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Literature Reference S

 

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Sabatier, P., "How I Have Been Led to the Direct Hydrogenation Method by Metallic Catalysts", Ind. Eng. Chem., 18(10), 1926, pp. 1005-1008.

 

Saberi, B., Shakourzadeh, K., Militzer, J., "Application of a Fiber Optic Probe to the Hydrodynamic Study of an Industrial Fluidized Bed Furnance," Proc. Int. Conf. Fluid. Bed Combust., 14 (1), 1997, pp. 595-601.

 

Saberi, S., Shakourzadeh, K.,. Bastoul, D., Militzer , J., "Bubble Size and Velocity Measurement in Gas-Liquid Systems: Application of Fiber Optic Technique to Pilot Plant Scale", Can. J. Chem. Eng., 73, 1995, p. 253

 

Saberian-Broudjenni, M., “Las reacteurs a lit fluidise gaz-liquide-solide: Hydrodynamique des ecoulements et transfert de chaleur a la paroi en milieu liquide organique”, Dr. Eng. Thesis, Institut National Polytechnique de Lorraine, Nancy, France, 1984.

 

Saberian-Broudjenni, M., Wild, G., Charpentier, J. C., “Onset Fluidisation In Gas-Liquid Fluidised Beds”, Hungarian J. Ind. Chem., 21(1), 1984, pp. 75-82. 

 

Saberian-Broudjenni, M., Wild, G., Charpentier, J.-C., Fortin, Y., Euzen, J.-P., Patoux, R., "Contribution To The Hydrodynamic Study Of Gas-Liquid-Solid Fluidized-Bed Reactors", Int. Chem. Eng., 27, 1987, pp. 423-440.

 

Saberian-Broudjenni, M., Wild, G., Kim, S. D., "Liquid axial dispersion in gas-liquid-solid fluidized beds", Chem. Eng. J. (Lausanne), 40(2), 1989, pp. 83-92.

 

Saberian-Broudjenni, M., Wild, G., Midoux, N., Charpentier, J.-C., “Contribution a l’Etude de Transfert de Chaleur a la Paroi dans les Reacteurs a Lit Fluidise Gas-Liquide-Solide a Faible Vitesse de Liquide”, Canadian J. Chem. Eng., 63, 1985, pp. 553-564.

 

 

Sacardi, S., Gianetto, A., Rovero, G., Canti, R., "Residence time distribution function of the solids in the three phase fluidized bed reactors", in "Conference proceedings 37th Canadian Chemical Engineering Conference in conjunction with the Canadian Engineering Centennial Convention", Canadian Society for Chemical Engineering, 1987, pp. 47-49.

 

Sacco, A. Jr., Geurts, F. W. A. H., Jablonski, G. A., Lee, S., Gately, R. A., "Carbon Deposition And Filament Growth On Fe, Co, And Ni Foils Using CH4-H2-H2O-CO-CO2 Gas Mixtures", J. Catal., 119, 1989, pp. 322-341.

 

Sacco, A. Jr., Thacker, P., Chang, T. N., Chiang, A. T. S., "The initiation and growth of filamentous carbon from -iron in H2, CH4, H2O, CO2, and CO gas mixtures", J. Catal., 85(1), 1984, pp. 224-236.

 

Sachtler, J. W. A., Kool, J. M., Ponec, V., "The role of carbon in methanation by cobalt and ruthenium", J. Catal., 56(2), 1979, pp. 284-286.

 

Sachtler, W. H. M., "Mechanismus der katalysierten Synthese von Kohlenwasserstoffen (Mechanism of catalyzed synthesis of hydrocarbons)", Chem.-Ing.-Tech., 54, 1982, pp. 901-907.

 

Sachtler, W. M. H., "Selectivity and rate of activity decline of bimetallic catalysts", J. Molec. Catal., 25(1-3), 1984, pp. 1-12.

 

Sachtler, W. M. H., Huang, Y.-Y., “Metal/overlayer and encaged carbonyl cluster catalysis”, Appl. Catal. A, 191(1-2), 2000, pp. 35-44.

 

Sachtler, W. M. H., Ichikawa, M., "Catalytic site requirements for elementary steps in syngas conversion to oxygenates over promoted rhodium", J. Phys. Chem., 90(20), 1986, pp. 4752-4758.

