. 223-244. Kim, J. K., Yoo, K. S., Park, T. J., Song, B. H., Lee, J. G., Kim, J. H., Han, C., “Reaction Characteristics of CO2 Separation from a Syngas Using CaO”, Korean J. Chem. Eng., 40(5), 2002, pp. 582-587. Kim, J. S., Kang, Y., Lee, S. B., Lee, K. W., Choi, M. J., “Hydrogenation of CO2 in a Fixed Bed Recycle Reactor”, Korean J. Chem. Eng., 40(5), 2002, pp. 646-650. Kim, M. C., Kim, K. Y., Kim, S., “Two Phase Visualization by Electrical Impedance Tomography with Prior Information”, Korean J. Chem. Eng., 20(4), 2003, pp. 601-608. King, D. A., “Chemisorption on metals: a personal review”, Surf. Sci., 299-300, 1994, pp. 678-689. Kirkpatrick R. D, Lockett, M. J., “The influence of approach velocity on bubble coalescence”, Chem. Eng. Sci., 29, 1974, pp. 2363-2373. Kiskinov, M. P., “CO adsorption on alkali-metal covered Ni(100)”, Surf. Sci., 111(3), 1981, pp. 584-594. Kiskinova, M. P., “Electronegative additives and poisoning in catalysis”, Surf. Sci. Rep., 8(8), 1988, pp. 359-402. Kiss, G., Kliewer, C. E., DeMartin, G. J., Culross, C. C., Baumgartner, J. E., “Hydrothermal deactivation of silica-supported cobalt catalysts in Fischer-Tropsch synthesis”, J. Catal., 217(1), 2003, pp. 127-140. Klein, J., Vicente, A. A., Teixeira, J. A., “Hydrodynamic considerations on optimal design of a three-phase airlift bioreactor with high solids loading”, J. Chem. Tech. Biotech., 78(9), 2003, pp. 935-944. Klotzer, B., Unterberger, W., Hayek, K., “Adsorption and hydrogenation of CO on Pd(1 1 1) and Rh(1 1 1) modified by subsurface vanadium”, Surf. Sci., 532-535, 2003, pp. 142-147. Kluytmans, J. H. J., van Wachem, B. G. M., Kuster, B. F. M., Krishna, R., Schouten, J. C., “2D Slurry Bubble Column Hydrodynamic Phenomena Clarified with a 3D Gas–Liquid Model”, Canadian J. Chem. Eng., 81(3), 2003, pp. 456-464. Kluytmans, J. H. J., van Wachem, B. G. M., Kuster, B. F. M., Schouten, J. C., “Mass transfer in sparged and stirred reactors: influence of carbon particles and electrolyte”, Chem. Eng. Sci., 58(20), 2003, pp. 4719-4728. Knifton, J. F., Lin, J. J., Storm, D. A., Wong, S. F., “New synthesis gas chemistry”, Catal. Today, 18(4), 1993, pp. 355-384. Kobayashi, H., Yoshida, S., Yamaguchi, M., “A model calculation on adsorption of CO on the flat, stepped and kinked nickel surfaces”, Surf. Sci., 107(1), 1981, pp. 321-336. Kochubei, D. I., Kriventsov, V. V., Maksimov, Yu. V., Tsodikov, M. V., Yandieva, F. A., Mordvin, V. P., Navio, J. A., Moiseev, I. I., “Intermetallic Hydrides [TiFe0.95Zr0.03Mo0.02]Hx (0<x< 2): The Nature of the Phase Responsible for the Selective Reduction of CO2”, Kinet. Catal., 44(2), 2003, p. 165. Kohler, M. A., “Comparison of mechanically agitated and bubble column slurry reactors”, Appl. Catal., 22(1), 1986, pp. 21-53. Kolk, B., Albers, A., Leith, I. R., Howden, M. G., “Mössbauer and x-ray studies of the structure of iron-manganese oxide catalyst precursors”, Appl. Catal., 37, 1988, pp. 57-74. Kondrat’ev, A. S.,Naumova, E. A., “Calculation of the Velocity of Free Settling of Solid Particles in a Newtonian Liquid”, Theor. Found. Chem. Eng., 37(6), 2003, p. 606. Koningsberger, D. C., “An EXAFS Study on the Influence of Carbon Monoxide Absorption on the Structure of Small Rhodium Clusters Supported on g-Aluminum or Titanium Dioxide”, Springer Proc. Phys., 2, 1984, pp. 212-216. Koryabkina, N., Phatak, A. A., Ruettinger, W. F., Farrauto, R. J., Ribeiro, F. H., “Determination of kinetic parameters for the water-gas shift reaction on copper catalysts under realistic conditions for fuel cell applications”, J. Catal., 217(1), 2003, pp. 233-239. Koudelka, M., Monnier, A., Sanchez, J., Augustynski, J., “Correlation between the surface composition of Pt/TiO2 catalysts and their adsorption behaviour in aqueous solutions”, J. Molec. Catal., 25(1-3), 1984, pp. 295-305. Krebs, H. J., Bonzel, H. P., “Hydrogenation kinetics of carbonaceous layers on polycrystalline iron”, Surf. Sci., 99(3), 1980, pp. 570-580. Krishna, R., Ellenberger, J., “Influence of low-frequency vibrations on bubble and drop sizes formed at a single orifice”, Chem. Eng. Proc., 42(1), 2003, pp. 15-21. Krishna, R., van Baten, J. M., “Mass transfer in bubble columns”, Catal. Today, 79-80, 2003, pp. 67-75. Krishnan, C. N., Hauge, R. H., Margrave, J. L., “Studies of carbon monoxide activation with atomic lithium: IR spectra of LiCO, LiOC, LiC2O2 and Li2C2O2 in cryogenic matrices”, J. Molec. Structure, 157(1-3), 1987, pp. 187-196. Kubo, M., Kubota, T., Jung, C., Seki, K., Takami, S., Koizumi, N., Omata, K., Yamada, M., Miyamoto, A., “Combinatorial Computational Chemistry Approach to the High-Throughput Screening of Metal Sulfide Catalysts for CO Hydrogenation Process”, Energy Fuels, 17(4), 2003, pp. 857-861. Kuivila, C. S., Butt, J. B., Stair, P. C., “Characterization of surface species on iron synthesis catalysts by X-ray photoelectron spectroscopy”, Appl. Surf. Sci., 32(1-2), 1988, pp. 99-121. Kulkarni, A. A., Joshi, J. B., “Simultaneous measurement of flow pattern and mass transfer coefficient in bubble columns”, Chem. Eng. Sci., 59(2), 2004, pp. 271-281. Kumar, V. R., Kulkarni, B. D., “On the operation of a bistable CSTR: a strategy employing stochastic resonance”, Chem. Eng. Sci., 49(16), 1994, pp. 2709-2713. Kunat, M., Burghaus, U., “Adsorption of CO on rutile (1 x 1)-TiO2(110): a molecular beam study”, Surf. Sci., 544(2-3), 2003, pp. 170-182. Kung, C.-C., Hayatsu, R., Studier, M. H., “Nitrogen isotope fractionations in the Fischer-Tropsch synthesis and in the Miller-Urey reaction”, Earth Planetary Sci. Lett., 46(1), 1979, pp. 141-146. Kurahashi, M., Suzuki, T., Ju, X., Yamauchi, Y., “Spin polarization of Na atoms on Fe(001): comparison of the spin-polarized metastable-atom deexcitation spectroscopy (SPMDS) measurements and electronic structure calculation”, Surf. Sci., 548(1-3), 2004, pp. 269-275. Laari, A., Turunen, I., “Experimental Determination of Bubble Coalescence and Break-up Rates in a Bubble Column Reactor”, Canadian J. Chem. Eng., 81(3), 2003, pp. 395-401. Lackey, D., Surman, M., Jacobs, S., Grider, D., King, D. A., “Surface reaction between coadsorbed K and CO on Cu{110}”, Surf. Sci., 152-153(1), 1985, pp. 513-521. LaCroce, S. J., Menard, K. P., Cutler, A. R., “Reactivity modes of bridged bimetallic [(ή5-C5H5)Fe(CO)]2-μ-dppe with electrophiles. Preparation and reactions of bimetallic hydride complexes”, J. Organomet. Chem., 190(4), 1980, pp. C79-C83. Lahdenperä E., Korhonen E., Nyström L., “An expert system for selection of solid-liquid separation equipment”, Computers Chem. Eng., 13(4-5), 1989, pp. 467-474. Lahee, A. M., Toennies, J. P., Wöll, Ch., “Low energy adsorbate vibrational modes observed with inelastic helium atom scattering: CO on Pt(111)”, Surf. Sci., 177(2), 1986, pp. 371-388. Lai, J., Shafi, K. V. P. M., Ulman, A., Yang, N., Cui, M., Vogt, T., Estournes, C., “Mixed iron-manganese oxide nanoparticles”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 729. LaNauze, R. D., Harris, I. J., “Gas bubble formation at elevated system pressures”, Trans. IChemE, 52, 1974, p. 337. Landwehr, F., Walzel, P., “Fibre-Optic Sensor Array for the Study of Gas/Liquid Multiphase Flow”, Chem.-Ing.Tech., 75(3), 2003, pp. 218-220. Lapidus, A. L., Krylova, A. Y., “Catalytic synthesis of isoalkanes and aromatic hydrocarbons from CO and H2”, Russian Chem. Rev., 67(11), 1998, pp. 941-950. Lapidus, A. L., Krylova, A. Yu., Rathouský, J., Zukal, A., Janálková, M., “Hydrocarbon synthesis from carbon monoxide and hydrogen on impregnated cobalt catalysts II - Activity of 10% Co/Al2O3 and 10% Co/SiO2 catalysts in Fischer-Tropsch synthesis”, Appl. Catal. A, 80(1), 1992, pp. 1-11. Larkins, F. P., Khan, A. Z., “Investigation of Kölbel-Engelhardt Synthesis over Iron-Based Catalysts”, Appl. Catal., 47(2), 1989, pp. 209-227. Lauterbach, J., Schick, M.,. Boyle, R. W., Mitchell, W. J., Meng, B., Weinberg, W. H., “The adsorption of CO on Ir(111) investigated with FT-IRAS", Surf. Sci., 350, 1996, pp. 32-44. Lauterbach, J., Schick, M., Weinberg, W. H., “Coadsorption of CO and hydrogen on the Ir(111) surface", J. Vac. Sci. Tech. A, 14, 1996, pp. 1511-1515. Lauterbach, J., Sushchikh, M., Weinberg, W. H., “Chemisorption of CO on the Ir(111) Surface: Does Adsorption Assisted Desorption Occur?", Z. Phys. Chem., 198, 1997, pp. 99-112. Laws, W. J., Puddephatt, R. J., “Formation of ketenes from μ-alkylidenedicobalt complexes: Model reactions for the Fischer-Tropsch synthesis”, Inorg. Chim. Acta, 113(2), 1986, pp. L23-L24. Leconte, M., “An approach to the mechanisms of C-C bond formation and cleavage on metal surfaces using model elementary reaction steps of organometallic chemistry”, J. Molec. Catal., 86(1-3), 1994, pp. 205-220. Lee, D., Epstein, N., Grace, J. R., “The Variable-Voidage Effect on Modeling the Minimum Liquid Fluidization Velocity of Gas-Liquid Fluidized Beds”, J. Chem. Eng. Japan, 36(9), 2003, pp. 1111-1115. Lee, D.-W., Lee, Y.-G., Nam, S.-E., Sea, B., Lee, K.-H., “Preparation and characterization of SiO2 composite membrane for purification of hydrogen from methanol steam reforming as an energy carrier system for PEMFC”, Sep. Purif. Tech., 32(1-3), pp. 45-50. Lee, J., Hanrahan, C. P., Arias, J., Martin, R. M., Metiu, H., “Local modifications of the surface work function by potassium adsorption”, Surf. Sci., 161(1), 1985, pp. L543-L548. Lee, J.-F., Lee, M.-D., Tseng, P.-K., “Fischer-Tropsch synthesis on supported iron catalysts prepared from iron(III) chloride. Pretreatment effects on phase changes and catalytic properties”, Appl. Catal., 52(1), 1989, pp. 193-209. Lee, J.-F., Lee, M.-D., Tseng, P.-K., “Fischer-Tropsch synthesis on supported iron catalysts prepared from iron(iii) chloride pretreatment effects on phase changes and catalytic properties”, Appl. Catal., 52(3), 1989, pp. 193-209. Lee, J.-F., Wei, A.-C., Chao, K.-J., “In situ X-ray absorption spectroscopic study on the reducibility of cobalt-containing aluminophosphate molecular sieves”, J. Molec. Catal. A, 203(1-2), 2003, pp. 165-172. Lee, J. S., Kim, S., Lee, K. H., Nam, I.-S., Chung, J. S., Kim, Y. G., Woo, H. C., “Role of alkali promoters in K/MoS2 catalysts for CO-H2 reactions”, Appl. Catal. A, 110(1), 1994, pp. 11-25. Lee, S. B., Weiss, M., Ertl, G., “Adsorption of potassium on iron”, Surf. Sci., 108(2), 1981, pp. 357-367. Lee, S.-C., Jang, J.-H., Lee, B.-Y., Kang, M.-C., Kang, M., Choung, S.-J., “The effect of binders on structure and chemical properties of Fe-K/γ-Al2O3 catalysts for CO2 hydrogenation”, App. Catal. A, 253(1), 2003, pp. 293-304. Lee, S.-C., Jang, J.-H., Lee, B.-Y., Kim, J.-S., Kang, M., Lee, S.-B., Choi, M.-J., Choung, S.-J., “Promotion of hydrocarbon selectivity in CO2 hydrogenation by Ru component”, J. Molec. Catal. A, 210(1-2), 2004, pp. 131-141 Lee, S.-C., Jang, J.-H., Seo, E.-C., Kang, M.-C., Choung, S.-J., “Comparative Studies on Catalytic Conversion of CO2 into Olefin with Hybrid Catalysts and Fischer-Tropsch Synthesis Catalysts”, J. Korean Inst. Chem. Eng., 41(1), 2003, pp. 33-40. Lee, Y. C., Montano, P. A., “An electron energy loss study of the chemisorption of oxygen and carbon on iron”, Surf. Sci., 149(2-3), 1985, pp. 471-484. Lee, Y. C., Tong, P., Montano, P. A., “Deposition of iron on MgO(100): Reaction of CO and H2”, Surf. Sci., 181(3), 1987, pp. 559-572. Lehr, F., Millies, M., Mewes, D., “Bubble-Size Distributions and Flow Fields in Bubble Columns”, AIChE J., 48(11), 2002, pp. 2426-2443. Lemoine, R., Fillion, B., Behkish, A., Smith, A. E., Morsi, B. I., “Prediction of the gas-liquid volumetric mass transfer coefficients in surface-aeration and gas-inducing reactors using neural networks”, Chem. Eng. Proc., 42(8-9), 2003, pp. 621-643. Li, C., Demon, K., Maruya, K.-I., Onishi, T., “An In-situ FT-IR Study of CO Hydrogenation over Cerium Oxide”, J. Catal., 141, 1993, pp. 540-547. Li, H., “Heat transfer and hydrodynamics in a three phase slurry bubble column”, Ph. D. Thesis, University of Western Ontario, 1998. Li, H., Prakash, A., Margaritis, A., Bergougnou, M. A., “Effects of micron-sized particles on hydrodynamics and local heat transfer in a slurry bubble column”, Powder Tech., 133(1-3), 2003, pp. 171-184. Li, J., Coville, N. J., “Effect of preptreatment on reduction and activity of the boron modified Co/TiO2 Fischer-Tropsch catalyst”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 735. Li, P., Miser, D. E., Rabiei, S., Yadav, R. T., Hajaligol, M. R., “The removal of carbon monoxide by iron oxide nanoparticles”, App. Catal. B., 43(2), 2003, pp. 151-162. Li, Q., Shen, S., “Catalytic Performance of Co-CeO2/SiO2 for F-T Synthesis”, Chinese J. Catal., 23(6), 2002, pp. 513-516. Li, X., Asami, K., Fujimoto, K., “Direct Synthesis of Iso-Paraffins from Synthesis Gas,” in “AICHE – Second Topical Conference on Natural Gas Utilization – Conference Proceedings, March 10-14, 2002”, p. 492. Li, X., Asami, K., Luo, M., Michiki, K., Tsubaki, N., Fujimoto, K., “Direct synthesis of middle iso-paraffins from synthesis gas”, Catal. Today, 84(1-2), 2003, pp. 59-65. Li, X.-S., Englezos, P., “Vapor-Liquid Equilibrium of Systems Containing Alcohols Using the Statistical Associating Fluid Theory Equation of State”, Ind. Eng. Chem. Res., 42(20), 2003, pp. 4953-4961. Li, X. S., Xin, Q., “Infrared Studies of Co/Al2O3 Catalysts: CO and NO Adsorption”, Chin. Chem. Lett., 6, 1995, p. 127. Li, Y., He, D., Zhang, Q., Xu, B., Zhu, Q., “Influence of reactor materials on i-C4 synthesis from CO hydrogenation over ZrO2 based catalysts”, Fuel Proc. Tech., 83(1-3), 2003, pp. 39-48. Liang, B., Shuping, D., Genquan, D., Liren, C., Hongwei, X., Yongwang, L., “Advances in Synthesis of Fuels from Coal Via Fischer - Tropsch Reaction”, Chem. Ind. Eng. Prog., 22(5), 2003, pp. 441-447. Lin, C., Zhang, J., “Influence of Multilayer Shutter-like Baffle on Axial Profiles of Solids Concentration and Particles Size in Three-phase Fluidized Beds”, J. Chem. Ind. Eng., 54(8), 2003, pp. 1072-1077. Lin, H. Y., Chen, W., Tsutsumi, A., “Long-term prediction of nonlinear hydrodynamics in bubble columns by using artificial neural networks”, Chem. Eng. Proc., 42(8-9), 2003, pp. 611-620. Lin, T.