RU2186761C1 - Method of synthesis of diethylenetriamine - Google Patents

Abstract

FIELD: organic chemistry, chemical technology. SUBSTANCE: invention relates to a method of synthesis of diethylenetriamine that is used as a hardening agent for epoxy resins. Method involves interaction of dichloroethane with ethylenediamine and 20-30% ammonia an aqueous solution. Mole ratio dichloroethane : ethylenediamine : ammonia = = (1.0-0.25) : (0.5-1.5) : 2.0, respectively. Process is carried out at temperature T = 150-160 C under pressure 0.5-1 MPa. EFFECT: improved method of synthesis, enhanced selectivity, decreased cost. 6 ex

Description

 The invention relates to the field of aliphatic di- and polyamines, in particular to diethylene triamine (DETA), which is widely used as an amine hardener for epoxy resins, as well as in the technology of basic (heavy) organic synthesis and polymers.

A known method of producing ethylenediamine (EDA) and DETA by heating dichloroethane (DCE) with a 60% aqueous solution of ammonia at 145-180 ^o With a pressure of 9.5 MPa in a molar ratio of DCE: NH3 equal to 1:92. The yield of EDA and DETA is 87.2% and 11%, respectively [GB 1147984, RLC - 1970 - 5N123P].

 The disadvantage of this method is an extremely large excess of ammonia and a low yield of DETA.

Known methods for producing EDA and polyethylene polyamines (PEPA), including DETA, by reacting DCE with a 77-78% aqueous solution of ammonia under a pressure of 9 MPa at 110-130 ^o [ITALI 617348, 1961; ITALI 631883, 1962].

 A disadvantage of the known methods is the low yield of DETA and a large excess of ammonia - the weight ratio of DCE: NH3 = 1: 9, as well as high energy costs.

The closest to the claimed essentially is a method for the joint production of acyclic and cyclic di and polyamines by the interaction of DCE with a 73-78% aqueous solution of ammonia at a pressure of 7.5-8 MPa and a temperature of 110-130 ^o C, a molar ratio of DCE: NH3 equal to 1: 6.5-7.5 [AC 721432, USSR, publ. BI 1980, 10].

 The disadvantage of this method is the low yield of DETA and its low selectivity - the main products are EDA, cyclic amines and higher PEPA.

 The objective of the invention is the development of a method for producing DETA and increasing the selectivity of the process.

 The technical result when using the invention is expressed in increasing the selectivity of the process for producing diethylene triamine while mitigating the process conditions.

The above result of obtaining diethylenetriamine based on dichloroethane and ammonia at elevated temperature and pressure is achieved by the feature that dichloroethane is reacted with ethylene diamine and 20-30% aqueous ammonia at a temperature of 150-160 ^o C and a pressure of 0.5- 1 MPa with a molar ratio of dichloroethane: ethylene diamine: ammonia equal to 1.0: 0.25-0.5: 1.5-2.0.

The essence of the invention lies in the fact that DCE interacts with ethylene diamine and aqueous ammonia in a molar ratio of 1: 0.25-0.35: 1.5-2 at a temperature of 150-155 ^o C and a pressure of 0.5-1.0 MPa within 5-6 hours.

 The method is illustrated by the following examples.

Example 1. In the synthesis reactor load 93 g (0.94 mol) of DCE, 18.82 g (0.31 mol) of EDA, 31.96 g (1.88 mol) of ammonia in the form of a 25% aqueous solution, Molar the ratio of DCE: EDA of ammonia is 1.0: 0.33: 2.0. The reaction mixture is heated for 6 hours at 150-155 ^o C and a pressure of 0.5-0.6 MPa.

 The reaction mixture is cooled, transferred to a neutralizer and treated with a 35-46% solution of sodium hydroxide or potassium, after which it is dehydrated with solid lime (NaOH or KOH) and distilled with vacuum.

 Obtain 79.9 g (76.6 wt.%) Of the product of the following composition, wt.%: Piperazine - 4.63 (3.69); DETA - 71.21 (61.7); N - ((β-aminoethyl) piperazine (N-aminoethylpiperazine) - 14.65 (11.70); triethylenetriamine (TETA) - 1.54 (1.23); tetraethylene pentamine (TEPA) - 6.43 (5.13 ); connections of an unknown structure - 1.54 (1.23).

 Example 2. Similarly, in the conditions of example 1, 95.04 g (0.96 mol) of DCE, 14.4 g (0.24 mol) of EDA, 32.6 g (1.92 mol) of ammonia are charged to the reactor 25% aqueous solution. The molar ratio of DCE: EDA: NH3 = 1.0: 0.25: 2.0.