 

Sachtler, W. M. H., Ichikawa, M., "Effects of ionic promoters on CO dissociation and CO insertion on rhodium catalysts", ACS Div. Pet. Chem. Prepr., 31(1), 1986, p. 281.

 

Sachtler, W. M. H., Shriver, D. F., Hollenberg, W. B., Lang, A. F., "Promoter action in Fischer-Tropsch catalysis", J. Catal., 92(2), 1985, pp. 429-431.

 

Sachtler, W. M. H., Shriver, D. F., Ichikawa, M., "The formation of C2-oxygenates from synthesis gas over oxide-supported rhodium. Reply to van der Lee and Ponec", J. Catal., 99(2), 1986, pp. 513-514.

 

Sada, E., Katoh, S., Yoshii, H., Yamanishi, T., Nakanishi, A., "Performance Of The Gas Bubble Column In Molten Salt Systems", Ind. Eng. Chem. Proc. Des. Dev., 23, 1984, pp. 151-154.

 

Sada, E., Kumazawa, H., “Some considerations on chemical absorption into a slurry containing fine catalyst particles”, Chem. Eng. Sci., 37, 1982, pp. 945-948.

 

Sada, E., Kumazawa, H., Butt, M. A., “Simultaneous absorption with reaction in a slurry containing fine particles”, Chem. Eng. Sci., 32, 1977, pp. 1499-1503.

 

Sada, E., Kumazawa, H., Butt, M. A., “Single gas absorption with reaction in a slurry containing fine particles”, Chem. Eng. Sci., 32, 1977, pp. 1165-1170.

 

Sada, E., Kumazawa, H., Hashizume, I., “Chemical Absorption of two gases into a slurry containing fine particles”, Chem. Eng. J., 26, 1983, pp. 239-244.

 

Sada, E., Kumazawa, H., Hashizume, I., “Further considerations on chemical absorption mechanism by aqueous slurries of sparingly soluble fine particles”, Chem. Eng. Sci., 36, 1981, pp. 639-642.

 

Sada, E., Kumazawa, H., Lee, C. H., "Influences of suspended fine particles on gas holdup and mass transfer characteristics in a slurry bubble column", AIChE J., 32(5), 1986, pp. 853-856.

 

Sada, E., Kumazawa, H., Lee, C. H., “Chemical absorption in a bubble column loading concentrated slurry”, Chem. Eng. Sci., 38, 1983, pp. 2047-2051.

 

Sada, E., Kumazawa, H., Lee, C., Fujiwara, N., "Gas-Liquid Mass Transfer Characteristics In A Bubble Column With Suspended Sparingly Soluble Fine Particles", Ind. Eng. Chem. Proc. Des. Dev., 24, 1985, pp. 255-261.

 

Sada, E., Kumazawa, H., Lee, C., Iguchi, T., "Gas holdup and mass transfer characteristics in a three-phase bubble column", Ind. Eng. Chem. Proc. Des. Dev., 25, 1986, p. 472.

 

Sada, E., Kumazawa, H., Lee, C., Narukawa, H., "Gas-Liquid Interfacial Area And Liquid-Side Mass-Transfer Coefficient In A Slurry Bubble Column", Ind. Eng. Chem. Res., 26, 1987, pp. 112-116.

 

Sada, E., Kumazawa, H., Lee, C., Takahisa, I., “Gas holdup and mass transfer characteristics in a three-phase bubble column”, Ind. Eng. Chem. Proc. Des. Dev., 25, 1986, pp. 472-476.

 

Sadeghi, H. R., Henrich, V. E., "SMSI in Rh/TiO2 model catalysts: Evidence for oxide migration", J. Catal., 87(1), 1984, pp. 279-282.

 

Sadek, H., Taylor, H. S., "The Heterogeneity of Catalyst Surfaces for Chemisorption. III. Metallic Nickel", J. Am. Chem. Soc., 72(3), 1950, pp. 1168-1175.

 

Sáez, A. E., Márquez, M. A., Roberts, G. W., Carbonell, R. G., "Hydrodynamic Model for Gas-Lift Reactors", AIChE J., 44(6), 1998, p. 1413.

