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Naccache, C., Primet, M., Mathieu, M. V., "Study of hydrogen and carbon monoxide interactions with Pd-Y zeolite by ESR and IR spectroscopy", Adv. Chem. Ser., 121, 1973, pp. 266-280.
Nacef, S., “Hydrodynamique des lits fluidises gaz-liquide-solide. Effets du distributeur et de la natur de liquide”, Thesis, Institut National Polytechnique de Lorraine, nancy, France, 1991.
Nacef, S., Wild, G., Kim, S. D., Laurent, A., Charpentier, J. C., “Effets du distributeur de gaz sur les parametres hydrodynamiques de la fluidisation triphasique en presence et en absence d’inhibiteurs de coalescence”, in “Recents Progres en Genie des Procedes” (A. Storck, G. Wild, eds.), Lavoisier, Technique et Documentation, Paris, 4(10), 1990, pp. 295-301.
Nacef, S., Wild, G., Laurent, A., Kim, S. D., “Effets d’echelle en fluidisation gaz-liquide-solide”, Entropie, 143-144, 1988, pp. 83-101.
Nagai, K., “Flow birefringence of real polymer chains. Application to n-alkanes”, J. Phys. Chem., 74(18), 1970, pp. 3422-3428.
Nagai, M., Kurakami, T., “Reverse Water Gas Shift Reaction over Molybdenum Carbide”, J. Chem. Eng. Japan, 38(10), 2005, pp. 807-812.
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.
Nagata, H., Yamada, K., Kishida, M., Wakabayashi, K., Wada, Y., “Catalytic hydrogenation of carbon dioxide into C2+ alcohols with Ir-MoSiO2”, Energy Conv. & Manag., 36(6-9), 1995, pp. 657-660.
Nagel, O., Hegner, B., Kürten, H., “Kriterien für die Auswahl und die Auslegung von Gas/Flüssigkeits-Reaktoren”, Chem.-Ing.-Tech., 50(12), 1978, pp. 934-944.
Nagel, O., Kurten, H., Hegner, B., "Criteria for the selection and design of gas liquid reactors", Int. Chem. Eng., 21, 1981, pp. 161-172.
Nagel, O., Kürten, H., Hegner, B., “Die Stoffaustauschfläche in Gas/Flüssigkeits-Kontaktapparaten Auswahlkriterien und Unterlagen zur Vergrößerung”, Chem.-Ing.-Tech., 45(14), 1973, pp. 913-920.
Nagel, O., Kürten, H., Hegner, B., Sinn, R., “Strahldüsenreaktoren. Teil II: Stoffaustauschbeziehungen für die Gasabsorption mit chemischer Reaktion bei extremer Variation der Filmdicke”, Chem.-Ing.-Tech., 42(14), 1970, pp. 921-926.
Nagel, O., Kürten, H., Sinn, R., “Stoffaustauschfläche und Energiedissipationsdichte als Auswahlkriterien für Gas/Flüssigkeits-Reaktoren Teil I: Die Stoffaustauschfläche in verschiedenen Gas/Flüssigkeits-Reaktoren als Funktion der Betriebsparameter”, Chem.-Ing.-Tech., 44(6), 1972, pp. 367-373.
Nagel, O., Kürten, H., Sinn, R., “Stoffaustauschfläche und Energiedissipationsdichte als Auswahlkriterien für Gas/Flüssigkeits-Reaktoren. Teil II: Korrelation der Stoffaustauschfläche als Funktion der Energiedissipationsdichte mit Hilfe einer Modellvorstellung”, Chem.-Ing.-Tech., 44(14), 1972, pp. 899-903.
Nagel, O., Kürten, H., Sinn, R., “Strahldüsenreaktoren, Teil I: Die Anwendung des Ejektorprinzips zur Verbesserung der Gasabsorption in Blasensäulen”, Chem.-Ing.-Tech., 42(7), 1970, pp. 474-479.
Nagendran, V., "Characterization of exhaust emissions from catalyzed trap-equipped non-road heavy-duty diesel engines", M. S. Thesis, West Virginia University, 2003.
Nagorny, K., Bubert, S., "Moessbauer spectroscopic investigations of bimetallic FeCo, FeNi, and FeRu model catalysts supported on magnesium hydroxide carbonate", J. Catal., 108(1), 1987, pp. 112-134.
Nagorny, K., Weber, G., "Moessbauer Investigations of Fischer Tropsch Catalysts", Proceedings of the International Meeting on Highly Dispersed Iron Oxides and Corrosion, Lenningrad 1983, (W. Gunßer, F. Schmidt, eds.), Instute of Physical Chemistry - University of Hamburg.
Nagorny, K., Weber, G., "Mößbauer-spektroskopische Untersuchungen über kleine Eisenoxidteilchen auf BeO-Trägern und ihr Verhalten bei der Belegung mit H2 und CO unter Fischer-Tropsch-ähnlichen Bedingungen (Investigation by Moeßbauer-spectroscopy of small Fe-oxide particles supported on BeO and the behaviour during the adsorption with H2 and CO unter Fischer-Tropsch-similar conditions)", Ber. Busenges. physik. Chem., 81, 1977, p. 1109.
Nagy, D. L., "Trends in 57Co Mössbauer emission spectroscopy", Hyperfine Interactions, 83, 1994, p. 3.
Nagy, E., "On the three-phase mass transfer with solid particles adhered to the gas-liquid interface", Central Eur. J. Chem., 2, 2003, pp. 160-177.
Nagy, E., "Three-Phase Mass Transfer with non-Linear Equilibrium", Chem. Eng. J., 72, 1999, pp. 43-51.
Nagy, E., "Three-phase mass transfer: One-dimensional model", Chem. Eng. Sci., 50, 1995, pp. 827-836.
Nagy, E., Blickle, T., "The influence of dispersion conditions on mass transfer accompained by first-order moderate reaction", Hung. J. Ind. Chem., 4(11), 1983, pp. 71-76.
Nagy, E., Blickle, T., Horváth, K., "Untersuchung der Stoffübertragung mit einer chemischen Reaktion erster Ordnung von endlicher Geswindigkeit nach einem einheitlichen Modell, II. Untersuchung des Zweiphasenstoff Strömung durch Anwendung des Dispersionsmodells bei Gleichstromfahrweise", Chem. Techn., 35, 1983, pp. 445-448.
Nagy, E., Blickle, T., Ujhidy, A., "Enhancement of gas absorption as a function of the particle size in slurry reactor", Chem. Eng. Sci., 41, 1986, pp. 2193-2195.
Nagy, E., Blickle, T., Ujhidy, A., "Untersuchung der Stoffübertragung mit einer chemischen Reaktion erster Ordnung von endlicher Geswindigkeit nach einem einheitlichen Modell, I. Definition und Untersuchung der auf dem Haupstrom der Phasen bezogenen Stoffströme bei irreversiblen und reversiblen Reaktionen mit Hilfe der Zweifilmtheorie", Chem. Techn., 35, 1983, pp. 307-310.
Nagy, E., Blickle, T., Ujhidy, A., "Untersuchung der Stoffübertragung mit einer chemischen Reaktion erster Ordnung von endlicher Geswindigkeit nach einem einheitlichen Modell, III. Untersuchung des Zweiphasenstoffströmung durch Anwendung des Dispersionsmodells", Chem. Techn., 36, 1984, pp. 15-19.
Nagy, E., Blickle, T., Ujhidy, A., Horváth, K., "Mass transfer accompanied by first order intermediate reaction rate in two phase cocurrent flow with axial dispersion", Chem. Eng. Sci., 37, 1982, pp. 1817-1819.
Nagy, E., Hadik, P., “Three-Phase Mass Transfer: Effect of the Size Distribution”, Ind. Eng. Chem. Res., 42(21), 2003, pp. 5363-5372.
Nagy, J. B., van Eenoo, M.,. Derouane, E. G., "Highly dispersed supported iron particles from the decomposition of iron carbonyl on HY zeolite", J. Catal., 58(2), 1979, pp. 230-237.
Nagy-Magos, Z., Bor, G., Markó, L., "Study of Carbon Monoxide Insertion into the Carbon-Cobalt Bond." J. Organomet. Chem., 14, 1968, pp. 205-210.
Nahon, N., Perrichon, V., Turlier, P., “Hydrocondensation of CO: Catalytic activity of modified iron-alumina catalysts”, React. Kinet. Catal. Lett., 12(2), 1979, pp. 139-144.
Nahon, N., Perrichon, V., Turlier, P., Bussière, P., “Hydrocondensation of Co: Physicochemical studies of H2 activation-thermodesorption cycles on iron alumina catalysts”, React. Kinet. Catal. Lett., 11(3), 1979, pp. 281-286.
Nair, C. S. B., "Chemicals and industrial products from coal and by-products of coal utilisation", J. Mines, Met. Fuels, 23(6), 1975, pp. 301-309.
Naito, S., Ogawa, O., Ichikawa, M., Tamaru, K., “Formation of dimethyl ether from hydrogen and carbon dioxide over a graphite–PdCl2–Na catalyst”, J. Chem. Soc. Chem. Comm., 1972, pp. 1266-1266.
Nakagawa, H., Tsuge, S., Itho, T., Kimoto, M., "Characterization of hydrocarbon waxes by gas-liquid chromatography with a high-resolution glass capillary column", J. Chromat. A, 260, 1983, pp. 391-409.
Nakakita, K., Ban, H., Takasu, S., Hotta, Y., Inagaki, K., Weissman, W., Farrell, J. T., "Effect of Hydrocarbon Molecular Structure in Diesel Fuel on In-Cylinder Soot Formation and Exhaust Emissions", SAE Technical Paper 2003-01-1914, 2003.
Nakamura, A., “Overview of the gas demand and the potential market of gas-base liquid fuels”, J. Japanese Assoc. Petrol. Tech., 68(6), 2003, pp. 528-537.
Nakamura, J., Campbell , J. M., Campbell, C. T., "Kinetics and Mechanism of the Water-Gas Shift Reaction Catalyzed by the Clean and Cs-Promoted Cu(110) Surface: A Comparison to Cu(111)", Faraday Trans., 86, 1990, pp. 2725-2734.
Nakamura, J., Choi, Y., Fujitani, T., “On the Issue of the Active Site and the Role of ZnO in Cu/ZnO Methanol Synthesis Catalysts”, Top. Catal., 22(3-4), 2003, pp. 277-285.
Nakamura, J., Nakamura, I., Uchijima, T., Kanai, Y., Watanabe, T., Saito, M., Fujitani, T., “Methanol synthesis over a Zn-deposited copper model catalyst”, Catal. Lett., 31(4), 1995, pp. 325-331.
Nakamura, J., Tanaka, K., Toyoshima, I., "Reactivity of deposited carbon on Co-Al2O3 catalyst", J. Catal., 108(1), 1987, pp. 55-62.
Nakamura, M., Wood, B. J., Hou, P. Y., Wise, H., “Fischer-Tropsch synthesis with iron-cobalt alloy catalysts”, Stud. Surf. Sci. Catal., 7A, 1981, pp. 432-446.
Nakamura, T., Fujita, K., Kawanishi, K., Yamaguchi, N., Tsuge, A., “Study on the Vibrational Characteristics of a Tube Array Caused by Two-Phase Flow. Part I: Random Vibration”, J. Fluids & Structures, 9(5), 1995, pp. 519-538.
Nakamura, T., Fujita, K., Kawanishi, K., Yamaguchi, N., Tsuge, A., “Study on the Vibrational Characteristics of a Tube Array Caused by Two-Phase Flow. Part II: Fluidelastic Vibration”, J. Fluids & Structures, 9(5), 1995, pp. 539-562.
Nakanishi, K., Kurata, M., Tamura, M., “Physical Constants of Organic Liquids. A Nomograph for Estimating Physical Constants of Normal Paraffins and Isoparaffins”, J. Chem. Eng. Data, 5(2), 1960, pp. 210-219.
Nakanoh, N., Yoshida, F., "Gas Absorption by Newtonian and Non-Newtonian Liquids in a Bubble Column", Ind. Eng. Chem. Proc. Des. Dev., 19(1), 1980, pp. 190-195.
Nakanoh, N., Yoshida, F., “Transient characteristics of oxygen probes and determination of kLa”, Biotech. Bioeng., 25, 1983, pp. 1653-1654.
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.
Nakao, K., Takeuchi, H., Kataoka, H., Kaji, H., Otake, T., Miyauchi, T., "Mass transfer characteristics of bubble columns in recirculation flow regime", Ind. Eng. Chem. Proc. Des. Dev., 22(4), 1983, pp. 577-582.
Nakoryakon, V. E., Kashinsky, O. N., Burdukov, A. P., Odnoral, V. P., "Local characteristics of upward gas-liquid flow", Internat. J. Multiphase Flow, 7, 1981, pp. 63-81.
Nakoryakov, V. E., Dontsov, V. E., Pokusaev, B. G., "Pressure waves in a liquid suspension with solid particles and gas bubbles", Int. J. Multiphase Flow, 22(3), 1996, pp. 417-429.
Nakoryakov, V. E., Pokusaev, B. G., Pribaturin, N. A., Lezhnin, S. I., “Pressure wave dynamics in slug regime of gas-liquid flows”, in “Transient Phenomena in Multiphase Flow” (N. H. Afgan, ed.), Hemisphere Publishing, New York, 1988, pp. 387-394.
Nam, S. S., Iton, L. E., Suib, S. L., Zhang, Z., "Particle size determination of cobalt clusters in zeolites", Chem. Mater., 1(5), 1989, pp. 529-534.
Nam, S.-H., Cho, Y. J., Kang, Y., Kim, S. D., “Bubble Characteristics in Three-Phase Circulating Fluidized Beds”, J. Korean Inst. Chem. Eng., 38(6), 2000, pp. 859-863.
Nam, S.-S., Kim, H., Kishan, G., Choi, M.-J., Lee, K.-W., "Catalytic conversion of carbon dioxide into hydrocarbons over iron supported on alkali ion-exchanged Y-zeolite catalysts", App. Catal. A, 179(1-2), 1999, pp. 155-163.
Nam, S.-S., Kishan, G., Lee, M.-W., Choi, M.-J., Lee, K.-W., "Effect of lanthanum loading in Fe-K/La-Al2O3 catalysts for CO2 hydrogenation to hydrocarbons", Appl. Organomet. Chem., 14(12), 2000, pp. 794-798.
Nam, S.-S., Lee, S.-J., Kim, H., Jun, K.-W., Choi, M.-J., Lee, K.-W., "Catalytic Conversion of Carbon Dioxide into Hydrocarbons over Zinc Promoted Iron Catalysts", Energy Conv. Mgmt., 38, 1997, pp. 397-402.
Namba, S., Shimazaki, Y., Takahashi, N., Yashima, T., "Characterization of nickel Y zeolite catalysts for methanation of carbon monoxide", Sekiyu Gakkaishi, 22(4), 1979, pp. 229-233.
Napp, W., “Zur chemischen Reaktionstechnik in Blasensäulen: Stoff- und Wärmeübergang von einer festen Wand an eine begaste Flüssigkeit oder Suspension”, Dissertation, T. H. Aachen, Germany, 1980.
Napp, W., Hammer, H., “Zur chemischen Reaktionstechnik von Blasensaulen-Reaktoren: Stoff- und Warmeubergang von einer festen Wand an eine begaste Flussigkeit oder Suspension”, Chem.-Ing.-Tech., 55(8), 1983, pp. 634-635.
Narayan, R. L., Savargaonkar, N., Pruski, M., King, T. S., "Hydrogen Chemisorption and Mobility on Ru/SiO2, K/Ru/SiO2 and Ru-Ag/SiO2", Stud. Surf. Sci. Catal., 101, 1996, p. 921.
Narayanan, S., Bhatia, V. K., Guha, D. K., "Suspension of solids by bubble agitation", Canadian J. Chem. Eng., 47, 1969, pp. 360-364.
Narayanan, S., Uma, K., “Influence of lithium on reduction, dispersion and hydrogenation activity of nickel on alumina catalysts”, J. Chem. Soc. Far. Trans. 1, 1987, pp. 733-742.
Narayanan, S., Uma, K., “Studies of the effect of calcination on the dispersion and reduction of nickel supported on alumina by X-ray photoelectron spectroscopy, X-ray diffraction, chemisorption and catalytic activity”, J. Chem. Soc. Far. Trans. 1, 1985, pp. 2733-2744.
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.
Narsimhan, G., Ruckenstein, E., “Effect of bubble size distribution on the enrichment and collapse of foams”, Langmuir, 2, 1986, pp. 494-508.
Narsimhan, G., Ruckenstein, E., “Hydrodynamics, enrichment and collapse in foams”, Langmuir, 2, 1986, pp. 230-238.
Narval, 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, 1988, p. 193.
Nasirzadeh, K., Neueder, R., Kunz, W., “Vapor Pressure Determination of the Aliphatic C5 to C8 1-Alcohols”, J. Chem. Eng. Data., 51(1), 2006, pp. 7-10.
Nassar, R., "Probability of conversion of gas molecules undergoing reaction in a multiphase flow reactor", Hung. J. Ind. Chem., 22, 1994, pp. 105-109.
Nassar, R., Too, J. R., Fan, L. T., 1986. "A probabilistic model of the Fischer-Tropsch synthesis in a flow reactor". Chem. Eng. Comm., 43, 1986, pp. 287-300.
Nassir, M. H., "The Effect of Hydrogen on the Bonding and Dissociation of Carbon Monoxide on an Iron(100) Surface", Ph. D. Thesis, University of Maine, 1993.
Nassir, M. H., Dwyer, D. J., "Sequential Carbon-Oxygen Bond Cleavage in Dissociative Chemisorption of CO2 on Fe(100)", J. Vac. Sci. Tech. A, 11(4), 1993, p. 2104.
Nassir, M. H., Fruhberger, B., Dwyer, D. J., "Coverage Dependence of CO Dissociation on Clean and Hydrogen Presaturated Fe (100) Surface", Surf. Sci., 312, 1994, pp. 115-123.
Nassos, G., Bankoff, S. G., "Slip velocity ratios in an air-water systems under steady state and transient conditions", Chem. Eng. Sci., 22, 1967, pp. 681-688.
Natarajan, M., Frame, E. A., Naegeli, D. W., Asmus, T. W., Clark, W., Garbak, J., González, M. A., Liney, E., Piel, W. J., Wallace III, J. P., "Oxygenates for Advanced Petroleum-Based Diesel Fuels: Part 1. Screening and Selection Methodology for the Oxygenates", SAE Technical Paper 2001-01-3631, 2001.
Natarajan, M., Gonzalez, M. A., Clark, W., Kenney, T. E., Ball, J. C., Wolf, L. R., Garbak, J. A., Wallace, J. P., Frame, E. A., Hilden, D. L., Wright., K. J., Yost, D. M., "Impact of Engine Operating Conditions on Low-Nox Emissions in a Light-Duty CIDI Engine Using Advanced Fuels", SAE Technical Paper 2002-01-2884, 2002.
Nate, T., Himmelblau, D. M., "Mass transfer from large single bubbles at high Reynolds numbers", AIChE J., 13(4), 1967, pp. 697-702.
Natta, G., Columbo, U., Pasquon, I., “Direct catalytic synthesis of higher alcohols from carbon monoxide and hydrogen”, chapter 3 in “Catalysis – Volume V” (P. H. Emmett, ed.), Reinhold Publishing, NY, 1957, pp. 131-174.
Nauman, E. B., Mallikarjun, R., "Generalized boundary conditions for the axial dispersion model", Chem. Eng. J., 26, 1983, pp. 231-237.
Naumov, V. A., Gavrilov, L. I., "Determination of the kinetic parameters of the Sabatier reaction over nickel catalyst from the critical ignition conditions", Kinet. Catal. (Engl. Transl.), 20, 1979, pp. 1306-1308.
Naumov, V. A., Krylov, O. V., "Mechanism for the Sabatier reaction over a nickel catalyst", Kinet. Katal., 20(5), 1979, pp. 1347-1350.
Naumov, V. A., Krylov, O. V., Gavrilov, L. I., "Kinetics of the Sabatier reaction over a nickel catalyst in a flow system", Kinet. Katal., 20(4), 1979, pp. 905-909.
Naumov, V. A., Krylov, O. V., Snetkov, A. Y., "Recrystallization of a nickel-chromium oxide catalyst", Kinet. Katal., 19(3), 1978, pp. 725-729.
Naumov, Yu. B., Startseva, E. S., Berezina, Yu. I., Shumilkina, V. A., Beskov, V. S., Terteryan, A. M., "Kinetics of carbon monoxide hydrogenation on Ni/Al/Cr catalyst", Kinet. Katal., 25(6), 1984, pp. 1365-1368.
Navalikhina, M. D., Krylov, O. V., “Heterogeneous hydrogenation catalysts”, Russian Chem. Rev., 67(7), 1998, pp. 587-616.
Navarro, R. M., Alvarez-Galvan, M. C., Rosa, F., Fierro, J. L. G., “Hydrogen production by oxidative reforming of hexadecane over Ni and Pt catalysts supported on Ce/La-doped Al2O3”, Appl. Catal. A, 297(1), 2006, pp. 60-72.
Navrotsky, A., Akaogi, M., "a-ß-? Phase Relations in Fe2SiO4-Mg2SiO4 and Co2SiO4-Mg2SiO4: Calculation from Thermochemical Data and Geophysical Applications", J. Geophys. Res., 89, 1984, pp. 10135-10140.
Navrotsky, A., Pintchovski, F. S., Akimoto, S., "Calorimetric Study of the Stability of High Pressure Phases in the Systems CoO-SiO2 and "FeO-SiO2 and Calculation of Phase Diagrams in MO-SiO2 Systems", Phys. Earth Planet. Interiors, 19, 1979, pp. 275-292.
Nawdali, M., Ahlafi, H., Pajonk, G. M., Bianchi, D., "Elementary Steps Involved In The Hydrogenation Of The Linear Co Species Adsorbed On A Ru/Al2O3 Catalyst", J. Molec. Catal., 162, 2000, pp. 247-256.
Nawdali, M., Bianchi, D., "The impact of the Ru precursor on the adsorption of CO on Ru/Al2O3: amount and reactivity of the adsorbed species", Appl. Catal. A, 231(1-2), 2002, pp. 45-54.
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.
Ndlovu, S. B., Phala, N. S., Hearshaw-Timme, M., Beagly, P., Moss, J. R., Claeys, M., van Steen, E., "Some evidence refuting the alkenyl mechanism for chain growth in iron-based Fischer-Tropsch synthesis", Catal. Today, 71(3-4), 2002, pp. 343-349.
Neal, L. G., Bankhoff, S. G., "A high resolution resistivity probe for determination of local void properties in gas-liquid flow", AIChE J., 9(4), 1963, pp. 490-494.
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.
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., Gray, D., Challman, D., Derbyshire, F., "The pioneer plant concept: co-production of electricity and added-value products from coal", Fuel, 78(7), 1999, pp. 815-823.
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., "A Fundamental Approach to Bubble Column Scale-Up Based on Quality of Mixedness", J. Chem. Eng. Japan, 32, 1999, pp. 431-439.
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.
Neef, H. J., Stump, N., “Synfuels programmes in the Federal Republic of Germany – aims and results”, in “Synthetic Fuels” (G. E. Beghi, ed.), D. Riedel Publishing Co., Boston, 1985, pp. 417-434.
Neelakantan, K., Gehlawat, J. K., “New chemical systems for the determination of liquid-side mass transfer coefficient and effective interfacial area in gas-liquid contactors”, Chem. Eng. J., 24, 1982, pp. 1-6.
Neethling, S. J., Cilliers, J. J., "The Physical Modeling of Foam and Froth Behavior", Chem. Eng. Tech., 24(12), 2001, pp. 1309-1312.
Nefedov, B. K., "Synthesis of organic compounds on basis of carbon monoxide", Science, Moscow, 1978, pp. 44-56.
Nefedov, B. K., Eidus, Ya. T., “The Development Of Catalytic Syntheses Of Organic Compounds From Carbon Monoxide And Hydrogen”, Russian Chem. Rev., 34(4), 1965, pp. 272-284.
Nefedov, B. K., Eiidus, Ya. T., "Development of catalytic synthesis of organic compounds from carbon monoxide and hydrogen", Russ. Chem. Rev., 34(4), 1965, pp. 630-652.
Neff , L. D., Wallace, J. L., "Displacement of carbon monoxide from iron films by mercaptans", J. Catal., 44(2), 1976, pp. 332-334.
Neff, L. D., Sturdivant, A. E., Wallace, J. L., "Desorption of carbon monoxide from nickel using mercaptans", J. Catal., 63(2), 1980, pp. 324-330.
Nehasil, V., Hrncir, T., Zafeiratos, S., Ladas, S., Matolin, V., "Study of carbon monoxide adsorption on Rh/Al2O3 model catalysts in Dependence on substrate orientation", Surf. Sci., 454 - 456, 2000, p. 298.
Nehasil, V., Zafeiratos, S., Ladas, S., Matolin, V., "The interaction of carbon monoxide with Rh/Al2O3 model catalysts: Influence of the support structure", Surf. Sci., 433-435, 1999, p. 215.
Nehring, N. L., D'Amore, F. D., "Gas chemistry and thermometry of the Cerro Prieto, Mexico, geothermal field", Geothermics, 13(1), 1984, pp. 75-89.
Nekrasov N. N., "Problems in development of an synthetic liquid fuel industry", J. Chem. Ind., 1935, 5, p. 14.
Nelson, S. G., Spencer, M. J. S., Snook, I. K., Yarovsky, I., “Effect of S contamination on properties of Fe(100) surfaces”, Surf. Sci., 590(1), 2005, pp. 63-75.
Nelson, W. L., Stewart, L. D., “Effect of Oil on Plastic Properties of Petroleum Waxes”, Ind. Eng. Chem., 41(10), 1949, pp. 2231-2238.
Nemets, L. L., Razumov, I. M., Manshilin, V. V., "Volumetric contents of liquid and solid phases in three-phase fluidized bed in relation to viscosity of liquid medium", Chem. Technol. Fuels Oils (USSR) (Engl. Transl.), 11(1-2), 1975, pp. 125-127.