The reaction mixture was maintained at 150 ^o C and a pressure of 0.5-0.6 MPa for 6 hours. The reaction products are isolated under the conditions of example 1. Obtain 94 g (96.8%) of the product of the following composition, wt.%: DETA - 77.81 (75.3); N-AED - 9.55 (9.2); TETA - 1.12 (1.08); TEPA - 10.67 (10.03); unknown compounds - 0.85 (0.8).

Example 3. Under the conditions of example 1, 99 g (1 mol) of DCE, 16.8 g (0.28 mol) of EDA, 34 g (2 mol) of ammonia in the form of a 30% aqueous solution are loaded into the reactor. The molar ratio of DCE: EDA: NH3 = 1.0: 0.28: 2.0. The contents of the reactor are maintained at 155-160 ^o C and a pressure of 0.6-1.0 MPa for 6 hours. The product is isolated under the above conditions. Get 88 g (85.6%) of the product of the following composition, wt. %: piperazine - 2.73 (2.4); DETA - 75.02 (66.0); N-AED - 9.83 (8.65); TETA - 1.21 (1.06); TEPA - 1.45 (1.27).

Example 4. Under the conditions of example 1, 99 g (1 mol) of DCE, 30 g (0.5 mol) of EDA, 25.55 g (1.5 mol) of ammonia in the form of a 20% aqueous solution are loaded into the reactor. The molar ratio of DCE: EDA: NH3 = 1.0: 0.5: 1.5. The reaction mixture is maintained at 150-155 ^o C and a pressure of 0.5-0.7 MPa for 8 hours. Obtain 81.7 g (80.5%) of the product of the following composition, wt.%: EDA - 5.44 (4.4); piperazine - 1.2 (0.98), DETA - 66.88 (54.6), N-AEP - 12.15 (9.9), TETA - 7.27 (5.9), TEPA - 4, 66 (3.8), product of unknown structure - 2.2 (1.8).

Example 5. In the reactor load 99 g (1 mol) of DCE, 42.5 g (2.5 mol) of ammonia in the form of a 25% aqueous solution. The molar ratio of DCE: EDA: NH3 = 1.0: 0.5: 2.5. The reaction mixture is maintained at 130-145 ^o C and a pressure of 0.4-0.5 MPa for 8 hours. The products are isolated under the conditions of example 1.

 Get 78.2 g (76%) of the product composition, wt.%: EDA - 41.1 (32.14), piperazine - 1.25 (0.97), N-AED - 4.5 (3.5) , TETA - 8.54 (6.67), TEPA - 5.36 (4.19), compounds of an unknown structure - 4.2 (3.28).

Example 6. Under the conditions of example 1, 99 g (1 mol) of DCE, 60 g (1 mol) of EDA, 51 g (3 mol) of ammonia are charged into the reactor in the form of a 25% aqueous solution. The molar ratio of DCE: EDA: NH3 = 1.0: 1.0: 3.0. The reaction mixture is maintained at 130-150 ^o C and a pressure of 0.5-0.7 MPa for 8 hours. Products are isolated in the above conditions. Get 74.6 g (72.5%) of the product of the following composition, wt. %: EDA - 42.2 (31.48), piperazine - 2.15 (1.6), DETA - 32.3 (24.09), N-AED - 6.72 (5.01), TETA - 8.46 (6.31), TEPA - 5.42 (4.04), unidentified compounds - 2.75 (2.05).

 Examples 1-4, provided that the claimed parameters of the process for the production of diethylene triamine are maintained, the high selectivity of the process is confirmed and the yield of finished products 80-96.8%.

With an increase in the molar ratio of ethylenediamine and ammonia, the process is non-selective and, along with diethylene triamine, acyclic and cyclic di- and polyethylene polyamines are formed. The most optimal temperature of the process for producing diethylenetriamine is 150-160 ^o C. With a decrease in the concentration of ammonia in water, the synthesis time and the yield of the target product increase to some extent.

 Using the method will increase the selectivity of the process and at the same time reduce the pressure from 7.5-8.0 MPa to 1.0 MPa and eliminate the high consumption of ammonia, which ultimately leads to lower costs.

Claims (1)

A method of producing diethylene triamine based on dichloroethane and ammonia at elevated temperature and pressure, characterized in that dichloroethane is reacted with ethylene diamine and 20-30% aqueous ammonia at a temperature of 150-160 ^o C and a pressure of 0.5-1 MPa at a molar the ratio of dichloroethane: ethylenediamine: ammonia, equal to 1.0: 0.25-0.5: 1.5-2.0.