 

Saez, I. M., Maitlis, P. M. , "New models for the formation of oxygenates in the Fischer-Tropsch reaction", J. Organomet. Chem., 334, 1987, pp. C14-C16.

 

Saez, I. M., Meanwell, N. J., Taylor, B. F., Maitlis, P. M., "Further Studies Relating to the Formation of Propene in the Fischer-Tropsch Reaction", J. Chem. Soc., Chem. Comm., 1987, pp. 361-363.

 

Safarowic, F. J., Bierdeman, D. J., Keister, J. B., "Kinetics and Mechanism of Reversible Oxidative Addition of Hydrogen across the Metal-Metal Bond of (µ-H)2Ru3(CO)8(µ-P(t-Bu)2)2. Steric Promotion of Metal-Metal Bond Cleavage But a CO Dissociative Mechanism", J. Am. Chem. Soc., 118(47), 1996, pp. 11805-11812. 

 

Safarowic, F. J., Keister, J. B., "Kinetics and Mechanism of Reductive Elimination of C-H Bonds from (µ-H)3Ru3(µ3-CX)(CO)9 Revisited: CO Associative, CO Independent, or CO Dissociative?", Organometallics, 15(15), 1996, pp. 3310-3316. 

 

Safoniuk, M., "Three phase fluidization scale-up", Ph.D. Thesis, University of British Columbia, 1999.

 

Safoniuk, M., Grace, J. R., Hackman, L., McKnight, C. A., "Gas Holdup in a Three-Phase Fluidized Bed (R&D Note)", AIChE J., 48(7), 2002, p. 1581.   

 

Safoniuk, M., Grace, J. R., Hackman, L., Mcknight, C. A., "Use of Dimensional Similitude for Scale-up of Hydrodynamics in Three-phase fluidized beds", Chem. Eng. Sci., 54, 1999, pp. 4961-4966.

 

Safoniuk, M., Grace, J. R., Lim, K.-S, "Bubble Characteristics of a Scaled-Down Three-Phase Fluidized Bed", Can. J. Chem. Eng., 80(2), 2002, pp. 177-185.

 

Safonov, M. S., Borisov, S. A., Voskresenskir, N. M., "Intensification of heterogeneous catalytic processes by using reactors with a regular structure", Dokl. Chem. Technol. (Engl. Transl.), 28(7), 1986, pp. 25-29.

 

Sagert, N. H., Quinn, M. J., "Surface viscosities at high-pressure gas-liquid interfaces", J. Colloid Interface Sci., 65, 1978, pp. 415-422.

 

Sagert, N. H., Quinn, M. J., "The coalescence of gas bubbles in dilute aqueous solutions", Chem. Eng. Sci., 33, 1978, pp. 1087-1095.

 

Saglam, M., "Effects of vanadium and zinc promotion on the olefin selectivity of iron Fischer-Tropsch catalysts", Ind. Eng. Chem. Res., 28(2), 1989, pp. 150-154.

 

Sahibzada, M., “Pd-Promoted Cu/ZnO Catalyst Systems for Methanol Synthesis from CO2/H2”, Chem. Eng. Res. Des. A, 78, 2000, p. 943.

 

Sahibzada, M., Metcalfe, I. S., Chadwick, D., “Methanol Synthesis from CO/CO2/H2 over Cu/ZnO/Al2O3 at Differential and Finite Conversions”, J. Catal., 174(2), 1998, pp. 111-118.

 

Saib, A .M., "The effect of pore diameter of silica support on the performance of cobalt based Fischer-Tropsch synthesis", M. Appl. Sc. dissertation, University of Cape Town, 2000.

 

Saib, A. M., “Towards a cobalt Fischer-Tropsch synthesis catalyst with enhanced stability: a combined approach”, Dissertation, Technische Universiteit Eindhoven, 2006.

 

Saib, A. M., Claeys, M., van Steen, E., "Silica supported cobalt Fischer-Tropsch catalysts: effect of pore diameter of support", Catal. Today, 71(3-4), 2002, pp. 395-402.

 

Sailor, M. J., Shriver, D. F., "Vibrational spectroscopic characterization of the CCO ligand and the possible occurrence of CCO on surfaces", J. Am. Chem. Soc., 109(16), 1987, pp. 5039-5041.