Nene, R. G., "Which route to coal liquefaction.", Hydrocarbon Proc., 60(11), 1981, pp. 287-290.
Nerlov, J., Chorkendorff, I., “Promotion through gas phase induced surface segregation: methanol synthesis from CO, CO2 and H2 over Ni/Cu(100)”, Catal. Lett., 54(4), 1998, pp. 171-176.
Nerlov, J., Sckerl, S., Wambach, J., Chorkendorff, I., "Methanol synthesis from CO2, CO and H2 over Cu(100) and Cu(100) modified by Ni and Co", Appl. Catal. A, 191(1-2), 2000, pp. 97-109.
Nesterov, G. A., Paukshtis, E. A., Zakharov, V. A., “IR spectroscopic studies of CO interaction with surface zirconium hydrides”, React. Kinet. Catal. Lett., 26(3-4), 1984, pp. 357-361.
Neti, S., Mohamed, O. E. E., “Numerical simulation of turbulent two-phase flows”, Internat. J. Heat & Fluid Flow, 11(3), 1990, pp. 204-213,
Nettelhoff, H., "Produktinhinierung bei der Fischer-Tropsch Synthese in Suspensionsphase (Product inhibition during Fischer-Tropsch-synthesis in suspended phase)", Disseration, U. Oldenburg, 1985.
Nettelhoff, H., Kokuun, R., Ledakowicz, S., Deckwer, W.-D., "Studies on the kinetics of Fischer-Tropsch synthesis in slurry phase", Ger. Chem. Eng., 8, 1985, pp. 177-185.
Neubauer, G., "Beitrag zur Auslegung von Lochböden für die Flüssigkeitsbegasung in Blasensäulen unter Hochdruck (Contribution for the design of perforated plates for the fumigation aeration of liquids in bubble columns under high pressure)", Dissertation, TU-München, 1977.
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.
Newsome, D. S., "The water-gas shift reaction", Catal. Rev.-Sci. Eng., 21, 1980, pp. 275-318.
Ng, C. F., Martin, G. A., "Poisoning of Ni/SiO2 catalysts with H2S: Chemisorption of H2, CO, C6H6, and C2H2 studied by magnetic methods", J. Catal., 54(3), 1978, pp. 384-396.
Ngantsoue-Hoc, W., Zhang, Y., O`Brien, R. J., Luo, M., Davis, B. H., "Fischer-Tropsch synthesis: activity and selectivity for Group I alkali promoted iron-based catalysts", App. Catal., 236(1-2), 2002, pp. 77-89.
Ngantsoue-Hoc, W., Zhang, Y., O'Brien, R. J., Luo, M., Davis, B. H., "Fischer-Tropsch synthesis: activity and selectivity for Group I alkali promoted iron-based catalysts", App. Catal. A, 236(1-2), 2002, pp. 77-89.
Ngantsoue-Hoc, W., Zhang, Y., O'Brien, R. J., Bao, S., Davis, B. H,. "Fischer-Tropsch Synthesis. Comparison of Alkali Metals as Promoters," 17th North American Meeting of The Catalysis Society, June 2-8, Toronto, Canada, 2001.
Nghiem, V. T., Sapaly, G., Mériaudeau, P., Naccache, C., “Monodimensional tubular medium pore molecular sieves for selective hydroisomerisation of long chain alkanes: n-octane reaction on ZSM and SAPO type catalysts”, Top. Catal., 14(1-4), 2000, pp. 131-138.
Nguen, K. G., Varivonchik, N. E., Spiro, E. S., Lapidus, A. L., Minachev, Kh. M., "Study of cobalt-zeolite catalysts for Fischer-Tropsch synthesis by X-ray photoelectronic spectroscopy", Kinet. Catal., 28(3), 1987, pp. 717-722.
Nguyen, A. V., Jameson, G.J., “Sliding of fine particles on the slip surface of rising gas bubbles: Resistance of liquid shear flows”, Internat. J. Multiphase Flow, 31(4), 2005, pp. 492-513.
Nguyen, H. P., Meriaudeau, P., “Transformation of CO+H2 into alcohols and hydrocarbons over a Ru-K-Mo/SiO2 catalyst”, Stud. Surf. Sci. Catal., 61, 1991, pp. 341-348.
Nguyen, T. H., Ratcliff, G. A., “Heats of mixing of n-alcohol-n-alkane systems at 15.deg. and 55.deg”, J. Chem. Eng. Data, 20(3), 1975, pp. 252-255.
Nguyen, V. T., Spedding, P. L., "Two-phase flow: The concept of similarity and equivalent transport properties of fluids", AIChE J., 19(3), 1973, pp. 652-655.
Nguyen-Ngoc, H., "Einfluß der Schwefelvergiftung aug die Aktivitat der Fisher-Tropsch-Katalysatoren (Influence of Sulfur-poisoning on the activity of Fischer-Tropsch-catalysts)", Diploma Arbeiten, 1980
Nguyen-Ngoc, H., "Modifizierte Fischer-Tropsch-Synthese in der Flussigphase an zeolithischen Mischkatalysatoren (Modified Fischer-Tropsch-synthesis in liquid phase with mixed zeolites)", Dissertation, TU Berlin 1983.
Nguyen-Ngoc, H., Muller, K., Ralek, M., "Liquid Phase Synthesis of Aromates and Isomeres on Polyfunctional Zeolitic Catalysts Mixtures", in "Structure and Reactivity of Modified Zeolites" (P.A. Jacobs, et al., eds.), Elsevier, 1984.
Nguyen-Ngoc, H., Muller, K., Ralek, M., "Modifizierte einstufige Fischer-Tropsch-Flussigphase-Synthese von insomeren- und aromatenreichen Kohlenwasserstoffgemischen (Modified one-step Fischer-Tropsch-synthesis of hydrocarbon mixtures rich in isomers and aromatics)", Chem.-Ing.-Tech., 56(8), 1984, pp. 619-620.
Nguyen-Tien, K., “Gas-Flussig-Stoffaustausch im Dreiphasen-Wirbelbett”, Dissertation, U. Hannover, Germany, 1984.
Nguyen-Tien, K., Patwari, A. N., Schumpe, A., Deckwer, W.-D., "Gas-liquid mass transfer in fluidized particle beds", AIChE J., 31(2), 1985, pp. 194-201.
Nguyen-Tien, K., Patwari, A. N., Schumpe, A., Deckwer, W.-D., "Liquid dispersion in three-phase fluidized beds", J. Chem. Eng. Japan, 17(6), 1984, pp. 652-653.
Nguyen-Tien, K., Schumpe, A., Deckwer, W.-D., “Effect of reactor diameter on gas-liquid mass transfer in three-phase fluidized beds”, AIChE J., 31, 1985, pp. 1742-1743.
Ngwenya, T., Glasser, D., Hildebrandt, D., Coville, N., Mukoma, P., “Fischer-Tropsch Results and Their Analysis for Reactor Synthesis”, Ind. Eng. Chem. Res., 44(16), 2005, pp. 5987-5994.
Nicholas, K. M., "Possible intermediacy of hydrocarbyne complexes in carbon monoxide reduction", Organometallics, 1(12), 1982, pp. 1713-1715.
Nicholls, J. N., Farrar, D. H., Jackson, P. F., Johnson, B. F. G., Lewis, J., "A high-pressure infrared study of the stability of some ruthenium and osmium clusters to CO and H2 under pressure", J. Chem. Soc., Dalton Trans., 1982, pp. 1395-1400.
Nickens, H. V., Yannitell, D. W., “The effects of surface tension and viscosity on the rise velocity of a large gas bubble in a closed, vertical liquid-filled tube”, Internat. J. Multiphase Flow, 13(1), 1987, pp. 57-69.
Nicklin, D. J., "Two phase bubble flow", Chem. Eng. Sci., 17, 1962, p. 693.
Nicklin, D. J., Wilkes, J. C., Davidson, J. F., "Two phase flow in vertical tubes", Trans. IChemE, 40, 1962, p. 61.
Nicolai, J., D’hont, M., Jungers, J. C., “The synthesis of methane from carbon monoxide and hydrogen on nickel”, Bull. Soc. Chim. Belgium, 55, 1946, pp. 160-176.
Nicolaides, C. P., Curtis, V., Coville, N. J., Hildebrandt, D., Glasser, D., "The effect of sulfur on supported cobalt Fischer-Tropsch catalysts", Catal. Today, 49(1-3), 1999, p. 33.
Nie, Z., "Anfangsaktivitat und - selektivitat bei der Fischer-Tropsch Synthese mit modifizierten Kobalt und Nickelkatalysatoren (Initial activity and selectivity during Fischer-Tropsch-synthesis with modified Co- and Ni-catalysts)", Dissertation, Universitat Karlsruhe, 1996.
Nie, Z., Ousmanov, F., Schulz, H., "Construction of the Fischer-Tropsch regime with cobalt catalysts", Catal. Today, 71(3-4), 2002, p. 351.
Niederberger, H.-L., "Zeitliche Anderung der Aktivitat und der Selektivitat bei der Umsetzung CO-reicher Synthesegase an einem Eisen/H-Zsm-5-Kombinationskatalysator (Translation of title: Change of activity and selectivity with time during the conversion of Co-rich syngases on a Fe/H-ZSM-5 combination catalylst)", Dissertation, U. Karlsruhe, 1988.
Niemantsverdriet, J. W., "A Mössbauer investigation of iron and iron alloy Fischer-Tropsch catalysts", Dissertation, Delft Technical University, 1983.
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.
Niemantsverdriet, J. W., van der Kraan, A. M., "On the time-dependent behavior of iron catalysts in Fischer-Tropsch synthesis", J. Catal., 72, 1981, pp. 385-388.
Niemantsverdriet, J. W., van der Kraan, A. M., Delgass, W. N., "Characterization of surface phases in bimetallic FeRh/SiO2 catalysts by in situ Mössbauer spectroscopy at cryogenic temperatures", J. Catal., 89(1), 1984, pp. 138-149.
Niemantsverdriet, J. W., Van Der Kraan, A. M., Delgass, W. N., Vannice, M. A., "Small-particle effects in Moessbauer spectra of a carbon-supported iron catalyst", J. Phys. Chem., 89(1), 1985, pp. 67-72.
Niemantsverdriet, J. W., van der Kraan, A. M., van Dijk, W. L., van der Baan, H. S., "Behavior of Metallic Iron Catalysts during Fischer-Tropsch Synthesis Studied with Moessbauer Spectroscopy, X-ray Diffraction, Carbon Content Determination, and Reaction Kinetic Measurements", J. Phys. Chem., 84(25), 1980, pp. 3363-3370.
Niemantsverdriet, J. W., Van der Kraan, A. M., Van Loef, J. J., Delgass, W. N., "In situ Moessbauer spectroscopy of bimetallic iron-rhodium (FeRh)/silica catalysts at 295 K", J. Phys. Chem., 87(8), 1983, pp. 1292-1294.
Niemelä, M. K., “Catalytic Reactions of Synthesis Gas, Part I: Methanation and CO Hydrogenation”, Ind. Chem. Publ. Ser., 1, HUT, Espoo, Finland, 1992, p. 85.
Niemelä, M. K., “Catalytic Reactions of Synthesis Gas, Part II: Methanol Carbonylation and Homologation”, Ind. Chem. Publ. Ser., 2, HUT, Espoo, Finland, 1993, p. 24.
Niemelä, M. K., “Catalytic Reactions of Synthesis Gas, Part III: Determination of Reaction Kinetics”, Ind. Chem. Publ. Ser., 4, HUT, Espoo, Finland, 1993, p. 34.
Niemelä, M. K., “Catalytic Reactions of Synthesis Gas, Part IV: Heterogeneous hydroformylation”, Ind. Chem. Publ. Ser., 5, HUT, Espoo, Finland, 1994, p. 23.
Niemelä, M. K., “Reactions of synthesis gas on silica supported transition metal catalysts”, Dr. Thesis, VTT Publications 310, Espoo, Finland, 1997.
Niemelä, M. K., Backman, L., Krause, A. O. I., T. Vaara, "The activity of the Co/SiO2 catalyst in relation to pretreatment", Appl. Catal. A, 156, 1997, pp. 319-334.
Niemelä, M. K., Krause, A. O. I. "Long term performance of the Co/SiO2 Catalysts in CO Hydrogenation", Catal. Lett. 42(3-4), 1996, pp. 161-166.
Niemelä, M. K., Krause, A. O. I., "Characterization of Magnesium Promoted Co/SiO2 Catalysts, Catal. Lett., 34(1-2), 1995, pp. 75-84.
Niemelä, M. K., Krause, A. O. I., Kiviaho, J. J., Reinikainen, M. K. O., "The effect of precursor on the characteristics of Co/SiO2 Catalysts", Appl. Catal. A, 147, 1996 pp. 325-345.
Niemelä, M. K., Krause, A. O. I., Vaara, T., Lahtinen, J., "Preparation and Characterization of CoMg/SiO2 and MgCo/SiO2 catalysts, and Their Activity in CO Hydrogenation, Top. Catal., 2, 1995, pp. 45-57.
Niemela, M. K., Nokkosmaki, M., “Activation of carbon dioxide on Fe-catalysts”, Catal. Today, 100(3-4), 2005, pp. 269-274.
Niemelä, M. K., Reinikainen, M., "Reactions of synthesis gas on CoIr/SiO2 and CoRu/SiO2", Stud. Surf. Sci. Catal., 119, 1998, pp, 161-166.
Niemelä, M. K., Reinikainen, M., Kiviaho, J., "The interrelation of the preparation method and activity of the Co-Ru/SiO2 catalysts", Stud. Surf. Sci. Catal., 118, 1998, pp. 229-236.
Niemi, S. A., Paanu, T. P. J., Laurén, M. J., "Effect of Injection Timing, EGR and EGR Cooling on the Exhaust Particle Number and Size Distribution of An Off-Road Diesel Engine", SAE Technical Paper 2004-01-1988, 2004.
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.
Nienow, A. W., Konno, M., Bujalski, W., "Studies on three-phase mixing: A review and recent results", Chem. Eng. Res. Des. (Trans. IChemE.), 64, 1986, pp. 35-42.
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.
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.
Nigam K., Schumpe, A. (Ed.), "Three-phase sparged reactors", Topics in Chemical Engineering Series, Vol. 8, Gordon and Breach Science Publishers, London, 1996, (ISBN 2-88124-909-4).
Nigam K., Schumpe, A., "Gas-liquid mass transfer in a bubble column with suspended solids", AIChE J., 33(2), 1987, p. 328-330.
Niizuma, H., Hattori, T., Mori, T., Miyamoto, A., Murakami, Y., "Surface reaction rate of hydrogenation of adsorbed carbon monoxide as examined by an emissionless infrared diffuse reflectance spectrometer", J. Phys. Chem., 87(19), 1983, pp. 3652-3657.
Niizuma, H., Mori, T., Miyamoto, A., Hattori, T., Masuda, H., Imai, H., Murakami, Y., “Rate-determining step in the methanation of carbon monoxide with a palladium on alumina catalyst”, J. Chem. Soc. Chem. Commun., 1982, pp. 562-563.
Nijs, H. H., "CO desorption from supported ruthenium catalysts", J. Catal., 69(2), 1981, pp. 516-517.
Nijs, H. H., Jacobs, P. A., "Metal particle size distribution and Fischer-Tropsch selectivity: an extended Schulz-Flory model", J. Catal., 65, 1980, pp. 328-334.
Nijs, H. H., Jacobs, P. A., "New evidence for the mechanism of the Fischer-Tropsch synthesis of Hydrocarbons", J. Catal., 66, 1980, p. 401.
Nijs, H. H., Jacobs, P. A., "On-line single run analysis of effluents from a Fischer-Tropsch reactor", J. Chromat. Sci., 19, 1981, pp. 40-45.
Nijs, H. H., Jacobs, P. A., Uytterhoeven, J. B., "Chain limitation of Fischer-Tropsch products in zeolites", J. Chem. Soc. Chem. Comm., 1979, pp. 180-181.
Nijs, H. H., Jacobs, P. A., Uytterhoeven, J. B., "Selective Fischer-Tropsch synthesis of hydrocarbons: particle size effect of ruthenium metal in Faujasite-type zeolites", J. Chem. Soc. Chem. Comm., 1979, pp. 1095-1096.
Nijs, H. H., Jacobs, P. A., Verdonck, J. J., Uytterhoeven, J. B., "Selective Fischer-Tropsch synthesis of hydrocarbons over ruthenium Y zeolites", in "Proc. 5th Int. Conference on Zeolites" (L. V. Rees, ed.), Heyden & Son, 1980, pp. 633-639.
Nijs, H. H., Jacobs, P. A., Verdonck, J. J., Uytterhoeven, J. B., "Use of Fischer-Tropsch synthesis of hydrocarbons for the characterization of bidisperse particle size distributions and bimetallic clusters in zeolites", Stud. Surf. Sci. Catal., 4, 1980, pp. 479-491.
Nikitin, E. D., Pavlov, P. A., Bessanova, N. V., “Critical constants of n-alkanes with from 17 to 24 carbon atoms”, J. Chem. Thermodyn., 26, 1994, pp. 177-182.
Nikitin, E. D., Popov, A. P., “Vapor-liquid critical properties of squalane measured by the pulse-heating technique”, Fluid Phase Eq., 237(1-2), 2006, pp. 16-20.
Nikolov, V. R., Nikov, I., “Liquid-Solid Mass Transfer In Three-Phase Inverse Fluidized Bed (TPIFB)”, Hungarian J. Ind. Chem., 22(2), 1994, pp. 125-128.
Nikolova, D., Edreva-Kardjieva, R., Gouliev, G., Grozeva, T., Tzvetkov, P., “The state of (K)(Ni)Mo/gamma-Al2O3 catalysts after water-gas shift reaction in the presence of sulfur in the feed: XPS and EPR study”, Appl. Catal. A, 297(2), 2006, pp. 135-144.
Nikov, I., Delma, H., "Solid-liquid mass transfer in three-phase fixed and fluidized beds", Chem. Eng. Sci., 42, 1987, pp. 1089-1093.
Nikov, I., Delmas, H., “Mechanism of liquid-solid mass transfer and shear stress in three-phase fluidized beds”, Chem. Eng. Sci., 47, 1992, pp. 673-681.
Nikov, I., Grandjean, B. P. A., Carreau, P. J., Paris, J., “Viscosity effects in cocurrent three-phase fluidization”, AIChE J., 36, 1990, pp. 1613-1616.
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.
Nimocks, R., “Remote gas marketing alternatives and the opportunities/challenges for F-T middle distillate conversion”, in “Gas-to-Liquids Processing, March 18-20, 1998, San Antonio, Texas”, Intertech Conferences, Portland, ME, 1998, speaker 2.
Nimz, M., Lietz, G., Völter, J., Lázár, K.,.Guczi, L., "Direct Conversion of Syngas to Aromatics over PdFe/SiO2 Catalysts", Catal. Lett., 1(4), 1998, pp. 93-98.
Ning, W., Mochizuki, T., Koizumi, N., Yamada, M., “Performance of Pd-promoted Fe catalyst in Fischer-Tropsch Reaction from CO2-containing syngas”, Kagakukei Gakkyokai Rengo Tohoku Chiho Taikai Puroguramu oyobi Koen Yokoshu, 2004, p. 100.
Ning, W., Mochizuki, T., Koizumi, N., Yamada, M., “Study of promoted Fe catalyst for Fischer-Tropsch reaction”, Shokubai Toronkai Toronkai A Yokoshu, 94, 2004, p. 316.
Ning, W., Mochizuki, T., Koizumi, N., Yamada, M., “Study of promoter content in Fe catalyst for Fischer-Tropsch synthesis from CO2-containing syngas”, Nihon Enerugi Gakkai Taikai Koen Yoshishu, 13, 2004, pp. 122-123.
Nirdosh, I., Garred, L. J., Baird, M. H. I., "Low-Cost Experiments in Mass Transfer: Part 3. Mass Transfer in a Bubble Column", Chem. Eng. Education, 32(2), 1998, p.
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.
Nishikawa, M., Kato, Y., "Longitudinal mixing of liquid in multistage bubble column", Kagaku Kogaku, 376, 1972, p. 1112.
Nishikawa, M., Kato, Y., "Relation between the dispersion model and other models for first order reactions", Can. J. Chem. Eng., 52, 1974, p. 276.
Nishikawa, M., Kato, Y., Hashimoto, K., "Heat transfer in an aerated tower filled with non-newtonian liquid", Ind. Eng. Chem. Proc. Des. Dev., 16, 1977, pp. 133-137.
Nishiwaki, A., Tanaka, S., Fukuda, T., Kato, Y., "Interrelation Between Mixing Models Of Suspended Solid Particls For Single-Stage Bubble Column", J. Chem. Eng. Japan, 16, 1983, pp. 526-528.
Nissenbaum, V. D., Rozanov, V. V., Gel'man, V. N., Golosman, E. Z., Rubinshtein, A. M., Krashennikov, S. V., Yakerson, V. I., “Thermal desorption in catalytic systems 13. The surface adsorption of H2O, CO, and CO2 on copper oxide-zinc-aluminum-calcium catalysts for low-temperature conversion of carbon monoxide”, Russian Chem. Bull., 27(10), 1978, pp. 1972-1977.
Nitta, Y., 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.
Nitta, Y., Suwata, O., Ikeda, Y., Okamoto, Y., Imanaka, T., “Copper-zirconia catalysts for methanol synthesis from carbon dioxide: Effect of ZnO addition to Cu-ZrO2 catalysts”, Catal. Lett., 26(3-4), 1994, pp. 345-354.
Nivarov, V. A., Abidova, M. F., Agzamkhodzhaeva, D. R., Razikov, K. Kh., Vorob'ev, V. N., "State of Co2+ ions in Al2O3-B2O3-CoO catalysts, as determined by electronic spectroscopy", Kinet. Catal. (Engl. Transl.), 26(6), 1986, pp. 1246-1249.
Niwa, M., Iizuka, T., Lunsford, J. H., "Methane formation from carbon monoxide and water over a rhodium Y zeolite catalyst", J. Chem. Soc., Chem. Comm., 1979, pp. 684-685.
Niwa, M., Kawashima, Y., Murakami, Y., “A shape-selective platinum-loaded mordenite catalyst for the hydrocracking of paraffins by the chemical vapour deposition of silicon alkoxide”, J. Chem. Soc. Far. Trans. 1, 1985, pp. 2757-2761.
Niwa, M., Lunsford, J. H., "The catalytic reactions of CO and H2O over supported rhodium", J. Catal., 75(2), 1982, pp. 302-313.
Nobach, H., Honkanen, M., “Two-dimensional Gaussian regression for sub-pixel displacement estimation in particle image velocimetry or particle position estimation in particle tracking velocimetry”, Experiments in Fluids, 38(4), 2005, pp. 511-515.
Nocito, V., “The Design And Testing Of New Catalysts For The Fischer-Tropsch Synthesis”, Ph. D. Thesis, University of Illinois, Chicago, 1984.
Noel, J. M., Erkey, C., Bukur, D. B., Akgerman, A., "Limiting Mutual Diffusion Coefficients of 1-Octene and 1-Tetradecene in Near-Critical Ethane and Propane", J. Chem. Eng. Data , 39, 1994, pp. 920-921.
Noels, A. F., Demonceau, A., Hubert, A. J., Teyssié, Ph., Dodet, C. A. G., Meunier, Ph., Germain, A. H. N., “Higher Alcohols Synthesis Over Alkali-Metal Promoted Co-Cu-Zn Catalysts”, Hungarian J. Ind. Chem., 21(1), 1993, pp. 27-34.
Nogin, Yu. M., Chesnokov, N. V., Kovalchuk, V. I., “The role of various modes of adsorbed CO in synthesis gas conversion on lanthanide ion promoted by supported Pd catalysts”, in “New Frontiers in Catalysis – Proceedings of the 10th International Congress on Catalysis, Budapest, 19-24 July, 1992” (L. Guczi, et al., eds.), Akademiai Kiado, Budapest, 1993, Part C, pp. 2031-2034.
Nogin, Yu. N., Chesnokov, N. V., Kovalchuk, V. I., “Organometallics derived (Pd + Ln)/SiO2 catalysts for the reactions of synthesis gas conversion”, Catal. Lett., 23(1-2), 1994, pp. 79-86.
Nolan, P. E., Lynch, D. C., Cutler, A. H., "Carbon Deposition and Hydrocarbon Formation on Group VIII Metal Catalysts", J. Phys. Chem. B, 102(21), 1998, pp. 4165-4175.
Nomtserrat, T., Garcia-Calvo, E., "Prediction of hydrodynamic behavior in bubble columns", J. Chem. Tech. Biotech., 66, 1996, pp. 199-205.
Nomura, M., Takebe, K., Miyake, M., "Fischer-Tropsch synthesis catalyzed by activated Fe powder generated by the reduction of FeI2 (or FeBr2) with potassium", Chem. Lett., 1984, pp. 1581-1582.
Nomura, N., Tagawa, T., Goto, S., "Promotion Effect of Fe on Hydrogenation of Carbon Dioxide over CuO-ZnO/TiO2 Catalyst", J. Chem. Eng. Japan, 31(1), 1998, pp 41-46.
Nonneman, L. E. Y., Ponec, V., “On the problem of the activity in methanol synthesis of supported, unpromoted copper catalysts”, Catal. Lett., 7(1-4), 1990, pp. 213-217.
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.
Nooner, D. W., Gibert, J. M., Gelpi, E., Oró, J., "Closed system Fischer-Tropsch synthesis over meteoritic iron, iron ore and nickel-iron alloy", Geochim. Cosmochim. Acta, 40(8), 1976, pp. 915-924.
Nooner, D. W., Oro, J., “Synthesis of fatty acids by a closed system Fischer-Tropsch process”, chapter 12 in “Hydrocarbon Synthesis from Carbon Monoxide and Hydrogen” (E. L. Kugler, F. W. Steffgen, eds.), ACS Adv. Chem. Ser. 178, 1979, pp. 159-171.
Nord, K., "Particles and unregulated emissions from heavy-duty engines", Thesis, Lulea U. Technology, 2002.
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.
Nore, O., Wild, G., Briens, C. L., Margaritis, A., "Wall-to-bed Heat Transfer in Three-Phase Fluidized Beds of Low Density Particles", Can. J. Chem. Eng., 72, 1994, p. 546.
