WO2018121042A1

WO2018121042A1 - Production method for high-quality pure hexanediamine

Info

Publication number: WO2018121042A1
Application number: PCT/CN2017/108867
Authority: WO
Inventors: 乔思怀; 赵铎; 陈聚良; 高先明; 王海营; 王红专; 郭卫东; 欧玲; 黄敏; 白湘涛; 刘水侠; 赵时超; 刘耀文; 李振锋; 霍美菊; 刘永; 张军伟
Original assignee: 河南神马尼龙化工有限责任公司
Priority date: 2016-12-27
Filing date: 2017-11-06
Publication date: 2018-07-05
Also published as: CN106810455B; CN106810455A

Abstract

Disclosed is a production method for high-quality pure hexanediamine, comprising: preparing a half-finished hexanediamine and purifying high-quality pure hexanediamine, specifically, uniformly mixing adiponitrile, ethanol, and sodium hydroxide according to a certain mass ratio, and adding a nickel-based catalyst for hydrogenation reaction to obtain the half-finished hexanediamine; subjecting the half-finished hexanediamine to distillation and purification for several times to obtain high-quality pure hexanediamine. The present invention adopts ethanol as a diluent, facilitating recycling, and adopts the nickel-based catalyst as a cocatalyst, guaranteeing the conversion rate of hexanediamine; vacuum rectification technology is adopted to dewater, remove light components and heavy components under a vacuum condition according to different boiling points of impurities in the half-finished hexanediamine to finally obtain high-quality pure hexanediamine with the purity≥99.9% (mass percentage), polarogram value≤100 mmolIB/T-HMD and total volatile alkali≤4 mL/100 g.

Description

Method for producing high quality refined hexamethylene diamine

Technical field

The invention belongs to the technical field of chemical industry, and particularly relates to a production method of high quality refined hexamethylene diamine.

Background technique

Hexanediamine is an important raw material for chemical synthesis. It is mainly used in the production of nylon 66 and 610 resins. It can be used to make adhesives, additives for rubber products, stabilizers for textile and paper industry, bleaches, coatings, etc. Hexamethylenediamine can react with electrophilic compounds such as H+, alkyl halides, hydroxyl groups and other compounds to make various fiber fabrics and plastic products, and can also be used for synthesizing polyurethane foams and hexamethylene diisocyanate foams. , coatings and zeolites of the ZSN type.

Hexamethylenediamine can be produced by the hexanediol method and the caprolactam method. The hexanediol method is obtained by hydrogenating caprolactone to 1,6-hexanediol, and then using a framework nickel catalyst for amination dehydration reaction. The reaction is as follows:

HOCH ₂ (CH ₂ ) ₄ CH ₂ OH+2NH ₃ ─→H ₂ N(CH ₂ ) ₆ NH ₂ +2H ₂ O;

In order to prevent dehydrogenation of hexamethylenediamine, a small amount of hydrogen is added during the reaction, the reaction temperature is 200 ° C, the pressure is 2.3 MPa, and the yield is about 90%.

The caprolactam method is a gas phase reaction of caprolactam with ammonia in the presence of a phosphate (such as a phosphate of manganese, aluminum, calcium, barium or zinc) to form aminocapronitrile, the reaction temperature is about 350 ° C, and the yield is almost 100%. The resulting aminocapronitrile is further subjected to hydrogenation to form hexamethylenediamine, and the reaction is as follows:

H ₂ N(CH ₂ ) ₅ CN+2H ₂ ─→H ₂ N(CH ₂ ) ₆ NH ₂ ;

The caprolactam method is generally used for processing small-scale production equipment such as caprolactam.

Hexamethylenediamine can also be produced by the adiponitrile method, and almost all methods for large-scale production of hexamethylenediamine are started by the adiponitrile method. The preparation of hexamethylenediamine from adiponitrile is usually carried out by catalytic hydrogenation. It is industrially divided into high pressure method and low pressure method. The reaction is as follows:

NC(CH ₂ ) ₄ CN+4H ₂ ─→H ₂ N(CH ₂ ) ₆ NH ₂ .