 

Saima, H., Fujimoto, K., Tominaga, H., "Hydrogenation of carbon monoxide on CO reducing catalyst and solid acid. III. The effect of the pore size and acid properties of zeolite on the product distribution", Bull. Chem. Soc. Japan, 58(3), 1985, pp. 795-802.

 

Saito, M., “R&D activities in Japan on methanol synthesis from CO2 and H2”, Catal. Surveys Japan, 2(2), 1998, pp. 175-184.

 

Saito, M., Anderson, R. B., "Activity of several molybdenum compounds for the methanation of CO", J. Catal., 63(2), 1980, pp. 438-446.

 

Saito, M., Anderson, R. B., "Activity of several molybdenum compounds for the methanation of CO2", J. Catal., 67(2), 1981, pp. 296-302.

 

Saito, M., Sakabe, T., "Activity, selectivity and thermal stability of group VIII metal/Al2O3 catalysts for synthesis of hydrocarbons from CO and H2", Bull. Jpn. Pet. Inst., 19(2), 1977, pp. 140-148.

 

Saito, T., Kajishima, T., Tsuchiya, K., "Pumping characteristics of a large-scale gas-lift system", Exp. Thermal Fluid Sci., 28(5), 2004, pp. 479-488.

 

Sakai, N., Saegusa, H., Kobayashi, M., Tachikawa, N., Ishikawa, I., Morooka, S., "Development of a neutron absorption tracer technique for evaluation of fluid dynamics in coal liquefaction reactors", Fuel Proc. Tech., 76(2), 2002, pp. 139-156.

 

Sakai, T., Kunugi, T., "Comparative study of oil-slurry process to fixed-bed process in the Fischer-Tropsch synthesis", ACS Div. Fuel Chem. Prepr., 27(3-4), 1982, pp. 313-318.

 

Sakai, T., Kunugi, T., "Liquid Phase (slurry) method-Fischer-Tropsch synthesis", Sekiyu Gakkai Shi., 17, 1974, pp. 863-868.

 

Sakaiya, Y., Fan, L., Fujimoto, K., "Methanol Synthesis from Carbon Dioxide and Hydrogen via Formic Ester", J. Japan. Petrol. Inst., 41, 1998, pp. 354-357.

 

Sakakini, B. H., "Carbon Monoxide Hydrogenation over Ru/Al2O3 Catalyst", Turkish J. Chem.,  19(3), 1995, p. 231.

 

Sakakini, B. H., “Temperature-programmed surface reaction (TPSR) of pre-adsorbed carbon CO and CO/H2 synthesis over Ru-Cs/Al2O3 catalysts”, J. Molec. Catal. A, 127(1-3), 1997, pp. 203-209.

 

Sakanishi, K., “Production and Utilization of Biomass-Derived Fuels”, Marine Eng., 40(6), 2005, pp. 744-748.

 

Sakata, S., Kaneko, N., Komiya, M., Maekawa, T., “Conditions and performance of GC/C/MS for carbon isotopic analyses of high molecular-weight hydrocarbons”, Bull. Geological Survey  Japan, 50(5-6), 1999, pp. 395-404.

 

Sakellson, S., McMillan, M., Haller, G. L., "EXAFS evidence for direct metal-metal bonding in reduced Rh/TiO2 catalysts", J. Phys. Chem., 90(9), 1986, pp. 1733-1736.

 

Sakharov, M. M., Dokukina, E. S., "Kinetic isotope effect of hydrogen in the synthesis of hydrocarbons from carbon monoxide and hydrogen over a cobalt-thorium catalyst', Kinet. Catal., 2(5), 1961, pp. 710-713.

 

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.

 

Sakka, Y., Okuyama, H., Uchikoshi, T., Ohno, S., “Synthesis and characterization of Fe and composite Fe-TiN nanoparticles by dc arc-plasma”, J. Alloys & Compounds, 346(1-2), 2002, pp. 285-291.

 

Sakurai, H., Haruta, M., "Carbon dioxide and carbon monoxide hydrogenation over gold supported on titanium, iron, and zinc oxides", App. Catal. B , 127(1/2), 1995, p. 93.