Noronha, F. B., Frydman, A., Aranda, D. A. G., Peréz, C. A., Soares, R. R., Morawek, B., Campbell, C. T., Schmal, M., "The Promoting Effect of Nobel Metal Addition on Niobia-Supported Cobalt Catalysts", Catal. Today, 28, 1996, pp. 147-157.
Noronha, F. B., Perez, C. A., Frety, R., Schmal, M., "Determination of cobalt species in niobia supported catalysts", Phys. Chem. Chem. Phys., 1, 1999, pp. 2861-2867.
Noronha, F. B., Schmal, M., Moraweck, B., Delichere, P., Brun, M., Villain, F., Frety, R., “Characterization of Niobia-Supported Palladium-Cobalt Catalysts”, J. Phys. Chem. B, 104(23), 2000, pp. 5478-5485.
Noronha, F. B., Schmal, M., Nicot, C., Moraweck, B., Frety, R., "Characterization of Graphite Supported Palladium Cobalt Catalyst by TPR and Magnetic Measurements", J. Catal., 168,, 1997, pp. 42-50.
Norton, J., Valentine, D. Jr., Collman, J. P., "Novel nitrosyl-substituted metal carbonyl cluster", J. Am. Chem. Soc, 91(26), 1969, pp. 7537-7538.
Norton, P., Frailey, M. R., Addy, J. M., Clark, N., Lyons, D. W., Beck, N. J., "Chassis Dynamometer Emission Measurements From Trucks and Buses Using Dual-Fuel Natural Gas Engines", SAE Technical Paper 1999-01-3525, 1999.
Norton, P., Vertin, K. D., Bailey, B. K., Clark, N., Lyons, D. W., Goguen, S. J., Eberhardt, J. J., "Emissions From Trucks Using Fischer-Tropsch Diesel Fuel", SAE Technical Paper 982526, 1998.
Norton, P., Vertin, K. D., Clark, N., Lyons, D. W., Goguen, S. J., Eberhardt, J., "Emissions From Buses With DDC 6v92 Engines Using Synthetic Diesel Fuel", SAE Technical Paper 1999-01-1512, 1999.
Norton, P., Vertin, K., Bailey, B., Clark, N. N., Lyons , D. W., Goguen, S., Eberhardt, J., "Emissions from Trucks Using Fischer-Tropsch Diesel Fuel", SAE Paper 982526 (Society of Automotive Engineers), Alt. Fuels, 1998, pp. 1-10.
Norval, G. W., Phillips, M. J., "Application of equilibrium analysis to a Fischer-Tropsch product", J. Catal., 126, 1990, p. 87.
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.
Nosova, L. V., Zaikovskii, V. I., Ryndin, Yu. A., “Catalytic properties of PdCu/Al2O3 system obtained via anchored metal complexes”, React. Kinet. Catal. Lett., 53(1), 1994, pp. 131-138.
Nottenkamper, R., "Zur Hydrodynamik in Blasensaeulenreaktoren (On the hydrodynamics in bubble column reactors)", Dissertation, Dortmund Univ., 1983.
Nottenkamper, R., Steiff, A., Weinspach, P.-M., "Experimental investigation of hydrodynamics of bubble columns", Ger. Chem. Eng., 6, 1983, pp. 147-155.
Nottenkämper, R., Steiff, A., Weinspach, P.-M., “Zur Hydrodynamik in Blasensäulen-Reaktoren”, Chem.-Ing.-Tech., 54(10), 1982, pp. 918-919.
Nouar, H., Petitjean, D., Bouroukba, M., Dirand, M., “Ternary Mixtures of n-Docosane, n-Tricosane and n-Tetracosane”, Rev. IFP, 53(1), 1998, pp. 21-26.
Novak, E., Fodor, K., Szailer, T., Oszko, A., Erdohelyi, A., "CO2 Hydrogenation on Rh/TiO2 Previously Reduced at Different Temperatures", Top. Catal., 20(1), 2002, pp. 107-117.
Novak, F. I., Bashkirov, A. N., "Synthesis of hydrocarbons from CO and H2 on a sintered iron catalysts", Petrol. Chem., 5(1), 1965, pp. 76-81.
Novák, I., Krupa, I., Luyt, A. S., "Modification of a Fischer-Tropsch wax by grafting with maleic anhydride", J. Appl. Polymer Sci., 93(2), 2004, pp. 662-668.
Novak, S., Madon, R. J., "Models of hydrocarbon product distributions in Fischer-Tropsch synthesis", Ind. Eng. Chem. Fund., 23(3), 1984, pp. 274-280.
Novak, S., Madon, R. J., Suhl, H. "Secondary effects in the Fischer-Tropsch synthesis", J. Catal., 77, 1982, pp. 141-151.
Novak, S., Madon, R. J., Suhl, H., "Models of hydrocarbon product distributions in Fischer-Tropsch synthesis. I", J. Chem. Phys., 74(11), 1981, pp. 6083-6091.
Nováková, J., Kubelková, L., Dolejsek, Z., Wichterlová, B., Kolihová, D., Andera, V., “Modification of Fe species in FeNaY zeolite by NaCl treatment”, React. Kinet. Catal. Lett., 21(3), 1982, pp. 273-276.
Novikov, I. I., Zakharenko, V. P., Zuev, A. N., Ishchenko, I. I., Kozachek, V. N., Morozov, N. M., Porotskii, M. B., “A solution of the problem of compressing synthesis gas without oil contamination in piston compressors”, Chem. Petrol. Eng., 14(11), 1978, pp. 988-991.
Novikov, Y. N., Vol'pin, M. E., “Catalytic properties of lamellar compounds of graphite”, Physica B+C, 105(1-3), 1981, pp. 471-477.
Novohradsky, M., “Differential thermal analysis of a precipitated iron catalyst for F. T. synthesis”, 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. 221-229.
Novohradsky, M., Knor, F., "Application of methanization and conversion of gas treatment in high-pressure gas works", Sb. Pr. UVP, 22, 1970, pp. 9-59.
Novozhilov, V. N., Kutepov, A. M., “Method for Calculating Pressure Losses in an Upward Cocurrent Flow”, Theor. Found. Chem. Eng., 39(3), 2005, pp. 299-306.
Nowacki, P., “Fischer-Tropsch complex conceptual design and economic analysis”, in “Coal Liquefaction Processes”, Noyes Data Corporation, Park Ridge, NJ, 1979, pp. 233-265.
Nowacki, P., “Indirect liquefaction”, in “Coal Liquefaction Processes”, Noyes Data Corporation, Park Ridge, NJ, 1979, pp. 161-182.
Nowak, I., Ziolek, M., “Niobium Compounds: Preparation, Characterization, and Application in Heterogeneous Catalysis:, Chem. Rev., 99(12), 1999, pp. 3603-3624.
Nowicki, L., "Kinetics of CO hydrogenation on modified Cu/ZnO catalyst in a slurry reactor", Chem. Eng. Proc., 44(3), 2005, pp. 383-391.
Nowicki, L., Klajnert, B., Lyzwa, J., "Yield and selectivity of a process for synthesis of higher alcohols on a copper catalyst in a slurry reactor", Przemsyl Chem., 78(2), 1999, p. 54.
Nowicki, L., Ledakowicz, S., Bukur, D. B., "Aktywnosc i selektywnosc reakcji Fishera-Tropscha w reaktorze zawiesinowym", Inz. Chem. Proc. 4(4), 1994, 551-65.
Nowicki, L., Ledakowicz, S., Bukur, D. B., "Aktywnosc, stabilnosc i selektywnosc katalizatorów zelazowych w reakcji Fischera-Tropscha w reaktorach zawiesinowych", Przem. Chem., 82(8-9), 2003, pp. 580-582.
Nowicki, L., Ledakowicz, S., Bukur, D. B., "Hydrocarbon Selectivity Model for the Slurry Phase Fischer-Tropsch Synthesis on Precipitated Iron Catalysts," Chem. Eng. Sci., 56, 2001, pp. 1175-1180.
Nozaki, F., Sodesawa, T., Satoh, S., Kimura, K., "Hydrogenation of carbon dioxide into light hydrocarbons at atmospheric pressure over Rh/Nb2O5 or Cu/SiO2-Rh/Nb2O5 catalyst", J. Catal., 104(2), 1987, pp. 339-346.
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.
Nuñez, G. M., Patrignani, A. R., Rouco, A. J., "Rh/SiO2 and Rh/Al2O3 catalysts: Effect of precursor and H2 pretreatment on chemisorption and catalytic activity", J. Catal., 98(2), 1986, pp. 554-558.
Nuñez, G. M., Rouco, A. J., “Strong H2 chemisorption on Al2O3 or SiO2 supported group VIII metals”, React. Kinet. Catal. Lett., 30(1), 1986, pp. 121-127.
Nutton, A., de Miguel, A. V., Isobe, K., Maitlis, P. M., "Carbon-Carbon Bond Formation promoted by Electrophiles and the Mechanism of the Fischer-Tropsch Reaction", J. Chem. Soc. Chem. Commun., 4, 1983, pp. 166-167.
Nylund, N.-O., Laurikko, J., Ikonen, M., “Pathways for natural gas into advanced vehicles – Part A: Technology and fuels for new generation vehicles”, International Association for Natural Gas Vehicles, Edited Draft Report 30.8.2002.
Nymeijer, K., Visser, T., Assen, R., Wessling, M., "Olefin-Selective Membranes in Gas-Liquid Membrane Contactors for Olefin/Paraffin Separation", Ind. Eng. Chem. Res., 43(3), 2004, pp. 720-727.
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.
Obermyer, R. T., Mulay, L. N., Lo, C., Oskooie-Tabrizi, M., Rao, V. U. S., "Magnetic, Moessbauer, and catalytic properties of the zeolite catalyst ZSM-5(Fe)", J. Appl. Phys., 53(3), 1982, pp. 2683-2685.
Oblad, A. G., Shabtai, J., Coppola, E. N., "Improvement of jet fuel properties by paraffin isomerization", ACS Div. Pet. Chem. Prepr., 32(2), 1987, p. 559.
Obradovic, B., Dudukovic, A., Vunjak-Novakovic, G., "Local And Overall Mixing Characteristics Of The Gas-Liquid-Solid Air-Lift Reactor", Ind. Eng. Chem. Res,m 33, 1994, pp. 698-702.
O'Brien, R. J., Davis, B. H., "Impact of Copper on an Alkali Promoted Iron Fischer-Tropsch Catalyst", Catal. Lett., 94(1-2), 2004, pp. 1-6.
O'Brien, R. J., Davis, B. H., "Impact of copper on the activity and selectivity of precipitated iron Fischer- Tropsch catalysts," 16th North American Meeting of The Catalysis Society, May 30 - June 4, Boston, MA, 1999.
O'Brien, R. J., Xu, L., Bao, S., Raje, A., Davis, B. H,. "Activity, selectivity and attrition characteristics of supported iron Fischer-Tropsch catalysts," Fifth Natural Gas Conversion Symposium, Sept. 20-25, Sicily, Italy, 1998.
O'Brien, R. J., Xu, L., Bao, S., Raje, A., Davis, B. H., "Activity, selectivity and attrition characteristics of supported iron Fischer-Tropsch catalysts," Appl. Catal. A, 196(2), 2000, pp. 173-178.
O'Brien, R. J., Xu, L., Bi, X. X., Eklund, P. C.,; Davis, B. H., "Fischer-Tropsch synthesis and XRD characterization of an iron carbide catalyst synthesized by laser pyrolysis," Glasgow, UK, Chem. Transition Met. Carbides Nitrides, (Oyama, S. Ted, eds.), Blackie, 1996, pp. 362-372.
O'Brien, R. J., Xu, L., Milburn, D. R., Li, Y.-X., Klabunde, K. J., Davis, B. H., "Fischer-Tropsch synthesis: impact of potassium and zirconium promoters on the activity and structure of an ultrafine iron oxide catalyst," Top. Catal., 2(1-4), 1995, pp. 1-15.
O'Brien, R. J., Xu, L., Spicer, R. L., Bao, S., Milburn, D. R., Davis, B. H., "Activity and selectivity of precipitated iron Fischer-Tropsch catalysts," Catal. Today, 36(3), 1997, pp. 325-334.
O'Brien, R. J., Xu, L., Spicer, R. L., Davis, B. H., "Activation Study of Precipitated Iron Fischer-Tropsch Catalysts," Energy Fuels, 10(4), 1996, pp. 921-926.
O'Brien, R. J., Xu, L., Spicer, R. L., Davis, B. H., "Roles of copper and potassium promoters on the activity and selectivity of precipitated iron Fischer-Tropsch catalysts," ACS, Division of Petroleum Chemistry, Preprints, 41(1), 1996, pp. 252-253.
O'Brien, R. J., Zhang, Y., Hamdeh, H. H., Davis, B. H., "Mossbauer study of precipitated unpromoted iron Fischer-Tropsch catalyst," ACS, Division of Petroleum Chemistry, Mar. 21-25, Anaheim, CA, Preprints, 44(1), 1999, pp. 100-102.
Ocana, M., Gonzalez-Elipe, A. R., “Preparation and characterization of uniform spherical silica particles coated with Ni and Co compounds”, Colloids Surf. A, 157(1-3), 1999, pp. 315-324.
O'Connor, C. T., Forrester, R. D., Scurrell, M. S., “Cetane number determination of synthetic diesel fuels”, Fuel, 71(11), 1992, pp. 1323-1327.
O'Connor, C. T., Mills, P., J., T., Cilliers, J., J., "'Prediction of Large-scale Column Flotation Cell Performance Using Pilot Plant Data," Chem. Eng. J., 59, 1995, p. 1.
O'Connor, J. G., Burow, F. H., Norris, M. S., “Determination of Normal Paraffins in C20 to C32 Paraffin Waxes by Molecular Sieve Adsorption. Molecular Weight Distribution by Gas-Liquid Chromatography”, Anal. Chem., 34(1), 1962, pp. 82-85.
O'Day, P. A., Brown, G. E. Jr., Parks, G. A., "EXAFS study of aqueous Co(II) sorption complexes on kaolinite and quartz surfaces", In "XAFS VI, Sixth Internat. Conf. on X-ray Absorption Fine Structure" (S.S. Hasnain, ed.), Ellis Horwood Ltd. Publishers, 1991, pp. 260-262.
O'Day, P. A., Brown, G. E. Jr., Parks, G. A., "X-ray absorption spectroscopy of cobalt(II) multinuclear surface complexes and surface precipitates on kaolinite", J. Colloid Interface Sci., 165, 1994, pp. 269-289.
O'Day, P. A., Chisholm-Brause, C. J., Towle, S. N., Parks, G. A., Brown, G. E. Jr., "X-ray absorption spectroscopy of Co(II) sorption complexes on quartz (a-SiO2) and rutile (TiO2)", Geochim. Cosmochim. Acta., 60, 1996, pp. 2515-2532.
O'Day, P. A., Parks, G. A., Brown, G. E. Jr., "Molecular structure and binding sites of Cobalt (II) surface complexes on kaolinite from x-ray absorption spectroscopy", Clays and Clay Minerals, 42, 1994, pp. 337-355.
Odebunmi, E. O., Matrana, B. A., Datye, A. K., Allard, L. F. Jr., Schwank, J., Manogue, W. H., Hayman, A., Onuferko, J. H., Knözinger, H., Gates, B. C., "CO Hydrogenation Catalyzed by Alumina-Supported Osmium: Particle Size Effects," J. Catal., 95, 1985, p. 370.
Odebunmi, E. O., Zhao, Y., Knözinger, H., Tesche, B., Manogue, W. H., Gates, B. C., Hulse, J., "CO Hydrogenation with Alumina-Supported Catalysts Prepared from [Os(CO)5]," J. Catal., 86, 1984, p. 95.
Odendaal, W. A., “An Investigation Into The Design And Stability Of A Fischer Tropsch Tubular Reactor”, Dr. Engr. Thesis, University of Pretoria, 1983.
Oder, R. R., "Magnetic separation of iron catalysts from Fischer-Tropsch wax", ACS Div. Petrol. Chem. Prepr., 49(2), 2004, pp. 184-185.
Oder, R. R., “Magnetic Separation of nm Iron Catalysts from Fischer-Tropsch Wax”, ACS Div. Petrol. Chem. Prepr., 50(2), 2005, pp. 192-194.
Odnovolik, V. I., Tripol'skii, A. I., Pavlenko, N. V., Telbiz, G. M., "Heterogeneous catalytic hydrogenation of carbon dioxide on transition metals: Mechanism and kinetics of transformation to carbon monoxide", Ukrainian Chem. J., 61(10), 1995, pp. 25-28.
Odonohoe, C., Clarke, J. K. A., Rooney, J. J., "Homologation of n-alkanes on metal films. New aspect of metal-carbene chemistry", J. Chem. Soc. Far. Trans. 1, 76(2), 1980, pp. 345-356.
O'Dowd, W., Smith, D. N., Reuther, J. A., Saxena, S. C., "Gas and solids behavior in a baffled and unbaffled slurry bubble column", AIChE J., 33, 1987, pp. 1959-1970.
Oels, U., “Stoffaustauschmessungen an einem Blasensäulen-Fermenter”, Dissertation, T. U. Hannover, Germany, 1975.
Oels, U., Lücke, J., Buchholz, R., Schügerl, K., "Influence of Gas Distributor Type and Composition of Liquid on the Behaviour of a Bubble Column Bioreactor" Ger. Chem. Eng., 1, 1978, pp. 115-129.
Oels, U., Schügerl, K., Todt, J., “Gasanteil, Stofftransportgeschwindigkeitskoeffizient und spezifische Phasengrenzfläche in Gleichstrom-Blasensäulen”, Chem.-Ing.-Tech., 48(1), 1976, p. 73.
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.
Ogata, I., Kawabata, Y., Tanaka, M., Hayashi, T., Nishi, S., "Liquid phase reduction of carbon monoxide to lower alcohols by binary transition metal catalysts", ACS Div. Pet. Chem. Prepr., 24(1), 1979, pp. 322-328.
Ogawa, H., Miyamoto, N., Li, C., Sakai, A., "Improvements of Diesel Combustion and Emissions With Two-Stage Fuel Injection At Different Piston Positions", SAE Technical Paper 2000-01-1180, 2000.
Ogawa, T., Inoue, N., Shikada, T., Inokoshi, O., Ohno, Y., “Direct Dimethyl Ether (DME) Synthesis from Natural Gas”, Stud. Surf. Sci. Catal., 147, 2004, pp. 379-384.
Ogawa, T., Inoue, N., Shikada, T., Inokoshi, O., Ohno, Y., “Direct DME Synthesis from Natural Gas: 100 Ton-DME/Day Demonstration Plant Project”, ACS Div. Petrol. Chem. Prepr., 50(2), 2005, pp. 158-160.
Ogawa, T., Ono, M., Okuyama, K., Aoki, S., Tomura, K., Shikada, T., Inoue, N., Ohno Y., “Direct Dimethyl Ether Synthesis from Hydrogen and Carbon Monoxide”, NKK Tech. Rev., 81, 1999, pp. 13-17.
Ogawa, Y., “Importance of Clean Liquid Fuel: Types and Utilized Fields”, Energy & Resources, 23(5), 2002, pp. 317-322.
Ogawa, Y., Hasenaka, K., Kawasaki, Y., “Research on the Marketability of GTL (Liquid Fuel from Natural Gas”, Institute of Energy Economics (Japan) report, September, 2000.
Ogden, J. M., Williams, R. H., Larson, E. D., “Societal lifecycle costs of cars with alternative fuels/engines”, Energy Policy, 32(1), 2004, pp. 7-27.
Oh, J. S., Kim, S. D., “Phase Holdup Characteristics of Three Phase Fluidized Beds of Mixed Particles”, J. Korean Inst. Chem. Eng., 18(5), 1980, pp. 375-384.
Oh, Y. K., "Two- and Three-Phase Flows in Bubble Columns: Numerical Predictions and Measurements", Ind. Eng. Chem. Res., 37(6), 1998, pp. 2284-2292.
O'Hara, J. B., "Materials challenges of coal liquefaction", Chem. Eng., 84(8), 1977, p. 147.
O'Hara, J. B., "State-of-the-art...coal liquefaction", Hydrocarbon Proc., 55(11), 1976, pp. 221-226
O'Hara, J. B., Becker, E. D., Jentz, N. E., Harding, T., "Petrochemical feedstocks from coal", Chem. Eng. Prog., 73(6), 1977, pp. 64-72.
O'Hara, J. B., Bela, A., Jentz, N. E., Khaderi, S. K., "Fischer-Tropsch Plant design criteria", Chem. Eng. Prog., 72(8), 1976, pp. 65-67.
O'Hara, J. B., Bela, A., Jentz, N. E., Khaderi, S. K., "Fischer-Tropsch plant design criteria", Coal Proc. Tech., 3, 1977, pp. 141-143.
O'Hara, J. B., Bela, A., Jentz, N. E., Loran, B.I., "Environmental factors for Fischer-Tropsch coal conversion technology", Coal Proc. Tech., 4, 1978, pp. 139-145.
Ohgomori, Y., Mori, S., Yoshida, S.-I., Watanabe, Y., “Promoting effect of acids on the formation of ethylene glycol from synthesis gas catalyzed by the rhodium-tricyclohexylphosphine system”, J. Molec. Catal., 43(1), 1987, pp. 127-136.
Ohira, Y., Takahashi, H., Takahashi, M., Ando, K., "Wall Heat Transfer in a Double-Tube Coal-Slurry Bubble Column", Kagaku Kogaku Ronbunshu, 30(3), pp. 360-367.
Ohki, Y., Inoue, H., "Longitudinal mixing of the liquid phase in bubble columns", Chem. Eng. Sci., 25, 1970, pp. 1-16.
Ohlrogge, K., Brinkmann, T., Wind, J., "Membrane Processes in Natural Gas Processing", Chem.-Ing.-Tech., 75(11), 2003, pp. 1607-1610.
Ohno, Y., “A new, clean fuel DME (Dimethyl Ether)”, Sekiyu Gijutsu Kyokaishi., 66(2), 2001, pp. 175-182.
Ohnuki, A., Akimoto, H., "An experimental study on developing air-water two-phase flow along a large vertical pipe: effect of air injection method", Int. J. Multiphase Flow, 22(6), 1996, pp. 1143-1154.
Ohnuki, A., Akimoto, H., "Experimental study on transition of flow pattern and phase distribution in upward air-water two-phase flow along a large vertical pipe", Int. J. Multiphase Flow, 26(3), 2000, pp. 367-386.
Ohta, M., Haranaka, S., Yoshida, Y., Sussman, M., "Three-Dimensional Numerical Simulations of the Motion of a Gas Bubble Rising in Viscous Liquids", J. Chem. Eng. Japan, 37(8), 2004, pp. 968-975.
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.
Ohtsuka, Y., Arai, T., Takasaki, S., Tsubouchi, N., "Utilization Of Cobalt Catalysts Supported On Mesoporous Silica For Efficient Production Of Diesel Fuels By FT Synthesis", ACS Fuel Chem. Prepr., 47(2), 2002, p. 492.
Ohtsuka, Y., Takahashi, Y., Noguchi, M., Arai, T., Takasaki, S., Tsubouchi, N., Wang, Y., "Novel utilization of mesoporous molecular sieves as supports of cobalt catalysts in Fischer-Tropsch synthesis", Catal. Today, 89(4), 2004, pp. 419-429.
Ohyama, S., “In situ FTIR study on reaction pathways in Ni(CO)4/CH3OK catalytic system for low-temperature methanol synthesis in a liquid medium”, Appl. Catal. A, 220(1-2), 2001, pp. 235-242.
Ohyama, S., “Liquid-phase CO hydrogenation over silica-supported transition metal and Cu-Zn-Cr oxide catalysts”, React. Kinet. Catal. Lett., July, 1997, pp.
Ohyama, S., “Low-Temperature Methanol Synthesis in Catalytic Systems Composed of Copper-Based Oxides and Alkali Alkoxides in Liquid Media: Effects of Reaction Variables on Catalytic Performance”, Top. Catal., 22(3-4), 2003, pp. 337-343.
Øiestad, A. M. L., Uggerud, E., "Gas phase reactivity of small cationic cobalt clusters towards methanol", Chem. Phy., 262(1), 2000, pp. 169-177.
Ojeda Pineda, M., “Rh/?-Al2O3 catalytic systems for oxygenated compounds synthesis from syngas”, Thesis, Autónoma de Madrid, 2004.
Ojeda, M., Granados, M. L., Rojas, S., Terreros, P., Garcia-Garcia, F. J., Fierro, J. L. G., "Manganese-promoted Rh/Al2O3 for C2-oxygenates synthesis from syngas - Effect of manganese loading", App. Catal. A., 261(1), 2004, pp. 47-55.
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.
Ojeda, M., Rojas, S., Boutonnet, M., Pérez-Alonso, , F. J., García-García, F. J., Fierro, J. L. G., "Synthesis of Rh nano-particles by the microemulsion technology - Particle size effect on the CO+H2 reaction", Appl. Catal. A, 274(1-2), 2004, pp. 33-41.
Ojeda, M., Rojas, S., García-García, F. J., López Granados, M., Terreros, P., Fierro, J. L. G., "Inhibition of oxygenated compounds formation during CO hydrogenation over Rh/?-Al2O3 catalysts calcined at high temperature", Catal. Comm., 5(11), 2004, pp. 703-707.
Okabe, K., Li, X., Matsuzak, T., Arakawa, H., Fujimoto, K., "Application of sol-gel method to preparation of ultra-uniform Co-based catalysts for Fischer-Tropsch reaction", J. Sol-Gel Sci. Tech., 19(1-3), 2000, pp. 519-523.
Okabe, K., Li, X., Matsuzaki, L., Toba, M., Arakawa, H., Fujimoto, K., "Fischer-Tropsch Synthesis over Co-SiO2 Catalysts, Noble-Metal-Added, Prepared by Alkoxide Method", Sekiyu Gakkaishi, 42, 1999, pp. 377-382.