-J., Hung-Tzu, C., “Effects of macroscopic hydrodynamics on heat transfer in a three-phase fluidized bed”, Catal. Today, 79-80, 2003, pp. 159-167. Lindner, U., Papp, H., “XPS and ISS characterization of potassium or copper containing Fe/Mn oxide catalysts for Fischer-Tropsch synthesis”, App. Surf. Sci., 32(1-2), 1988, pp. 75-92. Linek, V., Moucha, T., Korda, M., “Simultaneous measurement of hold-up profiles and interfacial area using LDA in bubble columns: predictions by multiresolution analysis and comparison with experiments”, Chem. Eng. Sci., 58(8), 2003, p. 1645. Lisowski, W., “Kinetics and thermodynamics of hydrogen interaction with thin cobalt films”, Appl. Surf. Sci., 35(3), 1989, pp. 399-408. Liu, C., Xu, G., “C1 Chemical Products and Trend of Development”, J. Chem. Ind. Eng. – China, 54(4), 2003, pp. 524-530. Liu, C.-J., Jiang, T., Xu, G.-H., “A Two-Step Conversion of Syngas via Dimethyl Ether”, ACS Div. Fuel Chem. Prepr., 45(3), 2000, pp. 598-601. Liu, D., Liu, Y., Zhou, T., Liu, C., Que, G., “In situ FT-IR study of CO hydrogenation on a molybdenum nitride catalyst”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 506. Liu, Y., Yang, J., Bai, L., Li, Y., Liu, L., Xiang, H., Li, Y., Zhong, B., “Catalytic Performance of Fe-Mn Catalyst for Fischer-Tropsch Synthesis I. Performance of Catalyst during Early Period of Reaction”, Chinese J. Catal., 24(4), 2003, pp. 299-304. Liu, X.-M., Lu, G. Q., Yan, Z.-F., Beltramini, J., “Recent Advances in Catalysts for Methanol Synthesis via Hydrogenation of CO and CO2”, Ind. Eng. Chem. Res., 42(25), 2003, pp. 6518-6530. Liu, Z., Vatanakul, M., Jia, L., Zheng, Y., “Hydrodynamics and Mass Transfer in Gas-Liquid-Solid Circulating Fluidized Beds”, Chem. Eng. Tech., 26(12), 2003, pp. 1247-1253. Löchner, U., Papp, H., Baerns, M., “Iron/manganese oxide catalysts for Fischer-Tropsch synthesis - Part III: Phase changes in iron/manganese oxide Fischer-Tropsch catalysts during start-up and synthesis process”, Appl. Catal., 23(2), 1986, pp. 339-354. Loggenberg, P. M., Carlton, L., Copperthwaite, R. G., Hutchings, G. J., “The interaction of diazomethane and its decomposition products with a polycrystalline iron surface, studied by X-ray photoelectron spectroscopy”, Surf. Sci., 184(1-2), 1987, pp. L339-L344. Lorenz, O., Fonkou, P. T., Schumpe, A., “Mischungsverhalten der Flussigphase in einer Druck-blasensaule”, Chem.-Ing.-Tech., 75(8), 2003, p. 1036. Loubière, K., Hébrard, G., Guiraud, P., “Dynamics of Bubble Growth and Detachment from Rigid and Flexible Orifices”, Canadian J. Chem. Eng., 81(3), 2003, pp. 499-507. Lu, J.-P., Albert, M. R., Bernasek, S. L., “Adsorption and dissociation of CO on Fe(100) at low coverage”, Surf. Sci., 217(1-2), 1989, pp. 55-64. Lu, S.-S., Chen, X.-L., Yu, G.-S., Yu, Z.-H., “Measurement of the Bubble Parameters in Bubble Column by Conductivity Probe”, Chem React. Eng. Tech., 19(4), 2003, pp. 344-351. Lu, Y., Zhou, P., “Study on the product of Fischer-Tropsch synthesis over skeleton iron metal catalysts”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 559. Lu, Y., Zhou, P., Lee, T., “Development of Raney Fe Catalyst For the Slurry Fischer-Tropsch Synthesis”, ACS Div. Fuel Chem. Prepr., 46(2), 2001, pp. 500-504. Luengnaruemitchai, A., Osuwan, S., Gulari, E., “Comparative studies of low-temperature water-gas shift reaction over Pt/CeO2, Au/CeO2, and Au/Fe2O3 catalysts”, Catal. Comm., 4(5), 2003, pp. 215-221. Luo, H., Zhou, H., Lin, L., Liang, D., Li, C., Fu, D., Xin, Q., “Role of Vanadium Promoter in Rh-V/SiO2 Catalysts for the Synthesis of C2-Oxygenates from Syngas”, J. Catal., 145, 1994, p. 232. Luo, H. Y., Bastein, A. G. T. M., Mulder, A. A. J. P., Ponec, V., “Optimization of the promoter effect in the direct synthesis of oxygenates from syngas”, Appl. Catal., 38(2), 1988, pp. 241-253. Luo, M., Davis, B. H., “Fischer-Tropsch synthesis: Group II alkali-earth metal promoted catalysts”, App. Catal. A, 246(1), 2003, pp. 171-181. Luo, M., Davis, B. H., “Fischer-Tropsch synthesis: activation of low-alpha potassium promoted iron catalysts”, Fuel Proc. Tech., 83(1-3), 2003, pp. 49-65. Luo, M., O'Brien, R. J., Bao, S., Davis, B. H., “Fischer-Tropsch synthesis: induction and steady-state activity of high-alpha potassium promoted iron catalysts, App. Catal., 39(1-2), 2003, pp. 111-120. Luo, T., Gorte, R. J., “A Mechanistic Study of Sulfur Poisoning of the Water-Gas-Shift Reaction over Pd/Ceria”, Catal. Lett., 85(3-4), 2003, pp. 139-146. Ma, D., Lund, C. R. F., “Assessing High-Temperature Water-Gas Shift Membrane Reactors”, Ind. Eng. Chem. Res., 42(4), 2003, pp. 711-717. Maalej, S., Benadda, B., Otterbein, M., “Interfacial area and volumetric mass transfer coefficient in a bubble reactor at elevated pressures”, Chem. Eng. Sci., 58(11), 2003, pp. 2365-2376. Macchi, A., Bi, H., Grace, J. R., McKnight, C. A., Hackman, L., “Effect of Gas Density on the Hydrodynamics of Bubble Columns and Three-Phase Fluidized Beds”, Canadian J. Chem. Eng., 81(3), 2003, pp. 846-852. MacKenzie, K. J. D., Brown, I. W. M., Bowden, M. E., Cousins, W. J., “Catalytic properties of materials derived from iron-containing clays”, React. Solids, 1(2), 1986, pp. 171-188. Mahajan, D., Goland, A. N., “Integrating Low Temperature Methanol Synthesis and CO2 Sequestration Technologies: Application to IGCC Plants,” in “AICHE – Second Topical Conference on Natural Gas Utilization – Conference Proceedings, March 10-14, 2002”, p. 486. Mahajan, D., Gütlich, P., Ensling, J., Pandya, K., Stumm, U., Vijayaraghavan, P., “Evaluation of Nanosized Iron in Slurry-Phase Fischer-Tropsch Synthesis”, Energy Fuels, 17(5), 2003, pp. 1210-1221. Mahajan, D., Gutlich, P., Stumm, U., “The role of nano-sized iron particles in slurry phase Fischer-Tropsch synthesis”, Catal. Comm., 4(3), 2003, pp. 101-107. Mahajan, D., Lee, T., Wegrzyn, J. E., Gurevich, M., “Development of Atom-Economical Catalytic Pathways for Conversions of Syngas to Energy Liquids,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 31. Mahajan, S. P., Narashimhamurty, G. S. R., “Size, size distribution and interfacial area for gas-liquid dispersion formed on perforated plates”, Indian J. Tech., 13, 1974, pp. 541-547. Mahojey, M. R., Howard, M. W., Cooney, R. P., “Carbon dioxide conversion to hydrocarbons at silver electrode surfaces - Raman Spectroscpic evidence for surface carbon intermediates”, Chem. Phys. Lett., 71(1), 1980, pp. 59-63. Maiti, G. C., Löchner, U., Baerns, M., “Studies on the reduction of iron/tungsten mixed oxides”, Thermochim. Acta, 112(2), 1987, pp. 221-229. Maiti, G. C., Malessa, R., Baerns, M., “Iron/manganese oxide catalysts for Fischer-Tropsch synthesis. Part I: structural and textural changes by calcination, reduction and synthesis”, Appl. Catal., 5(2), 1983, pp. 151-170. Maiti, G. C., Malessa, R., Baerns, M., “Studies on the reduction of the Fe2O3-MoO3 system and its interaction with synthesis gas (CO+H2)”, Thermochim. Acta, 80(1), 1984, pp. 11-21. Maiti, G. C., Malessa, R., Löchner, U., Baerns, M., “Reply to the comments of R. Gomez Villacieros, L. Hernan, J. Morales and J.L. Tirado on the paper "Iron/manganese catalysts for Fischer-Tropsch synthesis, Part I: structural and textural changes by calcination, reduction and synthesis" by G.C. Maiti, R. Malessa and M. Baerns (Applied Catalysis, 5 (1983) 151 - 170)”, Appl. Catal., 9(1), 1984, pp. 137-138. Maiti, G. C., Malessa, R., Löchner, U., Papp, H., Baerns, M., “Iron/manganese oxide catalysts for Fischer-Tropsch synthesis - Part II: Crystal phase composition, activity and selectivity”, Appl. Catal., 16(2), 1985, pp. 209-214. Maitlis, P. M., “Metal catalysed CO hydrogenation: hetero- or homo-, what is the difference?”, J. Mol. Catal. A, 204-205, 2003, pp. 54-61. Makowski, W., Dziembaj, R., “Fast and slow methanation pathways in hydrogenation of carbon dioxide on Fe-Mn oxide catalysts”, J. Molec. Catal., 91(3), 1994, pp. 353-367. Malayeri, M. R., Muller-Steinhagen, H., Smith, J. M., “Neural network analysis of void fraction in air/water two-phase flows at elevated temperatures”, Chem. Eng. Proc., 42(8-9), 2003, pp. 587-597. Marano, J. J., Ciferno, J. P., “Life-Cycle Greenhouse-Gas Emissions,” in “AIChE – Second Topical Conference on Natural Gas Utilization – Conference Proceedings, March 10-14, 2002”, p. 514. Marche, C., Ferronato, C., Jose, J., “Solubilities of n-Alkanes (C6 to C8) in Water from 30 C to 180 C”, J. Chem. Eng. Data, 48(4), 2003, pp. 967-971. Marchetti, S. G., Alvarez, A. M., Mercader, R. C., Yeramian, A. A., “Preparation and characterization of iron catalysts precursors on different supports”, Appl. Surf. Sci., 29(4), 1987, pp. 443-462. Marchetti, S. G., Cagnoli, M. V., Alvarez, A. M., Bengoa, J. F., Gallegos, N. G., Yeramian, A. A., Mercader, R. C., “Iron Uniform-Size Nanoparticles Dispersed on MCM-41 Used as Hydrocarbon Synthesis Catalyst”, Hyperfine Interactions, 139-140(1-4), 2002, pp. 33-40. Markert, K., Wandelt, K., “The short range of the electronic promoter effect of potassium”, Surf. Sci., 159(1), 1985, pp. 24-34. Marsella, J. A., Pez, G. P., “Ruthenium-catalyzed formation of N-methylformamides from synthesis gas and ammonia”, J. Molec. Catal., 35(1), 1986, pp. 65-76. Martin-Martinez, J. M., Rodriguez-Reinoso, F., Vannice, M. A., “Carbon-supported, [alkali metal] [Fe2Mn(CO)12]- derived catalysts - Adsorption properties and catalytic behavior in carbon monoxide hydrogenation”, Appl. Catal., 51(1), 1989, pp. 93-112. Martinez, A., Lopez, C., Marquez , F., Diaz, I., “Fischer-Tropsch synthesis of hydrocarbons over mesoporous Co/SBA-15 catalysts: the influence of metal loading, cobalt precursor, and promoters”, J. Catal., 220(2), 2003, pp. 486-499. Marzke, R. F., Harshman, D. R., Ansaldo, E. J., Keitel, R., Senba, M., Noakes, D. R., Brewer, J. H., “The relaxation rate of muonium as a function of temperature and loading in silica-supported platinum catalysts”, Ultramicroscopy, 20(1-2), 1986, pp. 161-167.fs Mason, R., Roberts, M. W., “Coordination and activation of simple molecules at metal surfaces”, Inorg. Chim. Acta, 50, 1981, pp. 53-58. Mathias, P. M., O'Connell, J. P., “Molecular thermodynamics of liquids containing supercritical compounds”, Chem. Eng. Sci., 36(7), 1981, pp. 1123-1132. Matsuura, A.,; Kato, Y., Tada, Y., Hiraoka, S., Yoshida, K., “New Correction Method of Mass Balance in Numerical Analysis for Gas-Liquid Two-Phase Flow”, Kagaku Kogaku Ronbunshu, 29(1), 2003, p. 154. Matsuyama, M., Ashida, K., Takeuchi, T., “Application of 63Ni to the reduction mechanism of Fe-Ni oxides”, Internat. J. Radiation Appl. and Instrum. A., 42(12), 1991, pp. 1153-1158. May, C. J., Graham, W. A. G., “Thermolysis and photolysis of (ή-C5Me5)Os(CO)2CH2OH: A retro Fischer-Tropsch step”, J. Organomet. Chem., 234(3), 1982, pp. C49-C51. Mazzieri, V., Coloma-Pascual, F., Arcoya, A., L'Argentiere, P. C., Figoli, N. S., “XPS, FTIR and TPR characterization of Ru/Al2O3 catalysts”, App. Surf. Sci., 210(3-4), 2003, pp. 222-230. Mazzieri, V. A., L'Argentière, P. C., Coloma-Pascual, F., Fígoli, N. S., “Effect of Chlorine on the Properties of Ru/Al2O3”, Ind. Eng. Chem. Res., 42(11), 2003, pp. 2269-2272. McBreen, P. H., Erley, W., Ibach, H., “EELS spectra of methylene and ketene on Fe(110)”, Surf. Sci., 148(2-3), 1984, pp. 292-310. McBreen, P. H., Erley, W., Ibach, H., “EELS spectra of Methylene and Ketene on Fe(110)”, Surf. Sci. Lett., 148(2-3), 1984, pp. A488. McClelland, R. J., Blakely, J. M., “Effect of surface orientation and sulfur coverage on the oxidation of carbon on Ni surfaces”, Surf. Sci., 260(1-3), 1992, pp. 191-199. McDonald, M. A., “The Effects of Size and Composition of Iron-based Particles on Catalytic Hydrocarbon Synthesis”, Ph. D. Thesis, Stanford U., 1984. McKarnin, M. A., Schmidt, L. D., Aris, R., “Response of nonlinear oscillators to forced oscillations: Three chemical reaction case studies”, Chem. Eng. Sci., 43(10), 1988, pp. 2833-2844. McKnight, C. A., Hackman, L. P., Grace, J. R., Macchi, A., Kiel, D., Tyler, J., “Fluid Dynamic Studies in Support of an Industrial Three-Phase Fluidized Bed Hydroprocessor”, Canadian J. Chem. Eng., 81(3), 2003, pp. 338-350. McNeil, D. A., Stuart, A. D., “Vertically upward two-phase flow with a highly viscous liquid-phase in a nozzle and orifice plate”, International J. Heat Fluid Flow, 25(1), 2004, pp. 58-73. Meernick, P. R., Yuen, M. C., “An optical method for determining bubble size distributions, II: Application to bubble size measurement in a three-phase fluidized bed”, J. Fluid Eng., 110, 1988, pp. 332-338. Mehandru, S. P., Anderson, A. B., “Binding and orientations of CO on Fe(110), (100), and (111): A surface structure effect from molecular orbital theory”, Surf. Sci., 201(1-2), 1988, pp. 345-360. Mendelson, H. D., “The motion of an air bubble rising in water”, AIChE J., 13, 1967, p. 250. Menon, P. G., “Surface species in equilibrium, possibly common for several major catalytic processes”, J. Molec. Catal., 39(3), 1987, pp. 383-387. Mériaudeau, P., Ellestad, H., Naccache, C., “Catalytic properties of supported rhodium in the CO + H2 reaction: Influence of the support on the selectivity”, J. Molec. Catal., 17(2-3), 1982, pp. 219-223. Meskin, P. E., Baranchikov, A. E., Ivanov, V. K., Kisterev, E. V., Burukhin, A. A., Churagulov, B. R., Oleinikov, N. N., Komarneni, S., Tret’yakov, Yu. D., “Synthesis of Nanodisperse Co3O4 Powders under Hydrothermal Conditions with Concurrent Ultrasonic Treatment”, Doklady Chem., 389(1-3), 2003, p. 62. Mewes, D., Wiemann, D., “Two-Phase Flow with Mass Transfer in Bubble Columns”, Chem. Eng. Tech., 26(8), 2003, pp. 862-868. Mier, P., Angst, R., Kraume, M., “Application of the Euler-Euler Method for Simulation of Liquid/Solids Flow in a Jet Loop Reactor”, Chem.