 

Sakurai, H., Tobias, H. J., Park, K., Zarling, D., Docherty, K. S., Kittelson, D. B., McMurry, P. H., Ziemann, P. J., “On-line measurements of diesel nanoparticle composition and volatility”, Atmospheric Environment, 37(9), 2003, pp. 1199-1210.

 

Salcudean, M., Lai, K. Y. M., Guthrie, R. I. L., "Computation of three-dimensional flow and heat transfer in gas-agitated reactor", Chem. Eng. Comm., 21, 1983, pp. 89-103.

 

Salcudean, M., Lai, K. Y. M., Guthrie, R. I. L., "Multidimensional heat, mass, and flow phenomena in gas stirred reactors", Can. J. Chem. Eng., 63, 1985, pp. 51-61.

 

Saleh, J. M., "Computer simulation of three-phase catalytic gas-liquid reactions", Doctoral Dissertation, Lamar University, Beaumont, Texas, 1994.

 

Salekhuddin, S. M., Krylova, A. Yu., "Synthesis of hydrocarbons from CO and H2 at the presence of penetrated Co -catalysts", Proceedings Of The Young Scientists Conference On A Problem Of Petrochemistry; Institute Of Petrol- Chemical Synthesis, AS USSR, Moscow, 15-18 March, 1983, pp. 38-42.

 

Saletore, D. A., Thomson, W. J., "Methanation reaction rates for recycle reactor compositions", Ind. Eng. Chem. Proc. Des. Dev., 16(1), 1977, pp. 70-75.

 

Salim, P. H., Trebble, M. A., “Modified interacting-sphere model for self-diffusion and infinite-dilution mutual-diffusivity of n-alkanes”, Far. Trans., 1995, pp. 245-250.

 

Salinas-Rodriguez, E., Rodriguez, R. F., Soria, A., Aquino, N., "Volume fraction autocorrelation functions in a two-phase bubble column", Int. J. Multiphase Flow, 24(1), 1998, pp. 93-103. 

 

Salmi, T., “Simultaneous determination of kinetic and diffusion parameters for the water-gas shift reaction”, React. Kinet. Catal. Lett., 41(1), 1990, pp. 1-5.

 

Sal'nikova, E. N., Khrushch, A. P., Khidekel, M. L., “Reduction of carbon dioxide in aqueous media”, Russian Chem. Bull., 26(3), 1977, pp. 635-636.

 

Salomatin, G. I., Lafer, L. I., Yakerson, V. I., “IR spectra of catalysts and adsorbed molecules”, Russian Chem. Bull., 28(7), 1979, pp. 1349-1352.

 

Salomatin, G. I., Sobolevskii, V. S., Grigor'ev, V. V., Lafer, L. I., Yakerson, V. I., “IR spectra of catalysts and adsorbed molecules. 29. State of the water on the surface of copper-containing catalysts during the low-temperature conversion of carbon monoxide”, Russian Chem. Bull., 28(11), 1979, pp. 2254-2258.

 

Salova, O. V., Mikhailenko, N. N., Mikhailenko, I. I., Gryaznov, V. M., "Adsorption and hydrogenation of carbon monoxide on ultradisperse iron powders", Z. Fizich. Khim., 72(1), 1998, p. 27.

 

Salova, O. V., Olenin, A. Y., Mikhalenko, N. N., Vasil'kov, A. Y., "Ultradisperse iron particles on aluminium oxide as catalysts of the synthesis of ethylene and propene from carbon monoxide and molecular hydrogen", Russian J. Phys. Chem., 66(6), 1992, p. 890.

 

Salvacion, J. L., Murayama, M., Ohtaguchi, K., Koide, K., "Effects of Alcohols on Gas Holdup and Volumetric Liquid-Phase Mass Transfer Coefficient in Gel-Particle Suspended Bubble Column", J. Chem. Eng. Japan, 28, 1995, pp. 434-442.

 

Salvi, S., Williams-Jones, A.E., "Fischer-Tropsch synthesis of hydrocarbons during sub-solidus alteration of the Strange Lake peralkaline granite, Quebec/Labrador, Canada", Geochim. Cosmochim. Acta, 61, 1997, pp. 83-99.

 

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Samuel, W. A., "Sasol - a proven prescription to convert tons of coal to barrels of fuel", Ind. Heat., 48(11), 1981, pp. 16, 18.

