TH13299B - The process of using methanol production - Google Patents

Abstract

It is made from synthetic gas containing hydrogen and methanol oxide and is formed on a copper-loaded catalyst under pressure in the range from 20 to 120 bar and at temperatures from 200 to 350 ํ. Synthetic is passed Reactor Synthesized one, consisting of a slowift reactor. And contains the fixed base of the copper-containing catalyst Reaction in slow-lift reactors Will act as volume control And there is no swirl Synthetic gas in any way With swirling gas, gas mixture In the first synthetic reactor it is passed through the second synthesis reactor. Which contains a catalyst containing Copper contained They are then sent in a tube and are indirectly cooled with boiling water 10 to 30% of the synthetic gas carbon oxide. It will react in a slow-lift reactor to generate methanol.

Claims (9)

1. Method for the production of methanol from synthetic gas containing hydrogen and carbon oxides by reacting on a copper catalyst at a pressure range of 20 to 120 bar and a temperature range of 200 to 350 ํ. The synthetic gas is passed through the first (4) synthesis reactor, the first (7) product mixtures containing the methanol vapor are extracted from the reactor. Synthetic first The first product mixtures are cooled. By doing so, the methanol condenses and is separated from the gaseous component of the first product mixture, at least part of the gaseous component of the first product mixture passes into the reactor. Not Synthetic second (10), in which the second (14) mixture containing methanol vapor is extracted, the second product mixture is cooled. This action condenses the methanol and is separated from the gaseous component of the second product mix. And at least part of that element As the gas of the second mixture is passed back into the second reactor. With the characteristics that The synthetic gas is then passed at an input temperature of 220 to 270 ํ into the first (4) reactor designed as a reactor. Slow-lift and base (6) catalyst containing copper. Further action in the slow-lift reactor will be performed. And there is no circulation of synthetic gas and reactors. The second (10) synthesis contains a copper-containing catalyst, it is indirectly cooled by boiling water and arranged in a tube (11). 2.The method described in claim 1 is that 10 to 30% of the carbon oxide in The slow-lift reactor is then reacted to form methanol. 3. The method according to claim 1 or 2 looks in the way that synthetic gas is fed into Slow-lift reactors whose numbers, according to the equation S = (H2-CO2): (CO + CO2), are at least 1.9, which contain a hydrogen dominant. And which has a CO of 0 to 20% by volume and a CO2 content of 10 to 25% by volume, the volume ratio of CO2: CO is at least 1. 4. The method according to claim 3 is that the synthetic gas fed into the slow lift reactor contains 0 to 15% by volume CO. 5. The method according to claim 3 or 4 looks like the synthetic gas that is fed into A slow-lift reactor has a CO2 content of 15 to 25% vol and the CO2: CO ratio of at least 2: 1. 6. Method for claiming 1 to 5, any one Have a look at whether the pressure in Slow-lift reactor And reactor Tubular models range from 60 to 100 bar, pressure in the reactor. The two will differ by less than 5 bars. 7.The method according to claim 6 is characterized by that the pressure in the slow-lift reactor and in the pipe reactor ranges from 70 to 90 bar. 8. Method for claiming 1 to 5, any one Have a look at whether the pressure in Slow-lift reactors range from 20 to 60 bar, and pressure in pipe reactors is 50 to 100 bar.The pressure in slow-lift reactors is at least 7 bar lower than tubular reactors. 9. Method for claim 1 or any of the following Have a look at the accelerator The reaction was used in a slow-lift reactor. And in a duct reactor Which contains 50 to 75% of CuO, 15 to 35% by weight of ZnO and 5 to 20% by weight of Al2O3 1. 0.The method according to claim 9 is characterized in that the catalyst has a ratio of Cu: Zn atoms of 2: 1 to 4: 1.