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Literature References

June 30, 2005 Update

 

Abashar, M. E., Narsingh, U., Rouillard, A. E., Judd, R., “Hydrodynamic Flow Regimes, Gas Holdup, and Liquid Circulation in Airlift Reactors”, Ind. Eng. Chem. Res., 37(4), 1998, pp. 1251-1259.

 

Abraham, M., Khare, A. S., Sawant, S. B., Joshi, J. B., “Critical gas velocity for suspension of solid particles in three-phase bubble columns”, Ind. Eng. Chem. Res., 31(4), 1992, pp. 1136-1147.

 

Ackermann, R., Räbiger, N., Vogelpohl, A., “Ermittlung von Vermischungsparametern des Dispersionsmodells aus Tracer-Versuchen”, Chem.-Ing.-Tech., 55(9), 1983, p. 725.

 

Akers, W. W., White, R. R., “Kinetics of methane synthesis”, Chem. Eng. Prog., 44, 1948, pp. 553-566.

 

Al-Hussaini, A. M., “Preparation, characterisation and catalytic behaviour of ruthenium based catalyst in carbon monoxide hydrogenation”, Dissertation, University of Manchester, Great Britain, 2001.

 

Albrecht, W.-J., Schulze-Pillot, G., “Strömungsmessungen mit radioaktiven Indikatoren an einem Blasensäulen-Abstromreaktor”, Chem.-Ing.-Tech., 50(12), 1978, pp. 947-950.

 

Alekseev, A. M., Astakhov, N. N., Peshnev, B. V., Romanova, T. V., Frantsuzov, V. K., “Disproportionation of CO in the presence of CO2 on industrial iron-containing catalysts”, Solid Fuel Chem., 30(5), 1996, pp. 33-38.

 

Allenback, U., Wirges, H.-P., Deckwer, W.-D., “Ermittlung von Stoffaustauschparametern in Gas-Flussig-Reaktoren mit Hilfer der saurekatalysierten Isobuten-Hydratation”, Verfahrentech., 11, 1977, pp. 751-754.

 

Allum, K. G., Williams, A. R., “Operation of the world’s first gas-to-gasoline plant”, Stud. Surf. Sci. Catal., 36, 1988, pp. 691-711.

 

Alper, E., Deckwer, W.-D., “Comments on gas adsorption with catalytic reaction”, Chem. Eng. Sci., 36, 1981, pp. 1097-1099.

 

Alper, E., Deckwer, W.-D., “Some aspects of gas absorption mechanism in catalytic slurry reactors”, NATO ASI Series E, 73, 1983, pp. 199-224.

 

Alper, E., Ozturk, S., “Effect of fine solid particles on gas-liquid mass transfer rate in a slurry reactor”, Chem. Eng. Comm., 46, 1986, pp. 147-158.

 

Alvarez-Cuenca, M., Nerenberg, “The plug flow model for mass transfer in three-phase fluidized beds and bubble columns”, Can. J. Chem. Eng., 59, 1981, pp. 739-745.

 

Andersson, B., “Fluid to particle mass transport in slurries”, Chem. Eng. Sci., 37(1), 1982, pp. 93-97.

 

Ando, H., Fujiwara, M., Matsumura, Y., Miyamura, H., Tanaka, H., Souma, Y., “Methanation of Carbon Dioxide over LaNi4X-Type Intermetallics Compounds as Catalyst Precursor”, J. Alloy & Compound, 223, 1995, pp. 139-141.

 

Andre, G., Moo-Young, M., Robinson, C. W., “Application of the Fourier transform to the measurement of kLaL in non-mechanically agitated contactors”, Can. J. Chem. Eng., 63, 1985, pp. 202-211.

 

Andrew, S. P. S., “Gasoline, petrochemicals and energy in the future”, Eng. Proc. Econ., 3(1), 1978, pp. 11-16.

 

Angst, R., Mier, P., Kraume, M., “Simulation and Experimental Investigation of the Two-Phase Flow Field in Jet Loop Reactors”, Chem. Ing. Tech., 73(6), 2001, p. 659.