-Ing.-Tech., 75(4), 2003, pp. 367-369. Migone, R. A., Ulla, M. A., Lombardo, E. A., Petunchi, J. O., “Hydrogenation of Carbon Dioxide over Co-AlPO4-5”, Appl. Catal., 37, 1988, pp. 115-128. Mikhailova, I. A., Fadeev, S. I., Khasin, A. A., Chermashentseva, G. K., Kirillov, V. A., “Calculating the Liquid–Gas Equilibrium in the Fischer-Tropsch Synthesis”, Theor. Found. Chem. Eng., 37(2), 2003, p. 167. Mikielewicz, D., “Hydrodynamics and heat transfer in bubbly flow in the turbulent boundary layer”, Internat. J. Heat Mass Transfer, 46(2), 2003, pp. 207-220. Miro, E. E., Lombardo, E. A., Petunchi, J. O., “Kinetics of the reduction of Cu-mordenite with carbon monoxide”, Appl. Catal., 32, 1987, pp. 275-284. Mishra, S. P., Singh, T. B., “Radiotracer technique in adsorption study - III: Adsorption of phosphate ions on cobalt metal powder”, International J. Rad. Appl. Instrum., Part A., 37(11), 1986, pp. 1121-1127. Mitsudo, T.-A., Ishihara, A., Watanabe, Y., “Fischer-Tropsch synthesis using a [NEt3H]+[HFe3(CO)11]- -potassium hydroxide - Y zeolite system as a catalyst precursor”, J. Molec. Catal., 40(1), 1987, pp. 119-123. Miyauchi, T., Vermeulen, T., “Longitudinal dispersion in two-phase continuous-flow operations”, Chem. Eng. Sci., 54, 1999, pp. 5299-5309. Mizobuchi, M., Kinugawa, K., Hashimoto, N., Iida, H., Igarashi, A, “Development of a New Water Gas Shift Reaction Catalyst”, Stud. Surf. Sci. Catal., 145, 2003, pp. 481-482. Moen, A., Nicholson, D. G., Clausen, B. S., Hansen, P. L., Steffensen, G., “X-ray Absorption Spectroscopic Studies at the Cobalt K-edge on a Reduced Al2O3 -Supported Rhenium-Promoted Cobalt Fischer-Tropsch Catalyst", Chem. Materials, 9, 1997, p. 1241. Mokhatab, S., “Three-Phase Flash Calculation for Hydrocarbon Systems Containing Water”, Theor. Found. Chem. Eng., 37(3), 2003, p. 291. Montes, A. J., “Catalytic activity and selectivity of mechanically alloyed nickel-zirconium and nickel-platinum-zirconium powders”, Ph. D. Thesis, Marquette University, 2001. Moradi, G. R., Basir, M. M., Taeb, A., Kiennemann, A., “Promotion of Co/SiO2 Fischer-Tropsch catalysts with zirconium”, Catal. Comm., 4(1), 2003, pp. 27-32. Mosdorf, R., Shoji, M., “Chaos in bubbling-nonlinear analysis and modelling”, Chem. Eng. Sci., 58(17), 2003, pp. 3837-3846. Moss, J. R., Scott, L. G., “μ(α,ω)-Alkanediyl complexes of transition metals”, Coord. Chem. Rev., 60, 1984, pp. 171-190. Mukkavilli, S., Tavlarides, L. L., Wittmann, C. V., “Integral method of analysis for chemical reaction in a nonisothermal finite cylindrical catalyst pellet - I. Dirichlet problem”, Chem. Eng. Sci., 42(1), 1987, pp. 27-33. Mulay, L. N., Lo, C., Pannaparayil, T., Diffenbach, R. A., “Magnetic and Mössbauer studies on superparamagnetic Fe-Mn clusters for syngas conversion”, J. Magn. Magn. Mat., 54-57(3), 1986, pp. 1464-1466. Mullins, D. R., White, J. M., Luftman, H. S., “Probing potassium on Ni(100) with adsorbed rare gas atoms”, Surf. Sci., 167(1), 1986, pp. 39-56. Murayama, Z., Kojima, I., Miyazaki, E., Yasumori, I., “Dissociation of carbon monoxide on stepped nickel surfaces”, Surf. Sci. Lett., 118(3), 1982, pp. L281-L285. Muroyama, K., Kato, T., Masuda, T., Kinoshita, S., “Vertical Cylinder-to-Slurry Heat Transfer in a Gas-Slurry Transport Bed”, Canadian J. Chem. Eng., 81(3), 2003, pp. 426-432. Muscat, J.-P., “Role of multi-adatom interactions in the formation of ordered structures on metal surfaces: Application to H/Fe(110)”, Surf. Sci., 139(2-3), 1984, pp. 491-504. Nagai, S., Arai, H., Hatada, M., “Radiation effects on CO-H2 gas mixture in the presence of silica gel”, Radiation Phys. Chem.,16(2), 1980, pp. 175-181. Nakao, K., Azakami, F., Furumoto, K., Yoshimoto, M., Fukunaga, K., “Measurement and Correlation of Critical Gas and Liquid Velocities for Complete Circulation of Solid Particles in External Loop Airlift Bubble Columns”, Canadian J. Chem. Eng., 81(3), 2003, pp. 444-450. Narayanan, S., Bhatia, V. K., Guha, D. K., “Suspension of solids by bubble agitation”, Canadian J. Chem. Eng., 47, 1969, pp. 360-364. Narita, T., Miura, H., Ohira, M., Hondou, H., Sugiyama, K., Matsuda, T., Gonzalez, R. D., “The effect of reduction temperature on the chemisorptive properties of Ru/Al2O3: Effect of chlorine”, Appl. Catal., 32, 1987, pp. 185-190. Ndlela, S. C., Shanks, B. H., “Reducibility of Potassium-Promoted Iron Oxide under Hydrogen Conditions”, Ind. Eng. Chem. Res., 42(10), 2003, pp. 2112-2121. Neathery, J. K., Davis, B. H., “F-T Catalyst Performance: Comparison Between Pilot-Scale SBCR and CSTR Systems,” in “AICHE – Second Topical Conference on Natural Gas Utilization – Conference Proceedings, March 10-14, 2002”, p. 435. Neathery, J. K., Davis, B. H., “FT catalyst performance: comparison between pilot-scale SBCR and CSTR Systems”, Catal. Today, 84(1-2), 2003, pp. 3-8. Nedeltchev, S., “Penetration theory prediction of volumetric liquid-phase mass transfer coefficients in a high-pressure bubble column with water and organic liquids”, Bulgarian Chem. Ind., 73(3-4), 2002, pp. 61-67. Nedeltchev, S., Kumar, S. B., Dudukovic, M. P., “Flow Regime Identification in a Bubble Column Based on both Kolmogorov Entropy and Quality of Mixedness Derived from CAERPT Data”, Canadian J. Chem. Eng., 81(3), 2003, pp. 367-374. Nedeltchev, S., Ookawara, S., Ogawa, K., “Quality of Mixedness Profiles Based on Spatial Distribution of Local Mass Transfer Coefficients in a Bubble Column”, Canadian J. Chem. Eng., 81(3), 2003, pp. 597-603. Neumann, D., Veser, G., “Syngas production by direct oxidation of methane in a reverse-flow reactor”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 225. Niemantsverdriet, J. W., Aschenbeck, D. P., Fortunato, F. A., Delgass, W. N., “Mössbauer investigation of bimetallic FeRu/SiO2 and FeRh/SiO2 Fischer-Tropsch catalysts”, J. Molec. Catal., 25(1-3), 1984, pp. 285-293. Niemantsverdriet, J. W., Flipse, C. F. J., Van Der Kraan, A. M., Van Loef, J. J., “A Mössbauer study of surface effects on iron Fischer-Tropsch catalysts”, Appl. Surf. Sci., 10(2), 1982, pp. 302-313. Nienow, A. W., Bujalski, W., “Recent Studies on Agitated Three-phase (Gas-Solid-Liquid) Systems in the Turbulent Regime”, Chem. Eng. Res. Des., 80(8), 2002, pp. 832-838. Nieuwenhuys, B. E., “Correlation between work function change and degree of electron back-donation in the adsorption of carbon monoxide and nitrogen on group VIII metals”, Surf. Sci., 105(2-3), 1981, pp. 505-516. Nieuwenhuys, B. E., “Adsorption and reactions of CO, NO, H2 and O2 on group VIII metal surfaces”, Surf. Sci., 126(1-3), 1983, pp. 307-336. Nikov, I., Delma, H., “Solid-liquid mass transfer in three-phase fixed and fluidized beds”, Chem. Eng. Sci., 42, 1987, pp. 1089-1093. Nimocks, R. M., “Potential for GTL as a Gas-Conversion Alternative in Low-Oil-Price Environment,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 13. Nishijima, M., Jo, M., Onchi, M., “Adsorbed States of Hydrogen on the Ni(110) Surface”, Surf. Sci. 151, 1985, pp. L179-L184. Nishijima, M., Masuda, S., Jo, M., Onchi, M., “Hydrogen Chemisorption on Ni(110) by High-Resolution Electron Energy Loss Spectroscopy”, J. Electron Spectr. Relat. Phenom., 29, 1983, pp. 273-278. Nishijima, M., Masuda, S., Sakisaka, Y., Onchi, M., “High-Resolution Electron Energy-Loss Spectroscopy of CO on an Ni(110) Surface”, Surf. Sci.107, 1981, pp. 31-42. Nitta, Y., Kawabe, M., Sun, L., Ohmachi, Y., Imanakau, T., “Preparation of uniformly dispersed nickel/silica catalysts from synthetic nickel-chrysotile”, Appl. Catal., 53(1), 1989, pp. 15-28. Nonose, S., Sone, Y., Onodera, K., Sudo, S., Kaya, K., “Reactivity study of alloy clusters made of aluminum and some transition metals with hydrogen”, Chem. Phys. Lett., 164(4), 1989, pp. 427-432. Nord, K., Haupt, D., "Evaluting a Fisher-Tropsch Fuel, Eco-ParTM in a Valmet Diesel Engine", SAE Technical Paper Series, no 2002-01-2726, 2002. Norval, G. W., Phillips, M. J., “Comments on induction periods for synthesis of hydrocarbons from syngas over metal/zeolite catalysts using a two stage process”, Appl. Catal., 43(1), 1988, pp. 193-195. Nosier, S. A., “Solid-Liquid Mass Transfer at Gas Sparged Tube Bundles”, Chem. Eng. Tech., 26(11), 2003, pp. 1151-1154. Nudel, J. N., Umansky, B. S., Lombardo, E. A., “Bulk, surface and catalytic characterization of the Co3O4-La2O3-Al2O3 system”, Appl. Catal., 31(2), 1987, pp. 275-289. Oades, R. D., Morris, S. R., Moyes, R. B., “Alumina-supported tungsten catalysts for the hydrogenation of carbon monoxide”, Catal. Today, 10(3), 1991, pp. 379-385. Oades, R. D., Morris, S. R., Moyes, R. B., Parkyns, N. D., Komodromos, C., Bradshaw, D. I., “Promoted iron catalysts for the production of C2-C4 hydrocarbon as enrichment gas for SNG”, Appl. Catal., 25, 1986, pp. 77-85. Oey, R. S., Mudde, R. F., van den Akker, H. E. A., “Sensitivity Study on Interfacial Closure Laws in Two-Fluid Bubbly Flow Simulations”, AIChE J., 49(7), 2003, pp. 1621-1636. Ohlrogge, K., Brinkmann, T., Wind, J., “Membrane Processes in Natural Gas Processing”, Chem.-Ing.-Tech., 75(11), 2003, pp. 1607-1610. Ohtsuka, Y., Arai, T., Takasaki, S., Tsubouchi, N., “Fischer-Tropsch Synthesis with Cobalt Catalysts Supported on Mesoporous Silica for Efficient Production of Diesel Fuel Fraction”, Energy Fuels, 17(4), 2003, pp. 804-809. Ojeda, M., Lopez Granados, M., Rojas, S., Terreros, P., Fierro, J. L. G., “Influence of residual chloride ions in the CO hydrogenation over Rh/SiO2 catalysts”, J. Molec. Catal. A, 202(1-2), 2003, pp. 179-186. Okabe, K., Matsuzaki, T., Fujimoto, K., Li, X., Arakawa, H., “Novel Activation of Co/SiO2 Catalysts Prepared by Alkoxide Method for Fischer-Tropsch Synthesis,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 93. Okabe, K., Wei, M., Arakawa, H., “Fischer-Tropsch Synthesis over Cobalt Catalysts Supported on Mesoporous Metallo-silicates”, Energy Fuels, 17(4), 2003, pp. 822-828. Olmos, E., Gentric, C., Midoux, N., “Numerical description of flow regime transitions in bubble column reactors by a multiple gas phase model”, Chem. Eng. Sci., 58(10), 2003, pp. 2113-2121. Olmos, E., Gentric, C., Midoux, N., “Identification of Flow Regimes in a Flat Gas-liquid Bubble Column via Wavelet Transform”, Canadian J. Chem. Eng., 81(3), 2003, pp. 382-388. Olmos, E., Gentric, C., Poncin, S., Midoux, N., “Description of flow regime transitions in bubble columns via laser Doppler anemometry signals processing”, Chem. Eng. Sci., 58(9), 2003, pp. 1731-1742. Orejas, J. A., “Modelling and simulation of a bubble-column reactors with external loop: application to the direct chlorination of ethylene”, Chem. Eng. Sci., 54, 1999, pp. 5299-5309. Orita, H., Itoh, N., Inada, Y., “All electron scalar relativistic calculations on adsorption of CO on Pt(111) with full-geometry optimization: a correct estimation for CO site-preference”, Chem. Phys. Lett., 384(4-6), 2004, pp. 271-276. Ortaggi, G., Paolesse, R., “The reduction of bridged carbonyl groups as a new route to α-methylene complexes of iron”, J. Organomet. Chem., 346(2), 1988, pp. 219-224. Otake, T., Tone, S., Nakao, K., Mitsuhashi, Y., “Coalescence and break-up of bubbles in liquids”, Chem Eng. Sci., 32, 1977, pp. 377-383. Oukaci, R., Wei, D., Singleton, A. H., Goodwin, J. G. Jr., “Attrition Resistant Cobalt F-T Catalysts for Slurry Bubble Column Reactors,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 91. Outi, A., Rautavuoma, I., van der Baan, H. S., “Kinetics and mechanism of the fischer tropsch hydrocarbon synthesis on a cobalt on alumina catalyst”, Appl. Catal., 1(5), 1981, pp. 247-272. Ouyang, X., Besser, R. S., “Microreactor Based Parallel Catalyst-Analysis,” in “AICHE – Second Topical Conference on Natural Gas Utilization – Conference Proceedings, March 10-14, 2002”, p. 394. Ouyang, X., Besser, R. S., “Development of a microreactor-based parallel catalyst analysis system for synthesis gas conversion”, Catal. Today, 84(1-2), 2003, pp. 33-41. Oxton, I. A., Powell, D. B., Goudsmit, R. J., Johnson, B. F. G., Lewis, J., Nelson, W. J. H., Nicholls, J. N., Rosales, M. J., Vargas, M. D., Whitmire, K. H., “Infrared spectra of the metal carbido cluster complexes M5C(CO)15 (M = Fe, Ru and Os)”, Inorg. Chim. Acta, 64, 1982, pp. L259-L261. Pályi, G., Váradi, G., Horváth, I. T., “Activation of carbon monoxide and acetylenes by cobalt carbonyls”, J. Molec. Catal., 13, 1981, pp. 61-70. Pan, J. S., Tok, E. S., Huan, C. H. A., Liu, R. S., Chai, J. W., Ong, W. J., Toh, K. C., “Probing the behaviour of ultra thin Co layers on clean and hydrogen terminated Si(0 0 1) and Si(1 1 1) surfaces”, Surf. Sco., 532-535, 2003, pp. 639-644. Pan, X. L., Stroh, N., Brunner, H., Xiong, G. X., Sheng, S. S., “Pd/ceramic hollow fibers for H2 separation”, Sep. Purif. Tech., 32(1-3), 2003, pp. 265-270. Pankowski, M., Bigorgne, M., “Insertion de monoxyde de carbone dans la liaison metal-carbone de complexes carbonyle du fer et du ruthenium”, J. Organomet. Chem., 251(3), 1983, pp. 333-338. Panpranot, J., Goodwin, Jr., J. G., Sayari, A., “Synthesis and characteristics of MCM-41 supported CoRu catalysts”, Catal. Today, 77(3), 2002, pp. 269-284. Panpranot, J., Goodwin, Jr., J. G., Sayari, A., “Effect of H2 partial pressure