 

Sánchez, J. M., Ruiz, E., Otero, J., “Selective Removal of Hydrogen Sulfide from Gaseous Streams Using a Zinc-Based Sorbent”, Ind. Eng. Chem. Res., 44(2), 2005, pp. 241-249.

 

Sancier, K. M., Isakson, W. E., Wise, H., "Carburization studies of iron Fischer-Tropsch catalysts", ACS Div. Pet. Chem. Prepr., 23(2), 1978, pp. 545-558.

 

Sancier, K. M., Isakson, W. E., Wise, H., “Carburization studies of iron Fischer-Tropsch catalysts”, chapter 10 in “Hydrocarbon Synthesis from Carbon Monoxide and Hydrogen” (E. L. Kugler, F. W. Steffgen, eds.), ACS Adv. Chem. Ser. 178, 1979, pp. 129-146.

 

Sandell, A., Frank, M., Libuda, J., Baumer, M., Freund, H.-J., Andersson, S., Brena, B., Giertz, A., Bruhwiler, P. A., Martensson, N., “Temperature dependent XPS study of CO dissociation on small Rh particles”, Vacuum, 49(3), 1998, pp. 167-170.

 

Sandell, A., Libuda, J., Baumer, M., Freund, H.-J., Bruhwiler, P., Andersson, S., Maxwell, A., Martensson, N., “Electron spectroscopy studies of small deposited metal particles”, J. Electron Spectr. Related Phenom., 76, 1995, pp. 301-306.

 

Sanders, E. A., "Modellierung von Suspensionsblasensäulen, Fischer-Tropsch-Synthese (Modeling of suspension bubble columns, Fischer-Tropsch-synthesis)", Dissertation, Universität Oldenburg, 1985.

 

Sanders, E. A., Deckwer, W.-D., "Fischer-Tropsch Synthesis In Slurry Phase: Effect Of CO2 Inhibition On Performance Of Bubble Column Slurry Reactors", Can. J. Chem. Eng., 65, 1987, pp. 119-126.

 

Sanders, E. A., Ledakowicz, S., Deckwer, W.-D., "Fischer-Tropsch synthesis in bubble column slurry reactors on Fe/K catalysts", Can. J. Chem. Eng., 64, 1986, pp. 133-140.

 

Sanders, E., Deckwer, W.-D., “Untersuchungen zur Modellbildung der Fischer-Tropsch-Synthese in Suspensionsblasensäulen”, Chem.-Ing.-Tech., 58(9), 1986, pp. 762-763.

 

Sanders, H. L., Yeager, J. A., "Synthetic Detergents for Domestic Dishwashing Machines", Ind. Eng. Chem., 43(4), 1951, pp. 866-871.

 

Sands, A. E., Schmidt, L. D., "Recovery of Sulfur from Synthesis Gas", Ind. Eng. Chem., 42(11), 1950, pp. 2277-2287.

 

Sands, A. E., Wainwright, H. W., Schmidt, L. D., "Purification of Synthesis Gas Produced from Pulverized Coal", Ind. Eng. Chem., 40(4), 1948, pp. 607-620.

 

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Sang, D. K., Yong, K., "Heat and mass transfer in three-phase fluidized-bed reactors--an overview", Chem. Eng. Sci., 52(21-22), 1997, pp. 3639-3660.

 

Sanger, P., Deckwer, W.-D., “Liquid-solid mass transfer in aerated suspensions”, Chem. Eng. J., 22, 1981, pp. 179-186.

 

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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.

 

Sankaranarayanan, K., Sundaresan, S., "Lift force in bubbly suspensions", Chem. Eng. Sci., 57(17), 2002, pp. 3521-3542.

 

Sannaes, B. H., "Solids Movement and Concentration Profiles in Slurry Column Reactors", Dr. Ing. Thesis, Norwegian University of Science and Technology, Trondheim, Norway, 1997.

 

Sannæs, B. H., Schanke, D., “Resolving flow details in slurry bubble columns used for Fischer-Tropsch synthesis using computational fluid dynamics”, Stud. Surf. Sci. Catal., 147, 2004, pp.  265-270.

 

Sannos, B. H., Schanke, D., “Resolving Flow Details in Slurry Bubble Columns Used for Fischer-Tropsch Synthesis Using Computational Fluid Dynamics”, Stud. Surf. Sci. Catal., 147, 2004, pp. 265-270.   