Okabe, K., Li, X., Matsuzaki, T., Arakawa, H., Fujimoto, K., “Fischer-Tropsch Synthesis over Co-Ir-SiO2 Catalysts Prepared by the Alkoxide Method”, J. Japan Petrol. Inst., 44(2), 2001, pp. 135-139.
Okabe, K., Li, X., Toba, M., Yoshimura, Y., “Fischer-Tropsch synthesis over bimodal Co-Ir-SiO2 catalysts prepared by the alkoxide method”, React. Kinet. Catal. Lett., 86(1), 2005, pp. 3-10.
Okabe, K., Li, X., Wei, M., Arakawa, H., "Fischer-Tropsch synthesis over Co-SiO2 catalysts prepared by the sol-gel method", Catal. Today, 89(4), 2004, pp. 431-438.
Okabe, K., Matsuzaki, T., Arakawa, H., Fujimoto, K., Li, X.-H., “Syngas Conversion over Co/SiO2 Catalysts Prepared by the Sol-Gel Method”, Nippon Kagakkai Koen Yokoshu, 75, 1998, p. 37.
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 Materials", ACS Fuel Chem. Prepr., 47(2), 2002, p. 485.
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.
Okabe, K., Yamada, H., Hanaoka, T., Matsuzaki, T., Arakawa, H., Abe, Y., “CO2 Hydrogenation to Alcohols over Highly Dispersed Co/SiO2 Catalysts Derived from Acetate”, Chem. Lett., 30(9), 2001, pp. 904-905.
Okada, K., Shibano, S., Akagi, Y., "Turbulent Properties In Bubble-Flow Region In External-Loop Airlift Bubble Column", J. Chem. Eng. Japan, 26, 1993, pp. 637-643.
Okamoto, Y., Matsunaga, E., Imanaka, T., Teranishi, S., "Surface state and catalytic activity and selectivity of nickel catalysts in hydrogenation reactions. V. Electronic effects on methanation of CO and CO2", J. Catal., 74(1), 1982, pp. 183-187.
Okamura, S., Uchida, S., Katsumaa, T., Iida, K., Measurement of solids holdup in a three-phase fluidized bed by an ultrasonic technique", Chem. Eng. Sci., 44, 1989, pp. 196-198.
Okazaki, M., Toriyama, K., “Alternation of spin-lattice relaxation times for even and odd linear alkane crystals: a high-resolution solid-state NMR study”, J. Phys. Chem., 93(8), 1989, pp. 2883-2885.
Okazaki, M., Toriyama, K., Anandan, S., “Dynamics and packing mode of long-chained n-alkane molecules in the nano-channel of MCM-41”, Chem. Phys. Lett., 401(4-6), 2005, pp. 363-367.
Oki, S., Happel, J., Hnatow, M., Kaneko, Y., “The mechanism of the water-gas-shift reaction over iron oxide catalyst”, in “Catalysis – Proceedings of the Fifth International Congress on Catalysis, Miami Beach, Fla., 20-26 August, 1972”, (J. W. Hightower, ed.), North-Holland Publishing, Amsterdam, 1973, pp. 173-182.
Oki, S., Mezaki, R., "Identification of rate-controlling steps for the water-gas shift reaction over an iron oxide catalyst", J. Phys. Chem., 77(4), 1973, pp. 447-452.
Oki, S., Mezaki, R., "Investigation of the rate-controlling step of the water gas shift reaction with use of various isotopic tracers", Ind. Eng. Chem. Res., 27(1), 1988, pp. 15-21.
Oki, S., Mezaki, R., "Mechanistic structure of the water-gas shift reaction in the vicinity of chemical equilibrium", J. Phys. Chem., 77(13), 1973, pp. 1601-1605.
Okitsu, K., Oguchi, T., Maruyama, H., Amemiya, Y., "Faraday effect and X-ray birefringence at cobalt K-absorption edge with the tunable x-ray polarimeter", Proc. SPIE, 2873, 1996, pp. 100-104.
Okitsu, K., Oguchi, T., Maruyama, H., Amemiya, Y., "X-ray Linear Birefringence and Linear Dichroism in a Cobalt Crystal Measured with a Tunable X-ray Polarimeter", J. Synch. Rad., 5, 1998, pp. 995-997.
Okuda, O., Tatsumi, T., Fujimoto, K., Tominaga, H.-O., "Zeolite supported Ru-Pt catalysts for selective Fischer-Tropsch synthesis", Chem. Lett., 1983, pp. 1153-1156.
Okuhara, T., Enomoto, T., Tamura, H., Misono, M., "Effects of Additives on the Selectivity in Fischer-Tropsch Synthesis by Alumina-Supported Ruthenium Catalysts", Chem. Lett., 1984, pp. 1491-1494.
Okuhara, T., Kimura, T., Kobayashi, K., Misono, M., Yoneda, Y., "Effect of dispersion in carbon monoxide adsorption and carbon monoxide hydrogenation over alumina-support ruthenium catalysts", Bull. Chem. Soc. Japan, 57, 1984, pp. 938-943.
Okuhara, T., Kimura, T., Misono, M., Yoneda, Y., "Synthesis of Light Olefins from CO and H2 over Ru/Al2O3 Prepared from Ru3(CO)12", in "Proc. 6th Japan-Soviet Catalysis Seminar, Osaka," 1981, pp. 28-35.
Okuhara, T., Kobayashi, K., Kimura, T., Misono, M., Yoneda, Y., "Synthesis of Light Olefins from CO and H2 over Highly Dispersed Ru/K-Al2O3 Derived from Ru3(CO)12", J. Chem. Soc., Chem. Comm., 1981, pp. 1114-1115.
Okuhara, T., Mori, H., Yamaguchi, T., Take, J., Misono, M., "Selective Production of C4-C10 Hydrocarbons by CO Hydrogenation over Ru Supported on Al2O3-Intercalated Montmorillonite", in "Proc. 2nd Japan-China Symposium on Coal and C1 Chemistry, Tokyo", 1988, pp. 459-463.
Okuhara, T., Tamura, H., Misono, M., "Effect of potassium and phosphorus on the hydrogenation of CO over alumina-supported ruthenium catalyst", J. Catal., 95(1), 1985, pp. 41-48.
Olf, H. G., Peterlin, A., “NMR study of molecular motion in oriented long-chain alkanes. III. Oriented n-C32H66”, J. Polymer Sci. A-2, 8(5), 1970, pp. 791-797.
Olfer'eva, T. G., Krasavin, S. A., Bragin, O. V., “Role of hydrogen in transformations of alkanes and olefins on platinized carbon”, Russian Chem. Bull., 29(11), 1980, pp. 1778-1782.
Oliphant, J. L., Fowler, R. W., Pannell, R. B., Bartholomew, C. H., "Chemisorption of hydrogen sulfide on nickel and ruthenium catalysts-1. Desorption isotherms", J. Catal., 51(2), 1978, pp. 229-242.
Ollis, D. F., Vannice, M. A., "The catalytic synthesis of hydrocarbons from H2/CO mixtures over the group VIII metals: Comment on methanation kinetics", J. Catal., 38(1-3), 1975, pp. 514-515.
Olmer, F., "Decomposition of Carbon Monoxide by Ferromagnetic Metals", J. Phys. Chem., 46(3), 1942, pp. 405-414.
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., 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., 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.
Olmos, E., Gentric, C., Vial, Ch., Wild, G., Midoux, N., "Numerical simulation of multiphase flow in bubble column reactors. Influence of bubble coalescence and break-up", Chem. Eng. Sci., 56(21-22), 2001, pp. 6359-6365.
Olschar, M., Dimmig, T., Kuchling, T., “Erzeugung von Kraftstofffraktionen aus Fischer-Tropsch-Wachsen durch Hydrocracken”, Chem.-Ing.-Tech., 77(8), 2005, p. 1173.
Olsvik, O., Odegard, R., “Statoil's Gas Conversion Technologies”, Stud. Surf. Sci. Catal., 147, 2004, pp. 19-24.
Olszowski, S. T., Coulthard, J., Sayles, R. S., “Measurement of dispersed two-phase gas-liquid flow by cross correlation of modulated ultrasonic signals”, Internat. J. Multiphase Flow, 2(5-6), 1976, pp. 537-548.
Omota, F., Dimian, A. C., Bliek, A., “Adhesion of solid particles to gas bubbles. Part 1: Modelling”, Chem. Eng. Sci., 61(2), 2006, pp. 823-834.
Omota, F., Dimian, A. C., Bliek, A., “Adhesion of solid particles to gas bubbles. Part 2: Experimental”, Chem. Eng. Sci., 61(2), 2006, pp. 835-844.
O'Neill, C. E., Yates, D. J. C., "The Effect Of The Support On The Infrared Spectra Of Carbon Monoxide Adsorbed On Nickel", J. Phys. Chem., 65(6), 1961, pp. 901-906.
Onishi, T., Maruya, K.-I., Domen, K., Fujisawa, T., Arai, T., “The selective formation of hydrocarbons from CO hydrogenation over oxide catalysts”, Colloids & Surfaces, 38(1), 1989, pp. 93-101.
Onken, U., Schalk, W., “Zur Bestimmung der Phasengrenzfläche in Gas/Flüssigkeits-Dispersionen mittels der Sulfit-Oxidation”, Chem.-Ing.-Tech., 49(7), 1977, p. 573.
Onken, U., Sick, R., Weiland, P., “Determination of gas-liquid mass transfer by oxidation of hydrazine”, Chem. Eng. Sci., 40, 1985, pp. 1990-1993.
Ono, Y., “Recent Trend of Synthetic Fuel Production Technologies”, J. Japan Inst. Energy, 80(6), 2001, pp. 402-408.
Onozaki, M., Namiki, Y., Ishibashi, H., Takagi, T., Kobayashi, M., Morooka, S., “Steady¬State Thermal Behavior of Coal Liquefaction Reactors Based on NEDOL Process,” Energy & Fuels, 14, 2000, p. 355.
Onozaki, M., Namiki, Y., Sakai, N., Kobayashi, M., Nakayama, Y., Yamada, T., Morooka, S., "Dynamic simulation of gas-liquid dispersion behavior in coal liquefaction reactors", Chem. Eng. Sci., 55(21), 2000, pp. 5099-5113.
Onsgaard, J., Godowski, P. J., Nerlov, J., Quist, S., Hoffmann, S. V., “Interactions between H, CO and CO2 on an K-modified Cu(110) surface”, Surf. Sci., 398(3), 1998, pp. 318-331.
Orchin, M., "Tetracarbonylhydrocobalt, the quintessential catalyst", Acc. Chem. Res., 14(9), 1981, pp. 259-266.
Orchin, M., Wender, I., “Reactions of carbon monoxide”, chapter 1 in “Catalysis – Volume V” (P. H. Emmett, ed.), Reinhold Publishing, NY, 1957, pp. 1-72.
O'Rear, D. J., “The Paragon process: a new hydrocracking concept”, Ind. Eng. Chem. Res., 26(11), 1987, pp. 2337-2344.
O'Rear, D. J., Bacha, J. D., Tiedemann, A. N., "Thermally Stable Blends of Fischer Tropsch and LCO Diesel Fuel Components", Energy Fuels, 18(3), 2004, pp. 682-684.
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.
Organ, S. J., Keller, A., “The onset of chain folding in ultralong n-alkanes: An electron microscopic study of solution-grown crystals”, J. Polymer Sci. B, 25(12), 1987, pp. 2409-2430.
Orita, H., Itoh, N., Inada, Y., "A comparison of CO adsorption on Pt(211), Ni(211), and Pd(211) surfaces using density functional theory", Surf. Sci., 571(1-3), 2004, pp. 161-172.
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.
Orita, H., Naito, S., Tamaru, K., "Mechanism of formation of C2-oxygenated compounds from CO + H2 reaction over SiO2-supported Rh catalysts", J. Catal., 90(2), 1984, pp. 183-193.
Orita, H., Naito, S., Tamaru, K., "Nature of SMSI effect on carbon monoxide + molecular hydrogen reaction over supported rhodium catalysts", J. Phys. Chem., 89(14), 1985, pp. 3066-3069.
Orita, H., Naito, S., Tamaru, K., "Reactivity of surface carbon deposited on supported Rh catalysts by the disproportionation of CO", J. Catal., 111(2), 1988, pp. 464-467.
Orita, H., Naito, S., Tamaru, K., “Effect of SMSI (strong metal–support interaction) behaviour on CO–H2 reaction over supported Rh catalysts”, J. Chem. Soc. Chem. Commun., 1983, pp. 993-994.
Orkin, B. A., "Hydroisomerization of Normal Paraffins over Fluorided Platinum-Alumina Catalysts", Ind. Eng. Chem. Prod. Res. Dev., 8(2), 1969, pp. 154-160.
Orlov, Kh. Ya., Martynov, A. A., “Catalytic conversions of high-molecular paraffins Communication 3. Influence of the addition of benzene in the isomerization of n-octadecane in the presence of the industrial catalyst WS2”, Russian Chem. Bull., 14(5), 2005, pp. 778-781.
Orlov, Kh. Ya., Martynov, A. A., Bulychev, V. P., “Catalytic transformations of high-molecular paraffins Communication 2. Isomerization of n-octadecane in the presence of industrial catalysts WS2 and WS2+ aluminosilicates”, Russian Chem. Bull., 14(5), 1965, pp. 774-777.
Orlov, Kh. Ya., Martynov, A. A., Bulychev, V. P., “Catalytic transformations of paraffins of high molecular weight”, Russian Chem. Bull., 12(9), 1963, pp. 1492-1496.
Orlov, N. A., "A new synthesis of hydrocarbons CnH2n + 2", Dokl. Acad. Sci., 4(5), 1934, pp. 286-288.
Orlova, L. B., Lokhov, Yu. A., Ione, K. G., Davydov, A. A., “Use of the IR spectra of adsorbed CO to investigate the state of nickel in zeolites”, Russian Chem. Bull., 28(9), 1979, pp. 1794-1798.
Orlovic, A., Rados, N., Sokic, M., Skala, D., "Fischer-Tropsch Synthesis", Khim. Prom., 49(4), 1995, p. 177.
Orlovic, A., Sokic, M., Skala, D., "Mathematical modeling of Fischer-Tropsch synthesis", Khim. Prom., 48(11), 1994, p. 303.
Orlovic, A., Sokic, M., Skala, D., Bukur, D., "Fischer-Tropsch Synthesis on a Selective Co/Mn Catalysts", in "Proc. of 12th International Congress of Chem. Proc. Eng.", Praha, Czech Republic, August 25-30, 1996, Paper B4.6, pp. 1052-1070.
Ortaggi, G., Paolesse, R., "The reduction of bridged carbonyl groups as a new route to a-methylene complexes of iron", J. Organomet. Chem., 346(2), 1988, pp. 219-224.
Ortelli, E. E., Wambach, J., Wokaun, A., “Methanol synthesis reactions over a CuZr based catalyst investigated using periodic variations of reactant concentrations”, Appl. Catal. A, 216(1-2), 2001, pp. 227-241.
Ortelli, E. E., Weigel, J. M., Wokaun, A., “Methanol synthesis pathway over Cu/ZrO2 catalysts: a time resolved DRIFT 13C labelling experiment”, Catal. Lett., 54(1-2), 1998, pp. 41-48.
Orwoll, R. A., Flory, P. J., “Equation- of-state parameters for normal alkanes. Correlation with chain length”, J. Am. Chem. Soc., 89(26), 1967, pp. 6814-6822.
Oshinowo, T., Charles, M. E., "Vertical two-phase flow: part II. Holdup and pressure drop", Can. J. Chem. Eng., 56, 1974, p. 438.
Oskooie Tabrizi, M., Lo, C., Mulay, L. N., "Magnetic and Moessbauer characterization of transition metal catalysts supported on aluminosilicates", IEEE Trans. Magn., 19(5), 1983, pp. 30-34.
Oskooie-Tabrizi, M. M., “Magnetic And Moessbauer Characterization Of Iron/Zeolite Catalysts And Syngas Conversion Studies”, Ph. D. Thesis, Pennsylvania State University, 1983.
Ostergaard, K., "Gas-liquid-particle operation in chemical reaction engineering", Adv. Chem. Eng., 7, 1968, pp. 71-137.
Ostergaard, K., "Holdup, mass transfer, and mixing in three-phase fluidization", AIChE Symp. Ser., 74, 1978, pp. 82-86.
Ostergaard, K., "Studies in gas-liquid fluidization", Danish Technical Press, Copenhagen, 1969.
Ostergaard, K., “On bed porosity in gas-liquid fluidization”, Chem. Eng. Sci., 20, 1965, pp. 165-167.
Ostergaard, K., Fosbol, P., “Transfer of oxygen across the gas-liquid interface in gas-liquid fluidized beds”, Chem. Eng. J., 3, 1972, pp. 105-111.
Ostergaard, K., Michelsen, M. L., "On the Use of the Imperfect Tracer Pulse Method for Determination of Holdup and Axial Mixing" , Can. J. Chem. Eng. 47, 1969, p. 107.
Ostergaard, K., Suchozebrski, W., "Gas-liquid mass transfer in gas-liquid fluidized beds", in "Proc. 4th European Symposium on Chemical Reaction Engineering", Pergamon Press, 1971, pp. 21-29.
Ostergaard, K., Theisen, P. I., "The effect of particle size and bed height on the expansion of mixed phase (gas-liquid) fluidized beds", Chem. Eng. Sci., 21, 1966, p. 413.
Osterloh, M. E., “Investigations Of The Fischer-Tropsch Synthesis And The Hydrogenolysis Of Alkanes”, Ph. D. Thesis, University of Texas, Austin, 1983.
Osterloh, W. T., Cornell, M. E., Pettit, R., "On the Mechanism of Hydrogenolysis of Linear Hydrocarbons and its Relationship to the Fischer-Tropsch Reaction", J. Am. Chem. Soc., 104(13), 1982, pp. 3759-3761.
Ostrovskii, V. E., Medvedkova, E. A., "Calorimetric study of adsorption of aliphatic hydrocarbons on reduced cobalt catalyst", Kinet. Catal. (Engl. Transl.), 26(6), 1986, pp. 1235-1239.
Ostrovskii, V. E., Medvedkova, E. A., "Calorimetric study of aliphatic hydrocarbons adsorption on reduced cobalt catalyst", Kinet. Catal., 26(6), 1985, pp. 1433-1438.
Otake, T., Tone, S., Nakao, K., Mitsuhashi, Y., "Coalescence and break-up of bubbles in liquids", Chem Eng. Sci., 32, 1977, pp. 377-383.
Otaki, T., Tone, S., Shinhara, K., "Gas holdup in the bubble column with cocurrent and countercurent gas-liquid flow", J. Chem. Eng. Japan, 14(4), 1981, p. 338-340.
Otarod, M., Ozawa, S., Yin, F., Chew, M., Cheh, H. Y., Happel, J., "Multiple isotope tracing of methanation over nickel catalyst. III. Completion of 13C and D tracing", J. Catal., 84(1), 1983, pp. 156-169.
Ott, G. L., Fleisch, T., Delgass, W. N., "Carbon deposition and activity changes over FeRu alloys during Fischer-Tropsch synthesis", J. Catal., 65(2), 1980, pp. 253-262.
Ott, G. L., Fleisch, T.,. Delgass, W. N., "Fischer-Tropsch synthesis over freshly reduced iron-ruthenium alloys", J. Catal., 60(3), 1979, pp. 394-403.
Ouderkirk, A. J., Wermer, P., Schultz, N. L., Weitz, E., "Observation of coordinatively unsaturated intermediates following the pulsed UV photolysis of iron pentacarbonyl (Fe(CO)5)", J. Am. Chem. Soc., 105(10), 1983, pp. 3354-3355.
Ougitani, Y., Aizawa, T., Sonoyama, N., Sakata, T., "Temperature dependence of the probability of chain growth for hydrocarbon formation by electrochemical reduction of CO2", Bull. Chem. Soc. Japan, 74(11), pp. 2119-2122.
Oukaci, R., Blackmond, D. G., Sayari, A., Goodwin, J. G., "The implications of metal-support interactions on chemisorption characterization of supported metal catalysts", in "Metal-Support Interactions" (B. Davis, ed.), Van Nostrand Rheinhold, NY, 1987.
Oukaci, R., Goodwin, J. G. Jr., Marcelin, G., Singleton, A., "Zirconia promotion of Fischer-Tropsch cobalt catalysts: Behavior in fixed-bed and slurry bubble column reactors", ACS Div. Fuel Chem. Prepr., 40(1), 1995, pp. 182-186.
Oukaci, R., Sayari, A., Goodwin, J. G. Jr., "Effect of group IA cations on CO hydrogenation over Ru/Y-zeolites", J. Catal., 102(1), 1986, pp. 126-139.
Oukaci, R., Sayari, A., Goodwin, J. G. Jr., "Preparation effects in zeolite-supported metal catalysts: influence of decomposition/reduction on Ru particle size", J. Catal., 106(1), 1987, pp. 318-322.
Oukaci, R., Singleton, A. H., Goodwin, J. G., "Comparison of Patented Co F-T Catalysts using Fixed-Bed and Slurry Bubble Column Reactors", Appl. Catal. A, 186, 1999, pp. 129-144.
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.
Oukaci, R., Wu, J. C. S., Goodwin, J. G. Jr., "CO hydrogenation on zeolite-supported Ru: Effect of neutralizing cations", ACS Div. Fuel Chem. Prepr., 31(3), 1986, pp. 66-70.
Oukaci, R., Wu, J. C.-S., Goodwin, J. G. Jr., "Effect of Si/Al Ratio on Secondary Reactions during CO Hydrogenation on Zeolite-Supported Metal Catalysts," J. Catal., 110, 1988, pp. 47-57.
Oukaci, R., Wu, J. C.-S., Goodwin, J. G. Jr., "Secondary Reactions During CO Hydrogenation on Zeolite-Supported Metal Catalysts: Influence of Alkali Cations", J. Catal., 107, 1987, pp. 471-481.
Ould-Sidi-Bouya, T. K., "Synthese d'isoparaffines par piegeage chimique des especes intermediaires de la synthese Fischer-Tropsch", M.Sc. Thesis, Universite Laval, 1994.
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.
Outi, A., Rautavuoma, I., van der Baan, H. S., "Some observations on the kinetics of the hydrogenation of carbon monoxide", J. Catal., 71(2), 1981, pp. 423-425.
Ouyang, C. J. P., Tatterson, G. B., "The effect of distributors on two-phase and three-phase flows in vertical columns", Chem. Eng. Comm., 49, 1987, p. 197.
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.
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.
Ouyoung, P. K., Chang, H. N., Moo-Young, M., “Determination of gas-liquid mass transfer coefficient in a bubble column by an eigenvalue method”, Chem. Eng. Sci., 43, 1988, pp. 821-827.
Ovalles, C., Peluso, E., Albers, G., Rojas, D., "Hydrocarbon Synthesis from Carbon Monoxide and Hydrogen, comparison between Co2(CO)8 and Co(NO3)2 alumina supported catalysts", Revista Tecnica Intevep, 11(2), 1993, p. 125.
Ovchinnikova, A. V., Boldinov, V. A., Esipko, E. A., Prozorova, I. S., “Effect of n-Paraffins on the Low-Temperature Properties of Aviation Diesel Fuel”, Chem. Tech. Fuels Oils, 41(6), 2005, pp. 462-467.
Over, H., Bludau, H., Skottke-Klein, M., Ertl, G., Moritz, W., Campbell, C. T., "Coverage Dependence of the Adsorption Site Geometry in the Cs/Ru(0001) System - A Leed Analysis", Phys. Rev. B, 45, 1992, pp. 8638-8649.
Over, H., Gierer, M., Bludau, H., Ertl, G., “The bending mode vibration of CO on Ru(0001) studied with low-energy electron-diffraction”, Surf. Sci., 346(1-3), 1996, pp. 64-72.
Over, H., Kleinle, G., Ertl, G., Moritz, W., Ernst, K.-H., Wohlgemuth, H., Christmann, K., Schwarz, E., “A LEED structural analysis of the Co(1010) surface”, Surf. Sci., 254(1-3), 1991, pp. L469-L474.
Over, H., Kose, R., Bludau, H., Ertl, G., “Cs and CO coadsorbed on Ru(0001): Low-energy electron diffraction analysis”, Surf. Sci., 331-333(1), 1995, pp. 62-68.
Overett, M. J., Hill, R. O., Moss, J. R., "Organometallic chemistry and surface science: mechanistic models for the Fischer-Tropsch synthesis", Coord. Chem. Rev., 206-207, 2000, pp. 581-605.
Ovesen, C. V., Clausen, B. S., Hammershøi, B., Askgård, T., Chorkendorff, I., Nørskov, J. K., Rasmussen, P. B., Stoltze, P., Taylor, P. A., "Kinetics of the water-gas shift reaction at high pressures'', J. Catal. 158,1996, pp. 170-180.
Ovesen, C. V., Stoltze, P., Norskov, J. K., Campbell, C. T., "A Kinetic Model of the Water-Gas Shift Reaction", J. Catal., 134, 1992, pp. 445-468.
Owen, E. A., Jones, D. M., "Effect of Grain Size on the Crystal Structure of Cobalt", Proc. Phys. Soc. B, 67, 1954, pp. 456-466.
Owen, J., “Conversion and uses of liquid fuels from coal”, Fuel, 60(9), 1981, pp. 755-761.
Owens, E. C., Marbach, H. W. Jr., Frame, E. A., Ryan III., T. W., "Effects of Alcohol Fuels on Engine Wear", SAE Technical Paper 800857, SAE Transactions, Vol. 89, 1980.
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.
Oxton, I. A., Powell, D. B., Sheppard, N., Burgess, K., Johnson, B. F. G., Lewis, J., “The infrared vibrational assignment for the µ2-bridging methylene ligand in metal cluster complexes and its comparison with frequencies assigned to CH2 species chemisorbed on metal surfaces”,
Oyevaar, M. H., “Gas-liquid contacting at elevated pressures”, Dissertation, University of Twente, The Netherlands, 1989.
Oyevaar, M. H., Bos, R., Westerterp, K. R., “Interfacial areas and gas hold-ups in gas-liquid contactors at elevated pressures”, Chem. Eng. Sci., 46, 1991, pp. 1217-1231.
