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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.

 

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