 

Antal, S. P, Lahey Jr., R. T, Flaherty, J. E., “Analysis of Phase Distribution in Fully Developed Laminar Bubbly Two-Phase Flow”, Internat. J. Multiphase Flow, 17, 1991, pp. 635-652.

 

Apam-Martínez, D., Trejo, A., “Excess heat capacities and excess volumes of n-alkane mixtures”, J. Chem. Soc., Far. Trans. 1, 1988, pp. 4073-4086.

 

Aposporidis, E., “Dynamisches Verhalten eines Blasensäulen-Reaktors mit suspendiertem Katalysator bei Störungen in der Frischgaszusammensetzung und im Gasdurchsatz”, Dissertation, T. U. Berlin, 1975.

 

Arcuri, K. B., Schwartz, L. H., Butt, J. B., “Olefin incorporation on supported FeCo alloy Fischer-Tropsch catalysts”, Sadhana, 10(1-2), 1987, pp. 146-162.

 

Arters, D. C., Fan, L. S., “Experimental methods and correlation of solid-liquid mass transfer in fluidized beds”, Chem. Eng. Sci., 45, 1990, pp. 965-975.

 

Arunarkavalli, T., Kulkarni, G. U., Rao, C. N. R., “Structural Changes Accompanying the Spin-State Transition in LaCoO3: A variable Temperature Co-K-EXAFS Study”, J. Solid State Chem., 107(1), 1993, pp. 299-301.

 

Asai, S., Yoshizawa, H., “Individual longitudinal dispersion coefficients of two immiscible liquids in bubble columns”, Ind. Eng. Chem. Res., 31(2), 1992, pp. 587-592.

 

Asai, S., Tajiri, H., Hikita, H., “Simultaneous absorption of hydrogen sulphide and ammonia into water”, Gas Sep. & Purif., 3(1), 1989, pp. 7-12.

 

Asfour, A.-F. A., Nhaesi, A. H., “An improved model for mass transfer in three-phase fluidized beds”, Chem. Eng. Sci., 45, 1990, pp. 2895-2900.

 

Asinger, F., “Paraffins – Chemistry and Technology”, (translation of “Chemie und Technologie der Paraffinkohlenwasserstoffe”, Akademie-Verlag, 1962, B. J. Hazzard, transl.), Pergamon Press, 1963.

 

Asolekar, S. R., Deshpande, P. K., Kumar, R., “A model for a foam-bed slurry reactor”, AIChE J., 34, 1988, pp. 150-154.

 

Asundi, R. K., Samuel, E., “On the Dissociation Energy of Carbon Monoxide”, Proc. Indian Acad. Sci. - Sect. A, 3(6), 1936, pp. 562-565.

 

Atkins, W. R. G., Wallace, T. A., “The molecular condition of mixed liquids. Part I. Mixtures of the lower aliphatic alcohols with water”, J. Chem. Soc., Trans., 1913, pp. 1461-1472.

 

Auton, T R., “The Dynamics of Bubbles, Drops and Particles in Motion in Liquids”, Ph. D. thesis, University of Cambridge, Cambridge, U.K., 1983.

 

Aveyard, R., Briscoe, B. J., “Adsorption of n-alkanols at alkane/water interfaces”, J. Chem. Soc., Far. Trans. 1, 1972, pp. 478-491.

 

Aveyard, R., Haydon, D. A., “Thermodynamic properties of aliphatic hydrocarbon/water interfaces”, Trans. Far. Soc., 1965, pp. 2255-2261.

 

Aveyard, R., Lawrence, A. S. C., “Calorimetric studies on n-aliphatic alcohol + water and n-aliphatic alcohol + water detergent systems”, Trans. Far. Soc., 1964, pp. 2265-2278.

 

Aveyard, R., Mitchell, R. W., “Distribution of n-alkanols between water and n-alkanes”, Trans. Far. Soc., 1969, pp. 2645-2653.