 

Sano, T., Okabe, K., Kohtoku, Y., Shimazaki, Y., Saito, K., Takaya, H., Bando, K., "A new metal zeolite catalyst for the Fischer-Tropsch reaction", Zeolites, 5, 1985, pp. 194-196.

 

Sano, T., Yanagisawa, H., Okabe, K., Okado, H., Hagiwara, H., Yasumoto, Y., Takaya, H., "Hydrogenation of carbon monoxide to form light olefins over an iron-modified crystalline silica", Bull. Chem. Soc. Japan, 58(4), 1985, pp. 1317-1318.

 

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.

 

Sano, T., Yanagisawa, K., Saito, K., Okabe, K., "Hydrogenation of carbon monoxide to form light olefines over zeolite-based iron catalysts", Appl. Catal., 199, 1983, p. 109.

 

Sano, Y., Yamaguchi, N., Adachi, T., “Mass transfer coefficients for suspended particles in agitated vessels and bubble columns”, J. Chem. Eng. Japan, 7, 1974, pp. 255-261.

 

Santana, R. C., Do, P. T., Santikunaporn, M., Alvarez, W. E., Taylor, J. D., Sughrue, E. L., Resasco, D.E., “Evaluation of different reaction strategies for the improvement of cetane number in diesel fuels”, Fuel, 85(5-6), 2006, pp. 643-656.

 

Santiesteban, J., Fuentes, S., Yacaman, M. J., Santiesteban, J., Fuentes, S., Yacaman, M. J., "Catalysis of carbon methanation by small platinum particles", J. Vac. Sci. Tech. A, 1(2), 1983, pp. 1198-1200.

 

Santilli, D. S., Castner, D. G., "Mechanism of chain growth and product formation for the Fischer-Tropsch reaction over iron catalysts", Energy Fuels, 3(1), 1989, pp. 8-15.

 

Santos, J., Phillips, J., Dumesic, J. A., "Metal-support interactions between iron and titania for catalysts prepared by thermal decomposition of iron pentacarbonyl and by impregnation", J. Catal., 81(1), 1983, pp. 147-167.

 

Santra, A. K., Ghosh, S., Rao, C. N. R., "Dependence of the strength of interaction of carbon monoxide with transition metal clusters on the cluster size", Langmuir, 10, 1994, p. 3937.

 

Sanyal, J., Marchisio, D. L., Fox, R. O., Dhanasekharan, K., “On the Comparison between Population Balance Models for CFD Simulation of Bubble Columns”, Ind. Eng. Chem. Res., 44(14), 2005, pp. 5063-5072.

 

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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.

 

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Schulz, H., Riedel, T., Schaub, G., “Fischer-Tropsch principles of co-hydrogenation on iron catalysts”, Top. Catal., 32(3-4), 2005, pp. 117-124.

 

Schulz, H., Schaub, G., Claeys, M., Riedel, T., "Transient initial kinetic regimes of Fischer-Tropsch synthesis", Appl. Catal. A, 186, 1999, pp. 215-228. 

 

Schulz, H., Schaub, G., Claeys, M., Riedel, T., "Transient Initial Regimes of Fischer-Tropsch Synthesis - Influence of Syngas Composition (H2/CO or H2/CO2) and Strong Alkali Promotion with an Iron-based Catalyst", Appl. Catal. A, 186, 1999, pp. 215-227.

 

Schulz, H., van Steen, E., Claeys, M., "Selectivity and mechanism of Fischer-Tropsch synthesis with Iron and Cobalt catalysts", Stud. Surf. Sci. Catal., 81, 1994, pp. 455-460.

 

Schulz, H., van Steen, E., Claeys, M., “Specific inhibition as the kinetic principle of the Fischer-Tropsch synthesis”, Top. Catal., 2(1-4), 1995, pp. 223-234.

 

Schulz, H., Zein el Deen, A., "New concepts and results concerning the mechanism of carbon monoxide hydrogenation", Fuel Proc. Tech., 1, 1977, pp. 31-44.

 

Schulz, H., Zein el Deen, A., "New concepts and results concerning the mechanism of carbon monoxide hydro