Among them, the high pressure method uses a cobalt-copper catalyst, the reaction temperature is 100-135 ° C, the pressure is 60-65 MPa; the high-pressure method can also adopt an iron catalyst, the reaction temperature is 100-180 ° C, the pressure is 30-35 MPa, and the high-pressure reaction is carried out in the reactor. The solvent may be liquid ammonia, and sometimes an aromatic hydrocarbon such as toluene may be added, and the selectivity of hexamethylene diamine is about 90% to 95%. The low pressure method uses a nickel-based catalyst, and the reaction is carried out in an ethanol solution. The reaction temperature is about 70 to 100 ° C, the pressure is about 1.8 to 2.7 MPa, and the selectivity of hexamethylene diamine is up to 99%. In order to prevent catalyst poisoning during the preparation of the low pressure method, The purity of the raw material of adiponitrile is very high, and the semi-finished hexamethylene diamine formed by the reaction is subjected to azeotropic distillation with water, and then, after several times of vacuum distillation, high-quality hexamethylenediamine can be obtained.

The adiponitrile is made up of nickel, cobalt and the like as a catalyst, sodium hydroxide as a cocatalyst, and ethanol as a solvent for hydrogenation. The hexamethylene diamine can be continuously reacted under a certain temperature and pressure, but in the production process of the diamine, Some side reactions occur, and the main by-products are azepane, aminocapronitrile, 1,2-diaminocyclohexane, N-ethylhexamethylenediamine, aminomethylcyclopentane, and the like. Among them, azacycloheptane, 1,2-diaminocyclohexane and N-ethylhexamethylenediamine are all difficult to separate from hexamethylenediamine, and there are excess ethanol, sodium hydroxide and nickel-based catalyst in the mixture. The composition, the presence of the above substances will affect the quality of the final product high-quality refined hexamethylene diamine and downstream users, such as color, purity and other indicators.

Therefore, how to select specific process and equipment to improve the process of production, optimize process conditions, minimize production costs, and produce high-quality hexamethylene diamine technology is critical.

Summary of the invention

In order to produce high quality hexamethylenediamine, it is an object of the present invention to provide a process for producing high quality hexamethylene diamine.

In order to achieve the above object, the technical solution adopted by the present invention is:

A method for producing high quality refined hexamethylene diamine, comprising the following steps:

The adiponitrile, ethanol and sodium hydroxide are uniformly mixed according to a mass ratio of 50 to 90:40 to 80:1, and then a nickel-based catalyst is added to obtain a reaction mixture, and the reaction mixture is at 70 to 100 ° C and a pressure of 1.8 to 2.7 MPa. Hydrogenation under conditions to obtain semi-finished hexamethylenediamine;

The semi-finished hexamethylene diamine is sent to the first evaporator for distillation, and the bottom liquid of the first evaporator is sent to the second evaporator for distillation;

The bottom liquid of the second evaporator is separated by centrifugation to obtain a clear liquid and a turbid liquid, and the clear liquid is sent to a sixth evaporator for distillation, and the turbid liquid is sent to a seventh evaporator for distillation; the second evaporator is subjected to distillation. The product is sent to a third evaporator for distillation;

And sending the bottom liquid of the third evaporator and the top product of the sixth evaporator to the fourth evaporator for distillation;

The bottom liquid of the sixth evaporator is sent to the seventh evaporator for distillation, and the overhead of the seventh evaporator is recovered and sent to the first evaporator;

The bottom liquid of the fourth evaporator is sent to the fifth evaporator for distillation, and the top return port of the fourth evaporator is connected to the third evaporator to facilitate the feeding of the overhead of the fourth evaporator to the third evaporator. in;

The bottom liquid of the fifth evaporator is sent to the sixth evaporator, and the top return port of the fifth evaporator is connected to the fourth evaporator, so that the top portion of the fifth evaporator is returned to the fourth evaporator. In order to maintain the pressure in the system, the other part of the fifth evaporator is sent from the product outlet to the hexamethylene diamine tank, which is a high quality hexamethylene diamine;