 

Axelrod, M. G., Gaffney, A. M., Pitchai, R., Sofranko, J., “Natural gas: fuel or feedstock?”, Stud. Surf. Sci. Catal., 81, 1994, pp. 93-101.

 

Azher, N. E., Gourich, B., Vial, C., Bellhaj, M. S., Bouzidi, A., Barkaoui, M., Ziyad, M., “Influence of alcohol addition on gas hold-up, liquid circulation velocity and mass transfer coefficient in a split-rectangular airlift bioreactor”, Biochem. Eng. J., 23(2), 2005, pp. 161-167.

 

Azib, H., “Catalyseurs fischer-tropsch à base de cobalt: influence de la dispersion du cobalt et promotion par le titane”, Thesis, Universit de Paris, 1996.

 

Baba Aissa, C., “Modelisation And Numerical Simulation Of Diphasic And Turbulent Flow In Chemical Reactors. Application To The Bubble Columns”, Dissertation, U. Nancy, France, 1998.

 

Bach, H. F., “Einfluß der Konstruktions-, Betriebs- und Stoffgrößen auf die Fluiddynamik und damit die Funktion von Blasensäulen”, Dissertation, T. U. Munchen, Germany, 1977.

 

Bahome, M. C., Jewell, L. L., Hildebrandt, D., Glasser, D., Coville, N. J., “Fischer–Tropsch synthesis over iron catalysts supported on carbon nanotubes”, Appl. Catal. A, 287(1), 2005, pp. 60-67.

 

Bai, C.-S., Soled, S., Dwight, K., Wold, A., “Preparation and characterization of dispersed ‘cobalt oxide’ supported on gamma-Al2O3”, J. Solid State Chem., 91(1), 1991, pp. 148-152.

 

Baiker, A., “Catalytic Conversion of Carbon Dioxide to Valuable Chemicals”, in “Greenhouse Gas Control Technologies” (B. Riemer, B. Elliason, A. Wokaun, eds.), Elsevier, 1999, pp. 391-396.

 

Baiker, A., “Potential of Carbon Dioxide Utilization in Heterogeneous Catalytic Synthesis”, Appl. Organomet. Chem., 14, 2000, p. 751.

 

Baiker, A., Koeppel, R., “Heterogeneous Catalytic Reduction of Carbon Dioxide over Metal/Zirconia Catalysts”, in “Proceedings of the International Conference on Carbon Dioxide Utilization, Bari, Italy”, 1993, pp. 295-302.

 

Baiker, A., Menzi, S., Maciejewski, M., Kilo, M., Wokaun, A., “Hydrogenation of CO2 over Copper, Silver and Gold/Zirconia Catalysts. Comparative Study of Catalyst Properties and Reaction Pathways”, Stud. Surf. Sci. Catal., 75, 1993, p. 1257.

 

Baiker, A., Monti, D., “Interaction of Ammonia with Metallic Copper, Nickel and Cobalt Studied by Temperature Programmed Desorption”, Ber. Bunsenges. Phys. Chem., 87, 1983, p. 602.

 

Baiker, A., Monti, D., Fan, Y. S., “Deactivation of Copper, Nickel and Cobalt Catalysts by Interaction with Aliphatic Amines”, J. Catal., 88, 1984, p. 81.

 

Baird, T., Campbell, K. C., Holliman, P. J., Hoyle, R. W., Huxam, M., Stirling, D., Williams, B. P., Morris, M., “Cobalt-zinc oxide absorbents for low temperature gas desulfurisation”, J. Mater. Chem., 1999(2), pp. 599-605.

 

Baird, T., Campbell, K. C., Holliman, P. J., Hoyle, R., Noble, G., Stirling, D., Williams, B. P., “Mixed cobalt–iron oxide absorbents for low-temperature gas desulfurisation”, J. Mater. Chem., 2003(9), pp. 2341-2347.