Oyevaar, M. H., De la Rie, T., Van der Sluijs, C. L., Westerterp, K. R., "Interfacial Areas and Gas Holdups in Bubble Columns and Packed Bubble Columns at Elevated Pressures," Chem. Eng. Proc., 26, 1989, pp. 1-14.
Oyevaar, M. H., Westerterp, K. R., "Mass Transfer Phenomena and Hydrodynamics in Agitated Gas-Liquid Reactors and Bubble Columns at Elevated Pressures: State of the Art," Chem. Eng. Proc., 25, 1989, pp. 85-98.
Oyevaar, M. H., Westerterp, K. R., “The use of chemical method for the determination of interfacial areas in gas-liquid contactors”, Chem. Eng. Sci., 44, 1989, pp. 2691-2701.
O'Young, C. L., Katzer, J. R., "Infrared studies of CO chemisorption on a highly dispersed supported Os catalyst", J. Phys. Chem., 91(23), 1987, pp. 6013-6016.
Ozaki, A., “Isotope Effects”, chapter 6 in “Isotope Studies of Heterogeneous Catalysis”, Academic Press, NY, 1977, pp. 168-212.
Ozaki, A., Tanaka, K.-I., "Chemisorption of carbon monoxide on ferric oxide : A test for the active site on the transition metal oxides", J. Catal., 20(3), 1971, pp. 422-423.
Ozdogan, S. Z., Gochis, P. D., Falconer, J. L., "Carbon and Carbon Monoxide Hydrogenation on Nickel; Support Effects," J. Catal., 83, 1983, p. 257.
Ozin, G. A., Baker, M. D., Godber, J., “Cobalt atom impregnated and cobalt ion exchanged faujasite zeolites; FT-Far-IR spectroscopy and syn-gas conversion: optimizing the production of C3 and C4 hydrocarbons”, in “Heterogeneous Catalysis - Proceedings of the Research Symposia of the Industry-University Cooperative Chemistry Program” (B. L. Shapiro, et al., eds.), Texas A&M University Press, College Station, 1984, pp. 30-70.
Ozin, G. A., Hanlan, A. J. L., "Optical studies of the genesis of ligand-free cobalt and rhodium clusters: relevance to oxide- and polymer-bound cobalt and rhodium clusters", Inorg. Chem., 18(7), 1979, pp. 1781-1790.
Ozin, G. A., Hugues, F., "Selective photoactivation of carbon-hydrogen bonds in paraffinic hydrocarbons. Dimerization of alkanes", J. Phys. Chem., 86(26), 1982, pp. 5174-5179.
Öztürk, S., Schumpe, A., "The influence of suspended solids on oxygen transfer to organic liquids in a bubble column", Chem. Eng. Sci., 42(7), 1987, pp. 1781-1785.
Öztürk, S., Schumpe, A., Deckwer, W.-D., "Organic liquids in a bubble column: holdups and mass transfer coefficients", AIChE J., 33(9), 1987, pp. 1473-1480.
Öztürk, S., Shah, Y. T., Deckwer, W.-D., "Comparison of gas and liquid phase methanol synthesis processes", Chem. Eng. J., 37(3), 1988, pp. 177-192.
Paal, Z., "Catalysis questions in chemical processing of coal", Magy. Kem. Lapja, 35(10), 1980, pp. 520-525.
Paal, Z., Menon, P. G., "Hydrogen effects in metal catalysts", Catal. Rev. Sci. Eng., 25(2), 1983, pp. 229-324.
Padgett, F. W., Hefley, D. G., Henriksen, A., “Wax Crystallization - A Preliminary Report”, Ind. Eng. Chem., 18(8), 1926, pp. 832-835.
Padial, N. T., Vanderheyden, W. B., Rauenzahn, R., Yarbro, S., "Three-Dimensional Simulation Of A Three-Phase Draft-Tube Bubble Column", Chem. Eng. Sci., 55, 2000, pp. 3261-3273.
Page, R. E., Harrison, D., "The size distribution of gas bubbles leaving a three-phase fluidized bed", Powder Tech., 6, 1972, pp. 245-249.
Paglianti, A., Pintus, S., “An impedance probe for the measurements of liquid hold-up and mixing time in two/three-phase stirred tank reactors”, Experiments in Fluids, 31(4), 2001, pp. 417-427.
Pajonk, G. M., Teichner, S. J., “Carrier effect in hydrogenation properties of metals”, Stud. Surf. Sci. Catal., 27, 1986, pp. 277-311.
Pakhlov, E. M., Kontsevoy, A. L., "Methanizing carbon dioxide under hydrogen shortage", Khim. Tekhnol., 5, 1981, pp. 59-60.
Pal, S. S., Mitra, A. K., Roy, A. N., "Pressure drop and holdup in vertical two-phase co-current flow with improved gas-liquid mixing", Ind. Eng. Chem. Proc. Des. Dev., 19(1), 1980, p. 67.
Palágyi, J., Pályi, G., Markó, L., “Transition-metal alkyls and hydrides IV. direct synthesis of cobalt carbonyl hydride at low temperature and atmospheric pressure”, J. Organomet. Chem., 14(1), 1968, pp. 238-240.
Palasantzas, G., Ilge, B., de Nijs, J., Geerligs, L. J., "Diffusion, nucleation and annealing of Co on the H-passivated Si(100) surface", Surf. Sci., 412-413(1-3), 1998, pp. 509-517.
Palaskar, S. N., De, J. K., Pandit, A. B., "Liquid Phase RTD Studies in Sectionalized Bubble Column", Chem. Eng. Tech., 23(1), 2000, pp. 61-69.
Palazov, A., Kadinov, G., Bonev, C., Shopov, D., "Infrared spectroscopic study of the interaction between carbon monoxide and hydrogen on supported palladium", J. Catal., 74(1), 1982, pp. 44-54.
Palmer, R. L., Vroom, D. A., "Mass-Spectrometric Measurements Of Enhanced Methanation Activity Over Cobalt And Nickel Foils", J. Catal., 50, 1977, pp. 244-251.
Pályi, G., Váradi, G., Horváth, I. T., "Activation of carbon monoxide and acetylenes by cobalt carbonyls", J. Molec. Catal., 13, 1981, pp. 61-70.
Palyi, G., Zucchi, C., Ugo, R., Psaro, R., Sironi, A., Vizi-Orosz, A., “Mono- or polynuclear surface species: Models and tendencies with cobalt and rhodium”, J. Molec. Catal., 74(1-3), 1992, pp. 51-59.
Pan, G. Z., Michel, A., Pierron-Bohnes, V., Vennéguès, P., Cadeville, M.-C., "Plan-view microstructures of Co/Ru bilayers", J. Mater. Res., 10, 1995, pp. 1539-1545.
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, L., Hewitt, G. F., "Precise measurement of cross sectional phase fractions in three-phase flow using a dual-energy gamma densitometer", ANS Proceedings, Thermal Hydraulics Division, 8, 1995, pp. 71-78.
Pan, W. X., Cao, R., Griffin, G. L., "Direct alcohol synthesis using copper/cobalt catalysts", J. Catal., 114(2), 1988, pp. 447-456.
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.
Pan, Y., Dudukovic, M. P., Chang, M., "Dynamic Simulation of Bubbly Flow in Bubble Columns", Chem. Eng. Sci., 54, 1999, pp. 2481-2490.
Pan, Y., Dudukovic, M. P., Chang, M., "Numerical Investigation of Gas-Driven Flow in Two-Dimensional Bubble Columns", AIChE J., 46, 2000, pp. 433-449.
Panagiotopoulou, P., Kondarides, D. I., "Effect of morphological characteristics of TiO2-supported noble metal catalysts on their activity for the water-gas shift reaction", J. Catal., 225(2), 2004, pp. 327-336.
Panayotov, D., Basu, P., Yates, J. T. Jr., "CO isotopic exchange reaction over Rh/Al2O3: nondissociative exchange on metallic Rh sites", J. Phys. Chem., 92(21), 1988, pp. 6066-6073.
Pandit, A. B., "Mixing in Multiphase systems", Chem. Ind. Digest, May-June, 2000, p. 74.
Pandit, A. B., Joshi, J. B., "Effect of Liquid Phase Physical Properties on suspension of Solid Particles and Mixing in Three Phase Sparged Reactors", Int. J. Multiphase Flow, 13, 1987, pp. 415-427.
Pandit, A. B., Joshi, J. B., "Mass and Heat transfer Characteristics of three Phase Sparged Reactors", Chem. Eng. Res. Des., 64, 1986, pp. 125-127.
Pandit, A. B., Joshi, J. B., "Three-phase sparged reactors - Some design aspects", Rev. Chem. Eng., 2, 1984, pp. 1-84.
Panich, N. M., Lagutina, T. A., Pirogova, G. N., “Hydrogenation of carbon monoxide over technetium catalysts”, Russian Chem. Bull., 41(7), 1992, pp. 1161-1164.
Panidis, Th., Papailiou, D. D., "Water Air Bubble Grid Turbulence", Chem. Eng. Tech., 25(4), 2002, pp. 455-458.
Pankina, G. V., Chernavskii, P. A., Lermontov, A. S.,Lunin, V. V., "Prediction of Activity and Selectivity of Supported Cobalt Fischer-Tropsch Catalysts", Petrol. Chem., 41(5), 2001, p. 319.
Pankina, G. V., Chernavskii, P. A., Lunin, V. V., “Magnetic Methods in a Study of the Effect of the Pore Structure of Silica Gels on the Particle Size of Cobalt in Catalysts for the Fischer–Tropsch Synthesis”, Kinet. Catal., 46(5), 2005, pp. 719-723.
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.
Pannaparayil, T., Lo, C., Mulay, L. N., Oskooie-Tabrizi, M., "Mossbauer, infrared and magnetic characterization of iron/cobalt species in cage structure alumino-silicates (Zeolites)", Mater. Res. Bull., 19(11), 1984, pp. 1411-1425.
Pannaparayil, T., Mulay, L. N., "Magnetic and Mossbauer studies of electronic interaction between Fe, FeRu alloy clusters on high surface area carbons", J. App. Phys., 57(8-pt. 2), 1985, pp. 3826-3828.
Pannaparayil, T., Oskooie-Tabrizi, M., Lo, C., Mulay, L. N., Melson, G. A., Rao, V. U. S., "Magnetic and Moessbauer study of metal-zeolite interaction in catalysts", J. App. Phys., 55(6), 1984, pp. 2601-2603.
Pannell, R. B., Kibby, C. L., Kobylinski, T. P., “A steady state study of Fischer-Tropsch product distributions over cobalt, iron, and ruthenium”, Stud. Surf. Sci. Catal., 7A, 1981, pp. 447-459.
Panpranot, J., “Mesoporous silica-supported cobalt-based catalysts”, Ph. D. Thesis, Clemson University, 2002.
Panpranot, J., Goodwin, J. G. Jr., Sayari, A., "CO Hydrogenation on Ru-Promoted Co/MCM-41 Catalysts", J. Catal., 211(2), 2002, pp. 530-539.
Panpranot, J., Goodwin, J. G. Jr., 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., Goodwin, J. G. Jr., Sayari, A., "Synthesis and characteristics of MCM-41 supported CoRu catalysts", Catal. Today, 77(3), 2002, pp. 269-284.
Panpranot, J., Kaewgun, S., Praserthdam, P., “Metal-support interaction in mesoporous silica supported cobalt Fischer-Tropsch catalysts”, React. Kinet. Catal. Lett., 85(2), 2005, pp. 299-304.
Panpranot, J., Kaewkun, S., Praserthdam, P., Goodwin, J. G. Jr., "Effect of Cobalt Precursors on the Dispersion of Cobalt on MCM-41", Catal. Lett., 91(1-2), 2003, pp. 95-102.
Panpranot, J., Taochaiyaphum, N., Praserthdam, P., “Effect of Si addition on the properties of nanocrystalline ZrO2-supported cobalt catalysts”, React. Kinet. Catal. Lett., 87(1), 2005, pp. 185-190.
Panpranot, J., Taochaiyaphum, N., Praserthdam, P., “Glycothermal synthesis of nanocrystalline zirconia and their applications as cobalt catalyst supports”, Materials Chem. Phys., 94(2-3), 2005, pp. 207-212.
Pantazis, D. A., Tsipis, A. C., Tsipis, C. A., "Theoretical Study on the Mechanism of Reaction of Ground-State Fe Atoms with Carbon Dioxide", Coll. Czech. Chem. Comm., 69(1), 2004, pp. 13-33.
Panteleev, V. A., Beskov, V. S., Shumilkina, V. A., “Choice of conditions for activity measurements of commercial methanation catalysts”, React. Kinet. Catal. Lett., 19(3-4), 1982, pp. 311-316.
Panton, C. J., “The interaction between crystalline paraffins and ethylene-propylene copolymer: A preliminary report”, J. Polymer Sci. B, 5(11), 1967, pp. 1047-1050.
Panvelkar, S. J., Tierney, J. W., Shah, Y. T., Rhodes, D. F., "Backmixing in a SRC dissolver", Chem. Eng. Sci., 37(10), 1982, p. 1582.
Panzner, G., Diekmann, W., “The bonding state of carbon segregated to ?-iron surfaces and on iron carbide surfaces studied by electron spectroscopy”, Surf. Sci., 160(1), 1985, pp. 253-270.
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.
Pape, R., Gidaspow, D., Wu, S., "Numerical Stability Analysis for Reactive Multiphase Flow in Slurry Bubble Column Reactors and Solid Propellant Rockets", in "Proceedings of The 1996 ASME Fluids Engineering Division Summer Meeting, Part 1, Jul, 7-11, 1996, San Diego", 1996, 236 (1).
Paping, L. L. M. J., “Synthesis of light olefins by way of the Fischer-Tropsch reaction”, Dissertation, Technische Hogeschool Eindhoven, 1976.
Papmahl, F., Rase, H. F., "Effect of Grinding on Nickel-Kieselguhr Catalyst Activity", Ind. Eng. Chem. Prod. Res. Dev., 8(4), 1969, pp. 352-355.
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., Baerns, M., "Industrial Application of CO Chemistry for the Production of Speciality Chemicals", Stud. Surf. Sci. and Catal., 64, 1991, pp. 430-457.
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.
Parameswaran, V. R., “Roles of carbon dioxide and water in liquid-phase methanol synthesis”, Ph. D. Thesis, University of Akron, 1987.
Parameswaran, V., Lee, S., "Pore diffusional limitations in the liquid-phase methanol synthesis process", Energy Fuels, 1(2), 1987, pp. 217-222.
Parasu Veera, U., Kataria, K. L., Joshi, "Effect of superficial gas velocity on gas hold-up profiles in foaming liquids in bubble column reactors", Chem. Eng. J., 99(1), 2004, pp. 53-58.
Parcher, J. F., Weiner, P. H., Hussey, C. L., Westlake, T. N., “Specific retention volumes and limiting activity coefficients of C4-C8 alkane solutes in C22-C36 n-alkane solvents”, J. Chem. Eng. Data, 20(2), 1975, pp. 145-151.
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.
Pareek, V.K., Yap, Z., Brungs, M. P., Adesina, A. A., "Particle Residence Time Distribution (RTD) In Three-Phase Annular Bubble Column Reactor", Chem. Eng. Sci., 56, 2001, pp. 6063-6071.
Pareja, T. J., Luss, D., "Modification of the selectivity of catalytic consecutive reactions by poisoning", Chem. Eng. Sci., 30(10), 1975, pp. 1219-1225.
Parente, E. J., “Forecast for Synfuel Industry”, chapter 11 in “The Energing Synthetic Fuel Industry” (A. Thumann, ed.), Fairmont Press, Atlanta, 1981, pp. 185-193.
Park, C. J., “The Fluid Mixing Characteristics of Internal Loop Bubble Column”, J. Korean Inst. Chem. Eng., 33(2), 1995, pp. 177-182.
Park, C. J., Doh, D. S., “An Experimental and Theoretical Study on the Circulation of Suspension in a Solid-Suspended Bubble Column with a Draft Tube”, J. Korean Inst. Chem. Eng., 27(4), 1989, pp. 459-471.
Park, C. J., Doh, D. S., “Heat and Mass Transfer Characteristics in a Solid-Suspended Bubble Column with A Draft Tube”, J. Korean Inst. Chem. Eng., 27(6), 1989, pp. 845-854.
Park, C. J., Oh, K. J., Doh, D. S., “On the Axial Mixing Characteristics of Circulating Slurry-Suspension in the Three Phase Slurry Bubble Column with a Draft Tube”, J. Korean Inst. Chem. Eng., 28(5), 1990, pp. 493-498.
Park, C. J., Song, S. R., Doh, D. S., “Effect of Suspended Solid Particles on Mass Transfer in Vertical Slurry Flow”, J. Korean Inst. Chem. Eng., 30(4), 1992, pp. 450-456.
Park, C., Baker, R. T. K., "Carbon Deposition on Iron-Nickel During Interaction with Ethylene-Carbon Monoxide-Hydrogen Mixtures", J. Catal., 190(1), 2000, pp. 104-117.
Park, C., Durrer, W. G., Poppa, H., Dickinson, J. T., "CO desorption from supported Ru particles", J. Catal., 95(2), 1985, pp. 361-369.
Park, C., Rodriguez, N. M., Baker, R. T. K., "Carbon Deposition on Iron-Nickel during Interaction with Carbon Monoxide-Hydrogen Mixtures", J. Catal., 169(1), 1997, pp. 212-227.
Park, I.-H., Hyung-Pyo Lee, H.-P., “Stoichiometry, Thermal Stability and Reducibility of Perovskite-Type Mixed Oxide LaBO3 (B = Fe, Co, Ni)”, Bull. Korean Chem. Soc., 9(5), 1988, pp. 283-288.
Park, J.-N., Kim, J.-H., Lee, H.-I., “A study on the suflur-resistant catalysts for water-gas-shift reaction. III. Modification of Mo/?-Al2O3 catalysts with iron group metals”, Bull. Korean Chem. Soc., 21(12), 2000, pp. 1233-1238.
Park, K. Y., “A Study on the Synthesis of Alcohols with Cu-Co-Cr Catalyst”, J. Korean Inst. Chem. Eng., 21(6), 1983, pp. 293-304.
Park, K. Y., Seo, W. K., Lee, J. S., “Selective synthesis of light olefins from syngas over potassium-promoted molybdenum carbide catalysts”, Catal. Lett., 11(3-6), 1991, pp. 349-356.
Park, K., Cao, F., Kittelson, D. B., McMurry, P. H., “Relationship between Particle Mass and Mobility for Diesel Exhaust Particles”, Environ. Sci. Technol., 37(3), 2003, pp. 577-583.
Park, K.-C., Ihm, S.-K., “Comparison of Pt/zeolite catalysts for n-hexadecane hydroisomerization”, Appl. Catal. A, 203(2), 2000, pp. 201-209.
Park, K.-H., Cao, F., Kittelson, D. B., Mcmurry, P. H., "Relationship between particle mass and mobility for diesel exhaust particles", Environ. Sci. Tech., 37(3), 2003, pp. 577-583.
Park, S. H., “Energy Dissipation Rate and Pressure Fluctuations in a Three Phase Fluidized Bed with a Large Column Diameter”, J. Korean Chem. Eng., 21(5), 2004, pp. 1066-1071.
Park, S. H., Kang, Y., Kim, S. D., "Wavelet Transform Analysis Of Pressure Fluctuation Signals In A Pressurized Bubble Column", Chem. Eng. Sci., 56, 2001, pp. 6259-6265.
Park, S. H., Kim, J. H., Lee, T. J., Kim, D. H., “Methanation Kinetics of Carbon Oxides over supported Ru and Ni Catalysts”, J. Korean Inst. Chem. Eng., 30(4), 1992, pp. 423-432.
Park, S. H., Kim, S. D., "Analysis of Pressure Fluctuation Signals in Bubble Column by Wavelet Transform", J. Korean Inst. Chem. Eng., 42(1), 2004, pp. 84-88.
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.
Park, S. S., Kang, S. M., Lee, D. H., Lee, Y. K., Kim, J. H., Han, G. Y., Epstein, N., Grace, J. R., Kim, S. D., “Bubble Drift Velocity from the Bed Collapse Technique in Three-Phase Fluidized Beds”, Korean J. Chem. Eng., 22(2), 2005, pp. 328-333.
Park, S.-H., Kim, H., “A Theoretical Study of CO Molecules on Metal Surfaces: Coverage Dependent Properties”, Bull. Korean Chem. Soc., 12(5), 1991, pp. 574-582.
Park, Y. S., Lee, H.-O., “Water-Induced Effects on the Adsorption on Polycrystalline Platinum - I. The effects of carbon monoxide and water on the adsorption of hydrogen”, J. Korean Inst. Chem. Eng., 23(2), 1985, pp. 79-87.
Park, Y. S., Lee, W. Y., Lee, H. I., “Water-Induced Effects On The Adsorption On Polycrystalline Platinum”, Korean J. Chem. Eng., 2(1), 1985, pp. 75-80.
Park, Y.-K., Baek, S.-W., Ihm, S.-K., "CO2 Hydrogenation Over Copper-Based Hybrid Catalysts For The Synthesis Of Oxygenates", ACS Fuel Chem. Prepr., 47(1), 2002, p. 293.
Park, Y.-K., Jeon, J.-K., Ihm, S.-K., “Design of copper based hybrid catalysts for CO2 hydrogenation”, Stud. Surf. Sci. Catal., 153, 2004, pp. 25-32.
Park, Y.-K., Park, K.-C., Ihm, S.-K.,"Hydrocarbon synthesis through CO2 hydrogenation over CuZnOZrO2/zeolite hybrid catalysts", Catal. Today, 44(1-4), 1998, pp. 165-173.
Parkash, S., Chakrabartty, S. K., Rosynek, M. P., "Hydrocarbon synthesis and carbon dioxide adsorption on iron catalysts", Fuel Proc. Tech., 3(1), 1980, pp. 63-73.
Parkash, S., Hooley, J. G., Kikuchi, E., Ino, T., Morita, Y., "Letters to the editor/Location of catalytic iron in reduced graphite ferric chloride", J. Catal., 62(1), 1980, pp. 187-190.
Parkash, S., Kretschmer, H. O., Chakrabartty, S. K., "Sorptive and activity behavior of iron minerals for hydrocarbon synthesis", Fuel Proc. Tech., 4(1), 1981, pp. 31-41.
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.
Parks, E. K., Klots, T. D., Winter, B. J., Riley, S. J., "Reactions Of Cobalt Clusters With Water And Ammonia: Implications For Cluster Structure", J. Chem. Phys., 99(8), 1993, pp. 5831-5839.
Parks, E. K., Nieman, G. C., Riley, S. J., "Binding Of Deuterium To Icosahedral Nickel And Cobalt Clusters", Surf. Sci., 355, 1996, pp. 127-139.
Parks, E. K., Winter, B. J., Klots, T. D., Riley, S. J., "Evidence For Polyicosahedral Structure In Ammoniated Iron, Cobalt, And Nickel Clusters", J. Chem. Phys., 96(11), 1992, pp. 8267-8274.
Parks, G. S., Todd, S. S., “Heats of Fusion of Some Paraffin Hydrocarbon”, Ind. Eng. Chem., 12(12), 1929, pp. 1235-1237.
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.
Parravano, G., "Carbon Monoxide-Steam Reaction on Ruthenium Catalysts", Ind. Eng. Chem., 49(2), 1957, pp. 266-271.
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.
Parsafar, Gh., Isfahan, Y. G., “Fischer-Tropsch Synthesis of Hydrocarbons Using Iron-Mordenite Catalysts”, Iranian J. Chem. Chem. Eng., 10(1), 1991, article 2.
Parschau, M., Christmann, K., "Cobalt on rhenium(0001) -- an example of thermally activated layer intermixing and surface alloying", Surf. Sci., 423, 1999, p. 303.
Parschau, M., Christmann, K., "The Growth of Cobalt on a Re(0001) Surface at 300K", Ber. Bunsenges. Phys. Chem., 99, 1995, p. 1376.
Parshall, G. W.. "Commercial applications of reactions catalyzed by soluble complexes of cobalt and rhodium", Catal. Rev. Sci. Eng., 23(1-2), 1981, pp. 107-124.
Partridge, W. R., "Conversion of gas to transportation fuels", APEA J., 25(1), 1985, pp. 129-133.
Parulekar, S. J., "Dynamics of three phase fluidized bed reactors", Dissertation, U. Pittsburgh, 1982.
Parulekar, S. J., Raghuram, S., Shah, Y. T., "Multiple Steady States in Adiabatic Gas-Liquid-Solid Reactors," Chem. Eng. Sci., 35, 1980, pp. 745-750.
Parulekar, S. J., Ramkrishna, D., "Analysis of Axially Dispersed Systems with General Boundary Conditions - I. Formulation," Chem. Eng. Sci., 39, 1984, pp. 1571-1579.
Parulekar, S. J., Ramkrishna, D., "Analysis of Axially Dispersed Systems with General Boundary Conditions - II. Solution for Dispersion in the Appended Sections," Chem. Eng. Sci., 39, 1984, pp. 1581-1597.
Parulekar, S. J., Ramkrishna, D., "Analysis of Axially Dispersed Systems with General Boundary Conditions - III. Solution for Unmixed and Well-Mixed Appended Sections," Chem. Eng. Sci., 39, 1984, pp. 1599-1611.
Parulekar, S. J., Ramkrishna, D., "Transients in Adiabatic Tubular Reactors. Axial Dispersion Models with Well-Mixed Appended Sections," Chem. Eng. Sci., 39, 1984, pp. 1785-1790.
Parulekar, S. J., Saidina Amin, N. A., "Gas-Liquid Reactions in Well-Mixed Reactors - A Fresh Perspective," Chem. Eng. Sci., 51, 1996, pp. 4561-4577.
Parulekar, S. J., Shah, Y. T., "Steady-State Behavior of Gas-Liquid-Solid Fluidized-Bed Reactors," Chem. Eng. J., 20, 1980, pp. 21-33.
Parulekar, S. J., Shertukde, P. V., Joshi, J. B., "Underutilization of Bubble Column Reactors Due to Desorption," Chem. Eng. Sci., 44, 1989, pp. 543-558.