on surface reaction parameters during CO hydrogenation on Ru-promoted silica-supported Co catalysts”, J. Catal., 213(1), 2003, pp. 78-85. Panpranot, J., Kaewkun, S., Praserthdam, P., Goodwin, Jr., J. G., “Effect of Cobalt Precursors on the Dispersion of Cobalt on MCM-41”, Catal. Lett., 91(1-2), 2003, pp. 95-102. Papagno, L., Caputi, L. S., Chiarello, G., Delogu, P., “Structural study of clean and oxygen-covered Fe(110) by surface extended energy-loss fine-structure technique”, Surf. Sci., 175(2), 1986, pp. L767-L772. Papp, H., “The chemisorption of carbon monoxide on a Co(0001) single crystal surface; studied by LEED, UPS, EELS, AES and work function measurements”, Surf. Sci., 129(1), 1983, pp. 205-218. Papp, H., Wieczorek, F., “Investigation of the carburization of Fe/Mn-Fischer-Tropsch catalysts with a microbalance”, Thermochim. Acta, 103(1), 1986, pp. 187-192. Pardy, R. B. A., Smith, G. W., Vickers, M. E., “The synthesis and X-ray structure of Co3(C5Me5)3(μ3-CCH3)2; conversion of ethylene directly into a carbyne ligand”, J. Organomet. Chem., 252(3), 1983, pp. 341-346. Pareja, T. J., Luss, D., “Modification of the selectivity of catalytic consecutive reactions by poisoning”, Chem. Eng. Sci., 30(10), 1975, pp. 1219-1225. Park, S. H., Kim, S. D., “Characterization of Pressure Signals in a Bubble Column by Wavelet Packet Transform”, Korean J. Chem. Eng., 20(1), 2003, pp. 128-132. Park, S. H., Kim, S. D., “Experimental, Statistical and Stochastic Studies of Pressure Fluctuations in a Three-phase Fluidized Bed with a Moderately Large Diameter”, Korean J. Chem. Eng., 20(1), 2003, pp. 121-127. Parker, D. H., Fischer, D. A., Colbert, J., Koel, B. E., “Hydrogen-induced CO displacement from the Pt(111) surface: an isothermal kinetic study”, Surf. Sci., 258(1-3), 1991, pp. 75-81. Parkyns, N. D., Warburton, C. I., Wilson, J. D., “Natural gas conversion to liquid fuels and chemicals: Where does it stand ?”, Catal. Today, 18(4), 1993, pp. 385-442. Parsafar, G. A., Kalantar, Z., “Extension of Linear Isotherm Regularity to Long Chain Alkanes”, Iranian J. Chem. Chem. Eng., 22(2), 2003, pp. 1-8. Passos, F. B., Oliveira, E. R., Rego, C. E. E. L., Mattos, L. V., Noronha, F. B., “Partial methane oxidation on yttrie and ceria supported platinum catalysts”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 325. Patterson, P. M., Das, T. K., Davis, B. H., “Carbon monoxide hydrogenation over molybdenum and tungsten carbides”, App. Catal. A., 251(2), 2003, pp. 449-455. Paul, J., Rosén, A., “Catalytic active sites on sputtered metal interfaces”, Surf. Sci. Lett., 127(1), 1983, pp. L93-L97. Paulus, U. A., Wang, Y., Jacobi, K., Ertl, G., “CO adsorption on the reduced RuO2(110) surface”, Surf. Sci., 547(3), 2003, pp. 349-354. Peebles, D. E., White, J. M., “Adsorption of D2O on Ni(100) at 100 K and the influence of the coadsorbates O(a), CO(a) and D(a)”, Surf. Sci., 144(2-3), 1984, pp. 512-540. Perrichon, V., Charcosset, H., Barrault, J., Forquy, C., “Influence of a partial dissolution of alumina during the preparation of iron catalysts on their catalytic properties for Fischer-Tropsch synthesis”, Appl. Catal., 7(1), 1983, pp. 21-29. Perrichon, V., Durupty, M. C., “Thermal stability of alkali metals deposited on oxide supports and their influence on the surface area of the support”, Appl. Catal., 42(2), 1988, pp. 217-227. Perrichon, V., Pijolat, M., Primet, M., “Surface species involved during the hydrogenation of CO or CO2 on iron-alumina catalysts”, J. Molec. Catal., 25(1-3), 1984, pp. 207-217. Perry, S. G., “Peak identification in gas chromatography”, Chromatogr. Rev., 9(1), 1967, pp. 1-22. Peuckert, M., “A comparison of thermally and electrochemically prepared oxidation adlayers on rhodium: Chemical nature and thermal stability”, Surf. Sci., 141(2-3), 1984, pp. 500-514. Pham, H. N., “Agglomerate strength and attrition in slurry phase iron-based Fischer-Tropsch catalysts”, Ph. D. Thesis, University Of New Mexico, 2001. Pham, H. N., Datye, A. K., “The Synthesis of Attrition Resistant Slurry Phase Iron Fischer-Tropsch Catalysts,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 115. Pham, H. N., Nowicki, L., Xu, J., Datye, A. K., Bukur, D. B., Bartholomew, C. H., “Attrition Resistance of Supports for Iron Fischer-Tropsch Catalysts”, Ind. Eng. Chem. Res., 42(17), 2003, pp. 4001-4008. Phillips, J., Dumestic, J. A., “Production of supported metal catalysts by the decomposition of metal carbonyls (review)”, Appl. Catal., 9(1), 1984, pp. 1-30. Phillips, J., Gatte, R. R., “Microcalorimetric study of oxygen adsorption on graphite-supported rhodium microcrystals”, Thermochim. Acta, 154(1), 1989, pp. 13-25. Pick, T. P., Dreysse, H., “On the gas adsorption effect upon electronic structure of ferromagnetic Co(0001)”, Surf. Sci., 549(2-3), 2003, pp. 389-394. Pijolat, M., Perrichon, V., Primet, M., Bussiere, P., “Hydrocondensation of carbon dioxide over an iron-alumina catalyst: A three-step model”, J. Molec. Catal., 17(2-3), 1982, pp. 367-380. Pilon, L., Viskanta, R., “Minimum superficial gas velocity for onset of foaming”, Chem. Eng. Proc., 43(2), 2004, pp. 149-160. Pinna, D., Tronconi, E., Lietti, L., Zennaro, R., Forzatti, P., “Wax composition transients during Fischer-Tropsch synthesis”, J. Catal., 214(2), 2003, pp. 251-260. Pohorecki, R., Moniuk, W., Zdrójkowski, A., “Hydrodynamics of a bubble column under elevated pressure”, Chem. Eng. Sci., 54, 1999, pp. 5187-5193. Ponec, V., “Factors determining the selectivity of multimetallic catalysts”, Polyhedron, 7(22-23), 1988, pp. 2383-2386. Poppa, H., “Model studies in catalysis with uhv-deposited metal particles and clusters”, Vacuum, 34(12), 1984, pp. 1081-1095. Potoczna-Petru, D., Krajczyk, L., “Spreading of Cobalt Phase and Silicate Formation in Co/SiO2 Model Catalyst”, Catal. Lett., 87(1-2), 2003, pp. 51-56. Powell, J. B., Jeng, C.-Y., Langer, S. H., “Catalytic investigations with the stopped-flow gas chromatographic reactor”, Chem. Eng. Sci., 42(7), 1987, pp. 1797-1803. Prins, R., Somorjai, G. A., “Contributions of gas chromatography to the development of heterogeneous catalysis”, J. Chromat. A, 406, 1987, pp. 151-155. Prior, K. A., Schwaha, K., Lambert, R. M., “Surface chemistry of the non-basal planes of cobalt: The structure, stability, and reactivity of Co(1012)-CO”, Surf. Sci., 77(2), 1978, pp. 193-208. Pujado, P. R., Andersen, J. M., Greer, D. W., “Enhanced GTL Economics with the Integrated Production of Olefins from Methanol,” in “AICHE – Second Topical Conference on Natural Gas Utilization – Conference Proceedings, March 10-14, 2002”, p. 457. Puskas, I., Hurlbut, R. S., “Comments about the causes of deviations from the Anderson-Schulz-Flory distribution of the Fischer-Tropsch reaction products”, Catal. Today, 84(1-2), 2003, pp. 99-109. Puskas, I., Meyers, B. L., Hall, J. B., “Activity decline and diffusional changes in a magnesium-promoted cobalt-silica catalyst”, Catal. Today, 21(1), 1994, pp. 243-251. Qi, H., Li, D., Yang, C., Ma, Y., Li, W., Sun, Y., Zhong, B., “Nickel and manganese co-modified K/MoS2 catalyst: high performance for higher alcohols synthesis from CO hydrogenation”, Catal. Comm., 4(7), 2003, pp. 339-342. Qiuyun, Z., Jianxue, G., Xin, L., Xintang, Z., Haiyan, S., “Development of a New Type of Low Temperature Sulfur - tolerant Shift Catalyst QCS – 06”, Chem. Ind. Eng. Prog., 22(1), 2003, pp. 56-59. Queimada, A. J., Silva, F. A. E., Caco, A. I., Marrucho, I. M., Coutinho, J. A. P., “Measurement and modeling of surface tensions of asymmetric systems: heptane, eicosane, docosane, tetracosane and their mixtures”, Fluid Phase Eq., 214(2), 2003, pp. 211-221. Rabiger, N., Vogelpohl, A., “Calculation of bubble size in the bubble and jet regimes for stagnant and flowing Newtonian liquids”, German J. Chem. Eng., 6, 1983, pp. 172-182. Rados, N., Al-Dahhan, M. H., Dudukovic, M. P., “Modeling of the Fischer–Tropsch synthesis in slurry bubble column reactors”, Catal. Today, 79-80, 2003, pp. 211-218. Ramanathan, R., Blakely, J. M., “Estimating the density of carbon atoms on a Ni catalyst surface in equilibrium with a carbonaceous gas”, Appl. Surf. Sci., 29(4), 1987, pp. 427-432. Ramirez-Cuesta, A. J., Mitchell, P. C. H., Parker, S. F., Barrett, P. A., “Probing the internal structure of a cobalt aluminophosphate catalyst. An inelastic neutron scattering study of sorbed dihydrogen molecules behaving as one- and two-dimensional rotors”, Chem. Commun., 2000, pp. 1257-1258. Rampure, M. R., Buwa, V. V., Ranade, V. V., “Modelling of Gas-Liquid/Gas-Liquid-Solid Flows in Bubble Columns: Experiments and CFD Simulations”, Canadian J. Chem. Eng., 81(3), 2003, pp. 692-706. Ranade, V. V., Utilkar, R. P., “Dynamics of gas-liquid flows in bubble column reactors”, Chem. Eng. Sci., 54, 1999, pp. 5237-5243. Rao, K. M., Scarano, D., Spoto, G., Zecchina, A., “CO adsorption on cobalt particles supported on MgO: An IR investigation”, Surf. Sci., 204(3), 1988, pp. 319-330. Rao, V. U. S., Gormley, R. J., Shamsi, A., Petrick, T. R., Stencel, J. M., Schehl, R. R., Chi, R. D. H., Obermyer, R. T., “Promotion and characterization of zeolitic catalysts used in the synthesis of hydrocarbons from syngas”, J. Molec. Catal., 29(2), 1985, pp. 271-283. Ratan, S., “Syngas Challenges and Solutions for Futuristic Fuels,” in “AICHE – Second Topical Conference on Natural Gas Utilization – Conference Proceedings, March 10-14, 2002”, p. 442. Ravinath, M., Kasat, G. R., Pandit, A. B., “Mixing Time In a Short Bubble Column”, Canadian J. Chem. Eng., 81(2), 2003, pp. 185-195. Razzaghi, A., Hindermann, J.-P., Kiennemanna, A., “Synthesis of C1 to C5 alcohols by CO+H2 reaction on some modified iron-catalysts”, Appl. Catal., 13(1), 1984, pp. 193-210. Read, C. J., Weber, R. S., Thijssen, J. H. J., Little, A. D., “Technical and Economic Issues in Syngas Conversion is Gas-to-Liquids Technologies,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 15. Reed, P. D., Comrie, C. M., Lambert, R. M., “Chemisorption, surface structural chemistry, and electron impact properties of carbon monoxide on Ru(101)”, Surf. Sci., 59(1), 1976, pp. 33-45. Reif, M., Dittmeyer, R., “Porous, catalytically active ceramic membranes for gas-liquid reactions: a comparison between catalytic diffuser and forced through flow concept”, Catal. Today, 82(1-4), 2003, pp. 3-14. Ren, F., Li, H., Wang, D., Wang, J., Pan, W., Li, J., “Methanol synthesis from syngas in a slurry reactor”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 921. Resch, C., Zhukov, V., Lugstein, A., Berger, H. F., Winkler, A., Rendulic, K. D., “Dynamics of hydrogen adsorption on promoter-and inhibitor-modified nickel surfaces”, Chem. Phys., 177(2), 1993, pp. 421-431. Reucroft, P. J., Parekh, H., Ganesan, P., Russell, S. N., Davis, B. H., “Support effects in dispersed metal catalysts”, Appl. Catal., 3(1), 1982, pp. 65-78. Richardson, J. T., Cullinane, M. B., Frank, A. S., “Characterization and deactivation of NiO-ThO2 catalysts”, Appl. Catal., 48(1), 1989, pp. 159-176. Rigby, G. R., Van Blockland G. P., Park, W. H., Capes, C. E., “Properties of bubbles in three-phase fluidized beds as measured by electroresistivity probe”, Chem. Eng. Sci., 25, 1970, pp. 1729-1741. Rigopoulos, S., Jones, A., “A hybrid CFD-reaction engineering framework for multiphase reactor modelling: basic concept and application to bubble column reactors”, Chem. Eng. Sci., 58(14), 2003, pp. 3077-3089. Rijks , J. A., Drozd, J., Novák, J., “Versatile all-glass splitless sample-introduction system for trace analysis by capillary gas chromatography”, J. Chromatography, 186, 1979, pp. 167-181. Roberts, C. B., Elbashir, N. O., “An overview to 'Advances in C1 chemistry in the year 2002'”, Fuel Proc. Tech., 83(1-3), 2003, pp. 1-9. Roberts, G. W., Dodge, E. L., Thies, M. C., Biales, J. M., Kilpatrick, P. K., “Separation of Fischer-Tropsch Wax from Catalyst using Near-Critical Extraction,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 65. Roberts, M. W., “Chemisorption and reactions at metal surfaces”, Surf. Sci., 299-300, 1994, pp. 769-784. Robinson, E. T., “Oxygen transport membranes for ultra-clean fuel production”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 347. Rodriguez-Ramos, I., Guerrero-Ruiz, A., Fierro, J. L. G., “Effect of oxide promoters on the surface characteristics of carbon-supported Co and Ru catalysts”, Appl. Surf. Sci., 40(3), 1989, pp. 239-247. Rodríguez-Reinoso, F., Rodríguez-Ramos, I., Guerrero-Ruiz, A., López-González, J. D., “Hydrogenation of CO on carbon-supported iron catalysts prepared from iron penta-carbonyl”, Appl. Catal., 21(2), 1986, pp. 251-261. Rogers, D. V., Tijm, P. J. A., “Upgrading and Characterization of Rentech,” in “AICHE – Second Topical Conference on Natural Gas Utilization – Conference Proceedings, March 10-14, 2002”, p. 428. Rohr, F., Blekkan, E. A., Holmen, A., “SSITKA Study of Fischer-Tropsch Synthesis over Supported Catalysts,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 73. Rojas, D., Bussière, P., Dalmon, J. A., Choplin, A., Basset, J. M., Olivier, D., “Thermal decomposition of Fe3(CO)12 adsorbed on silica: A study by gas-phase analysis, infrared spectroscopy, magnetization measurements, ferromagnetic resonance and Mössbauer spectroscopy”, Surf. Sci., 156(1), 1985, pp. 516-529. Rolo, L. I., Caço, A. I., Queimada, A. J., Marrucho, I. M., Coutinho, J. A. P., “Surface Tension of Heptane, Decane, Hexadecane, Eicosane, and Some of Their Binary Mixtures”, J. Chem. Eng. Data, 47(6), 2002, pp. 1442-1445. Rong, C., Satoko, C., “Adsorption of N2, CO and NO on Fe(111) surface model calculation by DV-X method”, Surf. Sci., 223(1-2), 1989, pp. 101-118. Ronney, J. J., “The molecular basis