TH39138A3 - Process for the preparation of hydrocarbons from synthetic gases. - Google Patents

Abstract

DC60 (05/08/42) Process for producing hydrocarbons from synthetic gases. These include - a) feed synthetic gases with a molar ratio of H2 / CO varied from 1 to 3 into the Fischer-Trop reactor. Catalyst Is an internally enhanced cobalt; b) releases a liquid hydrocarbon phase. C) Feed the suspension into the hydrocracking reactor. D) The vapor phase is emitted from the upper part of the hydrocracking reactor and from the bottom of the reactor. A heavier product is released, which is then sent back through the Fischer-Tropic reactor) through the vapor phase. To the cooling system and condensation system Process for producing hydrocarbons from synthetic gases. This includes: - a) Feed synthetic gas with a molar ratio of H2 / CO varied from 1 to 3 into the Fischer-Trop reactor. Catalyst Is an internally enhanced cobalt; b) releases a liquid hydrocarbon phase. C) Feed the suspension into the hydrocracking reactor. D) The vapor phase is emitted from the upper part of the hydrocracking reactor and from the bottom of the reactor. A heavier product is released, which is then sent back through the Fischer-Tropic reactor) through the vapor phase. To the cooling and condensation system:

Claims (12)

Disclaimers (all) that will not appear on the advertisement page: 1) A method for producing hydrocarbons from synthetic gases. Which consists of: - a) Feed synthetic gas which is an important part consisting of Hydrogen gas and gas Carbon monoxide with a molar ratio of H2 / CO in a continuous range from 1 to 3. Enter the lower end of the reactor for the Fischer-tropsch reaction with a catalyst containing the element B) The product plane resulting from the fischer-trop reaction mainly consists of a liquid phase, hydrocarbon, with a catalyst in the substance. Continuous suspension from the reactor; c) Feed the products obtained from the Fisher-Trop reaction. Together with the current of Hydrogen gas enters the hydrocracking reactor. That was set to It operates at temperatures ranging from 200 to 500 ํ C). The vapor phase plane, which is primarily composed of light hydrocarbons, leaves the upper part of the hydrocracking reactor. And suspensions The heavier product is present from the bottom of the reactor, which is then sent back through the Fischer-TropC reactor), making the phase of the vapor exiting the upper part of the reactor. Reactor to cool and condense 2) Process according to claim 1, whereby the reactor used for the pattern reaction Of that fisher-trop It is a type of vertical bubble reactor (Vertical bubble reactor). 3) Process according to claim 1 or item 2, in which the product obtained from the reaction according to the pattern Of fisher-tropics in the liquid phase, a significant part of them consists of paraffin wax with a boiling point above 150 ํ. 4) Process according to claim 1, in which the Fisher-Trop reaction in Temperature ranges from 150 to 400 ํ and at a pressure range from 0.5 to 2.0 mPa. 5) Process according to claim 1, where a catalyst containing 1 to 50% cobalt by weight is supported on at least one oxide-containing solid. Of an element Or more than one selected from Silicon, Titanium, Aluminum, Zinc, and Magnesium. 6) Process according to claim 1, in which the catalyst contains ruthenium from 0.05% to 5% by weight and at least one third element. Which was chosen from Those elements belonging to the IIIB group range from 0.05 to 5% by weight. 7) Process according to claim 1, where the catalyst contains 0.05 -5% tantalum by weight. 8) Process according to claim 1 in which the catalyst is in the form of a powder that has been made or distributed. It is a fine powder with average particle diameter in the range from 10 to 700 micrometers. 9) Process according to claim 1, where the hydrocracking reactor It is operated at a temperature range of 200 to 500 ํ and at a pressure range of 0.5 to 20 mPa. 10) Process according to claim 1, in which the vital vapor phase, consisting of paraphenes with C5-C25 +, is drained from the hydrocracking reactor. 11) Process according to claim 1 in which the catalyst contains cobalt from 1 to 50% wt, ruthenium 0.05 to 5% wt and at least the third element. One type, from 0.05 to 5% by weight selected from the IIIB group supported on the Solid containing at least one oxide of one or more elements selected from Si, Ti, Al, Zn and Mg. 12) Process according to claim 1, in which the catalyst contains cobalt from 1 to 50% wt and tantalum 0.05 to 5% by weight supported on solids. Containing at least one oxides of one or more elements selected from Si, Ti, Al, Zn and Mg.