TH20116C3 - How to produce monoethylene glycol - Google Patents

Abstract

DC60 (02/03/48), method disclosure for producing monoethylene glycol. Which is a method for producing ethylene glycol, which It is included a carbonation process that allows ethylene oxide to react with carbon dioxide in the presence of a carbonation catalyst. Therefore, it results in a solution of the reaction containing ethylene carbonate. Which converts the reaction solution into a solution Ethylene glycol acidification by hydrolyzed ethylene carbonate in the solution of the reaction and the distillation process in which pure ethylene glycol is obtained and Catalyst solution with catalyst Carbonation from ethylene glycol aqueous solution by distillation. Which in better condition Persist for a long time This is because the reaction is performed in the presence of a carbonation catalyst using Column bubble reactor by supplying ethylene oxide, carbon dioxide And water got into That reactor Disclosure of a method for producing monoethylene glycol Which is a method for producing ethylene glycol, which It is included a carbonation process that allows ethylene oxide to react with carbon dioxide in the presence of a carbonation catalyst. Therefore, it results in a solution of the reaction containing ethylene carbonate. Which converts the reaction solution into a solution Ethylene glycol acidification by hydrolyzed ethylene carbonate in the solution of the reaction and the distillation process in which pure ethylene glycol is obtained and Catalyst solution with catalyst Carbonation from ethylene glycol aqueous solution by distillation. Which in better condition Persist for a long time This is because the reaction is performed in the presence of a carbon catalyst using Column bubble reactor by supplying ethylene oxide, carbon dioxide And water got into That reactor

Claims (9)

1.Method for producing monoethylene glycol, which consists of The carbonation process in which ethylene oxide reacts with carbon dioxide with Carbonation catalyst In it to form a solution of the reaction containing ethylene carbonate. Hydrolysis procedure Which converts the reaction solution to ethylene glycol a-quiesque solution by hydrolysis of ethylene carbonate in the reaction solution and distillation process which Pure ethylene glycol and catalyst solutions are obtained. Accelerated carbonation from ethylene glycol aqueous solution by distillation. The reaction is carried out with a carbonation catalyst using a bubble reactor. Column by dosing of ethylene oxide, carbon dioxide And water they go into the reactor. 2. Method according to claim 1, in which the molar ratio of carbon dioxide to ethylene The oxide fed into the reactor is from 0.1 to 5, and the mole ratio of water to elyenoxide is from 0.1 to 10. 3. Method according to claim 1, where the reaction temperature is from 70 to 200 ํ and that reaction pressure is from 5 to 50 kg / sq. 4. Method according to claim 1, in which part of the solution of the reaction from Top of the reactor And flow through the circulation pipe to the bottom of the reactor. And feed the gas which is the raw material into the reactor through the recirculation tube. 5. Method according to claim 2, in which part of the reaction solution is removed from the The upper part of the reactor and circulates through the recirculation tube to the bottom of the reactor and feed the raw gas into the reactor through the recirculation tube. 6. Method according to claim 3, in which part of the reaction solution is removed from the Top of the reactor And flow through the circulation pipe to the bottom of the reactor. And feed the gas which is the raw material into the reactor through the recirculation tube. 7. Method according to claim 1, where the carbonation procedure is performed using a reactor which It consists of sequential bubble column connected including at least two bubble columns and a coherent flow reactor connected downstream from the bubble column. Following (1) enter ethylene oxide and carbon dioxide into the bottom part of the bubble. Continuous first column And bring that which flows through the resulting gas-liquid phases, which make up Combined with a liquid cycle containing ethylene carbonate. And the non-reactive carbon dioxide gas cycle from the top of the column And feed it into the bottom of that second bubble (2) in the second and subsequent bubble columns, keeping that temperature higher than the bubble. First column at least 10 ํ C and lead the liquid phase. Which contains ethylene carbonate and region The resulting non-reactive carbon dioxide gas comes out as a multi-cycle flow of Gas-liquid from the top of each column and fed into the bottom of the bubble. The next column, which does not include the bubble column that is the most downstream, and (3) brings out the liquid cycle that is separated from the gas cycle from the address column bubble. Downstream the most And fed it into the flow reactor together Or lead the liquid phase and The gas cycle leaves the top of the tower in the form of a multi-stage flow. And gas-liquid separation by using Gas-liquid separator And then the resulting liquid cycle is fed into the coherent flow reactor. 8. The method according to claim 7, in which ethylene oxide, carbon dioxide and water is continuously fed into the bottom of the first column bubble in quantities, which makes the molar ratio of Carbon dioxide to ethylene oxide is from 0.1 to 5 and the mole ratio of water to ethylene. Oxides are from 0.1 to 10. 9. Method according to claim 7, in which the reaction is performed under conditions which make the ratio of React ethylene oxide at the first bubble outlet, from 50 to 99.5% 1. 0. Method according to claim 8, in which the reaction is performed under conditions which deform Of ethylene oxide at the outlet of the first column bubble is from 50 to 99.5%.