of heterogeneous catalysis”, J. Molec. Catal., 31(2), 1985, pp. 147-159. Rosei, R., Modesti, S., Sette, F., Quaresima, C., Savoia, A., Perfetti, P., “Photoemission spectroscopy investigation of the electronic structure of carbidic and graphitic carbon on Ni (111)”, Solid State Comm., 46(12), 1983, pp. 871-874. Rosso, I., Galletti, C., Bizzi, M., Saracco, G., Specchia, V., “Zinc Oxide Sorbents for the Removal of Hydrogen Sulfide from Syngas”, Ind. Eng. Chem. Res., 42(8), 2003, pp. 1688-1697. Roth, M., “Krichevskii parameters of heavy n-alkanes in carbon dioxide: comparison of the results from solubility measurements and from supercritical fluid chromatography”, Fluid Phase Equil., 212(1-2), 2003, pp. 1-9. Rouessac, V., Ferreira, P., Durand, J., “Preparation of silica membranes inside macroporous alumina tubes by PECVD for hydrogen selectivity, Sep. Purif. Tech., 32(1-3), 2003, pp. 37-43. Rovero, G., Sicardi, S., Baldi, G., Osella, M., Conti, R., “Hydrodynamics of the gas phase in stirred gas-liquid contactors”, Chem. Eng. J., 36(3), 1987, pp. 161-167. Rozovskii, A. Ya., “Mechanism and Kinetics of Reactions of C1 Molecules on Cu-Based Catalysts”, Kinet. Catal., 44(3), 2003, p. 260. Rubin, B. M., Solomon, B. D., “Economic and fiscal impact analysis of energy development projects: Coal liquefaction in the Illinois Basin”, Socio-Econ. Planning Sci., 17(1), 1983, pp. 11-20. Ruckenstein, E., Halachev, T., “Interactions between coadsorbed species on the Rh(111) surface as a function of the separation distance between them”, Surf. Sci., 122(3), 1982, pp. 422-432. Ruzicka, M. C., Draho, J., Mena, P. C., Teixeira, J. A., “Effect of viscosity on homogeneous-heterogeneous flow regime transition in bubble columns”, Chem. Eng. J., 96(1-3), 2003, pp. 15-22. Ryan III, T. W., “Emissions Performance of Fischer Tropsch Diesel Fuel”, in “Proceedings of DEER (Diesel Engine Emissions Reduction) 99 Workshop”, Maine Maritime Academy, Castine, ME, July 5-9, 1999. Ryan III, T. W., Gray, W. A., “Fischer-Tropsch Liquids and Homogenous Charge Compression Ignition”, in “Diesel Engine Emission Reduction (DEER) Workshop 1998”, Maine Maritime Academy, Castine, ME, July 6-9, 1998. Sachtler, W. M. H., “Selectivity and rate of activity decline of bimetallic catalysts”, J. Molec. Catal., 25(1-3), 1984, pp. 1-12. Sakisaka, Y., Akimoto, K., Nishijima, M., Onchi, M., “Electron Energy-Loss Spectra of Clean and Gas-Covered Ni(100) Surfaces”, Solid State Comm., 29, 1979, pp. 121-124. Sankaranarayanan, K., Kevrekidis, I. G., Sundaresan, S., Lu, J., Tryggvason, G., “A comparative study of lattice Boltzmann and front-tracking finite-difference methods for bubble simulations”, Internat. J. Multiphase Flow, 29(1), 2003, pp. 109-116. Sano, T., Yanagisawa, H., Saito, K., Okabe, K., Okado, H., Takaya, H., Bando, K., “Hydrogenation of carbon monoxide to form light olefins over zeolite-based iron catalysts”, Appl. Catal., 19(2), 1985, pp. 247-258. Sanyal, R. M., Ghorai, D. K., Dutta, D. R., Adhya, S. K., Sen, B., Viswanathan, B., “Characterization of rhodium catalysts supported on various inorganic oxides for carbon monoxide hydrogenation”, Appl. Catal., 74, 1991, pp. 153-161. Sargent, G. A., Chao, J., Freeman, G. B., “Thermal desorption of CO, O2 and CH4 molecules from Ni(111) single crystals”, Appl. Surf. Sci., 15(1-4), 1983, pp. 255-269. Sarnobat, S. U., Rajput, S., Bruns, D. D., DePaoli, D. W., Daw, C. S., Nguyen, K., “The impact of external electrostatic fields on gas-liquid bubbling dynamics”, Chem. Eng. Sci., 59(1), 2004, pp. 247-258. Sasaki, T., Aruga, T., Iwasawa, Y., “HREELS study on CO adsorbed on clean, nitrided and oxidized Fe/Ru(001) surfaces”, Surf. Sci., 291(3), 1993, pp. 429-438. Sasaki, T., Aruga, T., Kuroda, H., Iwasawa, Y., “Coadsorption of NH3 and CO on Ru(001): The ordering in mixed layers and the effect of intermolecular interactions on NH3 dissociation”, Surf. Sci., 224(1-3), 1989, pp. L969-L978. Sastri, M. V. C., Balaji Gupta, R.,Viswanathan, B., “Interaction of hydrogen and carbon monoxide on cobalt catalysts, Part II”, J. Catal., 32, 1972, pp. 325-332. Sastri, M. V. C., Balaji Gupta, R.,Viswanathan, B., “Mechanism of the Fischer Tropsch synthesis on cobalt catalysts”, J. Indian Chem. Soc., 51, 1974, pp. 140-144. Schaber, K., Korber, J.,. Ofenloch, O., Ehrig, R., Deuflhard, P., “Aerosol formation in gas-liquid contact devices-nucleation, growth and particle dynamics”, Chem. Eng. Sci., 57(2), 2000, pp. 4345-4356. Schaberg, P. W., Myburgh, I. S., Botha, J. J., Dancuart, L. P., Starr, M. E., “Diesel Exhaust Emissions Using Sasol Slurry Phase Distillate Process Fuels”, SAE Paper 972898, presented at the International Fall Fuels and Lubricants Meeting and Exposition, Tulsa, Oklahoma, October 13-16, 1997. Schennach, R., Krenn, G., Klotzer, B.,. Rendulic, K. D., “Adsorption of hydrogen and carbon monoxide on Rh(111)/V surface alloys”, Surf. Sci.,540(2-3), 2003, pp. 237-245. Scheuch, V., Voigtländer, B., Bonzel, H. P., “Nucleation and growth of CoSi2 on Si(100) studied by scanning tunneling microscopy”, Surf. Sci., 372,1997, pp. 71-82. Scheuch, V., Voigtländer, B., Bonzel, H. P., “Surfactant-mediated growth of CoSi2 on Si(100)”, Surf. Sci. Lett., 381, 1997, pp. L546-L550. Schick, M., Lauterbach, J., Weinberg, W. H., “The coadsorption of hydrogen and potassium on Ir(111)", Surf. Sci., 360, 1996, pp. 255-260. Schmal, M., Reinhardt, A., Porto, L. M., Losch, W., “Deactivated iron catalyst in the Fischer-Tropsch synthesis”, Catal. Today, 5(4), 1989, pp. 411-422. Schmauke, T., Menzel, M., Roduner, E., “Magnetic properties and oxidation state of iron in bimetallic Pt-Fe/KL zeolite catalysts”, J. Molce. Catal. A, 194(1-2), 2003, pp. 211-225. Schubert, P. F., Freerks, R., Tomlinson, H. L., Russell, B., “Fischer-Tropsch Diesel Fuel Preparation and Testing”, ACS Div. Fuel Chem. Prepr., 45(3), 2000, pp. 592-597. Schubert, P. F., LeViness, S. C., Arcuri, K. B., Russell, B. J., “Historical Development of Cobalt-slurry Fischer-Tropsch Reactor Systems,” in “AICHE – Second Topical Conference on Natural Gas Utilization – Conference Proceedings, March 10-14, 2002”, p. 449. Schulz, H., “Spatial Constraints and Frustrated Reactions,” in “AICHE – Second Topical Conference on Natural Gas Utilization – Conference Proceedings, March 10-14, 2002”, p. 389. Schulz, H., “Spatial constraints and frustrated reactions in Fischer-Tropsch synthesis”, Catal. Today, 84(1-2), 2003, pp. 67-70. Schulz, H., “Fischer-Tropsch principles of CO-hydrogenation on iron catalysts”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 557. Schulz, H., “Fischer-Tropsch principles of CO-hydrogenation on cobalt catalysts”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 782. Schwarz, J. A., “Adsorption-desorption kinetics of H2 from clean and sulfur covered Ru(001)”, Surf. Sci., 87(2), 1979, pp. 525-538. Scott, K. F., Phillips, C. S. G., “Gas chromatographic studies of catalysis on Ni-SiO2”, J. Chromatogr. A, 112, 1975, pp. 61-70. Sea, B., Lee , K.-H., “Methanol synthesis from carbon dioxide and hydrogen using a ceramic membrane reactor”, React. Kinet. Catal. Lett., 80(1), 2003, p. 33. Seeger, A., Affeld, K., Goubergrits, L., Kertzscher, U., Wellnhofer, E., “X-ray-based assessment of the three-dimensional velocity of the liquid phase in a bubble column”, Experiments in Fluids, 31(2), 2001, pp. 193-201. Seeger, A., Kertzscher, U., Affeld, K., Wellnhofer, E., “Measurement of the local velocity of the solid phase and the local solid hold-up in a three-phase flow by X-ray based particle tracking velocimetry (XPTV)”, Chem. Eng. Sci., 58(9), 2003, pp. 1721-1729. Seip, U., Bassignana, I. C., Küppers, J., Ertl, G., “A TDS and HREELS study of CO adsorbed on a potassium promoted Fe(111) surface”, Surf. Sci., 160(2), 1985, pp. 400-418. Seip, U., Tsai, M.-C., Küppers, J., Ertl, G., “Interaction of acetylene and ethylene with an Fe(111) surface”, Surf. Sci., 147(1), 1984, pp. 65-88. Semenov, E. V., Karamzin, A. V., “Separation of Concentrated Solid–Liquid Systems”, Theor. Found. Chem. Eng., 37(3), 2003, p. 237. Senden, M. M. G., Punt, A. D., “Status and Prospects of Gas-to-Liquids Process,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 10. Sergienko, S. A., Chukin, G. D., “Mechanism of hydrocracking n-paraffins on nickel silicate”, Khim. Tekh. Top. Masel, 20(12), 1984, pp. 22-23. Shah, V., Li, T., Baumert, K. L., Cheng, H., Sholl, D. S., “A comparative study of CO chemisorption on flat and stepped Ni surfaces using density functional theory”, Surf. Sci., 537(1-3), 2003, pp. 217-227. Shah, Y. T., Kulkarni, A. A., Wieland, J. H., Carr, N. L., “Gas holdup in two- and three-phase downflow bubble columns”, Chem. Eng. J., 26(2), 1983, pp. 95-104. Shaikh, A. S., Al-Dahhan, M., “Prediction of Overall Gas Holdup in Bubble Column,” in “AICHE – Second Topical Conference on Natural Gas Utilization – Conference Proceedings, March 10-14, 2002”, p. 400. Shaikh, A., Al-Dahhan, M., “Development of an artificial neural network correlation for prediction of overall gas holdup in bubble column reactors”, Chem. Eng. Proc., 42(8-9), 2003, pp. 599-610. Shakun, A. N., Il`icheva, L. F., Nikitina, N. L., Nefedov, B. K., Konoval`chikov, L. D., Alekseeva, T. V., “Selectivity of zeolite catalysts of hydrocracking of paraffin hydrocarbons”, Zh. Prikl. Khim., 61(4), 1988, pp. 815-818. Shanabarger, M. R., “The isothermal kinetics of hydrogen adsorption onto iron films observed with the chemisorption-induced resistance change”, Surf. Sci., 150(2), 1985, pp. 451-479. Shao-Horn, Y., Hackney, S. A., Kahaian, A. J., Thackeray, M. M., “Structural Stability of LiCoO2 at 400°C”, J. Solid State Chem., 168(1), 2002, pp. 60-68. Shawaqfeh, A. T., “Gas holdup and liquid axial dispersion under slug flow conditions in gas-liquid bubble column”, Chem. Eng. Proc., 42(10), 2003, pp. 767-775. Sheffer, G. R., King, T. S., “Effect of preparation parameters on the catalytic nature of potassium promoted Cu-Co-Cr higher alcohol catalysts”, Appl. Catal., 44, 1988, pp. 153-164. Shen, G.-C., Liu, A.-M., Shido, T., Ichikawa, M., “CO hydrogenation towards higher alcohols catalysed on SiO2-grafted and zeolite-entrapped Ru, Co and RuCo bimetallic clusters: their EXAFS and FTIR characterization and catalytic performances”, Top. Catal., 2, 1995, pp. 141-154. Shen, J., Winslow, J., Schmetz, E., Tischer, R., “DOE Indirect Liquefaction Program – An Overview,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 18. Shi, B., Davis, B. H., “Isotropic Tracer Study of the Mechanism for Fischer-Tropsch Synthesis,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 106. Shi, H., Geng, P., Jacobi, K., “Hydrogen chemisorption on cesium-predosed Ru(001) surfaces”, Surf. Sci., 315(1-2), 1994, pp. 1-8. Shincho, E., Egawa, C., Naito, S., Tamaru, K., “The behaviour of carbon species produced by CO disproportionation on Ru(1,1,10) and Ru(001) surfaces”, Surf. Sci., 155(1), 1985, pp. 153-164. Shoukri, M., Hassan, I., Gerges, I., “Two-Phase Bubbly Flow Structure in Large-Diameter Vertical Pipes”, Canadian J. Chem. Eng., 81(2), 2003, pp. 205-211. Shul, Y. G., Sugiura, T., Tatsumi, T., Tominaga, H., “Durability of zeolite supported Ru-Pt bimetallic catalysts for isoalkane synthesis from synthesis gas”, Appl. Catal., 24(1-2), 1986, pp. 131-143. Shustorovich, E., “Chemisorption phenomena: Analytic modeling based on perturbation theory and bond-order conservation”, Surf. Sci. Rep., 6(1), 1986, pp. 1-63. Simard, F., Adnot, A., Kaliaguine, S., “Investigation including ESCA analysis of Fe-Pd/ZSM-5 deoxygenation catalysts”, J. Molec. Catal., 50(1), 1989, pp. 81-95. Sinharoy, S., Smith, M. A., Levenson, L. L., “Thermal decomposition of nickel carbide thin films”, Surf. Sci., 72(4), 1978, pp. 710-718. Siri, G. J., Guerrero-Ruiz, A., Rodriguez-Ramos, I., Terreros, P., Fierro, J. L. G., “Hydrocarbons from synthesis gas: selectivity changes induced by the zeolite matrix on the metallic function in Rh/Y catalysts”, Appl. Catal. A, 107(1), 1993, pp. 59-71. Sirijaruphan, A., Horvath, A., Goodwin Jr., J. G., Oukaci, R., “Cobalt Aluminate Formation in Alumina-Supported Cobalt Catalysts: Effects of Cobalt Reduction State and Water Vapor”, Catal. Lett., 91(1-2), 2003, pp. 89-94. Sirimanothan, N., Hamdeh, H. H., Zhang, Y., Davis, B. H., “Fischer-Tropsch Synthesis: Changes in Phase and Activity During Use”, Catal. Lett., 82(3/4), 2002, pp. 181-191. Smirnov, M. Yu., Cholach, A. R., Gorodetskii, V. V., Gall, N. R., Tontegode, A. Ya., Rut'kov, E. V., “Hydrogenation of the atomic carbon deposited on the Pt(111) surface studied by low electron energy loss spectroscopy and thermal desorption mass spectrometry”, Surf. Coatings Tech., 47(1-3), 1991, pp. 224-232. Smith, G. P., “Gas-phase first bond dissociation energies in transition-metal carbonyls”, Polyhedron, 7(16-17), 1988, pp. 1605-1608. Smolenskii, E. A., Ryzhov, A. N., Lapidus, A. L., Zefirov, N. S., “Simulation of Melting Temperatures of Normal Alkanes”, Doklady Chem., 387(1-3), 2002, p. 297. Smutek, M., “On the mechanism of the chain growth in Fischer-Tropsch synthesis”, J. Molec. Catal., 24(2), 1984, pp. 257-260. Sneeden, R. P. A., “Homogeneous and heterogeneous catalytic reactions of CO2”, J. Molec. Catal., 17(2-3), 1982, pp. 349-357. Snel, R., “Catalytic hydrogenation of carbon monoxide to alkenes over partially degraded iron complexes - I. Unsupported Iron Catalysts”, Appl. Catal., 37, 1988, pp. 35-44. Snel, R., “The nature of hydrocarbon synthesis by means of hydrogenation of carbon monoxide on iron-based catalysts - Part I. hydrogenation-strength distribution of surface sites”, J. Molec. Catal., 53(1), 1989, pp. 129-141. Snel, R., “The nature of hydrocarbon synthesis by means of hydrogenation of carbon monoxide on iron-based catalysts - Part II. dynamic adsorption/desorption equilibria”, J. Molec. Catal., 53(1), 1989, pp. 143-154. Snel, R., “Factors affecting the extent of branching in Fischer-Tropsch synthesis products with iron-based catalysts”, J. Molec. Catal., 50(1), 1989, pp. 103-114. Snel, R., Espinoza, R. L., “Secondary reactions of primary products of the Fischer-Tropsch synthesis - Part 1. The role of ethene”, J. Molec. Catal., 43(2), 1987, pp. 237-247. Snel, R., Espinoza, R. L., “Secondary reactions of primary products of the Fischer-Tropsch synthesis - Part II. the role of propene”, J. Molec. Catal., 54(1), 1989, pp. 103-117. Snel, R., Espinoza, R. L., “Secondary reactions of primary products of the Fischer-Tropsch synthesis - Part III. the role of butene”, J. Molec. Catal., 54(1), 1989, pp. 119-130. Snel, R., Espinoza, R. L., “Fischer-Tropsch synthesis on iron-based catalysts: the effect of co-feeding small oxygenates”, J. Molec. Catal., 54(2), 1989, pp. 213-223. Snel, R., Zwart, J., “Estimation of the fraction of higher hydrocarbons in a fischer-tropsch synthesis product using schulz-flory statistics”, Appl. Catal., 22(2), 1986, pp. 337-343. Sohrabi, M., Irandoukht, A., “Synthesis and activity measurement of some water-gas shift reaction catalysts”, React. Kinet. Catal. Lett., 80(2), 2003, p. 303. Sommen, A. P. B., Stoop, F., Van Der Wiele, K., “Synthesis gas conversion on carbon supported iron catalysts and the nature of deactivation”, Appl. Catal., 14, 1985, pp. 277-288. Sommerfeld, M., Bourloutski, E., “Modellbildung und numerische Berechnung von Gas/Flussig-Systemen”, Chem.