 

Baird, T., Campbell, K. C., Holliman, P. J., Hoyle, R., Stirling, D., Williams, B. P., “Mixed Co–Zn–Al oxides as absorbents for low-temperature gas desulfurisation”, Far. Trans., 1995(18), pp. 3219-3230.

 

Baird, T., Denny, P. J., Hoyle, R., McMonagle, F., Stirling, D., Tweedy, J., “Modified zinc oxide absorbents for low-temperature gas desulfurisation”, Far. Trans., 1992(22), pp. 3375-3382.

 

Baker, B. G., Clark, N. J., “Synthesis gas to motor fuel via light alkenes”, Stud. Surf. Sci. Catal., 36, 1988, pp. 497-501.

 

Baker, B. G., Daly, P., “The effect of catalyst activity on product distribution in olefin synthesis”, Stud. Surf. Sci. Catal., 81, 1994, pp. 449-453.

 

Bakkerud, P. K., Gol, J. N., Aasberg-Petersen, K., Dybkjaer, I., “Preferred synthesis gas production routes for GTL”, Stud. Surf. Sci. Catal., 147, 2004, pp. 13-18.

 

Bakos, M., Charpentier, J. C., “Taux de retention pour des ecoulements gaz-liquide a co-courant vers le bas dans les colonnes a garnissage arrose et noyé”, Chem. Eng. Sci., 25(11), 1970, pp. 1822-1825.

 

Barbier, A. F., “Preparation De Nouveaux Catalyseurs Co/SiO2 Et Reactivite En Synthese Fischer-Tropsch”, Thesis, Lyon, France, 1998.

 

Bark, L. S., Higson, H. G., “A review of the methods available for the detection and determination of small amounts of cyanide”, Analyst, 1963, pp. 751-760.

 

Barrault, J., “Selective hydrogenation of carbon monoxide on supported iron or cobalt catalysts: effects of manganese oxide and/or chloride”, in “Metal-Support and Metal-Additive Effects in Catalysis” (Imelik, B., et al., eds.), Elsevier, Amsterdam, 1982, pp. 225-231.

 

Barratt, S., Titley, A. F., “The catalytic reduction of hydrogen cyanide”, J. Chem. Soc., Trans., 1919, pp. 902-907.

 

Barrault, J., Avila, Y., “Selective conversion of syngas into light olfeins in presence of bifunctional catalysts”, Stud. Surf. Sci. Catal., 81, 1994, pp. 487-489.

 

Bartelmus, G., Gancarczyk, A., Stasiak, M., “Hydrodynamics of cocurrent fixed-bed three-phase reactors.: Part I. The effect of physicochemical properties of the liquid on pulse velocity”, Chem. Eng. Proc., 37(4), 1998, pp. 331-341.

 

Barthels, H., “Meßverfahren für Zweiphasenströmungen”, Chem.-Ing.-Tech., 40(11), 1968, pp. 530-537.

 

Bartholomé, E., Mayer, H. H., Schmidt, H. W., “Aufbau und Einsatz eines Computerprogramms zur Beschreibung chemischer Umsetzungen in Blasensäulen”, Chem.-Ing.-Tech., 45(15), 1973, pp. 974-979.

 

Barton, D. M., Smiley, R. H., “A policy proposal to stimulate synthetic fuel production”, Resources & Energy, 2(2-3), 1979, pp. 163-177.

 

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Basu, S., Krishnamurthy, V. A., “Study of FT process using nitrited iron catalyst”, in “Proceedings of the Symposium on Chemicals and Oils from Coal – December 6 to 8, 1969” (A. R. N. Rao, et al., eds.), Central Fuel Research Institute, Ranchi, India, 1972, pp. 183-188.

 

Bauer, T., Roy, S., Lange, R., Al-Dahhan, M., “Liquid saturation and gas-liquid distribution in multiphase monolithic reactors”, Chem. Eng. Sci., 60(11), 2005, pp. 3101-3106.

 

Baumer, M., Frank, M., Libuda, J., Stempel, S., Freund, H.-J., “Growth and morphology of Rh deposits on an alumina film under UHV conditions and under the influence of CO”, Surf. Sci., 391(1-3), 1997, pp. 204-215.

