TH23565A - Process for continuous preparation of aqueous formaldehyde solution - Google Patents

Abstract

Process for continuous preparation of aqueous formaldehyde solution In this process, a discharge tower (3) and an additional heat exchanger (10,11, 13) are used in conjunction with the suction tower (8), the air and methanol from the outside, and the sub stream of The methanol originating from the cold methanol stream exiting the distribution tower (3) is fed to the distribution tower (3). This output is circulated through the additional heat exchanger (10,11, 13) and is divided into sub current which goes back to the distribution tower (3) and another sub current that is fed. Provides evaporator (4) mixtures of methanol-air. The chilled methanol is cooled in the distribution tower (3) in the evaporation of the methanol that makes up the discharge tower (3) from the head of the discharge tower (3) and to the evaporator (4). Part of the methanol-air mixture The methanol that makes up the methanol-air mixture.

Claims (7)

1.Process for the preparation of highly aqueous formaldehyde solutions Solution concentrations range from 53% wt to 57% wt. The process consists of the following steps: (a) supply air and methanol to Evaporator (4), where methanol is evaporated. Made up of methanol mixture And air in the gas phase (b). Methanol and air mixture reaction in Phase of such gases With catalyst (6) at high temperature To obtain a reaction mixture containing formaldehyde obtained by converting with some of the tentacles. And steam of water and Non-condensing gas (c) The flow of the mixture reacts to it. Through an absorption tower is one At least (8,9) where the mixture is absorbed in aqueous solution flowing in the opposite direction (d). And such non-condensing gases in at least one such absorption tower (8,9) (e) cooling and Separation of such non-condensing gases It contains small amounts of methanol and formaldehyde and (f) the fractional distillation. It will separate the methanol section where at least the distribution tower (3) and the three additional heat exchangers (10,11, 13) are used with at least one absorption tower. At most such (8,9) there were air imports and methanol imports. From the outside including Inlet of the first sub-stream of methanol Into the said distribution tower (3) which is started from the current that Go out to ask for cold methanol from the lower part of the distribution tower (3) the outflow that flows accordingly. Through the heat exchanger Such additions are at least (10,11,13) and are divided into one such sub-stream. Which flows back to the head of the distribution tower (3) and the second sub-current flowing to the evaporator (4) has an outflow of methanol and air mixtures flowing between the The distribution tower (3) and the aforementioned evaporator (4), which are located at the head of the distribution tower (3) and where the cold methanol will be cooled. (3) by the evaporation of the methanol that makes up the methanol and the aforementioned air mixtures; 2. The process as specified in claim 1, in which Exchanger Additional heat (10) located next to it The outgoing methanol stream cools the water, which then reaches the body of the absorption tower (8, 9) 3.Process as stated in Clause 1. Where in the heat exchanger (11,13) located next to it The outgoing methanol stream is cooled to the solution to separate the non-condensing gas containing methanol. 4. Which of the procedures described in Claims 1 to 3? One is Where at least the three additional heat exchangers (10,11, 13) will be in the absorption tower (8,9) 5. The process as specified in the Clause Clause. 1 to 4, whichever is At the very least, where the heat released during the absorption stage is used in the evaporator (4) to heat and evaporate the methanol-air mixture prior to the reaction. In the catalyst (6) 6. Either of the procedures specified in Clause 1 to 5 is At a minimum, where such fractional distillation is performed at pressures lower than that of atmospheric pressure requirements. 7. One of the processes described in Claims 1 to 6 is At least where the heat obtained by the catalyst (6) is used during the Catalytic reactions for such fractional distillations In the heat exchanger (7) is connected to the aforementioned catalyst (6) with the simultaneous cooling of the reagent, 8.Process as stated in Claims 1 to 7. Any of the above is the least of which the catalyst (6) is silver. 9. The process as set out in Clause 1 to 8 is a At a minimum, the temperature of the catalyst (6) ranges from 500 to 600 ํ C 1 0. One of the processes described in Claims 1 to 9 is At least where The gas released from the catalyst (6) is cooled to 130 ° C in the heat exchanger (7) in the joint connection with the catalyst (6) 1. 1. The process specified in any Clause 1 to 10 of Claims is At the very least, where absorption will take place. In these phases of rotation (c) in three phases at different temperatures In a solution containing methanol And aqueous formaldehyde 1 2. The process as set out in Clause 11, where, in step one Eddy fluid temperature Will range from 75 to 80 ํ 1 3. The process as set out in Clause 11, where in the second step The temperature of the flowing fluid ranges from 38 to 42 ํ C 1. 4. Process as set out in Clause 11, where in the third step The temperature of the flowing fluid ranges from 22 to 26 ํ C 1. 5. The process for whichever is specified in Clause 1 to 14 of Claims is At least where water at 10 to 12 ° C is used in the process (e) where the non-condensing gas is cooled and separated.1 6. At least one of the procedures specified in Clause 1 to 15. Where the solution portion from the lower part of the absorption tower (8,9) is supplied to the modular distillation tower (16) at reduced pressure 1. 7. The process as set out in Clause 16, where such pressure will It ranges from 40 to 46 KPa.