-Ing.-Tech., 74(5), 2002, p. 657. Song, H., Yang, P., Hua, N., Du, Y., “Preparation and Performance of Supported Cr-Free Ultrafine Iron-Based Catalysts for Water-Gas Shift Reaction”, Chinese J. Catal., 24(5), 2003, pp. 374-378. Song, H.-S., Ramkrishna, D., Trinh, S.,. Espinoza, R. L., Wright, H., “Multiplicity and sensitivity analysis of Fischer-Tropsch bubble column slurry reactors: plug-flow gas and well-mixed slurry model”, Chem. Eng. Sci., 58(12), 2002, pp. 2759-2766. Song, H.-S., Ramkrishna, D., Trinh, S., Wright, H., “Diagnostic Nonlinear Analysis of Fischer-Tropsch Synthesis in Stirred-Tank Slurry Reactors”, AIChE J., 49(7), 2003, pp. 1803-1820. Soong, Y., Blackwell, A. G., Harke, F. W., Ladner, E. P., Zarochak, M. F., “Ultrasonic Characterization of Slurries in Bubble Column Reactors”, ACS Div. Fuel Chem. Prepr., 43(3), 1998, pp. 645-648. Sosna, M. Kh., Evenchik, N. S., Sirotin, A. V., “Water-Shift Reaction in the Intertubular Space of a Reactor for Steam Reforming of Natural Gas”, Theor. Found. Chem. Eng., 37(4), 2003, p. 378. Spencer, M. J. S., Hung, A., Snook, I. K., Yarovsky, I., “Sulfur adsorption on Fe(110): a DFT study”, Surf. Sci., 540(2-3), 2003, pp. 420-430. Stefoglo, E. F., Drobyshevich, V. I., Semikolenov, V. A., Kuchin, I. V., Zhukova, O. P., “Elevation of performance of gas-liquid reactors on solid catalyst”, Chem. Eng. J., 91(2-3), 2003, pp. 199-204. Stelmachowski, M., Nowicki, L., “Fuel from the synthesis gas-the role of process engineering”, App. Energy, 74(1-2), 2003, pp. 85-93. Stencel, J. M., Diehl, J. R., Miller, S. R., Anderson, R. A., Zarochak, M. F., Pennline. H. W., “Iron/manganese oxide catalysts: surface specification and slurry -phase Fischer-Tropsch activity”, Appl. Catal., 33(1), 1987, pp. 129-143. Stevens, R. C., Ricci, J. S., Koetzle, T. F., “Transition metal methylene complexes - LXVII. Neutron diffraction study of μ-propylidene(2)-bis[carbonyl(η5-pentamethylcyclopentadienyl)rhodium-(Rh---Rh)], [μ-C(CH3)2][{η5-C5(CH3)5}Rh(CO)]2, at 20 K”, J. Organomet. Chem., 412(3), 1991, pp. 425-434. Steynberg, A. P., Nel, H. G., “Clean coal conversion options using Fischer-Tropsch technology”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 459. Stiegel, G. J., Ratafia-Brown, J., Ramezan, M., “Overview of advanced gas separation technologies for gasification-based energy systems”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 235. Stitt, E. H., “Alternative multiphase reactors for fine chemicals A world beyond stirred tanks ?”, Chem. Eng. J., 90(1-2), 2002, pp. 47-60. Stone, F. S.; Waller, D., “Cu-ZnO and Cu-ZnO/Al2O3 Catalysts for the Reverse Water-Gas Shift Reaction. The Effect of the Cu/Zn Ratio on Precursor Characteristics and on the Activity of the Derived Catalysts”, Top. Catal., 22(3-4), 2003, pp. 305-318. Stoop, F., van der Wiele, K., “Formation of olefins from synthesis gas over silica-supported RuFe bimetallic catalysts”, Appl. Catal., 23(1), 1986, pp. 35-47. Streich, T., Rauscher, M., “Use of Modified ZSM-5 Zeolites for Removal of Ammonia from Water-saturated Gas Streams”, Chem.-Ing.-Tech., 75(7), 2003, pp. 867-871. Su, Y., Liu, Y., Guo, Y., Liu, Z., “Effect of Alumina on Fe-Cu-Zn-K-Al Catalyst for Synthesis of Higher Alcohols”, Chinese J. Catal., 24(10), 2003, pp. 799-803. Sudsakorn, K., Goodwin, J. G., Adeyiga, A. A., “Effect of activation method on Fe FTS catalysts: investigation at the site level using SSITKA”, J. Catal., 213(2), 2003, pp. 204-210. Sugimoto, S., Nagai, S., Hatada, M., “Fischer-Tropsch reaction on iron catalysts prepared by electron beam implantation on Kapton film”, Appl. Surf. Sci., 35(3), 1989, pp. 388-398. Sugimoto, S., Nishii, M., Sugiura, T., “Radiation-induced chemical reactions of carbon monoxide and hydrogen mixture - I. Electron beam irradiation at atmospheric pressure”, Radiation Phys. Chem., 24(5-6), 1984, pp. 567-580. Sun, K.-P., Qiu, F.-Y., Xu, X.-L., “Catalytic conversion of carbon dioxide in chemical synthesis”, Modern Chem. Ind., 22(11), 2002, pp. 57-61. Sun, S., Fujimoto, K., Zhang, Y., Tsubaki, N., “A highly active and stable Fischer-Tropsch synthesis cobalt/silica catalyst with bimodal cobalt particle distribution”, Catal. Comm., 4(8), 2003, pp. 361-364. Sun, S. L., Fujimoto, K., Fan, L., “Preparation Method of Highly Active Co/SiO2 Catalyst for Slurry Phase Fischer-Tropsch Synthesis,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 76. Sun, X., “Promoted zinc chromite catalyst for higher alcohol synthesis in a slurry reactor”, Ph. D. Thesis, North Carolina State University, 2001. Sun, X., Roberts, G. W., “Synthesis of higher alcohols in a slurry reactor with cesium-promoted zinc chromite catalyst in decahydronaphthalene”, App. Catal. A, 247(1), 2003, pp. 133-142. Sun, X., Smith, T. R., Kim, S., Ishii, M., Uhle, J., “Interfacial area of bubbly flow in a relatively large diameter pipe”, Exp. Thermal Fluid Sci., 27(1), 2002, pp. 97-109. Sun, Z., Bao, J., Fu, Y., Bian, G., “Effect of Reduction Temperature on Ultra-Fine K-Co-Mo Catalyst in Mixed Alcohol Synthesis”, Chinese J. Catal., 24(11), 2003, pp. 826-830. Supardan, M. D., Maezawa, A., Uchida, S., “Determination of Local Gas Hold-up and Volumetric Mass Transfer Co-efficient in a Bubble Column by Means of an Ultrasonic Method and Neural Network”, Chem. Eng. Proc., 26(10), 2003, pp. 1080-1083. Sushchikh, M., Lauterbach, J., Weinberg, W. H., “Chemisorption of CO on the Ir(111) Surface: Adsorption and Desorption Kinetics Measured with in situ Vibrational spectroscopy", J. Vac. Sci. Tech. A, 15(3), 1997, pp. 1630-1635. Sushchikh, M., Lauterbach, J., Weinberg, W. H., “Adsorption and desorption kinetics of CO on Ir(111): Bridging the pressure gap", Surf. Sci., 393, 1997, pp. 135-140. Sweet, J. R., Graham, W. A. G., “Reduction of coordinated carbon monoxide, formyl, and hydroxymethyl ligands: Models for fischer-tropsch and related reactions”, J. Organomet. Chem., 173(3), 1979, pp. C9-C12. Szilagyi, T., Praliaudb, H., Primet, M., Martin, G. A., “Morphological, electronic and catalytic properties of a silica-supported nickel-chromium solid”, Appl. Catal., 11(2), 1984, pp. 235-250. Szybist, J., Morris, D., Boehman, A. L., “Diesel fuel formulation effects on injection timing and emissions”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 428. Takahashi, N., Mori, T., Miyamoto, A., Hattori, T., Murakami, Y., “Design of Fischer-Tropsch catalysts by PSRA (Pulse Surface Reaction Rate Analysis)”, Appl. Catal., 22(1), 1986, pp. 137-146. Takahashi, N., Mori, T., Miyamoto, A., Hattori, T., Murakami, Y., “Design of Fischer-Tropsch catalysts by pulse surface reaction rate analysis. II. Selective Production of Liquid Fuel Fraction on Ruthenium/Alumina Catalyst Promoted by Rare Earth Oxides”, Appl. Catal., 38(1), 1988, pp. 61-69. Takahashi, N., Mori, T., Miyamoto, A., Hattori, T., Murakami, Y., “Design of Fischer-Tropsch catalysts by pulse surface reaction rate analysis. Part III. Optimum Amount of Vanadium Oxide Added to Ruthenium/Alumina Catalyst for Liquid Fuel Production”, Appl. Catal., 38(2), 1988, pp. 301-310. Takeuchi, K., Matsukaki, T., Arakawa, H., Sugi, Y., “Synthesis of ethanol from syngas over Co-Re-Sr/SiO2 Catalysts”, Appl. Catal., 18(2), 1985, pp. 325-334. Takeuchi, K., Matsuzaki, T., Hanaoka, T.-A., Arakawa, H., Sugi, Y., Wei, K., “Alcohol synthesis from syngas over cobalt catalysts prepared from Co2(CO)8”, J. Molec. Catal., 55(1), 1989, pp. 361-370. Tanaka, K.-I., Nakagawa, T., Yaegashi, I., Aomura, K., “Methylene species as pivotal precursors for hydrocarbon formation reactions on cobalt catalysts”, J. Molec. Catal., 28(1-3), 1985, pp. 239-246. Tang, Q., Wang, Y., Zhang, Q., Wan, H., “Preparation of metallic cobalt inside NaY zeolite with high catalytic activity in Fischer-Tropsch synthesis”, Catal. Comm., 4(5), 2003, pp. 253-258. Tang, Y.,Curtis, C. W., "The Activity and Selectivity of Slurry Phase Iron Based Catalysts," Energy Fuels, 8, 1994, p. 63. Tarca, L. A., Grandjean, B. P. A., Larachi, F., “Reinforcing the phenomenological consistency in artificial neural network modeling of multiphase reactors”, Chem. Eng. Proc. 42(8-9), 2003, pp. 653-662. Tatsumi, T., Muramatsu, A., Tominaga, H., “Influence of support and potassium on CO hydrogenation catalyzed by molybdenum”, Appl. Catal., 27(1), 1986, pp. 69-82. Tatsumi, T., Muramatsu, A., Tominaga, H., “Supported molybdenum catalysts for alcohol synthesis from CO-H2”, Appl. Catal., 34, 1987, pp. 77-88. Tatsumi, T., Shul, Y. G., Sugiura, T., Tominaga, H., “Selective synthesis of isoalkanes from synthesis gas over zeolite-supported Ru-Pt bimetallic catalysts”, Appl. Catal., 21(1), 1986, pp. 119-131. Te, M., Foley, H. C., “Intrinsic reactivities of manganese oxides for carbon monoxide hydrogenation catalysis”, Appl. Catal. A, 119(1), 1994, pp. 97-106. Terasaka, K., Tsuge, H., “Gas holdup for slug bubble flow of viscous liquids having a yield stress in bubble columns”, Chem. Eng. Sci., 58(2), 2003, pp. 513-517. Tesser, R., Di Serio, M., Santacesaria, E., “Influence of the vapor–liquid equilibria (VLE) on the kinetics in gas–liquid and gas–liquid–solid systems”, Catal. Today, 79-80, 2003, pp. 323-331. Thivolle-Cazat, J., “Alcohols formation through Rh/ThO2 catalyzed hydrogenation of carbon monoxide”, Appl. Catal., 24(1-2), 1986, pp. 211-218. Thivolle-Cazat, J., Primet, M., “Surface species involved during the hydrogenation of CO on a Rh/ThO2 catalyst”, Appl. Catal., 24(1-2), 1986, pp. 163-174. Thoenes, D., “Current problems in the modelling of chemical reactors”, Chem. Eng. Sci., 35(9), 1980, pp. 1840-1853. Thomas, S., Dawe, R. A., “Review of ways to transport natural gas energy from countries which do not need the gas for domestic use”, Energy, 28(14), 2003, pp. 1461-1477. Thompson, S. C., Mathews, J. F., “Characterization of hydro-cracking catalysts by acidity measurement”, Appl. Catal., 47(1), 1989, pp. 45-57. Thomson, R. T., Wolf, E. E., “Hydrocarbon synthesis over palladium/ZSM-5 bifunctional catalysts”, Appl. Catal., 41, 1988, pp. 65-80. Tian, L., Wu, B.-S., Yang, Y., Bai, L., Zhang, Z.-X., Xiang, H.-W., Li, Y.-W., Liu, Y., “A Preliminary Study on Performance of Inexpensive Iron-Based Catalysts for Fischer-Tropsch Synthesis”, J. Fuel Chem. Tech., 31(1), 2003, pp. 12-16. Tihay, F., Bedel, L., Pourroy, G., Roger, A. C., Kiennemann, A., “Fe-Co Based Metal/Spinel to Produce Light Olefins from Syngas,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 61. Ting, P. D., Joyce, P. C., Jog, P. K., Chapman, W. G., Thies, M. C., “Phase equilibrium modeling of mixtures of long-chain and short-chain alkanes using Peng-Robinson and SAFT”, Fluid Phase Eq., 206(1-2), 2003, pp. 267-286. Ting, P. D., Joyce, P. C., Jog, P. K., Chapman, W. G., Thies, M. C., “Corrigendum to \"Phase equilibrium modeling of mixtures of long-chain and short-chain alkanes using Peng-Robinson and SAFT\" [Fluid Phase Equilibria 206 (2003) 267-286]”, Fluid Phase Eq., 209(2), 2003, p. 309. Tiscione, P., Rovid, G., “Adsorption and decomposition of ethylene and acetylene on cobalt”, Surf. Sci., 154(2-3), 1985, pp. L255-L260. Tiusan, C., Hehn, M., Ounadjela, K., Henry, Y., Hommet, J., Mény, C., Van Den Berg, H., Baer, L., Kinder, R., “Artificial antiferromagnetic tunnel junction sensors based on Co/Ru/Co sandwiches”, J. Appl. Phys., 85, 1999, pp. 5276-5278. Tománek, D., Hauert, R., Oelhafen, P., Schlögl, R., Güntherodt, H.