Paryjczak, T., “An application of TOF-SIMS to the investigation of a Co/Al2O3 catalyst”, React. Kinet. Catal. Lett., 84(2), 2005, pp. 237-245.
Paryjczak, T., Góralski, J., Jóźwiak, K., “Chemisorption of H2, O2 and CO on bimetallic catalysts Rh−Ag/Al2O3”, React. Kinet. Catal. Lett., 16(2-3), 1981, pp. 111-114.
Paryjczak, T., Karski, St., “Study of CO and H2 sorption on supported bimetallic Pd−Pb catalysts”, React. Kinet. Catal. Lett., 14(3), 1980, pp. 307-310.
Paryjczak, T., Rynkowski, J., Krzyzanowski, K., “Thermoprogrammed reduction of Co/Al2O3 catalyst”, React. Kinet. Catal. Lett., 26(3-4), 1984, pp. 253-257.
Paryjczak, T., Zielinski, P., Farbotko, J. M., “Temperature-programmed reduction of bimetallic Ir−Fe/Al2O3 catalysts”, React. Kinet. Catal. Lett., 30(1), 1986, pp. 55-62.
Paryjczak, T., Zielinski, P., Józwiak, W. K., “Temperature programmed reduction and oxidation of Ir/Al2O3 catalysts”, React. Kinet. Catal. Lett., 29(1), 1985, pp. 167-173.
Paserba, K. R., Gellman, A. J., "Kinetics and energetics of oligomer desorption from surfaces", Phys. Rev. Lett., 86(19), 2001, pp. 4338-4341.
Passman, R. A., “Energy commercialization prospects”, in “Coal conversion technology” (A. H. Pelofsky, ed.), ACS Symp Ser., 110, 1979, pp. 197-206.
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.
Patel, S. A., "Application of X-ray Attenuation for Measurement of Gas Holdups and Flow Regime Transitions in Bubble Columns", Ind. Eng. Chem. Res., 35(1), 1996, pp. 70-80.
Patel, S. A., Daly, J. G., Bukur, D. B., "Bubble-Size Distribution In Fischer-Tropsch-Derived Waxes In A Bubble Column", AIChE J., 36, 1990, pp. 93-105.
Patel, S. A., Daly, J. G., Bukur, D. B., "Flow Regime Transitions from Pressure and Nuclear Density Gauge Fluctuation Measurements in Three-Phase Bubble Columns", in "Fluidization VII, Proc.of 7th Engineering Conference on Fluidization", (O. E. Potter, D. J. Nicklin, eds.), Engineering Foundation, New York, 1992, p. 391-398.
Patel, S. A., Daly, J. G., Bukur, D. B., "Holdup and interfacial area measurements using dynamic gas disengagement", AIChE J., 35, 1989, p. 931.
Patel, S. A., Daly, J. G., Bukur, D. B., "Hydrodynamic Studies of Three-Phase Bubble Columns with Fischer-Tropsch Derived Waxes", in "Proc. of 7th European Congress on Mixing", (M. Bruxelmane, G. Froment, eds.), Royal Flemisch Society of Engineers, Brussels, Vol. II, 1991, pp. 623-631.
Patil, V. K., Joshi, J. B., Sharma, M. M., "Sectionalized bubble column: gas holdup and wall side solid-mass transfer coefficient", Can. J. Chem. Eng., 62(8), 1984, p. 228.
Patil, V. K., Sharma, M. M., “Solid-liquid mass transfer coefficients in bubble columns up to one metre diameter”, Chem. Eng. Res. Des., 61, 1983, pp. 21-28.
Patnaik, P. R., " Multiplicity Aspects of the Kinetics of Methanation of Carbon Monoxide", Indian Chem. Eng., 29, 1987, p. 60.
Patnaik, P. R., "A Reaction Oscillation Method to Determine the Nature of Hydrogen Adsorption in Methanation", Chem. Phys. Lett., 113, 1985, p. 573.
Patnaik, P. R., "The Effect of Surface Heterogeneity on Kinetic Oscillations in the Methanation of CO", Chem. Eng. Comm., 25, 1984, p. 31.
Patterson, D., Delmas, G., “Critical state in chain-molecule mixtures”, Trans. Far. Soc., 1969, pp. 708-724.
Patterson, G. D., Carroll, P. J., Pearson, D. S., “Rayleigh–Brillouin spectroscopy of n-tetracosane. Are there transitions in the melt?”, J. Chem. Soc. Far. Trans. 2, 1983, pp. 677-685.
Patterson, G. D., Kennedy, A. P., Latham, J. P., “Temperature Dependence of Orientation Correlations in n-Alkane Liquids”, Macromolecules, 10(3), 1977, pp. 667-670.
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.
Patting, M., Farias, D., Rieder, K. H., "Helium scattering structure analyses of the chemisorbed hydrogen phases on Co(10-10)", J. Chem. Phy., 113, 2000, p. 8283.
Patwardhan, A. W., Joshi, J. B., Fotedar, S., Mathew, T., “Optimization of gas–liquid reactor using computational fluid dynamics”, Chem. Eng. Sci., 60(11), 2005, pp. 3081-3089.
Patwari, A. N., “Hydrodynamics and mass transfer in three-phase fluidized beds with highly viscous liquids”, Dissertation, Universitat Oldenburg, Germany, 1983.
Patzelova, V., Zukal, A., Tvaruzkova, Z., Malicek, O., “Hydrogenation of CO and CO2 over stabilized NiY clusters”, Stud. Surf. Sci. Catal., 18, 1984, pp. 367-374.
Patzlaff, J., Gaube, J., "Studies on the Promotor Action of Alkali Metal Compounds in Iron and Cobalt Catalysts in the Fischer-Tropsch-Synthesis", Chem.-Ing.-Tech., 66(7), 1994, p. 945.
Patzlaff, J., Gaube, J., "The Promoter Effect of Alkali in Fischer-Tropsch Iron and Cobalt Catalysts", Prepr. ACS Div. Petrol. Chem., 45(2), 2000, pp. 258-259.
Patzlaff, J., Liu, Y., Graffmann, C., Gaube, J., "Interpretation and kinetic modeling of product distributions of cobalt catalyzed Fischer-Tropsch synthesis", Catal. Today, 71(3-4), 2002, pp. 381-394.
Patzlaff, J., Liu, Y., Graffmann, C., Gaube, J., "Studies on product distributions of iron and cobalt catalyzed Fischer-Tropsch synthesis", Appl. Catal. A, 186(1-2), 1999, pp. 109-119.
Patzschke, G., “Zur Aufklaerung des primaeren Reaktionsschrittes bei der Fischer-Tropsch-Synthese”, Dissertation, Technische Universitaet Berlin, 1964.
Paul, D. K., McKee, M. L., Worley, S. D., Hoffman, N. W., Ash, D. H., Gautney, J., "Observation of cyanate and isocyanate surface species during the reaction of ammonia and carbon monoxide over supported rhodium", J. Phys. Chem., 93(11), 1989, pp. 4598-4603.
Paul, J., Hoffmann, F. M., “CO2 conversion and oxalate stability on alkali promoted metal surfaces: Sodium modified Al(100)”, Catal. Lett., 1(12), 1988, pp. 445-455.
Paul, J., Rosén, A., "Catalytic active sites on sputtered metal interfaces", Surf. Sci. Lett., 127(1), 1983, pp. L93-L97.
Pauli, J., Menzel, T., Onken, U., “Directional specific shear-rate measurements in gas-liquid two-phase flow”, Chem. Eng. Tech., 12(1), 1989, pp. 374-378.
Pauls, C., Przyrembel, D., Christmann, K., “Dissociation of Carbon Monoxide on the Rhenium(10-10) Surface”, J. Phys. Chem. B., 108(38), 2004, pp. 14749-14758.
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.
Pauly, J., Daridon, J.-L., Coutinho, J. A. P., "Solid deposition as a function of temperature in the n-C10 + ( n-C24- n-C25- n-C26) system", Fluid Phase Equil., 224(2), 2004, pp. 237-244.
Pauly, J., Daridon, J.-L., Coutinho, J. A. P., “Measurement and prediction of temperature and pressure effect on wax content in a partially frozen paraffinic system”, Fluid Phase Equ., 187-188, 2001, pp. 71-82.
Pauly, J., Daridon, J.-L., Coutinho, J. A. P., Dirand, M., “Crystallisation of a multiparaffinic wax in normal tetradecane under high pressure”, Fuel, 84(4), 2005, pp. 453-459.
Pauly, J., Daridon, J.-L., Coutinho, J. A. P., Lindeloff, N., Andersen, S. I., "Prediction of solid-fluid phase diagrams of light gases-heavy paraffin systems up to 200 MPa using an equation of state-GE model", Fluid Phase Equilibria, 167(2), 2000, pp. 145-159.
Pauly, J., Daridon, J.-L., Sansot, J.-M., Coutinho, J. A. P., “The pressure effect on the wax formation in diesel fuel”, Fuel, 82(5), 2003, pp. 595-601.
Pauly, J., Dauphin, C., Daridon, J. L., "Liquid-solid equilibria in a decane+multi-paraffins system", Fluid Phase Equilibria, 149(1-2), 1998, pp. 191-207.
Paushkin, Ya. M., Gorlov, E. G., Golovin, G. S., Lokshin, B. V., “The Catalytic Reduction Of Carbon Oxides By Water”. Solid Fuel Chem., 28(5), 1994, 29-38.
Paushkin, Ya. M., Lapidus, A. L., Adel'son, S. V., “Plant biomass as raw material for the production of olefins and motor fuels”, Chem. Tech. Fuels Oils, 30(6), 1994, pp. 249-252.
Paushkin, Ya. M., Losev, Yu. P., Anan'ev, P. G., “Supression of cracking of low-molecular (C7–C16) and high-molecular hydrocarbons (polyolefins) by alkali metals and their hydroxides”, Russian Chem. Bull., 18(6), 1969, pp. 1176-1182.
Paushkin, Ya. M., Orlov, Kh. Ya., “The isomerization of higher n-paraffines C15-C18”, Russian Chem. Bull., 10(4), 1961, pp. 607-612.
Pavlenko, N. V., Lunev, N. K., Struzdko, V. L., "Effect of modifying cation nature on activity and selectivity of Co/SiO2 catalysts in synthesis of liquid hydrocarbons from CO and H2", Proceedings of 3rd Conference: Chemical synthesis on a basis of one carbon molecules, Moscow, 3-5 December, 1991, pp. 85-86.
Pavlenko, N. V., Lunev, N. K., Struzhko, V. L., Kosenko, E. I., "Influence of the nature of the modifying cation on the activity and selectivity of Co/SiO2 catalysis of hydrocarbon synthesis from CO and H2", Theor. Exp. Chem. (Eng. Trans.), 28, 1992, pp. 163-166.
Pavlenko, N. V., Lunev, N. K., Stryzhko, V. L., Kosenko, E. I., "Effect of modified cation nature on the activity and selectivity of Co/SiO2 catalysts of hydrocarbons synthesis from CO and H2", Theor. Exp. Chem., 28(3), 1992, pp. 197-201.
Pavlenko, N. V., Prochorenko, E. V., Tripol'skii, A. I., Golodetz, G. I., "Mechanism of hydrocarbons formation from synthesis-gas", Proceedings of 5th Russian conference on mechanisms of catalytic reactions, Moscow, 14-18 May, 1990, pp. 201-202.
Pavlenko, N. V., Prokhorenko, E. V., Struzhko, B. L., Golodets, G. I., "Effect of acidity of nickel catalyst surfaces on their catalytic properties in Fischer-Tropsch synthesis", Ukrainian Chem. J., 56(11), 1990, pp. 1168-1172.
Pavlenko, N. V., Prokhorenko, E. V., Tripol'skii, A. I., Golodets, G. I., "Kinetics and mechanism of hydrogenation of carbon monoxide in the presence of nickel and cobalt catalysts on various supports", Kinet. Catal., 39(6), 1989, pp. 1364-1370.
Pavlica, R. T., Olson, J. H., "Unified Design Method for Continuous-Contact Mass Transfer Operations", Ind. Eng. Chem., 62(12), 1970, pp. 45-58.
Pavlícek, J., Aim, K., Boublík, T., "Perturbation theory of convex molecule fluids applied to mixtures of n-alkanes", Fluid Phase Equilibria, 91(2), 1993, pp. 203-214.
Pavlícek, J., Aim, K., Boublík, T., "The second virial coefficients of n-alkanes and their mixtures from the Kihara convex core intermolecular pair potential", Coll. Czech. Chem. Comm., 58(10), 1993, pp. 2489-2504.
Pavlicek, J., Boublik, T., “Equilibrium behavior of n-alkanes from the convex molecule perturbation theory”, J. Phys. Chem., 96(5), 1992, pp. 2298-2301.
Pavlov, V. P., "Liquid circulation in a batch bubbler", Khim. Promst., 9, 1965, pp. 698-700.
Paweczyk, R., Pindur, K., “A dynamic method for dispersing gases in liquids”, Chem. Eng. Proc., 38(2), 1999, pp. 95-107.
Paxson, T. E., Reilly, C. A., Holecek, D. R., "Cobalt-catalysed reaction of carbon monoxide-hydrogen mixtures in alkoxy-terminated polyglycol solvents", J. Chem. Soc., Chem. Comm., 1981, pp. 618-619.
Payne, S. H., McEwen, J.-S., Kreuzer, H. J., Menzel, D., “Adsorption and desorption of CO on Ru(0001): A comprehensive analysis”, Surf. Sci., 594(1-3), 2005, pp. 240-262.
Peacock-Lopez, E., Lindenberg, K., "The transient Flory model and its application to catalytic polymerization. 1", J. Phys. Chem., 88(11), 1984, pp. 2270-2275.
Pearce, J. R., Mortier, W. J., Uytterhoeven, J. B., "Oxidation-reduction behaviour of highly dispersed ruthenium in RuNaY zeolite", J. Chem. Soc., Faraday Trans. 1, 1979, pp. 1395-1402.
Pearson, R. G., Mauermann, H., "Reactions of iron pentacarbonyl and dihydrogen tetracarbonylferrate related to the water-gas shift reaction", J. Am. Chem. Soc., 104(2), 1982, pp. 500-504.
Pease, R. N.,Chesebro, P. R., "Equilibrium In The Reaction CH4 + 2H2O-->CO2 + 4H2", J. Am. Chem. Soc., 50(5), 1928, pp. 1464-1469.
Pecchi, G., Reyes, P., Lopez, T., Gomez, R., Moreno, A., Fierro, J. L. G., "Effect of precursors on surface and catalytic properties of Fe/TiO2 catalysts", J. Chem. Tech. Biotech., 77(8), 2002, pp. 944-949.
Peden, C. H. F., Goodman, D. W., "Hydrocarbon Synthesis and Rearrangement over Clean and Chemically Modified Surfaces", in "Catalyst Characterization Science", (M. L. Deviney, J. L. Gland, eds.), ACS Symposium Series 288, 1985, pp. 185-198.
Peden, C. H. F., Goodman, D. W., "Model Studies Of Cu/Ru Bimetallic Catalysts", Ind. Eng. Chem. Fund., 25, 1986, pp. 58-62.
Pedersen, K., Skov, A., Rostrup-Nielsen, J. R., "Catalytic aspects of high temperature methanation", ACS Div. Fuel Chem. Prepr., 25(2), 1979, pp. 89-100.
Pedersen, K., Skov, A., Rostrup-Nielsen, J. R., "Catalytic aspects of high-temperature methanation of synthesis gas from coal or steam reforming of natural gas", ACS Div. Fuel Chem. Prepr., 25(2), 1980, pp. 89-100.
Pedersen, L. A., Lunsford, J. H., "Study of ruthenium in zeolite-y by x-ray photoelectron spectroscopy", J. Catal., 61(1), 1980, pp. 39-47.
Peebles, D. E., Creighton, J. R., Belton, D. N., White, J. M., "Coadsorption of hydrogen and carbon monoxide on Nickel and Platinum", J. Catal., 80, 1983, p. 482.
Peebles, D. E., Goodman, D. W., White, J. M., "Methanation of carbon dioxide on nickel(100) and the effects of surface modifiers", J. Phys. Chem., 87(22), 1983, pp. 4378-4387.
Peebles, D. E., Peebles, H. C., Belton, D. N., White, J. M., "Temperature induced effects on the coadsorption system: CO/D2/Ni(100)," Surf. Sci., 134, 1983, p. 46.
Peebles, D. E., Peebles, H. C., White, J. M., "An electronic spectroscopic study of the interaction of coadsorbed CO and D2-on Rh(100) at low temperature," Surf. Sci., 136, 1984, p. 463.
Peebles, D. E., Peebles, H. C., White, J. M., “Electron spectroscopic study of the interaction of coadsorbed CO and D2 on Rh(100) at low temperature”, Surf. Sci. Lett., 136(2-3), 1984, pp. A15-A16.
Peebles, D. E., Schreifels, J. A., White, J. M., "The interaction of coadsorbed hydrogen and carbon monoxide on Ru(001)," Surf. Sci., 116, 1982, p. 117.
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.
Peebles, F. H., Garber, , "Studies of the motion of bubbles in liquids", Chem. Eng. Prog., 49, 1953, p. 88.
Peebles, H. C., Beck, D. D., White, J. M., Campbell, C. T., “Structure of Ag ON Rh and its effect on the adsorption of D2 and CO”, Surf. Sci., 150(1), 1985, pp. 120-142.
Peebles, H. C., Peebles, D. E., White, J. M., "Temperature induced structural changes for coadsorbed H and CO on Ni(100)," Surf. Sci., 125, 1983, p. L87.
Peebles, H. C., Peebles, D. E., White, J. M., "Temperature induced structural changes for coadsorbed H and CO on Ni(100)," Surf. Sci., 125, 1983, p. L87.
Peebles, H. C., White, J. M., Campbell, C. T., "Structure of Ag on Rh and its effect on the adsorption of D2 and CO," Surf. Sci., 150, 1985, p. 120.
Peixoto, F. C., de Medeiros, J. L., “Modelling and parameter estimation in reactive continuous mixtures: the catalytic cracking of alkanes - part II”, Braz. J. Chem. Eng., 16(3), 1999, pp. 229-236.
Peixoto, F. C., de Medeiros, J. L., “Modelling And Parameter Estimation In Reactive Continuous Mixtures: The Catalytic Cracking Of Alkanes. Part I”, Braz. J. Chem. Eng., 16(1), 1999, pp. 65-81.
Pelipenko, V. V., Kochubey, D. I., Khassin, A. A., Yurieva, A. T., “Evolution of the Cu/ZnO methanol synthesis catalyst during its reduction and re-oxidation”, React. Kinet. Catal. Lett., 86(2), 2005, pp. 307-314.
Pellegrini, L., Locatelli, S., Rasella, S., Bonomi, S., Calemma, V., “Modeling of Fischer-Tropsch products hydrocracking”, Chem. Eng. Sci., 59(22-23), 2004, pp. 4781-4787.
Peluso, E., “Eggshell catalyst for hydrocarbon synthesis: Kinetic modeling and reactor performance”, ME Sc. Thesis, University of Western Ontario, 1998.
Peluso, E., Galarraga, C., de Lasa, H., "Eggshell catalyst in Fischer-Tropsch synthesis", Chem. Eng. Sci., 56(4), 2001, pp. 1239-1245.
Pelzer, T., Grune, M., Wandelt, K., "Molecular orientation of CO adsorbed on clean and Al-modified Ru(0001) surfaces", Prog. Surf. Sci., 74(1-8), 2003, pp. 57-67.
Penet, S., Marchal, R., Sghir, A., Monot, F., “Biodegradation of hydrocarbon cuts used for diesel oil formulation”, Appl. Microbiol. Biotech., 66(1), 2004, pp. 40-47.
Peng, X. D., Wang, A. W., Toseland, B. A., Tijm, P. J. A., “Single-Step Syngas-to-Dimethyl Ether Processes for Optimal Productivity, Minimal Emissions, and Natural Gas-Derived Syngas”, Ind. Eng. Chem. Res., 38(11), 1999, pp. 4381-4388.
Penner, S. S., “Synthetic liquid fuels for the U.S.”, Energy, 8(8-9), 1983, pp. 685-687.
Pennline, H. W., Gormley, R. J., Schehl, R. R., "Process studies with a promoted transition metal-zeolite catalyst", Ind. Eng. Chem. Prod. Res. Dev., 23(3), 1984, pp. 388-393.
Pennline, H. W., Pollack, S. S., "Deactivation and regeneration of a promoted transition-metal-zeolite catalyst", Ind. Eng. Chem. Prod. Res. Dev., 25(1), 1986, pp. 11-14.
Pennline, H. W., Rao, V. U. S., Gormley, R. J., Schehl, R. R., "Synthesis gas conversion with a transition metal-zeolite catalyst", ACS Div. Fuel Chem. Prepr., 28(2), 1983, pp. 164-170.
Pennline, H. W., Schehl, R. R., Haynes, W. P., "Efficient methanation in coal gasification", Coal Proc. Tech., 4, 1978, pp. 4-12.
Pennline, H. W., Schehl, R. R., Haynes, W. P., "Operation of a tube wall methanation reactor", Ind. Eng. Chem. Proc. Des. Dev., 18(1), 1979, pp. 156-162.
Pennline, H. W., Zarochak, M. F., Stencel, J. M., Diehl, J. R., "Activation and promotion studies in a mixed slurry reactor with an iron-manganese Fischer-Tropsch catalyst", Ind. Eng. Chem. Res., 26(3), 1987, pp. 595-601.
Pennline, H. W., Zarochak, M. F., Tischer, R. E., Schehl, R. R., "Slurry Phase Fischer-Tropsch Synthesis With Iron-Manganese Catalysts", Appl. Catal., 21, 1986, pp. 313-328.
Pepe, F., Occhiuzzi, M., “Surface characterization and catalytic activity of Co(x)Mg(1-x)Al2O4 solid solutions. Oxidation of carbon monoxide by oxygen”, Far. Trans., 1994, pp. 905-910.
Percy, L. T., "A New Cobalt On Aluminum Catalyst And Nmr Study Of Ethylene Incorporation Into Fischer-Tropsch Products", Ph.D. Thesis, University Of Illinois at Chicago, 1987.
Percy, L. T., Walter, R. I., "An NMR study of the mode of incorporation of ethene into propene in the Fischer-Tropsch reaction over cobalt", J. Catal., , 1990, pp. 228-235.
Pereira, E. B., Martin, G. A., “Synthesis of alcohols from syngas over alkali-promoted Ni/SiO2 catalysts”, Stud. Surf. Sci. Catal., 81, 1994, pp. 349-354.
Pereira, E. B., Martin, G.-A., “Morphology changes and deactivation of alkali-promoted Ni/SiO2 catalysts during carbon monoxide hydrogenation”, Appl. Catal. A, 115(1), 1994, pp. 135-146.
Pereira, F., Gharib, M., Dabiri, D., Modarress, D., “Defocusing digital particle image velocimetry: a 3-component 3-dimensional DPIV measurement technique. Application to bubbly flows”, Experiments in Fluids, 29(7), 2000, pp.
Perez, M., Diaz, L., De J. Galindo, H., Dominguez, J. M., Salmon, M., “Multi-metallic oxides as catalysts for light alcohols and hydrocarbons from synthesis gas”, Rev. Soc. Quim. Mex., 43(3-4), 1999, pp. 97-99.
Pérez-Zurita, M. J., Dufour, M., Halluin, Y., Griboval, A., Leclercq, L., Leclercq, G., Goldwasser, M., Cubeiro, M. L., Bond, G., "Characterization and reactivity of Ru/single oxides catalysts for the syngas reaction", Appl. Catal. A, 274(1-2), 2004, pp. 295-301.
Pérez-Zurita, M. J., Henríquez, I. S., Goldwasser, M. R., Cubeiro, M. L., Bond, G. C., "Effect on the method of preparing Ru-Mo/SiO2 catalysts on their behaviour in CO hydrogenation", J. Molec. Catal., 88, 1994, pp. 213-222.
Perkins, P., Vollhardt, K. P. C., "Polymer-supported eta-5-cyclopentadienylcobalt. An immobilized "homogeneous" Fischer-Tropsch catalyst", J. Am. Chem. Soc., 101(14), 1979, pp. 3985-3987.
Perner, D., "Der Warmeubergang in Druckblasensaulen (Heat transfer in bubble columns under pressure)", Diplomarbeit, TU Berlin, 1960.
Perregaard, J., “Methanol synthesis at near-critical conditions combined with ATR synthesis gas technology. The technology choice for large-scale methanol production”, Catal. Today, 106(1-4), 2005, pp. 99-102.
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, H., "Coal conversion technology", Chem. Eng., 8(1), 1974, pp. 88-102.
Perry, H., “Coal conversion technology” in “Synfuels Engineering” (L. Ricci, et al., eds.), McGraw-Hill Publications, NY, 1982, pp. 47-61.
Perry, H., Landsberg, H. H., “Factors in the Development of a Major US Synthetic Fuels Industry”, Ann. Rev. Energy, 6, 1981, pp. 233-266.
Perry, S. F., “Isomerization”, Ind. Eng. Chem., 51(9), 1959, pp. 1121-1122.
Perry, S. G., "Peak identification in gas chromatography", Chromatogr. Rev., 9(1), 1967, pp. 1-22.
Peschke, G., Franz, C., Lippert, J., Zakrzewski, W., Schügerl, K., “Blasenschwarmverhalten in hochviskosen Flüssigkeiten”, Chem.-Ing.-Tech., 52(10), 1980, p. 847.
Peter, S., Weinert, M., "Uber die Loslichkeit von H2, CO, CO2, und Wasserdampf in flussigen kohlenwasserstoffen (On the solubility of H2, CO, CO2, and steam in liquid hydrocarbons)", Z. Phys. Chem., 5, 1955, p. 114-121.
Petersen, P., Krasser, W., “Surface enhanced Raman scattering from a ternary catalyst Cu/ZnO/Al2O3 under reaction conditions”, Appl. Surf. Sci., 103(1), 1996, pp. 91-100.
Peterson, D. A., Tankin, R. S., Bankoff, S. G., "Bubble behavior in a three-phase fluidized bed", Internat. J. Multiphase Flow, 13(4), 1987, pp. 477-491.