 

Bauquis, P.-R., “What markets today and tomorrow for synthesis gas ?”, Erdöl Erdgas Kohle., 117(2), 2001, pp. 89-95.

 

Bayrer, R. L., “Appraisal of current projects in synthetic fuels technology”, Fuel, 70(11), 1991, pp. 1327-1329.

 

Becker, E. R., Nuttall, T. A., “Controlled catalyst distribution on supports by co-impregnation”, Stud. Surf. Sci. Catal., 3, 1978, pp. 159-170.

 

Becker, S., “Experimentelle Untersuchungen von Blasensäulen als Basis für detaillierte Modellrechnungen”, Dissertation, Stuttgart, Germany, 1996.

 

Bed Abdesselam, A., Rachmna, S., Zoulalian, A., “Etude hydrodynamique et du transfert de matiere gaz-liquide d’un reacteur triphase a lit fluidise par une emulsion gaz-liquide generee dan une venturi a emulsion place en amont du lit”, Entropie, 143/144, 1988, pp. 61-69.

 

Beenackers, A. A. C. M., Graaf, G. H., “Comparison of two-phase and three-phase methanol synthesis processes”, Chem. Eng. Proc., 35(6), 1996, pp. 413-427.

 

Beenackers, A. A. C. M., van Swaaij, W. P. M., “Slurry reactors: fundamentals and applications”, in “Chemical Reactor Design and Technology” (H. de Lasa, ed.), NATO ASI, Martinus Nijhoff, the Hague, 1986, pp. 463-538.

 

Beenackers, A. A. C. M., van Swaaij, W. P. M., “Mass transfer in gas-liquid slurry reactors”, Chem. Eng. Sci., 48, 1993, pp. 3109-3139.

 

Behner, H., Spiess, W., Wedler, G., Borgmann, D., Freund, H.-J., “Electron energy loss study of the electronically excited states of adsorbed CO2: Case study CO2/Fe”, Surf. Sci. Lett., 184(3), 1987, p. A214.

 

Belding, J. A., Burnett, W. M., “From oil and gas to alternate fuels: The transition in conversion equipment”, Energy Conversion, 17(2-3), 1977, pp. 57-65.

 

Bellagi, A., Hammer, H., “Mathematische Modellierung eines Wirbelschichtreaktors für die Methanisierung von Kohlenmonoxid”, Chem.-Ing.-Tech., 56(1), 1984, pp. 60-62.

 

Bellagi, A., Hammer, H., “Methanisierung von Kohlenmonoxid in der Wirbelschicht”, Chem.-Ing.-Tech., 56(2), 1984, pp. 122-123.

 

Bello, R. A., Robinson, C. W., Moo-Young, M., “Liquid circulation and mixing characteristics of air-lift contactors”, Can. J. Chem. Eng., 62, 1984, pp. 573-577.

 

Belosludov, R., Kubota, T., Sakahara, S., Yajima, K., Takami, S., Kubo, M., Miyamoto, A., “Investigation of structural and catalytic properties of Fe-based Fisher-Tropsch catalysts: Application of density functional theory”, Nippon Kagakkai Koen Yokoshu, 79(1), 2001, p. 374.

 

Belosludov, R., Kubota, T., Sakahara, S., Yajima, K., Takami, S., Kubo, M., Miyamoto, A., “Role of promoter on transition metal catalysts in Fischer-Tropsch synthesis: Density functional study”, Shokubai Toronkai Toronkai A Yokoshu, 87, 2001, p. 95.

 

Belosludov, R., Sakahara, S., Yajima, K., Takami, S., Kubo, M., Miyamoto, A., “Density Functional Study of Metal Catalysts for Fischer-Tropsch Synthesis”, Nippon Kagakkai Koen Yokoshu, 78(1), 2000, p. 334.

 

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Bendix, M., “(2-Formaldehyd)zirconocen-Komplexe als Modellsysteme für die Fischer-Tropsch-Chemie”, Thesis, Westfalen, Germany, 1994.