Wherein, the mass percentage of the nickel-based catalyst in the reaction mixture is 0.5 to 5 wt%; the pressure in the first distiller is 40 to 130 mmHg, the temperature at the top of the vessel is 10 to 80 ° C, and the temperature at the bottom of the vessel is 90 to 160 ° C; The pressure is 40-130mmHg, the top temperature is 90-150°C, the bottom temperature is 90-150°C, the third evaporator pressure is 5-60mmHg, and the top temperature is 60～130°C, the bottom temperature is 80～150°C; the fourth evaporator pressure is 5～60mmHg, the top temperature is 60～130°C, the bottom temperature is 100～170°C; the fifth evaporator pressure is 5～ 60mmHg, the top temperature is 60-130 ° C, the bottom temperature is 100-170 ° C; the sixth evaporator pressure is 5-60 mmHg, the top temperature is 60-130 ° C, the bottom temperature is 100-170 ° C; the seventh evaporation The internal pressure is 5 to 60 mmHg, the top temperature is 60 to 130 ° C, and the bottom temperature is 100 to 170 ° C.

Preferably, the hydrogenation reaction is carried out by placing the reaction mixture in a three-phase boiling reactor and introducing hydrogen into the reaction, and the reaction liquid of the three-phase boiling reactor separates ethanol and sodium hydroxide to obtain a semi-finished product. amine.

Preferably, the gas from the gas phase outlet of the three-phase boiling reactor is washed with water and then re-introduced into the three-phase boiling reactor.

The above-mentioned internal pressure of the evaporator refers to an absolute pressure, and the nickel-based catalyst is a commercially available product.

The invention comprises the preparation of semi-finished hexamethylenediamine and the purification of high-quality hexamethylenediamine. In order to ensure the preparation efficiency of the semi-finished hexamethylenediamine, the organic solvent ethanol is used as a diluent, which is beneficial to recovery and reuse, and uses a nickel-based catalyst as a help. The catalyst ensures the conversion rate of hexamethylenediamine; in order to ensure the purification purity of high-quality hexamethylenediamine, vacuum distillation technology is adopted, and according to the boiling point of impurities in the semi-finished hexamethylene diamine, the dehydration and removal are light under vacuum conditions. The components and the heavy components are removed, and finally a high-quality refined hexamethylene diamine product having a purity of ≥99.9% (mass%), a polarographic value of ≤100 mmol IB/T-HMD, and a total volatile base of ≤4 mL/100 g is obtained.

DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a flow chart showing the production process of the present invention.

detailed description

In order to make the technical objects, technical solutions and beneficial effects of the present invention more clear, the technical solutions of the present invention will be further described below in conjunction with specific embodiments.

Example 1

A method for producing high quality refined hexamethylene diamine, as shown in Figure 1, comprises the following steps:

The adiponitrile, ethanol, and sodium hydroxide are uniformly mixed at a mass ratio of 50:40:1, and then a nickel-based catalyst is added to obtain a reaction mixture, and the reaction mixture is placed in a three-phase boiling reactor, and hydrogen gas is introduced thereto. The reaction is carried out under the condition of °C and pressure of 1.8 MPa. The gas from the gas phase outlet of the three-phase boiling reactor is washed with water and then re-introduced into the three-phase boiling reactor. The reaction liquid of the three-phase boiling reactor separates the ethanol and sodium hydroxide. , obtaining a semi-finished hexamethylenediamine;

The semi-finished hexamethylene diamine is sent to the first evaporator for distillation, and the bottom liquid of the first evaporator is sent to the second evaporator for distillation, and the top outlet of the first evaporator communicates with the waste water pit, containing azacycloheptane The production wastewater is discharged into the waste water pit from the top of the first evaporator;

The bottom liquid of the second evaporator is a mixture containing a high boiler and sodium hydroxide, and the bottom liquid of the second evaporator is centrifuged to obtain a clear liquid and a liquid liquid, and the clear liquid is sent to a sixth evaporator for distillation. The turbid liquid is sent to the seventh evaporator for distillation; the overhead of the second evaporator is sent to the third evaporator for distillation;

The bottom liquid of the third evaporator and the overhead of the sixth evaporator are both sent to the fourth evaporator for distillation, and the top return port of the third evaporator is connected to the transfer tank, and is distilled through the third evaporator. Distilled low-boiling substances such as diaminocyclohexane and aminomethylaminocyclopentane are discharged into a transfer tank;

The bottom liquid of the sixth evaporator is sent to the seventh evaporator for distillation, the overhead of the seventh evaporator is recovered and sent to the first evaporator, and the bottom liquid of the seventh evaporator is intermittently discharged into the relay. tank;