Peterson, D. A., Tankin, R. S., Bankoff, S. G., “Holographic measurements of bubble size and velocity in three-phase systems”, in “Measuring Techniques in Gas-Liquid Two-Phase Flows” (J. M. Delhaye, G. Cognet, eds.), Springer-Verlag, Berlin, 1984, pp. 1-21.
Petit , C., Cren, T., Roditchev, D., Sacks, W., Klein, J., Pileni, M. P., "Single Electron Tunneling through Nano-Sized Cobalt Particles", Adv. Materials, 11, 1999, p. 1108.
Petit, C., Cren, T., Roditchev, D., Sacks, W., Klein, J., Pileni, M. P., Single electron tunneling through nano-sized cobalt particles", Advanced Mat., 11(14), 1999, pp. 1198-1202.
Petit, C., Pileni, M. P., "Physical Properties of Self assembled nano-Sized Cobalt Particles", App. Surf. Sci., 162-163, 2000, p. 519.
Petit, C., Taleb, A., Pileni, M. P., "Self-Organization of Magnetic Nanosized Cobalt Particles" Chem. Eng. Tech., 21, 1998, p. 619.
Petit, C., Taleb, A., Pileni, M.-P., "Cobalt nanosized particles organized in a 2D superlattice: synthesis, characterization, and magnetic properties", J. Phys. Chem. B, 130(11), 1999, pp. 1805-1810.
Petitjean, D., Pierre, M., Bouroukba, M., Dirand, M., Andre, D., Jolivet, Y., "Isopleth section of the system: n-eicosane and a multi-paraffinic wax", Fuel, 83(7-8), 2004, pp. 1079-1084.
Petkov, P., et al., "Gas holdup in aerated reactors", Chem. Eng. J., 17, 1979, p. 169.
Pető, G., Molnár, G., Bogdányi, G., Guczi. L., “Valence band density of states of small cobalt particles on Si(111) substrate”, Catal. Lett., 26(3-4), 1994, pp. 383-392.
Petrera, M., Gennaro, A., Gherardi, P., Gubitosa, G., Pernicone, N., "Moessbauer Study of Iron-containing Zeolites", J. Chem. Soc. Faraday Trans.1, 80, 1984, pp. 709-720.
Petrick, M., Kudirka, A. A., "On the relationship between the phase distributions and relative velocities in two-phase flows", Proc. 3rd International Heat Transfer Conference, AIChE, 4, 1956, pp. 184-191.
Petrick, M., Swanson, B. S., "Expansion and contraction of an air-water mixture in vertical flow", AIChE J., 5(4), 1959, pp. 440-445.
Petrick, M., Swanson, B. S., "Radiation attenuation method of measuring density of a two-phase fluid", Rev. Sci. Instr., 29, 1958, p. 1079.
Petrov, A. A., “The Isomerization of C12-C16 Paraffins Hydrocarbons”, Chapter VI in “Catalytic Isomerization of Hydrocarbons”, Academy of Science os fhte USSR Institute of Petrochemical Synthesis, Moscow, 1960, Translated by P. Scharf, Isreal Program for Scientific Translations, Jerusalem, 1963, pp. 122-132.
Petrov, A. D., "Petrol synthesis from methane and water gas", Russ. Chem. Rev., 6(4), 1937, pp. 489-514.
Petrov, A. D., "Synthesis of motor fuels from carbon monoxide and hydrogen", Russ. J. App. Chem., 5(2), 1932, pp. 275-284. .
Petrov, A. D., "Synthesis of petrol from gases", Chem. Solid Fuel, 1937, 9, pp. 981-996.
Petrov, A. D., Antsus, L. I., "Catalytic hydrogenation of acetylene to petrol under pressure", Russ. J. App. Chem., 5(6), 1933, pp. 1145-1147.
Petrov, Al. A., Sergienko, S. R., Tsedilina, A. L., Teterina, M. P., “Isomerization of saturated hydrocarbons Communication 2. Isomeric transformations of C12 -C16 paraffins”, Russian Chem. Bull., 7(5), 1958, pp. 557-564.
Petrov, Al. A., Sergienko, S. R., Tsedlina, A. L., Teterina, M. P., Kislinskii, A. N., Gal'pern, G. D., “Isomerization of saturated hydrocarbons”, Russian Chem. Bull., 7(4), 1958, pp. 419-426.
Petrova, G. N., Titkov, A. N., Gal'chenko, Yu. A., Efimov, O. N., “Electrocatalytic reduction of carbon monoxide on an aluminum electrode modified with iron and manganese”, Russian Chem. Bull., 38(1), 1989, pp. 2018-2020.
Petrovic, D. L. J., Posarac, D., Dudukovic, A., "Mixing Time In Gas-Liquid-Solid Draft Tube Airlift Reactors", Chem. Eng. Sci., 45, 1990, pp. 2967-2970.
Petrovic, K., Vitorovic, D., “Recognition and qualitative characterization of commercial petroleum fuels and synthetic fuels by a gas chromatographic fingerprinting technique - I. General considerations”, J. Chromat. A, 119, 1976, pp. 413-422.
Pettigrew, D. J., Trimm, D. L., Cant, N. W., “The effects of rare earth oxides on the reverse water-gas shift reaction on palladium/alumina”, Catal. Lett., 28(2-4), 1994, pp. 313-319.
Petukhov, V.I., Kolokol’tsev, V. A., “Effect of liquid viscosity on droplet entrainment and volumetric air content,” Therm. Eng., 12, 1965, pp. 41-44.
Petunchi, J. O., Nicastro, J. L., Lombardo, E. A., “Ethylene hydrogenation over LaCoO3 perovskite”, J. Chem. Soc. Chem. Commun., 1980, pp. 467-468.
Petushkov, V. A., “Phase Interaction in a Vapor-Liquid Medium in Transient Flow Regimes”, Fluid Dynam., 40(3), 2005, pp. 413-425.
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.
Peuckert, M., Baiker, A., "Hydrogenation of carbon monoxide on amorphous Fe81B13.5Si3.5C2. Activity and segregational behaviour of the alloy", J. Chem. Soc., Faraday Trans. 1, 1985, pp. 2797-2803.
Peukert, M., Linden, G., "Zeolite supported cobalt catalysts for CO hydrogenation", in "Proceedings of the 8th International Congress on Catalysis, Berlin, 1984", Dechema, Weinheim, 2, 1984, p. 135.
Pfleger, D., Becker, S., "Modelling and simulation of the dynamic flow behaviour in a bubble column", Chem. Eng. Sci., 56(4), 2001, pp. 1737-1747.
Pfleger, D., Gilbert, N., Wagner, H.-G., “CFD-Simulationen von Blasensäulen und Schlaufenapparaten im industriellen Maßstab”, Chem.-Ing.-Tech., 71(9), 1999, pp. 952-953.
Pfnur, H., Heier, H. J., "Order-disorder phenomena in the system CO/Ru(001)", Ber. Buns. Phys. Chem., 90, 1986, p. 272.
Pfnur, H., Menzel, D., "Lateral interaction for CO/Ru(001): Order-disorder transitions of the 3-structure", Surf. Sci., 148, 1984, p. 411.
Pfnur, H., Menzel, D., "The influence of adsorbate interactions on kinetics and equilibrium for CO on Ru (001). I. Adsorption kinetics", J. Chem. Phys., 79, 1983, p. 2400.
Pfnur, H., Menzel, D., "The influence of adsorbate interactions on kinetics and equilibrium for CO on Ru(001). II. Desorption kinetics and equilibrium", J. Chem. Phys., 79, 1983, p. 4613.
Pfnur, H., Menzel, D., Hoffmann, F. M., Ortega, A., Bradshaw, A. M., "High resolution vibrational spectroscopy of CO on Ru(001): the importance of lateral interactions", Surf. Sci., 93, 1980, p. 431.
Phadke, M. D., Ko, E. I., "CO hydrogenation over niobia-supported iron catalysts", J. Catal., 100(2), 1986, pp. 503-506.
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", Catal. Today, 58(4), 2000, pp. 233-240.
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.
Pham, H. N., Reardon, J., Datye, A. K., "Measuring the strength of slurry phase heterogeneous catalysts", Powder Tech., 103(2), 1999, pp. 95-102.
Pham, H. N., Viergutz, A., Gormley, R. J.,Datye, A. K., "Improving the attrition resistance of slurry phase heterogeneous catalysts", Powder Techn., 110, 2000, pp. 196-203.
Phaneuf, R. J., Bennett, P. A., Marsi, M., Günther, S., Gregoratti, L., Casalis, L., Kiskinova, M., "Equilibration of ring-cluster surface phases and silicide islands for Co adsorbed on Si(111)", Surf. Sci., 431(1-3), 1999, pp. 232-241.
Phaovibul, O., Cakovic, H., Loboda-Cakovic, J., Hosemann, R., “Phase transition and paracrystalline order in solution-crystallized solid n-paraffins”, J. Polymer Sci. - Polymer Phys., 11(12), 1973, pp. 2377-2391.
Phillips, J. C., "Heuristic model for hydrogen chemisorption on transition metal clusters", J. Chem. Phys., 84(3), 1986, pp. 1951-1952.
Phillips, J. R., Clausen, E. E., Gaddy, J. L., "Synthesis gas as substrate for the biological production of fuels and chemicals", App. Biochem. Biotech., 45-46, 1994, pp. 145-157.
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.
Phulgaonkar, S. P., Kelkar, B. G., Shah, Y. T., "Effect of Electrolyte Solutions on Hydrodynamics and Backmixing in Bubble Columns," Chem. Eng. J., 27, 1983, p. 125.
Phung Quach, T. Q., Rouleau, D., "Kinetics of the reaction between carbon monoxide and hydrogen over a ruthenium catalyst in a continuous stirred tank reactor", J. Appl. Chem. Biotechnol., 28(5), 1978, pp. 378-386.
Pichler, H., "Conversion of coke oven gas to a gas interchangeable with natural gas", GWF, Gas- Wasserfach, 108(21), 1967, pp. 585-588.
Pichler, H., "Die synthese von polymethylen aus kohlenoxyd und wasserstoff an neuartigen, bei niedrigen temperaturen aktiven Ruthenium katalysatoren (Synthesis of Polymethylene from hydrogen and carbon monoxide on novel, at low temperatures active Ru-catalysts)", Brennstoff.-Chem., 44(2), 1963, pp. 13-17.
Pichler, H., "Fifty years of fuel chemistry and power economy", Erdoel Kohle, Erdgas, Petrochem., 1973, pp. 625-635.
Pichler, H., "Hersellung flussiger Kraftstoffe aus Kohle (Production of liquid hydrocarbons from coal)", Carl Engler und Hans Bunte-Institut fur Mineralol- und Kohleforschung und Institut fur Gastechnik, Feuerungstechnik und Wasserchemie der Universitat Karlsruhe, 1970.
Pichler, H., "Twenty five years of synthesis of gasoline by catalytic conversion of carbon monoxide and hydrogen", Adv. Catal., 4, 1952, pp. 271-341.
Pichler, H., “50 Jahre Brennstoffchemie Und Energiewirtschaft - Eine Persönliche Rocksau”, Hung. J. Ind. Chem., 2, 1974, pp. 89-112.
Pichler, H., Bellstedt, F., “Graft copolymerization of styrene to preirradiated polymethylene from carbon monoxide and hydrogen”, J. Polymer Sci.: Polymer Chem. Ed., 11(11), 1973, pp. 3025-3028.
Pichler, H., Buffleb, H., "Die Synthesis von Paraffin an Rutheniumkatalysatoren bei Drucken bis zu 1000 Atm (Synthesis of paraffins on Ru-catalysts at pressures up to 1000 atm)", Brennstoff-Chemie, 21, 1940, p. 257.
Pichler, H., Buffleb, H., "Einige Eigenschaften der an Rutheniumkatalysatoren aus Kohlenoxyd und Wasserstoff bei hohen Drucken entstehenden festen Paraffine unter besonderer Berucksichtigung der bisher unbekannten hochstschmelzenden Anteile (Some properties of solid paraffins produced from carbon monoxide and hydrogen at high pressures on a Ru-catalyst, thereby especially taking into account the highest boiling portions, which are up to now unknown)", Brennstoff-Chem., 21, 1949, p. 285.
Pichler, H., Buffleb, H., "Uber das besondere Verfahren von Rutheniumkatalysatoren bei der Synthese hochmolekularer Paraffinkohlenwaserstoffe (On the special behaviour of Ru-catalysts during the synthesis of high molecular weight paraffins)", Brennstoff-Chem., 19, 1938, p. 226.
Pichler, H., Buffleb, H., "Uber das besondere Verhalten von Rutheniumkatalysatoren bei der Synthese hochmolekularer Paraffinkohlenwasserstoffe (On the special behaviour of Ru-catalysts during the synthesis of high molecular weight paraffins)", Brennstoff-Chem., 21, 1940, p. 273, 285.
Pichler, H., Firnhaber, B., “Synthesis of Polymethylenes from Carbon Monoxide and Hydrogen Using an Iradiated Ruthenium Catalyst”, Angew. Chem. Internat. English, 2(3), 1963, pp. 151-152.
Pichler, H., Firnhaber, B., Kioussis, D., Dawallu, A., "Polymethylen aus kohlenoxyd und wasserstoff", Makromolek. Chem., 70(1), 1964, pp. 12-22.
Pichler, H., Hector, A., "Carbon monoxide-hydrogen reaction", in "Encyclopedia of Chemical Technology", Kirk-Othmer, Second Edition, Volume 4, Interscience Publishers, John Wiley & sons, Inc., NY, London, Sydney, 1964, pp. 446-480.
Pichler, H., Merkel, H., "Chemische und magnetochemische Untesuchungen von Eisen-Katalysatoren auf em Gebiet der Fischer-Tropsch-Synthese, Teil I aund 2 (Chemical and magnetochemical investigations of Fe-catalysts in the area of Fischer-Tropsch-synthesis, part I and II)", Brennstoff-Chem., 31, 1950, p. 1, 33.
Pichler, H., Roelen, O., "Mitteldrucksynthese (Medium pressure synthesis)", in "Ullmanns Encyklopadie der technischen Chemie", 3. Auglage, Bd. 9, Urban & Schwarzenberg, Munchen-Berlin, 1957, p. 707.
Pichler, H., Schluz, H., "Neuere Erkentnisse auf dem Gebeit der Synthese von Kohlenwasserstoffen aus CO und H2 (New insights in the area of the synthesis of hydrocarbons from CO und H2)", Chem.-Ing.-Tech., 42(18), 1970, pp. 1162-1174.
Pichler, H., Schluz, H., Hojabri, F., "Synthesis of a-olefins form carbon monoxide and hydrogen", Bresnnstoff.-Chem., 45, 1964, pp. 215-221.
Pichler, H., Schulz, H., Elstner, M., "Gesetzmassigheiten bei der Synthese von Kohlenwasserstoffen aus Kohlenoxide und Wasserstoff (Some laws of the synthesis of hydrocarbons from carbon oxide and hydrogen)", Brennst. Chem., 48, 1967, pp. 78-87.
Pichler, H., Schulz, H., Kuhne, D., "Uber die Zusammensetzung der aus Kohlenoxid und Wasserstoff unter verchiedenen Verfahrensbedingungen erzeugten Kohlenwasserstoffe (On the composition of hydrocarbons produced from carbon oxide and hydrogen under different process conditions)", Brennstoff-Chem., 49, 1968, p. 36.
Pichler, H., Schulz, H., Rao, B. R., "Uber Folgereaktionen der bei der Fischer-Tropsch- Synthese primar gebildeten Kohlenwassstoffe (On consecutive reactions of primary product formed during Fischer-Tropsch-synthesis)", Liebigs Ann. Chem. 719, 1968, p. 61.
Pichler, H., Schulz, H., Rao., B. R., “Present status of hydrocarbon synthesis from CO and H2 and new investigations on its mechanism using tracer technique and radio-gas chromatography”, 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. 175-182.
Pick, S., Dreyssé, H., "Calculation of gas adsorption effect on magnetism of Co(0001)", Surf. Sci., 474(1-3), 2001, pp. 64-70.
Pick, Š., Dreyssé, H., "Chemisorption on Magnetic Cobalt Systems", J. Magnetism Magnetic Mat., 198/199, 1999, pp. 312-314.
Pick, Š., Dreyssé, H., "Tight-Binding Study of the CO Chemisorption Effect on Cobalt Magnetization", Physical Review B, 59(6), 1999, pp. 4195-4200.
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.
Pickering, H. L., Eckstrom, H. C., "Heterogeneous Reaction Studies by Infrared Absorption", J. Phys. Chem., 63(4), 1959, pp. 512-518.
Pickering, H. L., Eckstrom, H. C., "Physical Adsorption of Gases on Anatase", J. Am. Chem. Soc., 74(19), 1952, pp. 4775-4777.
Pickett, O. A., “Solvents for Waxes”, Ind. Eng. Chem., 21(8), 1929, pp. 767-768.
Pien, S.-I.,/ Chuang, S. S. C., “An in situ infrared study of ethylene hydroformylation and CO hydrogenation on Ru/SiO2 and sulfided Ru/SiO2”, J. Molec. Catal., 68(3), 1991, pp. 313-330.
Pierantozzi, R., "Synthesis of oxygenates from CO and hydrogen over supported metal clusters", J. Catal., 106(1), 1987, pp. 323-326.
Pierce, R. M., “Molecular Structure And Reactivity Of Rhodium And Iridium Porphyrin Complexes Relevant To Carbon Monoxide Reduction”, Ph. D. Thesis, University of Pennsylvania, 1983.
Pijolat, M., Perichon, V., "Synthesis of alcohols from CO and H2 on Fe/AI203 catalysts at 8-20 bar pressure", Appl. Catal., 13, 1985, p. 321.
Pijolat, M., Perrichon, V., Bussiere, P., "Study of the carburization of an iron catalyst during the Fischer-Tropsch synthesis: influence on its catalytic activity", J. Catal., 107(1), 1987, pp. 82-91.
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.
Pike, R. W., Wilkins, B. Jr., Ward, H. C., "Measurement of the void fraction in two-phase flow by x-ray attenuation", AIChE J., 11(5), 1965, pp. 794-800.
Pilhofer, Th., "Effect of plate geometry on gas-hold-up in bubble columns", Chem. Eng. Comm., 5, 1980, pp. 69-72.
Pilhofer, Th., "Partikelmeßtechnik für Blasen und Tropfen in Flüssigkeiten (particle methology for bubbles and droplets in liquids)", Fortschr. d. Verfahrenstechnik, Reihe A, 15, 1977, pp. 92-108.
Pilhofer, Th., Bach, H. F., Mangartz, K. H., "Determination of Fluid Dynamic Parameters in Bubble Column Design", ACS Symp. Ser. No. 65, "Chemical Reaction Engineering-Houston", 31, 1978, pp. 372-383.
Pilhofer, Th., Jekat, H., Miller, H.-D., Miller, J. H., "Messung der großenverteilung fluider partikel in blasenaulen und sprihkolonnen (Measurement of size distribution of fluid particles in bubble columns and spray columns)", Chem.-Ing.-Tech., 46, 1974, p. 913.
Pilon, L., Viskanta, R., "Minimum superficial gas velocity for onset of foaming", Chem. Eng. Proc., 43(2), 2004, pp. 149-160.
Pilz, R. D., Hempel, D. C., “Mechanical stress on suspended particles in two- and three-phase airlift loop reactors and bubble columns”, Chem. Eng. Sci., 60(22), 2005, pp. 6004-6012.
Pilz, R. D., Mahnke, E. U., Hempel, D. C., "Mechanical Stresses in Bubble Columns and Airlift Loop-Reactors Operated in Two and Three Phase Modes", J. Chem. Eng. Japan, 37(8), 2004, pp. 955-961.
Pinczewski, W. V., “The formation and growth of bubbles at a submerged orifice,” Chem. Eng. Sci., 36, 1981, p. 405.
Pinheiro, P., Schouler, M. C., Gadelle, P., Mermoux, M., Dooryhee, E., "Effect Of Hydrogen On The Orientation Of Carbon Layers In Deposits From The Carbon Monoxide Disproportionation Reaction Over Co/Al2O3 Catalysts", Carbon, 38, 2000, pp. 1469-1479.
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.
Pinna, D., Tronconi, E., Lietti, L., Zennaro, R., Forzatti, P., “Rassegna di modelli cinetici per la sintesi di Fischer-Tropsch”, Riv. Combust., 56(2), 2002, pp. 69-85.
Pinnavaia, T. J., Rameswaran, M., Dimotakis, E. D., Giannelis, E. P., Rightor, E. G., "Carbon monoxide hydrogenation selectivity of catalysts derived from ruthenium clusters on acidic pillared clay and basic layered double-hydroxide supports", Faraday Discuss. Chem. Soc., 1989, pp. 227-237.
Pino, L. R. Z., Saez, A. E., "Thermal dispersion in vertical gas-liquid flows with foaming and non-foaming liquids", Int. Comm. Heat Mass Trans., 22(3), 1995, pp. 391-400.
Pino, L. Z., Solari, R. B., Siquier, S., Estévez, L. A., Yépez, M. M., Sáez, A. E., "Effect of Operating Conditions on Gas Holdup in Slurry Bubble Columns with a Foaming Liquid", Chem. Eng. Comm. 117, 1992, pp. 367-382.
Pino, L. Z., Yepez, M. M., Saez, A. E., "Hydrodynamics Of A Semibatch Slurry Bubble Column With A Foaming Liquid", AIChE J., 36, 1990, pp. 1758-1762.
Pinto, A. S. S., de Barros, R. B., Cordeiro, M. N. D. S., Gomes, J. A. N. F., Garcia, A. R., Ilharco, L. M., "Fermi resonance coupling in the C-H stretching region of methoxide adsorbed on clean Ru(001): a combined RAIRS and theoretical study", Surf. Sci., 566-568(2), 2004, pp. 965-970.
Piper, S. H., Brown, D., Dyment, S., “X-rays and the constitution of the hydrocarbons from paraffin wax”, J. Chem. Soc. Trans., 1925, pp. 2194-2200.
Piper, S. H., Malkin, T., Austin, H. E., “An X-ray study of some structural modifications of long-chain compounds”, J. Chem. Soc., 1926, pp. 2310-2318.
Pironti, F. F., Medina, V. R., Calvo, R., Saez, A. E., "Effect Of Draft Tube Position On The Hydrodynamics Of A Draft Tube Slurry Bubble Column", Chem. Eng. J., 60, 1995, pp. 155-160.
Pitchon, V., Praliaud, H., Martin, G. A., “On the role of hydroxyl groups in CO hydrogenation into methanol on alkali-promoted Pd/SiO2 catalysts”, Stud. Surf. Sci. Catal., 61, 1991, pp. 265-272.
Planelles, J., Sánchez-Marin, J., Tomás, F., Corma, A., “A molecular orbital approach to a comprehensive cracking mechanism for linear long chain alkanes in heterogeneous acid catalytic conditions through carbenium ion ?-cleavage”, J. Chem. Soc. Perkin Trans. 2, 1985, pp. 333-340.
Platz, J., "Die Verweilzeitspektren der gasformigen Phase in Blasensaulen (Residence time spectra of the gaseous phase in bubble columns)", Diplomarbeit, TU Berlin, 1961.
Plesset, M. S., “The dynamics of vapor bubbles”, in “Transient Phenomena in Multiphase Flow” (N. H. Afgan, ed.), Hemisphere Publishing, New York, 1988, pp. 65-76.
Plug, P., Vogelpohl, A., "Bubble formation with superimposed liquid motion at single-hole plates and sieve plates", Ger. Chem. Eng., 6, 1983, pp. 311-317.
Plummer, E. W., Allyn, C., Gustafsson, T., “The Orientation of CO Adsorbed on Ni(100)”, Chem. Phys. Lett., 47, 1977, p. 127.
Plummer, E. W., Chen, C. T., Ford, W. K., Eberhardt, W., Messmer, R. P., Freund, H.-J., “A comparison of surface electron spectroscopies”, Surf. Sci., 158(1-3), 1985, pp. 58-83.
Plummer, E. W., Tonner, B., Holzwarth, N., Liebsch, A., “Electronic Structure of Ordered Sulfur Overlayers on Ni(001)”, Phys. Rev. B, 21, 1980, p. 4306.
Plummer, E. W., Weeks, S., “New Evidence for Multiple Binding Sites for Sulfur at the Ni(100) Vacuum Interface”, Chem. Phys. Lett., 48, 1977, p. 601.
Podesta, W., Gunßer, W., Ralek, M., "Strukturermittlung eines Mangan/Eisen-Katalysators fur die selective Fuhrung der Fischer-Tropsch-Synthese (Determination of the structure of an Mn/Fe-catalyst for the selective guidance of Fischer-Tropsch-synthesis)", Chem.-Ing.-Tech., 55, 1983, p. 631.
Podgurski, H. H., Emmett, P. H., "The Adsorption of Hydrogen and Carbon Monoxide on Iron Surfaces", J. Phys. Chem., 57(2), 1953, pp. 159-164.
Podgurski, H. H., Kummer, J. T., DeWitt, T. W., Emmett, P. H., "Preparation, Stability and Adsorptive Properties of the Carbides of Iron", J. Am. Chem. Soc., 72(12), 1950, pp. 5382-5388.
Podlovchenko, B. I., Gladysheva, T. D., Smolin, A. V., “Transients of current at the adsorption of carbon monoxide on platinum and palladium electrodes”, Mendeleev Comm., 9(3), 1999, pp. 97-99.
Podolski, W. F., Kim, Y. G., "Modeling the Water-Gas Shift Reaction", Ind. Eng. Chem. Proc. Des. Dev., 13(4), 1974, pp. 415-421.
Poels, E. K., “Synthesis gas reactions on Pd and Rh catalysts: selectivity of metal catalysts in the formation of oxygenated products”, Dissertation, Rijksuniversiteit Leiden, 1984.
Poels, E. K., van Broekhoven, E. H., van Barneveld, W. A. A., Ponec, V., “Synthesis gas reactions on Pd-catalysts”, React. Kinet. Catal. Lett., 18(1-2), 1982, pp. 223-228.
