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Method for preparing high-purity triethylene diamine

A technology of triethylenediamine and ethylenediamine, which is applied in the field of separation and purification of fine chemicals, can solve the problems of cumbersome process, high equipment investment and low product purity, and achieve simple operation process, low equipment investment and high purity Effect

Active Publication Date: 2011-04-27
山西玉龙化工有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] At present, the main raw materials for the preparation of triethylenediamine are N-hydroxyethylpiperazine, ethylenediamine, ethanolamine, piperazine, etc. The melting point of triethylenediamine itself is 159.8 °C, the boiling point is 174 °C, and the temperature range in the liquid state is only 14.2 °C, which makes triethylenediamine very easy to crystallize and block the pipeline during the rectification process, thus increasing the difficulty of distillation
Most patents prepare pure product solutions by quenching triethylenediamine. For example, US6627756B1 and US6552194B2 respectively disclose quenching and purification methods for triethylenediamine. However, these methods require the evaporator to be heated or kept warm, and the initial The purity of the obtained product is not high, and it needs to be further vaporized and condensed in a solvent with a high boiling point. The equipment investment is high, the energy consumption is large, and the process is cumbersome

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0014] 2500g of the triethylenediamine reaction liquid prepared by the reaction of ethylenediamine and liquid ammonia is subjected to ordinary atmospheric distillation, and the triethylenediamine reaction liquid is heated to 160°C until the end is finished when no product is evaporated, and the remaining solution is 1200g As the rectification raw material, the mass percentage of triethylenediamine detected by gas chromatography is 60%, and the mass of triethylenediamine is 720g. Add 288g of azeotropic agent 2-methyl-3-hydroxypropylamine to the rectification raw material and mix Evenly, add to the bottom of the rectification tower. The theoretical plate number of the rectification tower is 20. Start the rectification under the conditions of an absolute vacuum of 40kPa and a temperature of the reaction liquid in the bottom of the tower at 130°C. The reflux ratio is controlled to be 0.2:1. Collect the distillate before 120~122℃, continue heating to 170℃, control the reflux ratio to...

Embodiment 2

[0016] 2500g of the triethylenediamine reaction liquid prepared by the reaction of ethylenediamine and liquid ammonia is subjected to ordinary atmospheric distillation, and the triethylenediamine reaction liquid is heated to 160°C until the end when no more product is evaporated, and the rectification raw material is obtained 1200g, the mass percentage of triethylenediamine detected by gas chromatography is 60%, the mass of triethylenediamine is 720g, add 864g of azeotropic agent 2-ethyl-3-hydroxypropylamine, mix evenly, and add to the distillation tower. , The theoretical plate number of the rectification tower is 40. Start the rectification under the conditions of an absolute vacuum of 90kPa and a reaction liquid temperature of 170℃, control the reflux ratio to 0.8:1, collect the fraction before 129~130℃, and continue Heat to 200°C, control the reflux ratio to 10:1, collect the 149-150°C fraction, lower the 149-150°C fraction to room temperature, crystallize and filter to obta...

Embodiment 3

[0018] 2500g of the triethylenediamine reaction liquid prepared by the reaction of ethylenediamine and liquid ammonia is subjected to ordinary atmospheric distillation, and the triethylenediamine reaction liquid is heated to 160°C until the end when no more product is evaporated, and the rectification raw material is obtained 1200g, the mass percentage of triethylenediamine detected by gas chromatography is 60%, the mass of triethylenediamine is 720g, add the azeotroping agent 2,3-dimethyl-4-hydroxybutylamine 576g, mix well, add rectification The bottom of the tower, the number of theoretical plates of the rectification tower is 30, and the rectification starts under the conditions of an absolute vacuum of 60kPa and a temperature of the reaction liquid in the bottom of the tower at 160℃. The reflux ratio is controlled to 0.6:1, and the collection is 125~126℃. Continue heating the front fraction to 180°C, control the reflux ratio to 8:1, collect the 145-146°C fraction, reduce the...

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Abstract

The invention discloses a method for producing high-purity triethylene diamine, which comprises the following steps: using a triethylene diamine reaction liquid from which low boiling point substances (including ammonia gas, water, ethylene diamine, diethylenediamine and the like) are removed as a raw material for rectification, adding C2-C5 hydroxylamine compounds which contain branched chains (methyl or ethyl groups) or contain no branched chains and account for 40-120% of the weight of the triethylene diamine reaction liquid, and rectifying on a rectifying tower to obtain a high-purity triethylene diamine solution, wherein the obtained azeotropic solution can be directly used as a catalyst, the concentration of the solution can be changed as required by regulating vacuum pressure, and the solution can be subject to cooling crystallization to separate out triethylene diamine the purity of which is higher than 99.9%. The invention has the characteristics of simple operating process and high purity of the purified product.

Description

technical field [0001] The invention belongs to the technical field of separation and purification of fine chemicals, and relates to a method for preparing high-purity triethylenediamine by subsequent separation and purification of a reaction solution synthesized from triethylenediamine using ethylenediamine or ethanolamine as a raw material. Background technique [0002] Triethylenediamine is a foaming agent for the production of polyurethane soft, semi-rigid, and rigid foams, and is also used in ethylene polymerization catalysts, coatings, and plastic products. Its derivatives can be used in petroleum additives, corrosion inhibitors, emulsifiers, etc. [0003] At present, the main raw materials for the preparation of triethylenediamine are N-hydroxyethylpiperazine, ethylenediamine, ethanolamine, piperazine, etc. Triethylenediamine itself has a melting point of 159.8°C and a boiling point of 174°C, and the temperature range in which it exists in a liquid state is only 14.2...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C07D487/08
Inventor 王伟吕剑杨建明杨志强亢建平曾纪珺淡宝松
Owner 山西玉龙化工有限公司
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