-J., “CO dissociation on Ni-Zr alloys studied by photoemission and electronic structure calculations”, Surf. Sci., 160(2), 1985, pp. L493-L500. Tong, J., Gao, W., Robinson, Jr., R. L., Gasem, K. A. M., “Solubilities of Nitrogen in Heavy Normal Paraffins from 323 to 423 K at Pressures to 18.0 Mpa”, J. Chem. Eng. Data, 44, 1999, pp. 784-787. Tortorelli, L. J., Flowers, P. A., Harward, B. L., Mamantov, G., Klatt, L. N., “Spectroscopic investigations of catalytic iridium carbonyl species in sodium chloroaluminate melts”, J. Organomet. Chem., 429(1), 1992, pp. 119-134. Tosti, S.,. Basile, A., Chiappetta, G., Rizzello, C., Violante, V., “Pd-Ag membrane reactors for water gas shift reaction”, Chem. Eng. J., 93(1), 2003, pp. 23-30. Tronconi, E., Lietti, L., Forzatti, P., Pasquon, I., “Higher Alcohol Synthesis over Alkali Metal-Promoted High-Temperature Methanol Catalysts”, Appl. Catal., 47(2), 1989, pp. 317-333. Tse, K. L., Martin, T., McFarlane, C. M., Nienow, A. W., “Small bubble formation via a coalescence dependent break-up mechanism”, Chem. Eng. Sci., 58(2), 2003, pp. 275-286. Tsubaki, N., Yoneyama, Y., Michiki, K., Fujimoto, K., “Three-component hybrid catalyst for direct synthesis of isoparaffin via modified Fischer-Tropsch synthesis”, Catal. Comm., 4(3), 2003, pp. 108-111. Tsuchiya, K., Ishida, T., Saito, T., “Reliability of Fiber-Optic Probe Measurement for Evaluating Bubble Rise Characteristics”, Kagaku Kogaku Ronbunshu, 29(3), 2003, pp. 333-338. Tsuchiya, K., Ishida, T., Saito, T., Kajishima, T., “Dynamics of Interfacial Mass Transfer in a Gas-Dispersed System”, Canadian J. Chem. Eng., 81(3), 2003, pp. 647-654. Tutu, N. K., “Pressure drop fluctuations and bubble slug transitions for steady upward gas-liquid flow in vertical tubes”, Internationa J. Multiphase Flow, 10, 1984, pp. 211-216. Udaya, V., Rao, S., Gormley, R. J., “Bifunctional catalysis in syngas conversions”, Catal., Today, 6(3), 1990, pp. 207-234. Urseanu, M. I., “Scaling up bubble column reactors”, Ph.D. thesis, U. Amsterdam, 2000. Urseanu, M. I., Guit, R. P. M., Stankiewicz, A., van Kranenburg, G., Lommen, J. H. G. M., “Influence of operating pressure on the gas hold-up in bubble columns for high viscous media”, Chem. Eng. Sci., 58(3-6), 2003, pp. 697-704. Utaka, T., Okanishi, T., Takeguchi, T., Kikuchi, R., Eguchi, K., “Water gas shift reaction of reformed fuel over supported Ru catalysts”, App. Catal. A., 245(2), 2003, pp. 343-351. Vaari, J., Vaara, T., Lahtinen, J., Hautojärvi, P., “Adsorption of CO on Mg-promoted Co(poly)”, Appl. Surf. Sci., 81(3), 1994, pp. 289-297. Vaishnava, P. P., José-Yacamán, M., Montano, P. A., “Iron chloride-graphite intercalated compounds: Structure and selectivity measurements under Fischer-Tropsch synthesis reaction conditions”, J. Phys. Chem. Solids, 47(2), 1986, pp. 187-192. Vaishnava, P. P., Montano, P. A., “In situ Mössbauer spectroscopic study of iron III chloride intercalated in graphite under reaction conditions”, J. Phys. Chem. Solids, 43(9), 1982, pp. 809-815. van Baten, J. M., “CFD: A design and scale-up tool for multiphase reactors”, Ph.D. thesis, U. Amsterdam, 2000. van Baten, J. M., Ellenberger, J., Krishna, R., “Scale-up strategy for bubble column slurry reactors using CFD simulations”, Catal. Today, 79-80, 2003, pp. 259-265. van Baten, J. M., Ellenberger, J., Krishna, R., “Hydrodynamics of internal air-lift reactors: experiments versus CFD simulations”, Chem. Eng. Proc., 42(10), 2003, pp. 733-742. van Baten, J. M., Krishna, R., “CFD Simulations of a Bubble Column Operating in the Homogeneous and Heterogeneous Flow Regimes”, Chem. Eng. Tech., 25(11), 2002, pp. 1081-1086. van Baten, J. M., Krishna, R., “Scale up studies on partitioned bubble column reactors with the aid of CFD simulations”, Catal. Today, 79-80, 2003, pp. 219-227. van Baten, J. M., Krishna, R., “Comparison of Hydrodynamics and Mass Transfer in Airlift and Bubble Column Reactors Using CFD”, Chem. Eng. Proc., 36(10), 2003, pp. 1074-1079. Van Berge, P. J., Barradas, S., Van de Loosdrecht, J., Van der Kraan, A. M., “The Oxidation of Cobalt Based Fischer-Tropsch Catlaysts as Studied by Mossbauer Emission Spectroscopy,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 84. Van Broekhoven, E. H., Ponec, V., “Surface chemistry of small particles”, Surf. Sci., 162(1-3), 1985, pp. 731-741. Van de Loosdrecht, J., Barradas, S., Caricato, E. A., van Berge, P. J., Visagie, J. L., “Support Modification of Cobalt Based Slurry Fischer-Tropsch Catalysts”, ACS Div. Fuel Chem. Prepr., 45(3), 2000, pp. 587-591. van de Loosdrecht, J., van Berge, P. J., Craje, M. W., van der Kraan, A. M., “The Application of Mossbauer Emission Spectroscopy to Industrial Cobalt Based Fischer-Tropsch Catalysts”, Hyperfine Interactions, 139-140(1-4), 2002, pp. 3-18. van den Berg, F. R., Craje, M. W. J., van der Kraan, A. M., Geus, J. W., “Reduction behaviour of Fe/ZrO2 and Fe/K/ZrO2 Fischer-Tropsch catalysts”, App. Catal. A, 242(2), 2003, pp. 403-416. van den Berg, F. R., Craje, M. W. J., van der Kraan, A. M., Geus, J. W., “Influence of H2/H2O pre-treatment and H2 pressure on the reduction behaviour of Fe/ZrO2 and Fe/K/ZrO2 Fischer-Tropsch catalysts”, App. Catal. A, 251(2), 2003, pp. 347-357. van den Berg, K. J., Ingemann, S., Nibbering, N. M. M., Gregor, I. K., “Insertion reactions of metal carbonyl anions with methyl formate in the gas phase as revealed by 13C- and D-labeling”, J. Am. Soc. Mass Spectr., 5(6), 1994, pp. 525-536. van den Bleek, C. M., Coppens, M.-O., Schouten, J. C., “Application of chaos analysis to multiphase reactors”, Chem. Eng. Sci., 57(22-23), 2002, pp. 4763-4778. van der Kraan, A. M., Boellaard, E., Crajé, M. W. J., “Characterization of catalysts by Mossbauer spectroscopy: An application to the study of Fischer-Tropsch, hydrotreating and super Claus catalysts”, Nuclear Instrum. & Methods Phys. Res. B, 76(1-4), 1993, pp. 6-12. van der Kraan, A. M., Nonnekens, R. C. H., Stoop, F., Niemantsverdriet, J. W., “Characterezation of FeRu/TiO2 and Fe/TiO2 catalysts after reduction and Fischer-Tropsch synthesis by Mossbauer spectroscopy”, Appl. Catal., 27(2), 1986, pp. 285-298. Vandu, C. O., Krishna, R., “Influence of scale on the volumetric mass transfer coefficients in bubble columns”, Chem. Eng. Proc., 43(4), 2004, pp. 575-579. Van Heek, K. H., “Progress of coal science in the 20th century”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 144. Van Hove, M. A., Koestner, R. J., Frost, J. C., Somorjai, G. A., “The structure of Rh(111)(2 × 2)-3CO from LEED intensities: Simultaneous bridge and near-top adsorption in a distorted compact hexagonal CO overlayer”, Surf. Sci., 129(2-3), 1983, pp. 482-506. Vanhove, D., Zhuyong, Z., Makambo, L., Blanchard, M., “Hydrocarbon selectivity in Fischer-Tropsch synthesis in relation to textural properties of supported cobalt catalysts”, Appl. Catal., 9(3), 1984, pp. 327-342. van Langeveld, A. D., van Delft, F. C. M. J. M., Ponec, V., “Reactivity of polycrystalline platinum and rhodium surfaces towards methane, ethene and carbon monoxide”, Surf. Sci., 135(1-3), 1983, pp. 93-109. Van Pruissen, O. P., Gijzeman, O. L. J., Geus, J. W., “Carburization of Cu(110)-Fe alloys by CO excited by electrons”, Appl. Surf. Sci., 31(3), 1988, pp. 375-382. van 't Blik, H. F. J., van Zon, J. B. A. D., Huizinga, T., Vis, J. C., Koningsberger, D. C., Prins, R., “An Extended X-ray Absorption Fine Structure Spectroscopy Study of a Highly Dispersed Rhodium/Aluminum Oxide Catalyst: The Influence of Carbon Monoxide Chemisorption on the Topology of Rhodium”, J. Phys. Chem., 87(13), 1983, pp. 2264-2267. van 't Blik, H. F. J., van Zon, J. B. A. D., Koningsberger, D. C., Prins, R., “EXAFS Determination of the Change in the Structure of Rhodium in Highly Dispersed Rhodium/g-Aluminum Oxide Catalysts after Carbon Monoxide and/or Hydrogen Adsorption at Different Temperatures”, J. Molec. Catal., 25, 1984, pp. 379-396. van Wachem, B. G. M., Almstedt, A. E., “Methods for multiphase computational fluid dynamics”, Chem. Eng. J., 96(1-3), 2003, pp. 81-98. van Wachem, B. G. M., Schouten, J. C., “Experimental Validation of 3-D Lagrangian VOF Model: Bubble Shape and Rise Velocity”, AIChE J., 48(12), 2002, pp. 2744-2991. Vasconcelos, J. M. T., Rodrigues, J. M. L., Orvalho, S. C. P., Alves, S. S., Mendes, R. L., Reis, A., “Effect of contaminants on mass transfer coefficients in bubble column and airlift contactors”, Chem. Eng. Sci., 58(8), 2003, pp. 1431-1440. Venäläinen, T., Iiskola, E., Pursiainen, J., Pakkanen, T. A., Pakkanen, T. T., “Studies on the synergetic effect of group VIII transition metal carbonyls on homogeneous catalysis of the water-gas shift reaction”, J. Molec. Catal., 34(3), 1986, pp. 293-304. Venugopal, A., Aluha, J., Mogano, D., Scurrell, M. S., “The gold–ruthenium–iron oxide catalytic system for the low temperature water–gas-shift reaction: The examination of gold–ruthenium interactions”, App. Catal. A, 245(1), 2003, pp. 149-158. Verma, A. K., Rai, S., “Studies on surface to bulk ionic mass transfer in bubble column”, Chem. Eng. J., 94(1), 2003, pp. 67-72. Vetrivel, R., Gopalakrishnan, R., Viswanathan, B., “Theoretical studies on the interaction of CO and hydrogen on Ni(100) surfaces”, J. Res. Inst. Catal., 31, 1982, pp. 39-52. Vial, C., Bendjaballah-Lalaoui, N., Poncin, S., Wild, G., Midoux, N., “Comparison, Combination and Validation of Measuring Techniques for Local Flow and Turbulence Analysis in Bubble Columns and Airlift Reactors”, Canadian J. Chem. Eng., 81(3), 2003, pp. 749-755. Villa, J., van Ommen, J. R., van den Bleek, C. M., “Early Detection of Foam Formation in Bubble Columns by Attractor Comparison”, AIChE J., 49(9), 2003, pp. 2442-2444. Villacieros, R. G., Hernan, L., Morales, J., Tirado, J. L., “Comments on the paper "iron/manganese oxide catalyst for Fischer-Tropsch synthesis. Part I: structural and textural changes by calcination, reduction and synthesis", G.C. Maiti, R. Malessa and M. Baerns, Applied Catalysis, 5 (1983) 151 – 170”, Appl. Catal., 9(1), 1984, pp. 133-135. Vinaya, M., Varma, Y. B. G., “Gas holdup-slip velocity relationship in multistage bubble column”, Bioproc. Eng., 15(2), 1996, pp. 105-108. Vink, T. J., der Kinderen, J. M., Gijzeman, O. L. J., Geus, J. W., “Reduction of oxidized Fe(100) by hydrogen”, Appl. Surf. Sci., 26(3), 1986, pp. 367-374. Vink, T. J., Gijzeman, O. L. J., Geus, J. W., “CO interaction with Fe(100): Effects of carbon and oxygen adlayers on co adsorption isotherms”, Surf. Sci., 150(1), 1985, pp. 14-23. Vink, T. J., Spronck, S. F. G. M., Gijzeman, O. L. J., Geus, J. W., “Gasification of the carbide layer on Fe(100) by oxygen”, Surf. Sci., 175(1), 1986, pp. 177-184. Vishwanathan, V., Narayanan, S., Lakshmi, T., Viswanathan, B., “The influence of preparation methods on strong metal support interaction in (SMSI) Rh/TiO2 system”, Indian J. Tech., 30, 1992, pp. 104-106. Vishwanathan, V., Narayanan, S., Viswanathan, B., “Role of zeolite supported metal systems in the conversion of CO (hydrogenation) to hydrocarbons”, J. Sci. Ind. Res., 46, 1987, pp. 433-439. Vishwanathan, V., Narayanan, S., Viswanathan, B., “Enhanced adsorption behaviour of hydrogen on CO and N2 preadsorbed Rh/TiO2 surfaces”, Indian J. Chem., 29A, 1990, pp. 841-842. Viswanathan, B., Balaji Gupta, R., “Adsorption studies in relation to Fischer Tropsch synthesis”, Hungarian J. Ind. Chem., 7, 1979, pp. 447-451. Viswanathan, B., Swaminathan, L., “Activation of carbon monoxide on transition metals”, Indian J. Tech., 22, 1984, pp. 178-184. Viswanathan, B., Vetrivel, R., “Mechanism of hydrogenation of carbon monoxide over ferrous metal catalysts Cluster calculation by EHMO method”, J. Molec. Catal., 37, 1986, pp. 157-163. Vites, J., Fehlner, T. P., Implications of the photoelectron spectrum of a methylene-bridged, dinuclear transition-metal complex”, J. Electron Spectr. Related Phenom., 24(2), 1981, pp. 215-219. von Wedel, W., Ledakowicza, S., Deckwer, W.-D., “Kinetics of methanol synthesis in the slurry phase”, Chem. Eng. Sci., 43(8), 1988, pp. 2169-2174. Voß, M., Borgmann, D., Wedler, G., “Characterization of Alumina, Silica, and Titania Supported Cobalt Catalysts”, J. Catal., 212(1), 2002, pp. 10-21. Wang, D.-Z., Cheng, X.-P., Huang, Z.-E., Wang, X.-Z., Peng, S.-Y., “Role of rare-earth oxides and thoria as promoters in precipitated iron-based catalysts for Fischer-Tropsch synthesis”, Appl. Catal., 77(1), 1991, pp. 109-122. Wang, S., Arimatsu, Y., Koumatsu, K., Furumoto, K., Yoshimoto, M., Fukunaga, K., Nakao, K., “Gas holdup, liquid circulating velocity and mass transfer properties in a mini-scale external loop airlift bubble column”, Chem. Eng. Sci., 58(15), 2003, pp. 3353-3360. Wang, T., Wang, J., Ren, F., Jin, Y., “Application of Doppler ultrasound velocimetry in multiphase flow”, Chem. Eng. J., 92(1-3), 2003, pp. 111-122. Wang, T., Wang, J., Yang, W., Jin, Y., “Experimental study on bubble behavior in gas-liquid-solid three-phase circulating fluidized beds”, Powder Tech., 137(1-2), 2003, pp. 83-90. Wang, X., Chen, X., Ma, X., Zheng, H., Ji, M., Zhang, Z., “Low-temperature synthesis of α-Fe2O3 nanoparticles with a closed cage structure”, Chem. Phys. Lett., 384(4-6), 2004, pp. 391-393. Wang, X., Gorte, R. J., “The effect of Fe and other promoters on the activity of Pd/ceria for the water-gas shift reaction”, App. Catal. A, 247(1), 2003, pp. 157-162. Wang, Y.-N., Xu, Y.-Y., Li, Y.W., Zhao, Y.-L., Zhang, B.-J., “Heterogeneous modeling for fixed-bed Fischer-Tropsch synthesis: Reactor model and its applications”, Chem. Eng. Sci., 58(3-6), 2003, pp. 867-875. Wang, Z., Pan, W., Li, J., Li, H., Wang, J., “An Active and Stable Methanol Synthesis Catalyst for the Three-Phase Process”, Chinese J. Catal., 24(7), 2003, pp. 485-486. Warsito, W., “Hydrodynamics analysis of slurry bubble column using ultrasonic techniques”, Ph. D. Thesis, Shizuoka University, Japan, 1997. Warsito, W., Fan, L.-S., “ECT imaging of three-phase fluidized bed based on three-phase capacitance Model”, Chem. Eng. Sci., 58(3-6), 2003, pp. 823-832. Warsito, W., Fan, L.-S., “Neural network multi-criteria optimization image reconstruction technique (NN-MOIRT) for linear and non-linear process tomography”, Chem. Eng. Proc., 42(8-9), 2003, pp. 663-674. Warsito, W., Fan, L.