Operating strategies for Fischer-Tropsch reactors: A model-directed study

Korean Journal of Chemical Engineering - Tập 21 Số 2 - Trang 308-317 - 2004
Hyun‐Seob Song1, Doraiswami Ramkrishna1, Sinh Trinh1, H. Wright2
1School of Chemical Engineering, Purdue University, 47907, West Lafayette, IN, USA
2Conoco Inc., 74602, Ponca City, OK, USA

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Tài liệu tham khảo

Adesina, A.A., “Hydrocarbon Synthesis via Fischer-Tropsch Reaction: Travails and Triumphs,”Appl. Catal. A: General,138, 345 (1996).

Adesina, A. A., Hudgins, R. R. and Silveston, P. L., “Fischer-Tropsch Synthesis Under Periodic Operation,”Catal. Today,25, 127 (1995).

Barshad, Y. and Gulari, E., “Modification of Product Distribution Through Periodic Operation: Fischer-Tropsch Synthesis Over Ru/ Al2O3,”Chem. Eng. Commun.,43, 39 (1986).

Bhattacharjee, S., Tierney, J.W. and Shah, Y. T., “Thermal Behavior of a Slurry Reactor: Application to Synthesis Gas Conversion,”Ind. Eng. Chem. Process Des. Dev.,25, 117 (1986).

Kirillov, V.A., Khanaev, V. M., Meshcheryakov, D., Fadeev, S. I. and Lukyanova, R.G., “Numerical Analysis of Fischer-Tropsch Processes in Reactors with a Slurried Catalyst Bed,”Theor. Found. Chem. Eng.,33, 270 (1999).

Lox, E. S. and Froment, G. F., “Kinetics of the Fischer-Tropsch Reaction on a Precipitated Promoted Iron Catalysts. 2. Kinetic Modeling,”Ind. Eng. Chem. Res.,32, 71 (1993).

Maretto, C. and Krishna, R., “Modelling of a Bubble Column Slurry Reactor for Fischer-Tropsch Synthesis,”Catal. Today,52, 279 (1999).

Russo, L. P. and Bequette, B.W., “Impact of Process Design on the Multiplicity Behavior of a Jacketed Exothermic CSTR,”AIChE J.,41, 135 (1995).

Shah, Y. T., Dassori, C.G. and Tierney, J.W., “Multiple Steady States in Non-isothermal FT Slurry Reactor,”Chem. Eng. Commun.,88, 49 (1990).

Sie, S. T., “Process Development and Scale Up: IV. Case History of the Development of a Fischer-Tropsch Synthesis Process,”Rev. Chem. Eng.,14, 109 (1998).

Song, H.-S., Ramkrishna, D., Trinh, S. and Wright, H., “Diagnostic Nonlinear Analysis of Fischer-Tropsch Synthesis in Stirred Tank Slurry Reactors,”AIChE J.,49, 1803 (2003a).

Song, H.-S., Ramkrishna, D., Trinh, S., Espinoza, R. L. and Wright, H., “Multiplicity and Sensitivity Analysis of Fischer-Tropsch Bubble Column Slurry Reactors: Plug-Flow Gas and Well-Mixed Slurry Model,”Chem. Eng. Sci.,58, 2759 (2003b).

Stern, D., Bell, A. T. and Heinemann, H., “A Theoretical Model for the Performance of Bubble-Column Reactors Used for Fischer-Tropsch Synthesis,”Chem. Eng. Sci.,40, 1665 (1985).

Van Der Vaan, G. P. and Beenackers, A. A. C. M., “Kinetics and Selectivity of the Fischer-Tropsch Synthesis: A Literature Review,”Catal. Rev. Sci. Eng.,41, 255 (1999).

Withers, H. P., Eliezer, K. F. and Mitchell, J.W., “Slurry-Phase Fischer-Tropsch Synthesis and Kinetic Studies over Supported Cobalt Carbonyl Derived Catalysis,”Ind. Eng. Chem. Res.,29, 1807 (1990).

Yermakova, A. and Anikeev, V. I., “Thermodynamic Calculations in the Modeling of Multiphase Processes and Reactors,”Ind. Eng. Chem. Res.,39, 1453 (2000).