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Title:	Optimization of Fischer-Tropsch Process in a Fixed-Bed Reactor Using Non-uniform Catalysts
Source:	Chemical Engineering & Technology [0930-7516] Mazidi, S K yr:2012

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description	1.	Thiessen, J. "Effects of manganese and reduction promoters on carbon nanotube supported cobalt catalysts in Fischer-Tropsch synthesis." Microporous and mesoporous materials 164 (2012): 199-206.
description	2.	Choudhury, Hanif A. "An Optimization Study of Fischer–Tropsch Synthesis Using Commercial Cobalt Catalyst." International Journal of Scientific Engineering and Technology 2.1 (2013): 31-.
description	3.	Adib, H. "Modeling and optimization of Fischer-Tropsch synthesis in the presence of Co (III)/Al2O3 catalyst using artificial neural networks and genetic algorithm." Journal of Natural Gas Science and Engineering 10 (2013): 14-24.
description	4.	Geerlings, J. "Fischer-Tropsch technology - from active site to commercial process." Applied catalysis. A, General 186.1-2 (1999): 27-40.
description	5.	Dry, ME E. "Practical and theoretical aspects of the catalytic Fischer-Tropsch process." Applied catalysis. A, General 138.2 (1996): 319-344.
description	6.	Becker, H. "Optimization of Catalysts for Fischer-Tropsch Synthesis by Introduction of Transport Pores." Chemie-Ingenieur-Technik 86.4 (2014): 544-549.
description	7.	Hemmati, M. "Cobalt supported on CNTs-covered Î³-and nano-structured alumina catalysts utilized for wax selective Fischer-Tropsch synthesis." Journal of Natural Gas Chemistry 21.6 (2012): 713-721.
description	8.	Valero, Manuel C. "Cobalt Catalyzed Fischer-Tropsch Synthesis: Perspectives Opened by First Principles Calculations." Catalysis letters 143.1 (2013): 1-17.
description	9.	Miroliaei, A. "Comparison of CFD results and experimental data in a fixed bed Fischer-Tropsch synthesis reactor." Journal of Industrial and Engineering Chemistry 18.6 (2012): 1912-1920.
description	10.	Galvis, Hirsa M. Torres H. "Iron Particle Size Effects for Direct Production of Lower Olefins from Synthesis Gas." Journal of the American Chemical Society 134.39 (2012): 16207-16215.
description	11.	Xie, W. "Effect of catalyst confinement and pore size on Fischer-Tropsch synthesis over cobalt supported on carbon nanotubes." SCIENCE CHINA Chemistry 55.9 (2012): 1-8.
description	12.	Cheng, J. "An Energy Descriptor To Quantify Methane Selectivity in Fischer-Tropsch Synthesis: A Density Functional Theory Study." The journal of physical chemistry. C 113.20 (2009): 8858-8863.
description	13.	Raje, A. "Fischer-Tropsch synthesis: Process considerations based on performance of iron-based catalysts." Fuel 76.3 (1997): 273-280.
description	14.	Espinoza, R. "Low temperature Fischer-Tropsch synthesis from a Sasol perspective." Applied catalysis. A, General 186.1-2 (1999): 13-26.
description	15.	Vosloo, A.C. C. "Fischer-Tropsch: a futuristic view." Fuel processing technology 71.1-3 (2001): 149-155.
description	16.	Iglesia, E. "Design, synthesis, and use of cobalt-based Fischer-Tropsch synthesis catalysts." Applied catalysis. A, General 161.1-2 (1997): 59-78.
description	17.	Dry, Mark E. E. "The Fischer-Tropsch process: 1950-2000." Catalysis today 71.3 (2002): 227-241.
description	18.	Schulz, H. "Short history and present trends of Fischer–Tropsch synthesis." Applied catalysis. A, General 186.1-2 (1999): 3-12.
description	19.	JAGER, B. "ADVANCES IN LOW-TEMPERATURE FISCHER-TROPSCH SYNTHESIS." Catalysis today 23.1 (1995): 17-28.
description	20.	Lu, X. "A thermodynamic approach to olefin product distribution in fischer-tropsch synthesis." Industrial & engineering chemistry research 51.51 (2012): 16544-16551.