TH17684B - Water removal from acetic acid by distillation of acetic acid to produce aromatic acid. - Google Patents

Abstract

In one process For the production of aromatic dicarboxylic acids, such as terephthalic acid, with the oxidation of the starting agent (e.g. paraxylene) in the liquid phase, the currents above (10) at Contains aliphatic carboxylic acids It is based on the aziotope distillation in the distillation tower (12) to reduce the water content. Aziotrope distillation This may be performed with the reflux of the carrier substance (22) only with control of the diffusion of the carrier material into the tower bottom product (34) which does not contain a carrier substance. And there is a predetermined amount of residual water Any starting agent of aromatic dicarboxylic acid. That appear in the stream above It was separated from the aliphatic car-boxylic acid by removal at position (24) in the area of the feed-in position (10) into the distillation tower. The water content in the tower bottom product (34) may be regulated with separate feed water adjustments (76). It enters the lower part of the aziotope distillation tower. Additionally, reflux adjustment (via pipe 22) may be used to regulate the water content of the tower bottom product. And to act Operation of the distillation tower In case of loss of input Enter the distillation tower

Claims (9)

1.Process for the production of aromatic dicarboxylic acids Containing oxidizing Inoculant of diocarboxylic acid in aqueous liquid cycle medium containing diocarboxylic acid Ver aliphatic carboxylic And heavy metal catalyst system Oxidation makes The upper vapor flow is produced. Containing aliphatic carboxylic acid, water and any amount of the starting substance, which is carried by the oxidation reaction, condensation of the upper vapor stream to produce a liquid phase feeder with Aliphatic carboxylic acid, water and any amount of the starter, which is obtained in the above vapor stream. And acetic distillation O-trope flows into the distillation tower. To produce a reduced amount of aliphatic carboxylic acid and water bottom bottom products. And tower products with organic and hydrophilic cycle, which characterizes (a) the inlet flow, which is dependent on the distillation of aziotope There is water content within the range of 20% to 40% by weight, which is compared with the total weight of aliphatic carboxylic acid and water in the feed stream (b) isobutyl acetate, n-propyl acetate Or carriers whose boiling points are between The middle of the boiling point of isobutyl acetate and n-propyl acetate is used as a carrier. (C) The tower crest product is separated into the organic cycle. Containing the carrier substance and the water cycle, the organic cycle was Recycle to the distillation tower and (d) the tower bottom product free of such carriers. It is produced with water content in the range of 2 to 12% by weight, compared to the total weight of aliphatic carboxylic acids. And water in the tower bottom products 2. The process for producing aromatic dicarboxylic acid according to claim 1, where the upper vapor stream from the reactor is also performed. Or without adding water from other sources for Maintain the water concentration in the feed stream in the range of 20 to 40% by relative weight. With the inclusion of aliphatic carboxylic acids And water in the infeed system 3. The process according to claim 1 or 2, where the lower limit of the aziotop region is set below the inlet position, and n-propyl acetate is introduced. Used as a carrier 4. The process of claim 1 or 2 continues with the introduction of the feed stream. It also had the distillation tower positioned above the lower limit of the aziotropic area and the extraction and recovery of the said initiates from the distillation tower to the region. Or lower position of the Input of the feed stream 5. The process of claim 1 or 2 continues with the introduction of the feed stream. It also had the distillation tower positioned above the lower limit of the aziotropic area and the extraction and retrieval of the inert from the superstructure. Point of entry of the feed stream 6. Process according to one of the preceding claims, where dicarboxylic acid is terephthalic acid and the starter is paraxylene. 7. Process by any of the previous claims where the amount of water in The tower bottom product is controlled by adjusting a separate feed water into the lower loop of the distillation tower. 8. The process according to claim 7, where the amount of water in the tower bottom product is controlled, is connected. By adjusting the feed water into the lower part of the distillation tower And adjustments at the same time with the rate In which the organic cycle was recycled to the distillation tower 9. Process according to claim 7 or 8 where separate water intake is introduced into the tower. Distilled at the position corresponding to Or below the limit at the bottom of the aziotope area