 

Bennett, K. F., “Matching petrol and diesel fuel demand in South Africa”, Energy Policy, 18(3), 1990, pp. 255-266.

 

Berend, J. K., “Oxygenated products from carbon monoxide hydrogenation over supported rhodium and iridium catalysts : a catalytic and characterization study”, Dissertation, TU Eindhoven, 1987.

 

Berg, S., Steiff, A., Weinspach, P.-M., “Gasgehaltsverteilung und Verweilzeitverhalten der Gasphase in Blasensäulen mit längsangeströmten Rohrbündeleinbauten”, Chem.-Ing.-Tech., 66(5), 1994, pp. 724-727.

 

Berg, S., Steiff, A., Weinspach, P.-M., “Gasphasenvermischung in Blasensäulen mit Einbauten”, Chem.-Ing.-Tech., 64(5), 1992, pp. 453-456.

 

Berko, A., Solymosi, F., “Effects of potassium on the chemisorption of CO2 and CO on the Pd(100) surface”, Surf. Sci., 171(3), 1986, pp. L498-L502.

 

Bernemann, K., “Zur Fluiddynamik und zum Vermischungsverhalten der flüssigen Phase in Blasensäulen mit längsangeströmten Rohrbündeln”, Dissertation, U. Dortmund, Germany, 1989.

 

Bernemann, K., Steiff, A., Weinspach, P.-M., “Zum Einfluß von längsangeströmten Rohrbündeln auf die großräumige Flüssigkeitsströmung in Blasensäulen”, Chem.-Ing.-Tech., 63(1), 1991, pp. 76-77.

 

Bernasconi, R., “Sintesi di Fischer-Tropsch con catalizzatori a base di rutenio su setacci molecolari: studio degli effetti elettronici, di struttura e delle variabili di processo”, Dissertation, U. Milano, Italy, 1993.

 

Berry, F. J., Brett, M. E., Bowen, P., Jones, W., “Mössbauer investigations of some chemical treatments of iron surfaces”, J. Chem. Soc., Dalton Trans., 1981(7), pp. 1450-1455.

 

Berry, F. J., Changhai, X., Jobson, S., Strange, R., “EXAFS investigation of structural changes induces during the pretreatment of a titania-supported iron–ruthenium catalyst”, J. Chem. Soc., Far. Trans. 1, 1989(11), pp. 3891-3898.

 

Berry, F. J., Hongzhang, D., Jobson, S., Dongbai, L., Liwu, L., “Oxidation of iron in titania-supported iron–ruthenium under reducing conditions: in situ evidence from 57Fe Mössbauer spectroscopy”, J. Chem. Soc., Chem. Comm., 1987(3), pp. 186-188.

 

Bhaskarwar, A. N., Kumar, R., Gandhi, K. S., “Mass transfer accompanied by a chemical reaction in an emulsion foam bed reactor”, AIChE J., 33, 1987, pp. 331-335.

 

Bhole, M. R., Joshi, J. B., “Stability analysis of bubble columns: Predictions for regime transition”, Chem. Eng. Sci., 60(16), 2005, pp. 4493-4507.

 

Bian, G., Fujishita, N., Oonuki, A., Nomoto, H., Yamada, M., “Changes in microstructure of a reduced cobalt catalyst during performing FT synthesis determined by in situ high-pressure syngas adsorption”, Nippon Enerugi Gakkai Sekitan Kagaku Kaigi Happyo Ronbunshu, 38, 2001, pp. 421-424.

 

Bian, G., Koizumi, N., Yamada, M., “Recent Development of Fischer-Tropsch Synthesis Catalyst”, J. Japan Inst. Energy, 81(11), 2002, pp. 974-980.

 

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Bieszk, H., Hammer, H., “Zum Einfluß suspendierter Feststoffe auf den Wärmeübergang von einer festen Wand an die disperse Phase in Blasensäulen”, Chem.-Ing.-Tech., 60(5), 1988, pp. 403-404.