-S., “3D-ECT Velocimetry for Flow Structure Quantification of Gas-Liquid-Solid Fluidized Beds”, Canadian J. Chem. Eng., 81(3), 2003, pp. 875-884. Wasaka, S., Itonaga, M., Sakawaki, K., Inokuchi, K., Mochizuki, M., Clark, K., Oda, H., Suzuki, T., “The Influence of Hydrodynamics on the NEDOL Coal Liquefaction Reaction”, Energy Fuels, 17(2), 2003, pp. 412-418. Wedler, G., Colb, K. G., Heinrich, W., McElhiney, G., “The interaction of hydrogen and carbon monoxide on polycrystalline iron films”, Applications of Surf. Sci., 2(1), 1978, pp. 85-101. Wedler, G., Colb, K. G., McElhiney, G., Heinrich, W., “An investigation of the interaction of CO with polycrystalline iron films”, Applications of Surf. Sci., 2(1), 1978, pp. 30-42. Wei, M., Okabe, K., Arakawa, H., Teraoka, Y., “Fischer-Tropsch synthesis over cobalt catalysts supported on modified SiO2 with mesoporous silica”, React. Kinet. Catal. Lett., 77(2), 2002, p. 381. Wei, M., Okabe, K., Arakawa, H., Teraoka, Y., “Mesoporous metallo-silicates as a support of cobalt catalysts for slurry phase Fischer-Tropsch synthesis”, New J. Chem., 27(6), 2003, pp. 928-932. Wesner, D. A., Linden, G., Bonzel, H. P., “Alkali promotion on cobalt: Surface analysis of the effects of potassium on carbon monoxide adsorption and Fischer-Tropsch reaction”, Appl. Surf. Sci., 26(3), 1986, pp. 335-356. Westre, E. D., Brown, D. E., Kutzner, J., George, M., “Anisotropy and coverage dependence of CO surface diffusion on Ru(S)-[15(001) × 2(100)]”, Surf. Sci., 302(3), 1994, pp. 280-294. Wilson, J. H., de Groot, C. P. M., “Atomic-scale restructuring in high-pressure catalysis”, J. Phys. Chem, 99(20), 1995, pp. 7860-7866. Wise, H., McCarty, J., “Thermodynamic properties of surface carbon on ruthenium”, Surf. Sci., 133(1), 1983, pp. 311-320. Won, K. W., “Thermodynamics for solid solution-liquid-vapor equilibria: wax phase formation from heavy hydrocarbon mixtures”, Fluid Phase Equ., 30, 1986, pp. 265-279. Wong, A., Atwood, J. D., “Hydridic reductions of carbon monoxide to hydrocarbons on iron complexes”, J. Organomet. Chem., 199(1), 1980, pp. C9-C12. Wong, A., Atwood, J. D., “Investigation of the mechanism of hydridic reductions of carbon monoxide to hydrocarbons on iron complexes by isotopic labeling”, J. Organomet. Chem., 210(3), 1981, pp. 395-401. Wong, S. T., Howe, R. F., Milestone, N. B., “Carbon Monoxide Hydrogenation over Metal Loaded Aluminophosphates”, Appl. Catal., 47(2), 1989, pp. 229-242. Woo, S. I., Godber, J., Ozin, G. A., “Effect of hydroxyl group content of silica gel on the charge of iron clusters prepared by solvated metal atom deposition techniques”, J. Molec. Catal., 52(2), 1989, pp. 241-252. Wu, B., Bai, L., Xiang, H., Li, Y.-W., Zhang, Z., Zhong, B., “An active iron catalyst containing sulfur for Fischer-Tropsch synthesis”, Fuel, 83(2), 2004, pp. 205-212. Wu, H.-Z., Lu, W.-M., “Numerical Estimation of Local Gas Holdup in Gas-Liquid Contactors”, J. Chin. Inst. Chem. Eng., 33(5), 2002, pp. 429-438. Wu, Y., Luo, X., Chen, Q., Li, D., Li, S., Al-Dahhan, M. H., Dudukovic, M. P., “Prediction of gas holdup in bubble columns using artificial neural network”, Chinese J. Chem. Eng., 11(2), 2003, pp. 162-165. Xianjun, H., “Selection of the Shift - reactor in the Coal - Replacing - Oil Project of Baling Petrochemical Company”, Chem. Ind. Eng. Prog., 22(1), 2003, pp. 87-89. Xiaoding, X., Doesburg, E. B. M., Scholten, J. J. F., “Synthesis of higher alcohols from syngas - recently patented catalysts and tentative ideas on the mechanism”, Catal. Today, 2(1), 1987, pp. 125-170. Xiaoping, D., Yu, C., Li, Q., Zhang, C., Jiang, Q., Shen, S., “An integrated process of a two-stage fixed bed syngas production and F-T synthesis for GTL in remote gas field”, Chinese J. Chem. Eng., 11(1), 2003, pp. 85-89. Xie, S., Tan, R. B. H., “Bubble formation at multiple orifices-bubbling synchronicity and frequency”, Chem. Eng. Sci., 58(20). 2003, pp. 4639-4647. Xie, T., Ghiaasiaan, S. M., Karrila, S., “Flow Regime Identification in Gas/Liquid/Pulp Fiber Slurry Flows Based on Pressure Fluctuations Using Artificial Neural Networks”, Ind. Eng. Chem. Res., 42(26), 2003, pp. 7017-7024. Xie, W., Neethling, S. J., Cilliers, J. J., “A novel approach for estimating the average bubble size for foams flowing in vertical columns”, Chem. Eng. Sci., 59(1), 2004, pp. 81-86. Xu, J., Du, B., Tian, H., Xin, Q., Li, C., “Modification of Cu-Co-Fe catalyst for alcohol synthesis by organic additives”, Chin. J. Catal., 21, 2000, p. 40. Xu, J., Wang, X., Du, B., Xin, Q., Li, C., “Effect of modification with EtOH on Cu-Co-Fe catalyst for synthesis of alcohols”, Chin. J. Catal., 19, 1998, p. 264. Xu, R., Ma, Z., Yang, C., Wei, W., Sun, Y., “Effect of the addition of Fe and Mn on structural and catalytic properties of Cu/ZrO2 catalysts for CO hydrogenation”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 927. Xu, X., Steinfeld , J. I., “UV-laser photodeposition of iron films from Fe(CO)5: role of gas-phase and surface dissociation processes”, Appl. Surf. Sci., 45(4), 1990, pp. 281-300. Xu, Y.-S., Hong, X.-L., “EHMO calculations for CO dissociation on supported metal catalysts”, J. Molec. Catal., 33(2), 1985, pp. 179-188. Xue, J., Al-Dahhan, M., Dudukovic, M. P., Mudde, R. F., “Bubble Dynamics Measurements Using Four-Point Optical Probe”, Canadian J. Chem. Eng., 81(3), 2003, pp. 375-381. Yakubovich, M. N., “The Molecular Weight Distributions of Fischer–Tropsch Synthesis Products”, Russian J. Phys. Chem., 76(12), 2002, p. 1948. Yakubovich, M. N., “Molecular-Weight Distributions of Fischer–Tropsch Synthesis Products when Chains of C–C Bonds Grow on Centers of Two Types”, Russian J. Phys. Chem., 77(5), 2003, p.727. Yakubovich, M. N., “Effect of Ethene Hydrogenolysis on the Molecular-Weight Distribution of Products in the Fischer–Tropsch Synthesis”, Russian J. Phys. Chem., 77(8), 2003, p. 1260. Yamanaka, S., Hattori, M., “Iron oxide pillared clay”, Catal. Today, 2(2-3), 1988, pp. 261-270. Yang, G. Q., “Bubble formation dynamics and transport phenomena in high pressure bubble columns and slurry bubble columns”, Ph. D. Thesis, Ohio State University, 2001. Yang, G. Q., Fan, L. S., “Axial Liquid Mixing in High-Pressure Bubble Columns”, AIChE J. 48(6), 2003, pp. 1995-2008. Yang, J., Liu, Y., Chang, J., Wang, Y.-N., Bai, L., Xu, Y.-Y., Xiang, H.-W., Li, Y.-W., Zhong, B., “Detailed Kinetics of Fischer-Tropsch Synthesis on an Industrial Fe-Mn Catalyst”, Ind. Eng. Chem. Res., 42(21), 2003, pp. 5066-5090. Yang, J., Liu, Y., Li, Y., Zhang, Y., Bai, L., Xiang, H., Li, Y., Zhong, B., “Catalytic Performance of Fe-Mn Catalyst for Fischer-Tropsch Synthesis II. Performance of Catalyst during Middle and Late Period of Reaction”, Chinese J. Catal., 24(5), 2003, pp. 343-349. Yang, W., Wang, J., Zhao, B., Jin, Y., “Gas-liquid mass transfer in slurry bubble systems II. Verification and simulation of the model based on the single bubble mechanism”, Chem. Eng. J., 96(1-3), 2003, pp. 29-35. Yang, W. G., Wang, J. F., Chen, W., Jin, Y., “Liquid phase flow structure and backmixing characteristics of gas-liquid-solid three-phase circulating fluidized beds”, Chem. Eng. Sci., 54, 1999, pp. 5293-5298. Yang, W. S., Xiang, H. W., Xu, Y. Y., Li, Y.-W., “Characteristics and reactivities of cobalt based mesoporous silica catalysts for Fischer-Tropsch synthesis”, Stud. Surf. Sci. Catal., 146, 2003, pp. 693-696. Yano, T., Kuramoto, K., Tsutsumi, A., Otawara, K., Shigaki, Y., “Scale-up effects in nonlinear dynamics of three-phase reactors”, Chem. Eng. Sci., 54, 1999, pp. 5259-5263. Yao, W., Morel, C., “Volumetric interfacial area prediction in upward bubbly two-phase flow”, International J. Heat Mass Trans., 47(2), 2004, pp. 307-328. Yin, H., Ding, Y., Luo, H., Yan, L., Wang, T., Lin, L., “The Performance of C2 Oxygenates Synthesis from Syngas over Rh-Mn-Li-Fe/SiO2 Catalysts with Various Rh Loadings”, Energy Fuels, 17(6), 2003, pp. 1401-1406. Yin, H., Ding, Y., Luo, H., Zhu, H., He, D., Xiong, J., Lin, L, “Influence of iron promoter on catalytic properties of Rh-Mn-Li/SiO2 for CO hydrogenation”, App. Catal. A, 243(1), 2003, pp. 155-164. Yin, H., Ding, Y., Luo, H., Zhu, H., Yan, L., Lin, L., “Effects of Fe Promoter on Desorption and Hydrogenation of CO Adsorbed on Rh-Mn-Li/SiO2 Catalyst”, Chin. J. Catal., 23(5), 2002, pp. 448-452. Yong, Y.-S., Howe, R. F., “Carbon monoxide hydrogenation over molybdenum zeolite catalysts”, J. Molec. Catal., 38(2), 1986, pp. 323-326. Yu, P. Y. W., Varty, R. L., “Laser-doppler measurement of the velocity and diameter of bubbles using the triple-peak technique”, International J. Multiphase Flow, 14, 1988, pp. 765-776. Zhang, H.-Q., Wang, Q., Sarica, C., Brill, J. P., “A unified mechanistic model for slug liquid holdup and transition between slug and dispersed bubble flows”, Internat. J. Multiphase Flow, 29(1), 2003, pp. 97-107. Zhang, J., Chen, J., Ren, J., Li, Y., Sun, Y., “Support effect of Co/Al2O3 catalysts for Fischer-Tropsch Synthesis”, Fuel, 82(5), 2003, pp. 581-586. Zhang, J., Chen, J., Ren, J., Sun, Y., “Chemical treatment of γ-Al2O3 and its influence on the properties of Co-based catalysts for Fischer-Tropsch synthesis”, App. Catal. A, 243(1), 2003, pp. 121-133. Zhang, J., Fan, L.-S., “On the rise velocity of an interactive bubble in liquids”, Chem. Eng. J., 92(1-3), 2003, pp. 169-176. Zhang, J., Wei, G., Cao, W., “Preparation and Characterization of Fe/AC Catalysts for Synthesis of Light Olefins via Carbon Monoxide Hydrogenation”, Chinese J. Catal., 24(4), 2003, pp. 259-264. Zhang, J., Zhao, H., Chen, J., Ren, J., Sun, Y., Xie, Y., Hu, T., Liu, T., “Influence of Zirconia Promoter on Catalytic Performance of Cobalt Catalysts for Fischer-Tropsch Synthesis”, Chinese J. Catal., 23(6), 2002, pp. 530-534. Zhang, J.-X., Zhao, Y.-Q., Chen, J.-X., Wang, R.-J., Zhang, J.-Y., “Direct Synthesis of Dimethyl Ether by Hydrogenation of Carbon Dioxide I. Effects of Precipitation Agent on Structure and Properties of Catalyst”, J. Fuel Chem. Tech., 31(5), 2003, pp. 444-448. Zhang, W., Tan, R. B. H., “A model for bubble formation and weeping at a submerged orifice with liquid cross-flow”, Chem. Eng. Sci., 58(2), 2003, pp. 287-295. Zhang, X.-G., Xu, Y.-S., Guo, X.-X., “EHMO calculations for the chain growth process in Fischer-Tropsch synthesis on supported group VIII metals”, J. Molec. Catal., 43(3), 1988, pp. 381-394. Zhang, Y., Davis, B. H., O’Brien, R. J., Hamdeh, H. H., “Mossbauer Study of Precipitated Unpromoted Iron Fischer-Tropsch Catalys,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 100. Zhang, Y., Draelants, D. J., Engelen, K., Baron, G. V., “Development of nickel-activated catalytic filters for tar removal in H2S-containing biomass gasification gas”, J. Chem. Tech. Biotech., 78(2-3), 2003, pp. 265-268. Zhang, Y., Hou, L., Tierney, J. W., Wender, I., “Acetylenes as probes in the Fischer-Tropsch reaction”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 731. Zhang, Y., Sam, A., Finch, J. A., “Temperature effect on single bubble velocity profile in water and surfactant solution”, Colloids Surf. A, 223(1-3), 2003, pp. 45-54. Zhang, Y., Smith, K. J., “CH4 decomposition on Co catalysts: effect of temperature, dispersion, and the presence of H2 or CO in the feed”, Catal. Today, 77(3), 2002, pp. 257-268. Zhang, Y., Zhong, B., Xiang, H., Wang, Q., “ZrO2-SiO2 Aerogel Supported Cobalt Catalysts for the Synthesis of Long-Chain Hydrocarbon from Syngas,” ACS Div. Pet. Chem. Prepr., 44(1), 1999, p. 88. Zhao, B., Wang, J., Yang, W., Jin, Y., “Gas-liquid mass transfer in slurry bubble systems I. Mathematical modeling based on a single bubble mechanism”, Chem. Eng. J., 96(1-3), 2003, pp. 23-27. Zhao, H., Chen, J., Sun, Y., “Effect of calcination temperature on the performance of Co/ZrO2 catalysts for Fischer-Tropsch synthesis”, ACS Div. Fuel Chem. Prepr., 48(2), 2003, p. 733. Zhao, Q., Greve, D. W., Barmak, K., “UHV/CVD growth of Co on Si(001) using cobalt carbonyl”, App. Surf. Sci., 219(1-2), 2003, pp. 136-142. Zhao, S., Gorte, R. J., “The Activity of Fe–Pd Alloys for the Water–Gas Shift Reaction”, Catal. Lett., 92(1-2), 2004, pp. 75-80. Zhao, Y.-L., Wang, D.-Z., “A slurry Fischer-Tropsch/ZSM-5 process”, Appl. Catal., 75(2), 1991, pp. N20-N21. Zhaoqian, W., Weixiong, P., Jinlu, L., Hansheng, L., Jinfu, W., “Recent Advance in Direct Synthesis of Dimetyl Ether from Syngas in Three - phase Reactors”, Chem. Ind. Eng. Prog., 22(8), 2003, pp. 828-832. Zheng, Y., “Ultrasonic Measurement for Two/Three-Phase Flow Detection”, Canadian J. Chem. Eng., 81(2), 2003, pp. 268-270. Zhilong, Y., Yuzhang, Z., “Recent Development of Normal Paraffin Adsorption - Separation Technology”, Chem. Ind. Eng. Prog., 22(6), 2003, pp. 589-592. Zhou, P., Lee, T. L. K., “HTI coal conversion technologies in China”, ACS Fuel Chem. Div. Prepr., 48(1), 2003, p. 155. Zhou, Z., Zhang, Y., Tierney, J. W., Wender, I., “Hybrid zirconia catalysts for conversion of Fischer-Tropsch waxy products to transportation fuels”, Fuel Proc. Tech., 83(1-3), 2003, pp. 67-80. Zhu, H.-H., Liu, Y.-M., Yu, D.-Q., “Study and Progress on Loop Reactor for the System of Gas-liquid-solid Three Phases”, Sci. Tech. Chem. Ind., 11(4), 2003, pp. 48-52. Zubkov, T., Morgan, Jr. , G. A., Yates, Jr. , J. T., Kuhlert, O., Lisowski, M., Schillinger, R., Fick, D., Jansch, H. J., “The effect of atomic steps on adsorption and desorption of CO on Ru(109)”, Surf. Sci., 256(1-2), 2003, pp. 57-71. Zwart, J., Snel, R., “Metal carbonyl clusters in the catalytic hydrogenation of carbon monoxide”, J. Molec. Catal., 30(3), 1985, pp. 305-352. Zwart, J., Vink, J., “Fischer-Tropsch synthesis using zeolite-supported iron catalystsderived from iron carbonyl complexes”, Appl. Catal., 33(2), 1987, pp. 383-393. |