Poelsema, B., de Zwart, S. T., Comsa, G., “Scattering cross section of low-coverage CO on Pt(111) for thermal He and H2 beams”, Phys. Rev. Lett., 49, 1982, p. 578.
Poggemann, R., Steiff, A., Weinspach, P.-M., “Einfluß von Stoffeigenschaften auf die Stoffaustauschfläche in Strahldüsenreaktoren”, Chem.-Ing.-Tech., 55(3), 1983, pp. 226-227.
Poggemann, R., Steiff, A., Weinspach, P.-M., “Influence of Physical Properties on the Interfacial Area in a Jet-tube Reactor”, German Chem. Eng. 6(4), 1983, pp. 236-249.
Pohorecki, R., Moniuk, W., Bielski, P., Sobieszuk, P., “Diameter of Bubbles in Bubble Column Reactors Operating with Organic Liquids”, Chem. Eng. Res. Des., 83(7), 2005, pp. 827-832.
Pohorecki, R., Moniuk, W., Bielski, P., Sobieszuk, P., Dąbrowiecki, G., “Bubble diameter correlation via numerical experiment”, Chem. Eng. J., 113(1), 2005, pp. 35-39.
Pohorecki, R., Moniuk, W., Zdrójkowski, A., "Hydrodynamics of a bubble column under elevated pressure", Chem. Eng. Sci., 54, 1999, pp. 5187-5193.
Pohorecki, R., Moniuk, W., Zdrójkowski, A., Bielski, P., "Hydrodynamics of a pilot plant bubble column under elevated temperature and pressure", Chem. Eng. Sci., 56(3), 2001, pp. 1167-1174.
Polifke, W., Brandt, M., Gharaibah, E., "Modeling of Mixing and Reaction in Turbulent Multiphase Flows by Distribution Functions", Chem.-Ing.-Tech., 76(1/2), 2004, pp. 46-50.
Polifke, W., Brandt, M., Gharaibah, E., “Modeling of Mixing and Reaction in Turbulent Multi-Phase Flows with Distribution Functions”, Chem. Eng. Tech., 28(6), 2005, pp. 654-658.
Polinski, L. M., Stiegel, G. J., Saroff, L., "Use of fundamental concepts in catalyst aging to increase catalyst utilization during coal liquefaction, steam reforming, and other carbon-forming reactions", Ind. Eng. Chem. Proc. Des. Dev., 20(3), 1981, pp. 470-475.
Polishuk, I., Stateva, R. P., Wisniak, J., Segura, H., "Simultaneous prediction of the critical and sub-critical phase behavior in mixtures using equations of state IV. Mixtures of chained n-alkanes", Chem. Eng. Sci., 59(3), 2004, pp. 633-643.
Polizzotti, R. S., Schwarz, J. A., "Hydrogenation of CO to methane: kinetic studies on polycrystalline nickel foils", J. Catal., 77(1), 1982, pp. 1-15.
Polizzotti, R. S., Schwarz, J. A., Kugler, E. L., "Catalytic hydrogenation of carbon monoxide on nickel foils and powders", ACS Div. Pet. Chem. Prepr., 23(2), 1978, pp. 451-461.
Pollaert, T. J., "Coal gasification-commercial production of synfuels today", Coal Tech., 3, 1979, pp. 27-49.
Polyanskii, N. B., Bublikov, E. I., Serov, Yu. M., Gryaznov, V. M., "Mixtures of Ultradispersed Powders of Iron and Cobalt As Catalysts for Hydrogenation of Carbon Oxides ", Russian J. Phys. Chem., 74, 2000, p. 506.
Pommier, B., Reymond, J. P., Teichner, S. J., "A new insight into CO + H2 reactions on reduced or oxidized supported Iron", Stud. Surf. Sci. Catal., 19, 1984. pp. 471-480.
Pommier, B., Reymond, J. P., Teichner, S. J., "Fischer-Tropsch Synthesis on Oxidized Supported Iron Catalysts", Z. Phys. Chem., 144, 1985, pp. 203-222.
Pomrehn, H., “Modifizierte Fischer-Tropsch-Synthese”, Dissertation, Akademie der Wissenschaften der DDR, Berlin, 1978.
Ponec, V., "Factors determining the selectivity of multimetallic catalysts", Polyhedron, 7(22-23), 1988, pp. 2383-2386.
Ponec, V., "Fischer-Tropsch synthesis and related reactions", Specialist Periodical Reports: Catalysis, 5, 1982, pp. 48-79.
Ponec, V., "Fischer-Tropsch synthesis and some related heterogeneous reactions", Coal Sci., 3, 1984, pp. 1-62.
Ponec, V., "Selectivity in the syngas reactions: the role of supports and promoters in the activation of CO and in the stabilization of intermediates", Stud. Surf. Sci. Catal., 64, 1991, pp. 117-157.
Ponec, V., "Some aspects of the mechanism of methanation and Fischer-Tropsch synthesis", Catal. Rev.-Sci. Eng., 18(1), 1978, pp. 151-171.
Ponec, V., “Selectivity in the syngas reactions: the role of supports and promoters in the activation of CO and in the stabilization of intermediates”, Stud. Surf. Sci. Catal., 64, 1991, pp. 117-157.
Ponec, V., Nonneman, L. E. Y., “Promotors and supports, their importance in the synthesis gas reactions by metals”, Stud. Surf. Sci. Catal., 61, 1991, pp. 225-234.
Ponec, V., van Barneveld, W. A., "The Role of Chemisorption of Fischer-Tropsch Synthesis", Ind. Eng. Chem. Prod. Res. Dev., 18(4), 1979, pp. 268-271.
Poon, H. C., Saldin, D. K., "A molecular representation of the potential of carbon monoxide adsorbed on a nickel surface", J. Phys. Condens. Matter, 1(9), 1989, pp. 1551-1559.
Pope, D., Walker, D. S., Whalley, L., Moss, R. L., "Measurement of dispersion in silica-supported cobalt oxide catalysts", J. Catal., 31(3), 1973, pp. 335-345.
Popov, I. A., Lovyagin, V. A., Saida, D. M., Matuzaev, K. B., “An Optical Method of Measuring Actual Vapor Velocity and Relative Motion of Phases”, Heat Transfer Research, 32(4-6), 2001, p.
Popov, I. A., Lovyagin, V. A., Saida, D. M., Matuzaev, K. B., “An Optical Method of Measuring of True Vapor Velocity and Relative Motion of Phases”, Heat Transfer Research, 33(5-6), 2002, p.
Popova, N. M., Babenkova, L. V., “TPD studies of hydrogen adsorption on group VIII metals”, React. Kinet. Catal. Lett., 11(2), 1979, pp. 187-192.
Popovic, M. K., Kiefner, A. W., Bajpai, R. K., “Gas Hold-up and Liquid Circulation Velocity in Gas-Liquid-Solid Airlift Reactors”, Canadian J. Chem. Eng., 82(6), 2004, pp. 1273-1274.
Popovic, M., Deckwer, W.-D., "Vergleich des Zellenmodells mit Rücklauf und des Durchmischungsmodells für Blasensäulen-Reaktoren", Chem.-Ing.-Tech., 46(1), 1974, p. 29.
Popovic, M., Kölbel, H., “Ein Zellenmodell für zweiphasige Reaktoren”, Chem.-Ing.-Tech., 46(1), 1974, p. 27.
Popp, R., "Ergebnisse halbtechnischer Untersuchungen zur Fischer-Tropsch-Synthese mit stickstoffreichem Synthesegas (Results of semi-technical investigations on the Fischer-Tropsch-synthesis with nitrogen-rich syngas)", Doctoral Thesis, University of Karlsruhe, Germany, 1996.
Poppa, H., "Model studies in catalysis with uhv-deposited metal particles and clusters", Vacuum, 34(12), 1984, pp. 1081-1095.
Porter, K. E., Davis, B. T., Wong, P. F. Y., “Mass transfer and bubble sizes in cellular foams and froths”, Trans. IChemE, 45, 1967, pp. T265-T273.
Porter, K., Volman, D. H., "Flame Ionization Detection of Carbon Monoxide for Gas Chromatographic Analysis", Anal. Chem., 34(7), 1962, pp. 748-749.
Pospekhov, L. F., "Invesitgations on the mechanism of catalytic synthesis from hydrogen and monoxide carbon", Proceedings of Scientific Articles of Kiev Technological Institute of Leather Industry, Kiev, 3, 1940, pp. 261-267.
Post, M. F. M., van't Hoog, A. C., Minderhoud, J. K., Sie, S. T., "Diffusion limitations in Fischer Tropsch catalyst", Ind. Eng. Chem. Res., 28, 1989, pp. 406-413.
Post, M. F. M., van't Hoog, A. C., Minderhoud, J. K., Sie, S. T., "Diffusion limitations in Fischer Tropsch catalysts", AIChE J., 35, 1989, pp. 1107-1114.
Potoczna-Petru, D., Jaboski, J. M., Okal, J., Krajczyk, L., "Influence of oxidation-reduction treatment on the microstructure of Co/SiO2 catalyst", Appl. Catal. A, 175(1-2), 1998, pp. 113-120.
Potoczna-Petru, D., Kępiński, L., “Effect of oxidation-reduction treatment on the behavior of model silica supported cobalt catalyst”, Catal. Lett., 9(5-6), 1991, pp. 355-362.
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.
Potter, J., Rankin, A. H., Treloar, P. J., "Abiogenic Fischer-Tropsch synthesis of hydrocarbons in alkaline igneous rocks; fluid inclusion, textural and isotopic evidence from the Lovozero complex, N.W. Russia", Lithos, 75(3), 2004, pp. 311-330.
Pouillot, F. L. L., Chandler, K., Eckert, C. A., “Sublimation pressures of n-alkanes from C20H42 to C35H72 in the temperature range 308-348 K”, Ind. Eng. Chem. Res., 35, 1996, pp. 2408-2413.
Poulina, R. R., “Bepaling van de "turnover"-frequentie van Fischer-Tropsch katalysatoren door middel van pulsexperimenten”, Dissertation, Technische Hogeschool Eindhoven, 1980.
Poulsen, B. R., Iversen, J. J. L., “Characterization of gas transfer and mixing in a bubble column equipped with a rubber membrane diffuser”, Biotech. Bioeng., 58(6), 1998, pp. 633-641.
Pour, V., “On the effectiveness factor of a Ni-Cr2O3 catalyst for the hydrogenation of carbon dioxide”, in “The Porous Structure of Catalysts and Transport Processes in Heterogeneous Catalysis” (G. K. Boreskov, ed.), Akademiai Kiado, Budapest, 1972, pp. 421-438.
Powell, A. R., “Relation of coal gasification to the production of chemicals”, in “Gasification and Liquefaction of Coal” (A. C. Fieldner, ed.), American Institute of Mining and Metallurgical Engineers, NY, 1953, pp. 196-206.
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.
Powell, J. B., Langer, S. H., "Low-temperature methanation and Fischer-Tropsch activity over supported ruthenium, nickel, and cobalt catalysts", J. Catal., 94(2), 1985, pp. 566-569.
Powell, J. R., Fillo, J., "Advanced synfuel production fusion", Proc. Intersoc. Energy Convers. Eng. Conf., 1979, pp. 1549-1552.
Powers, J. E., "A Reaction Mechanism for the Hydrogenation of Carbon Monoxide Including a Reversible Catalyst Reaction", J. Phys. Chem., 63(8), 1959, pp. 1219-1223.
Pradhan, A. K., Parichha, R. K., De, P., "Gas Hold-Up in Non-Newtonian Solutions in a Bubble Column with Internals", Can. J. Chem. Eng., 71, 1993, p. 468.
Prairie, M. R., Highfield, J. G., Renken, A., "Diffuse reflectance FTIR-spectroscopy for kinetic and mechanistic studies of CO2 hydrogenation in a continuous recycle reactor", Chem. Eng. Sci., 46, 1991, pp. 113-121.
Prairie, M. R., Renken, A., Highfield, J. G., Thampi, K. R., Grätzel, M., "A Fourier Transform Infrared Spectroscopic Study of CO2 Methanation on Supported Ruthenium", J. Catal., 129, 1991, pp. 130-144.
Prakash, A., "Heat Transfer and Hydrodynamics in a Three-Phase Slurry Bubble Column", Ind. Eng. Chem. Res., 36(11), 1997, pp. 4688-4694.
Prakash, A., "On the Effects of Syngas Composition and Water-Gas-Shift Reaction Rate on Fischer-Tropsch Synthesis over Iron-based Catalyst in a Slurry Reactor", Chem. Eng. Comm., 128, 1994, pp. 143-158.
Prakash, A., Briens, C. L., "Porous Gas Distributors in Bubble Columns. Effect of Liquid Presence on Distributor Pressure Drop. Effect of Start-up Procedure on Distributor Performance", Can. J. Chem. Eng., 68, 1990, p. 204-210.
Prakash, A., Briens, C. L., Bergougnou, M. A., "Mass Transfer Between Solid Particles and Liquid in a 3-Phase Fluidized Bed", Can. J. Chem. Eng., 65, 1987, pp. 228-235.
Prakash, A., Briens, C. L., Wild, G., "Verrhalten des Porosen Gasverteilers einer Blasensaule bei verschieedenen Anfahrbeedingungen", Chem.-Ing.-Tech., 63, 1991, pp. 842-844.
Praliaud, H., Dalmon, J. A., Mirodatos, C., Martin, G. A., "Influence of potassium salt addition on the catalytic properties of silica-supported nickel", J. Catal., 97(2), 1986, pp. 344-356.
Prasad, B. V. R. K., “Supervisory Control System Development For An Indirect Liquefaction Process”, Ph. D. Thesis, Arizona State University, 1986.
Prasada Rao, A. V., “Magnetic, Moessbauer And Esr Studies On Various Carbon-Supported Iron Catalysts”, Ph. D. Thesis, Pennsylvania State University, 1983.
Prasser, H.-M., Krepper, E., Lucas, D., "Evolution of the Two-Phase Flow in a Vertical Tube - Decomposition of Gas Fraction Profiles according to Bubble Size Classes using Wire-Mesh Sensors", Internat. J. Thermal Sci., 41, 2002, pp. 17-28.
Prasser, H.-M., Scholz, D., Zippe, C., “Bubble size measurement using wire-mesh sensors”, Flow Meas. & Instrum., 12(4), 2001, pp. 299-312.
Pratzer, M., Elmers, H. J., "Structure and electronic properties of ultrathin Co films on W(110)", Surf. Sci., 550(1-3), 2004, pp. 223-232.
Price, J. G., Coville, N. J., Hildebrandt, D., Glasser, D., "The effect of pretreatment and reactor variables on the catalytic properties of Co-Ru/SiO2 Fischer-Tropsch catalysts", 7th National Meeting of SAIChE, Esselen Park, 22-24 August, Chemical Engineering into the Future: The South African Perspective, 1994, pp. 700-708.
Price, J. G., Glasser, D., Hildebrandt, D., Coville, N. J., "Fischer-Tropsch synthesis: DRIFTS and SIMS surface investigation of Co and Co/Ru on titania supports", Stud. Surf. Sci. Catal., 107, 1997, pp. 243-248.
Price, J. G., Steynberg, A. P., Nel, H., "Fischer-Tropsch catalyst and reactor selection: match the technology with the application", Chem. Tech., 2001(1).
Price, P. H., Schiewitz, D. B., “Catalytic liquid phase hydrogenation”, Ind. Eng. Chem., 49, 1957, pp. 807-812.
Primet, M., "Infrared study of CO chemisorption on zeolite- and alumina-supported rhodium", J. Chem. Soc. Far. Trans. 1, 74(10), 1978, pp. 2570-2580.
Primet, M., Dalmon, J. A., Martin, G. A., "Adsorption of CO on well-defined Ni/SiO2 catalysts in the 195-373 K range studied by infrared spectroscopy and magnetic methods", J. Catal., 46(1), 1977, pp. 25-36.
Prince, A. D., Blanch, H. W., "Bubble coalescence and breakup in air-sparged bubble columns", AIChE J., 36, 1990, pp. 1485-1499.
Prins, M. J., Ptasinski, K. J., Janssen, F. J. J. G., "Exergy analysis of a production process of Fischer-Tropsch fuels from biomass", in "Proc. 12th European Conf. on Biomass for Energy, Industry and Climate Protection, ETA-Florence & WIP-Munich" (W. Palz et al., eds.), Amsterdam, Netherlands, 2002, pp. 1154-1157.
Prins, M. J., Ptasinski, K. J., Janssen, F. J. J. G., “Exergetic optimisation of a production process of Fischer-Tropsch fuels from biomass”, Fuel Proc. Tech., 86(4), 2005, pp. 375-389.
Prins, R., Somorjai, G. A., "Contributions of gas chromatography to the development of heterogeneous catalysis", J. Chromat. A, 406, 1987, pp. 151-155.
Prinsloo, F. F., "Fischer-Tropsch synthesis over carbon nanotube supported iron catalysts", M. Appl. Sc. dissertation, University of Cape Town, 2000.
Prinsloo, J. J., Gravelle, P. C., "Calorimetric study of the adsorption of carbon monoxide, at 296 K, on supported nickel and nickel-copper catalysts", J. Chem. Soc., Faraday Trans. 1, 1982, pp. 273-281.
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.
Prior, K. A., Scott, E. G., Lambert, R. M., "An X-Ray and Uv Photoelectron Spectroscopic Study of Co Chemisorption and Dissociation on the Stepped Co(1012) Surface", Chem. Phys. Lett., 80, 1981, pp. 517-520.
Probst, R. E., Meyerson, S., Seelig, H. S., "Adsorption and Reaction of Carbon Monoxide on Promoted Iron Catalysts", J. Am. Chem. Soc., 74(8), 1952, pp. 2115-2116.
Probstein, R. F., Hicks, R. E., “Liquids and clean solids from coal”, chapter 6 in “Synthetic Fuels”, McGraw-Hill, NY, 1982, pp. 257-321.
Prohaska, B., “Fischer-Tropsch -- The Future Refinery Technology?”, NAFTA, 53(6-7), 2002, p. 204.
Prokhorenko, E. V., Pavlenko, N. N., Golodets, G. I., "Effect of the supporter nature on catalytic properties of cobalt and nickel catalysts in hydrogenation of carbon monoxide", Kinet. Catal., 29(4), 1988, pp. 820-824.
Prokhorenko, E. V., Pavlenko, N. V., Golodets, G. I., "Effect of the nature of the support on the catalytic properties of cobalt and nickel catalysts in the reaction of hydrogenation of carbon monoxide", Kinet. Catal. (Engl. Transl.), 29(4), 1989, pp. 702-706.
Proseus, R. A., “Rapid monitoring of variations in lubricating oils by gel permeation chromatography”, J. Chromat. A, . 97(2), 1974, pp. 201-212.
Prosperetti, A., “Bubbly-To-Slug Transition In Vertical Flows”, Multiphase Sci. & Tech., 15(1-4), 2003, pp. 50-56.
Prosperetti, A., Jones, A. V., "Pressure forces in disperse two-phase flow", Int. J. Multiphase Flow, 10, 1984, pp. 425-440.
Prosperetti, A., Zhang, D. Z., "Disperse phase stress in two-phase flow," Chem. Eng. Comm., 141-142, 1996, p. 387.
Proux, O., Micha, J. S., Régnard, J. R., Traverse, A., Dieny, B., Ernult, F., Bayle-Guillemaud, P., Hazemann, J. L., Giacomoni, L., "Structural investigations of Co/ZrO2 discontinuous multilayers by x-ray absorption fine structure spectroscopy", J. Phys. Condens. Matter, 15, 2003, pp. 7237-7252.
Pruden, B. B., Weber, M. E., “Evaluation of the three phase transport reactor”, Canadian J. Chem. Eng., 48, 1970, pp. 162-167.
Prudnikova, O. Yu., Makarova, O. V., Yurieva, T. M., “Active state of copper in catalysts for low-temperature methanol synthesis”, React. Kinet. Catal., Lett., 14(4), 1980, pp. 413-416.
Pruett, R., "Catalysis in C1 Chemistry", Organometallics, 3(2), 1984, pp. 339-340.
Prüsse, T., Fiedler, A., Schwarz, H., "Chain Length Imposed, Iron(I)-Mediated 1,1-Dehydrogenation and Decarbonylation of a Methoxy Group. A Possible Case for a Gas-Phase Reversal of the Fischer-Tropsch Synthesis Involving an Atomic Iron(I) Center", J. Am. Chem. Soc., 113, 1991, pp. 8335-8339.
Psaro, R., Ugo, R., Zanderighi, G. M., Besson, B., Smith, A. K., Basset, J. M., "Surface supported metal cluster carbonyls: chemisorption decomposition and reactivity of Os3(CO)12, H2Os3(CO)10 and Os6(CO)18 supported on silica and alumina and the investigation of the Fischer-Tropsch synthesis with these systems", J. Organomet. Chem., 213, 1980, p. 215.
Ptasinski, K. J., van Swaaij, W. P. M., “Gas absorption into slurry: rate enhancement by fine insoluble solid reactant”, Chem. Eng. Sci., 41, 1986, pp. 1943-1944.
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.
Puneet Gupta, P., Al-Dahhan, M. H., Dudukovic, M. P., Toseland, B. A., "Comparison of single- and two-bubble class gas-liquid recirculation models - application to pilot-plant radioactive tracer studies during methanol synthesis", Chem. Eng. Sci., 56(3), 2001, pp. 1117-1125.
Puntes, V. F., Krishnan, K., Alivisatos, A. P., "Synthesis of colloidal cobalt nanoparticles with controlled size and shapes", Top. Catal., 19(2), 2002, pp. 145-148.
Puri, S., Kohn, J. P., “Solid-liquid-vapor equilibrium in the methane-n-eicosane and ethane-n-eicosane binary systems”, J. Chem. Eng. Data, 15(3), 1970, pp. 372-374.
Pursglove, L. A., Wainwright, H. W., "Colorimetric Determination of Carbony Sulfide in Synthesis Gas", Anal. Chem., 26(11), 1954, pp. 1835-1839.
Purwanto, Deshpande, R. M., Chaudhari, R. V., Delmas, H., "Solubility of Hydrogen, Carbon Monoxide, and 1-Octene in Various Solvents and Solvent Mixtures", J. Chem. Eng. Data, 41(6), 1996, pp. 1414-1417.
Puskas, I., "Unusual reactions on a cobalt-based Fischer-Tropsch catalyst", Catal. Lett., 22(4), 1993, pp. 283-288.
Puskas, I., Fleisch, T. H., Hall, J. B., Meyers, B. L., "Cobalt Reducibility and Magnesium Promotion in Silica-Supported Fischer-Tropsch Catalysts", Stud. Surf. Sci. Catal., 75(C), 1993, p. 2813.
Puskas, I., Fleisch, T. H., Hall, J. B., Meyers, B. L., Roginski, R. T., "Metal-support interactions in precipitated, magnesium-promoted cobalt-silica catalysts", J. Catal., 134, 1992, pp. 615-628.
Puskas, I., Fleisch, T. H., Hall, J. B., Meyers, B. L., Roginski, R. T., “Cobalt reducibility and magnesium promotion in silica-supported Fischer-Tropsch catalysts”, in “New Frontiers in Catalysis – Proceedings of the 10th International Congress on Catalysis, Budapest, 19-24 July, 1992” (L. Guczi, et al., eds.), Akademiai Kiado, Budapest, 1993, Part C, pp. 2813-2816.
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., Hurlbut, R. S., Pauls, R. E., "Telomerization Model for Cobalt-Catalyzed Fischer-Tropsch Products", J. Catal., 139(2), 1993, pp. 591-601.
Puskas, I., Meyers, B. L., Hall, J. B., "A Fast Deactiving Fischer-Tropsch Catalyst", Prepr. ACS Div. Petrol. Chem., 38(4), 1993, p. 905.
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.
Pussi, K., Lindroos, M., Katainen, J., Habermehl-Cwirzen, K., Lahtinen, J., Seitsonen, A. P., "The adsorption structure on Co 0 0 0 1 : a combined Tensor LEED and DFT study", Surf. Sci., 572(1), 2004, pp. 1-10.
Putanov, P., Boskovic, G., Vlajnic, G., Kis, E., Lázár, K., Guczi, L., "Iron-Support-Promoter Interaction in the Sequence of Preparation of Fe/MgO Catalysts for CO Hydrogenation", Indian J. Tech., 30, 1992, p. 156.
Putanov, P., Boskovic, G., Vlajnic, G., Kis, E., Lázár, K., Guczi, L., "Promoter Effect of Cu, Co and K on Fe/MgO in CO Hydrogenation", J. Mol. Catal., 71, 1992, p. 81.
Putanov, P., Javanovic, Z., Herak, R., "Effect of additives and a reducing medium on the formation of the phase composition in a catalyst for low-temperature conversion of carbon monoxide", Rev. Roum. Chim., 18(4), 1973, pp. 569-573.
Putna, E. S., Shereck, B., Gorte, R. J., “Adsorption and reactivity of lanthana with CO”, Appl. Catal. B, 17(1-2), 1998, pp. 101-106.
Putnam, B. R. Jr., Warren, R. F., "Production of Chemicals", Ind. Eng. Chem., 45(3), 1953, pp. 524-528.
Putnam, G. L., Kobe, K. A., "Hydrocarbons from Carbides", Chem. Rev., 20(1), 1937, pp. 131-143.
Puzitskii, K. V., Éidus, Ya. T., Khudyakov, Yu. T., “Course of the hydrocondensation of carbon monoxide with ethylene under a pressure of 10 atmos”, Russian. Chem. Bull., 8(5), 1959, pp. 913-915.
Pyatnitskii, Y. I., “Effects of adsorbate interactions on the product distribution in Fischer-Tropsch synthesis”, Theor. Experim. Chem., 25(1), 1989, pp. 87-89.
Pyatnitskii, Y. I., Chashechnikova, I. T., Pavlenko, N. V., "Influence of potassium oxide on the kinetic characteristics of olefin formation during the hydrogenation of CO over metals", Theor. Exp. Chem., 30, 1995, pp. 158-162.
Pyatnitsky, Y. I., Lunev, N. K., “Kinetic modeling of Fischer-Tropsch process”, Katal. Neftekhim., 9-10, 2001, pp. 1-4.
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