 

Bigot, V., “Etude des parametres caracteristiques d’un reacteur a lit fluidise triphasique: retensions des phases, cartes d-ecoulement du gaz et transfert de matiere gaz-liquide”, Dissertation, Institut National des Sciences Appliquees, Toulouse, France, 1990.

 

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Birdsa, N. J. M., Lee, A. G., Levine, Y. K., Metcalfe, J. C., Partington, P., Roberts, G. C. K., “Analysis of the 13C T 1 relaxation times in n-alkanes”, J. Chem. Soc., Chem. Comm., 1973, pp. 757-758.

 

Biswas, J., “Analysis of a foam bed reactor”, Ph. D. Thesis, Indian Institute of Science, Bangalore, India, 1975.

 

Biswas, J., Asolekar, S. R., Kumar, R., “Effect of surface resistance arising due to surfactant on gas absorption accompanied by a chemical reaction in a foam bed reactor”, Can. J. Chem. Eng., 65, 1987, pp. 462-469.

 

Biswas, J., Kumar, R., “Mass transfer with chemical reaction in a foam bed reactor”, Chem. Eng. Sci., 36, 1981, pp. 1547-1556.

 

Blasey, G., Steiff, A., Weinspach, P.-M., “Zur Fluiddynamik und zum Gasgehalt in Freistrahl- und Strahldüsenreaktoren”, Chem.-Ing.-Tech., 59(5), 1987, pp. 432-433.

 

Blasey, G., Steiff, A., Weinspach, P.-M., “Zum Vermischungsverhalten der Gas- und Flüssigkeitsphase in Freistrahl- und Strahldüsenreaktoren”, Chem.-Ing.-Tech., 59(5), 1987, pp. 434-435.

 

Blaß, E., Cornelius, W., “Betriebsverhalten von Blasensäulen-Kaskadenreaktoren”, Chem.-Ing.-Tech., 45(5), 1973, pp. 236-241.

 

Blaß, E., Cornelius, W., “Verweilzeitverteilung von Feststoff und Flüssigkeit in Blasensäulen-Kaskadenreaktoren bei Gleichstrom von Gas, Flüssigkeit und suspendiertem Feststoff”, Chem.-Ing.-Tech., 48(10), 1976, p. 901.

 

Blekkingh, J. J. A., “Berekeningen gebaseerd op de analyse van het uitgaande gas : extra vorming van water en adsorptie van water en koolzuur”, Dissertation, Eindhoven, the Netherlands, 1976. 

 

Blouri, B., Giraud, J., Nouri, S., Herault, D., “Steam cracking of high-molecular-weight hydrocarbons”, Ind. Eng. Chem. Proc. Res. Dev., 20(2), 1981, pp. 307-313.

 

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Bobik, M., “Hydraulische Verdichtung in Abstrom-Blasensäulen”, Chem.-Ing.-Tech., 53(7), 1981, pp. 576-577.

 

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Bol, J., Gebhart, J., Wurzbacher, G., “Streulichtverfahren zur kontinuierlichen Messung der mittleren Teilchengröße in polydispersen Suspensionen hoher Konzentration”, Chem.-Ing.-Tech., 44(21), 1972, pp. 1219-1222.

 

Bolt, P. H., Habraken, F. H. P. M., Geus, J. W., “Formation of Nickel, Cobalt, Copper, and Iron Aluminates from alpha- and gamma-Alumina-Supported Oxides: A Comparative Study”, J. Solid State Chem., 135(1), 1998, pp. 59-69.

 

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Borer, A. L., “The promoting effect of La2O3 and ZrO2 on the catalytic properties of Rh-SiO2 catalysts in CO hydrogenation”, Dissertation, Technische Hochschule Zurich, 1993.

 

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Botes, F. G., “The effect of a higher operating temperature on the Fischer-Tropsch/HZSM-5 bifunctional process”, Appl. Catal. A, 284(1-2), 2005, pp. 21-29.

 

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