The bottom liquid of the fourth evaporator is sent to the fifth evaporator for distillation, and the top return port of the fourth evaporator is connected to the third evaporator; the bottom liquid of the fifth evaporator is sent to the sixth evaporator, The top outlet of the fifth evaporator is connected to the fourth evaporator, and the overhead of the fifth evaporator is sent to the semi-diamine tank to obtain high-quality hexamethylenediamine;

Wherein, the mass percentage of the nickel-based catalyst in the reaction mixture is 0.5 wt%; the pressure in the first distiller is 40 mmHg, the temperature at the top of the vessel is 10 ° C, the temperature at the bottom of the vessel is 90 ° C; the pressure in the second evaporator is 40 mmHg, and the temperature at the top of the vessel 90 ° C, the bottom temperature is 90 ° C; the third evaporator pressure is 5 mmHg, the top temperature is 60 ° C, the bottom temperature is 80 ° C; the fourth evaporator pressure is 5 mmHg, the top temperature is 60 ° C, the bottom The temperature is 100 ° C; the pressure in the fifth evaporator is 5 mmHg, the temperature in the top is 60 ° C, the temperature in the bottom is 100 ° C; the pressure in the sixth evaporator is 5 mmHg, the temperature in the top is 60 ° C, and the temperature in the bottom is 100 ° C; The pressure inside the evaporator was 5 mmHg, the temperature at the top of the vessel was 60 ° C, and the temperature at the bottom of the vessel was 100 ° C.

Example 2

The adiponitrile, ethanol, and sodium hydroxide are uniformly mixed at a mass ratio of 60:50:1, and then a nickel-based catalyst is added to obtain a reaction mixture, and the reaction mixture is placed in a three-phase boiling reactor, and hydrogen gas is introduced thereto. The reaction is carried out under the condition of °C and a pressure of 2.0 MPa. The gas from the gas phase outlet of the three-phase boiling reactor is washed with water and then re-introduced into the three-phase boiling reactor. The reaction liquid of the three-phase boiling reactor separates the ethanol and sodium hydroxide. , obtaining a semi-finished hexamethylenediamine;

The bottom liquid of the third evaporator and the overhead of the sixth evaporator are both sent to the fourth evaporator for distillation, and the third evaporator The top reflux port is connected to the transfer tank, and is distilled through the third evaporator, and the low-boiling substances such as diaminocyclohexane and aminomethylaminocyclopentane are discharged into the transfer tank;

Wherein, the mass percentage of the nickel-based catalyst in the reaction mixture is 1.0 wt%; the pressure in the first distiller is 60 mmHg, the temperature at the top of the vessel is 30 ° C, the temperature at the bottom of the vessel is 110 ° C; the pressure in the second evaporator is 60 mmHg, the temperature at the top of the vessel It is 110 ° C, the bottom temperature is 110 ° C; the third evaporator pressure is 15 mmHg, the top temperature is 80 ° C, the bottom temperature is 120 ° C; the fourth evaporator pressure is 15 mmHg, the top temperature is 80 ° C, the bottom The temperature is 120 ° C; the pressure in the fifth evaporator is 15 mmHg, the temperature in the top is 80 ° C, the temperature in the bottom is 120 ° C; the pressure in the sixth evaporator is 15 mmHg, the temperature in the top is 80 ° C, and the temperature in the bottom is 120 ° C; The pressure inside the evaporator was 15 mmHg, the temperature at the top of the vessel was 80 ° C, and the temperature at the bottom of the vessel was 120 ° C.

Example 3

The adiponitrile, ethanol, and sodium hydroxide are uniformly mixed at a mass ratio of 70:60:1, and then a nickel-based catalyst is added to obtain a reaction mixture, and the reaction mixture is placed in a three-phase boiling reactor, and hydrogen gas is introduced thereto. The reaction is carried out under the condition of ° C and a pressure of 2.2 MPa. The gas from the gas phase outlet of the three-phase boiling reactor is washed with water and then re-introduced into the three-phase boiling reactor. The reaction liquid of the three-phase boiling reactor separates the ethanol and sodium hydroxide. , obtaining a semi-finished hexamethylenediamine;

The bottom liquid of the sixth evaporator is sent to the seventh evaporator for distillation, and the overhead of the seventh evaporator is recovered and sent to the first The bottom liquid of the evaporator and the seventh evaporator is intermittently discharged into the transfer tank;

