TECHNOLOGIES FOR OBTAINING LIQUID FUEL FROM GAS
Abstract
This article describes the theoretical foundations of synthesis gas production and Fischer-Tropsch synthesis. It also presents a GTL plant operating today in our country, GTL products, and the technology of some processes.
References
vvArutyunov V.S., Krylov O.V. Oxidative conversion of methane.// Usp. Khim. –2005. –V. 74. –P. 1216–1245.
Crabtree, R.H. Current Ideas and Future Prospects in Metal-Catalyzed Methane Conversion. // Stud. Surf. Sci. Catal. –1994. –V. 81.– P. 85-92.
Yarlagadda O.S., Morton L.A., Hunter N.R., Gessar H.D. Temperature oscillations during the high-pressure partial oxidation of methane in a tubular flow reactor. // Combust. Flame. –1990. -V.79. -P. 216-218.
Rostrup-Nielsen J.R. Hydrogen and synthesis gas by steam- and C02 reforming. // Advaces in Catalysis. –2002.-V. 47.-P. 65-139.
Steen van E., Claeys M., Möller K.P., Nabaho D. Comparing a cobalt-based catalyst with iron-based catalysts for the Fischer-Tropsch XTL-process operating at high conversion. // Applied Catalysis A, General. –2018 -V. 549. -P. 51–59.
Storch H.H., Golumbic N., Anderson R. The Fischer-Tropsch and Related Syntheses. // New York: Wiley, 1951.-V. 26. -P. 71–89.
Spravochnik khimika (Chemist’s Handbook), Moscow:Inostrannaya Literatura, 1962.-V.1. -P. 463.
Eilers J., Posthuma S.A., Sie S. The shell middle distillate synthesis process (SMDS) // Catal. Lett. –1990. -V.7. -P 253–270.
Dry M.E. Gas to liquid Technologiyes. // Appl. Catal. A: General, 1996.-V. 138. -P. 319-344.
Krylov, O.V. Carbon-dioxide conversion of methane into synthesis gas. // Ross. Khim. Zh. –2000.-V. 44.-P. 19–33.
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