Wherein, the mass percentage of the nickel-based catalyst in the reaction mixture is 2.0 wt%; the pressure in the first distiller is 80 mmHg, the temperature at the top of the vessel is 50 ° C, the temperature at the bottom of the vessel is 130 ° C; the pressure in the second evaporator is 80 mmHg, the temperature at the top of the vessel 130 ° C, the bottom temperature is 130 ° C; the third evaporator pressure is 30 mmHg, the top temperature is 100 ° C, the bottom temperature is 140 ° C; the fourth evaporator pressure is 30 mmHg, the top temperature is 100 ° C, the bottom The temperature is 140 ° C; the pressure in the fifth evaporator is 30 mmHg, the temperature in the top is 100 ° C, the temperature in the bottom is 140 ° C; the pressure in the sixth evaporator is 30 mmHg, the temperature in the top is 100 ° C, and the temperature in the bottom is 140 ° C; The pressure inside the evaporator was 30 mmHg, the temperature at the top of the vessel was 100 °C, and the temperature at the bottom of the vessel was 140 °C.

Example 4

The adiponitrile, ethanol and sodium hydroxide are uniformly mixed at a mass ratio of 80:70:1, and then a nickel-based catalyst is added to obtain a reaction mixture, and the reaction mixture is placed in a three-phase boiling reactor, and hydrogen gas is introduced at 100. The reaction is carried out under the condition of °C and pressure of 2.5 MPa. The gas from the gas phase outlet of the three-phase boiling reactor is washed with water and then re-introduced into the three-phase boiling reactor. The reaction liquid of the three-phase boiling reactor separates the ethanol and sodium hydroxide. , obtaining a semi-finished hexamethylenediamine;

The bottom liquid of the fourth evaporator is sent to the fifth evaporator for distillation, and the top return port of the fourth evaporator is connected to the third evaporator; the bottom liquid of the fifth evaporator is sent to the sixth evaporator, The top of the evaporator of the five evaporator is connected to the fourth evaporator, the fifth steaming The top product of the hair dryer is sent to the hexamethylene diamine tank to obtain high quality hexamethylene diamine;

Wherein, the mass percentage of the nickel-based catalyst in the reaction mixture is 3.0 wt%; the pressure in the first distiller is 100 mmHg, the temperature at the top of the vessel is 70 ° C, the temperature at the bottom of the vessel is 150 ° C; the pressure in the second evaporator is 100 mmHg, the temperature at the top of the vessel 150 ° C, the bottom temperature is 150 ° C; the third evaporator pressure is 50 mmHg, the top temperature is 120 ° C, the bottom temperature is 150 ° C; the fourth evaporator pressure is 50 mmHg, the top temperature is 120 ° C, the bottom The temperature is 160 ° C; the pressure in the fifth evaporator is 50 mmHg, the temperature in the top is 120 ° C, the temperature in the bottom is 160 ° C; the pressure in the sixth evaporator is 50 mmHg, the temperature in the top is 120 ° C, and the temperature in the bottom is 160 ° C; The pressure inside the evaporator was 50 mmHg, the top temperature was 120 ° C, and the bottom temperature was 160 °C.

Example 5

The adiponitrile, ethanol and sodium hydroxide are uniformly mixed at a mass ratio of 90:80:1, and then a nickel-based catalyst is added to obtain a reaction mixture, and the reaction mixture is placed in a three-phase boiling reactor, and hydrogen gas is introduced at 100 The reaction is carried out under the condition of °C and pressure of 2.7 MPa. The gas from the gas phase outlet of the three-phase boiling reactor is washed with water and then re-introduced into the three-phase boiling reactor. The reaction liquid of the three-phase boiling reactor separates the ethanol and sodium hydroxide. , obtaining a semi-finished hexamethylenediamine;

Wherein, the mass percentage of the nickel-based catalyst in the reaction mixture is 5.0 wt%; the pressure in the first distiller is 130 mmHg, the temperature at the top of the vessel is 80 ° C, the temperature at the bottom of the vessel is 160 ° C; the pressure in the second evaporator is 130 mmHg, and the temperature at the top of the vessel For 150 ° C, the bottom temperature is 150 ° C; the third evaporator pressure is 60 mmHg, the top temperature is 130 ° C, the bottom temperature is 150 ° C; the fourth evaporator pressure is 60 mmHg, the top temperature is 130 ° C, the bottom temperature 170 ° C; the fifth evaporator internal pressure is 60 mmHg, the top temperature is 130 ° C, the bottom temperature is 170 ° C; the sixth evaporator internal pressure is 60 mmHg, the top temperature is 130 ° C, the bottom temperature is 170 ° C; the seventh evaporation The internal pressure was 60 mmHg, the top temperature was 130 ° C, and the bottom temperature was 170 ° C.

The product quality indicators of the high quality refined hexamethylene diamine obtained by using Examples 1 to 5 are as follows:

The polarographic value is ≤100 mmol IB/T-HMD, the total volatile base is ≤4 mL/100 g, and the purity is ≥99.9% (mass percentage).

Claims

A method for producing high quality refined hexamethylene diamine, which comprises the following steps:

The adiponitrile, ethanol and sodium hydroxide are uniformly mixed according to a mass ratio of 50 to 90:40 to 80:1, and then a nickel-based catalyst is added to obtain a reaction mixture, and the reaction mixture is at 70 to 100 ° C and a pressure of 1.8 to 2.7 MPa. Hydrogenation under conditions to obtain semi-finished hexamethylenediamine;

The semi-finished hexamethylene diamine is sent to the first evaporator for distillation, and the bottom liquid of the first evaporator is sent to the second evaporator for distillation;

The bottom liquid of the second evaporator is separated by centrifugation to obtain a clear liquid and a turbid liquid, and the clear liquid is sent to a sixth evaporator for distillation, and the turbid liquid is sent to a seventh evaporator for distillation; the second evaporator is subjected to distillation. The product is sent to a third evaporator for distillation;

And sending the bottom liquid of the third evaporator and the top product of the sixth evaporator to the fourth evaporator for distillation;

The bottom liquid of the sixth evaporator is sent to the seventh evaporator for distillation, and the overhead of the seventh evaporator is recovered and sent to the first evaporator;

The bottom liquid of the fourth evaporator is sent to the fifth evaporator for distillation, and the top return port of the fourth evaporator is connected to the third evaporator;

The bottom liquid of the fifth evaporator is sent to the sixth evaporator, the top return port of the fifth evaporator is connected to the fourth evaporator, and the overhead of the fifth evaporator is sent to the refined diamine tank, ie High quality refined hexamethylene diamine;

Wherein, the mass percentage of the nickel-based catalyst in the reaction mixture is 0.5 to 5 wt%; the pressure in the first distiller is 40 to 130 mmHg, the temperature at the top of the vessel is 10 to 80 ° C, and the temperature at the bottom of the vessel is 90 to 160 ° C; The pressure is 40-130mmHg, the top temperature is 90-150°C, the bottom temperature is 90-150°C, the third evaporator pressure is 5-60mmHg, the top temperature is 60-130°C, and the bottom temperature is 80-150°C. The pressure in the fourth evaporator is 5 to 60 mmHg, the temperature at the top of the vessel is 60 to 130 ° C, the temperature at the bottom of the vessel is 100 to 170 ° C, the pressure in the fifth evaporator is 5 to 60 mmHg, and the temperature at the top of the vessel is 60 to 130 ° C. The bottom temperature is 100-170 ° C; the pressure in the sixth evaporator is 5-60 mmHg, the temperature at the top is 60-130 ° C, the temperature at the bottom is 100-170 ° C; the pressure in the seventh evaporator is 5-60 mmHg, and the temperature at the top is 60 to 130 ° C, the bottom temperature is 100 to 170 ° C.
The method for producing high quality purified hexamethylenediamine according to claim 1, wherein the hydrogenation reaction is carried out by placing the reaction mixture in a three-phase boiling reactor, and introducing hydrogen into the reaction, and the three-phase boiling reaction After the reaction liquid of the apparatus separates ethanol and sodium hydroxide, a semi-finished hexamethylene diamine is obtained.
The method for producing high quality purified hexamethylenediamine according to claim 2, wherein the gas from the gas phase outlet of the three-phase boiling reactor is washed with water and then re-introduced into the three-phase boiling reactor.