RU2366645C1 - Method for adipic acid preparation from wastes of caprolactam production by cyclohexane oxidation - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention refers to the method of adipic acid production by caprolactam oxidation whereat the row materials are caproloctam-containing waste (pot residue from caproloctam production by cyclohexane hydration) with caproloctam content not less than 90% at temperature 75-100^oC in liquid media. The reaction is carried out with oxidiser being the mixture of 30% hydrogen peroxide taken in amount H₂O₂/caproloctam (1-1.1)/1 mole/mole and concentrated sulphuric acid (96%) taken in amount 0.2-0.36 mole per 1 kg of reaction mass whereof the oxidate is acidified with concentrated sulphuric acid for adipic acid separation.

EFFECT: usage of industrial waste, yield enhancing, absence of difficult-to-separate admixtures in commercial adipic acid.

3 cl, 7 ex, 1 tbl

Description

The invention relates to a method for producing adipic acid, in which the waste products of caprolactam production by oxidation of cyclohexane are used as raw materials: distillation cubes (CD), which represent bottoms after caprolactam rectification, containing at least 90% caprolactam (the rest is organic impurities). With an average production capacity of 100 thousand tons / year of caprolactam, approximately 700-800 tons of CD are formed.

The modern technology for the production of caprolactam provides for the return of this waste after separation of the oligomers back into the process at the stage of rearrangement or at the stage of extraction. Also known is the "Method for the isolation of caprolactam from distillation products of its distillation" [1], according to which the treatment of distillation caprolactam distillation products is carried out with a solution of caprolactam sulfate salt at 110-130 ° C or Bekmanovsky rearrangement products [2] at 40-80 ° C. However, as the results show, in this case chemical transformations occur, in which some impurities decrease, but others appear. Consequently, the return of CD to the process leads to the recycling of impurities and, as a result, to an additional load at the stages of extraction and ion-exchange purification, partial loss of caprolactam at high temperatures under recirculation conditions. All this affects the quality of the polyamide obtained from caprolactam.

We propose a new approach: to remove distillation cubes from recycling, finding a method of processing into target products, which in physicochemical properties radically differ from the properties of impurities present in caprolactam-containing waste and can be separated from them in a sufficiently pure form, for example, adipic acid (AK).

Adipic acid is a technically sought-after expensive organic synthesis product widely used in various fields. The main consumers are the production of polymers (polyamide) and plasticizers for PVC compositions. The market value of AK is 60-70 thousand rubles / ton, plasticizers based on it are 90-150 thousand rubles / ton (with the cost of caprolactam 73 thousand rubles / ton).

Currently, the main method for producing AA is the direct oxidation of hydrocarbons, most often cyclohexane or a mixture of cyclohexanol / cyclohexanone with air and an oxygen-containing gas in the presence and without catalysts and solvents [3-5].

These methods have disadvantages associated with the low selectivity of the process n / a 50-60%, the difficulty of isolation and purification of commercial adipic acid from impurities and trace elements.

The closest in composition to the claimed invention is a method for producing AK [6], in which the wastes of caprolactam production are used as the raw material by the phenolic method: head fractions of rectification of cyclohexanol and cyclohexanone. The method includes their oxidation with 40-70% nitric acid, taken in an amount of 2-5 wt.h. per 1 part by weight the head fraction of cyclohexanol or cyclohexanone at a temperature of 40-70 ° C, distillation of unreacted cyclohexane or cyclohexene from an oxidate as an aqueous azeotrope, cooling the reaction mixture to 5-20 ° C, separating adipic acid, washing it with water and drying. To increase the yield of adipic acid, concentrated nitric acid is added to the oxidate until its content in the oxidate is 60-70%, and cyclohexane or cyclohexene is oxidized at a temperature of 70-120 ° C and a pressure of 0.1-0.3 MPa. The advantage of the method is the use of industrial waste; however, the use of nitric acid leads to the emergence of new - difficult to utilize gas emissions containing nitrogen oxides; the selectivity of the process does not exceed 60-65%.

All of the above requires further research: using all that is valuable in early work, it is necessary to develop an effective way to obtain adipic acid from industrial waste.

The objective of the present invention is to provide a method for producing AA by oxidation of caprolactam contained in the waste products of caprolactam production from cyclohexane - distillation cubes. EFFECT: obtaining adipic acid of commodity condition with a yield of n / m 70% from distillation cubes.

To solve this problem, distillation cubes in which the caprolactam content is more than 90% were oxidized with a mixture of a 30% hydrogen peroxide solution taken in an amount of H ₂ O ₂ / KL = (1-1.1) / 1 (mol.) And sulfuric acid in an amount of 0.2-0.36 mol / kg of reaction mass, at temperatures of 75-100 ° C. The addition of concentrated sulfuric acid is necessary for the hydrolysis of intermediate oxidation products: adipimide and adipic acid amide (reaction 2).

Oxidation Method:

30 g of distillation cubes containing 0.27 mol of caprolactam were loaded into a round bottom flask with a stirrer, and a 30% hydrogen peroxide solution was added, maintaining the ratio in the reaction mass of H ₂ O ₂ / KL = (1-1.1) / 1 (mol. ) When the reaction temperature was reached, concentrated sulfuric acid (96%) was added in an amount of 0.2-0.36 mol / kg of reaction mass and sampling was started. Samples were analyzed for the content of caprolactam (chromatographic) and the content of hydrogen peroxide titrometrically. To determine the composition of caprolactam oxidation products, we developed an analysis procedure consisting in the esterification of oxidation products with ethanol [7] followed by chromatographic analysis of the resulting esters.

Obtaining adipic acid by caprolactam oxidation proceeds according to reactions (1-2):

The oxidation method can be carried out continuously or periodically. At the end of the reaction, the oxidate is treated with sulfuric acid at the rate of 0.5 mol of acid per 1 mol of caprolactam, which allows, on the one hand, to separate AK, and on the other hand, to recycle unoxidized or partially oxidized compounds (for example, adipimide and adipic acid amide). After washing, recrystallization and drying, the melting point of adipic acid was determined ( _mp = 155-155.5 ° C).

The advantages and features of the present invention can be seen from the examples that are given below by way of explanation. The results are shown in table 1.

Examples 1-3 were performed with a temperature ranging from 75 to 100 ° C with a constant sulfuric acid concentration of 0.23 mol / kg of reaction mass in order to determine the effect of temperature on the process. The process of oxidation of distillation cubes in the temperature range of 75-90 ° C (examples 1-2) is slow (30-28 hours), the conversion of caprolactam is 90-93%, the yield of adipic acid from the theory does not exceed 58%. At a temperature of 100 ° C (example 3) for 14 hours at a conversion of 94%, the AK yield is 81%.

Examples 4-7 were performed at a temperature of 100 ° C with varying the addition of sulfuric acid in an amount of 0-0.36 mol / kg Analysis of the results shows that at 100 ° C and the addition of concentrated sulfuric acid in an amount of 0.2-0.23 mol / kg (examples 5-6) for 14-18 hours, the AA yield is 75-81% with a caprolactam conversion of 94%; in the absence of sulfuric acid additives (example 4), caprolactam with a conversion of 95% is oxidized to intermediate products: adipimide and adipic acid amide; with an increase in the amount of sulfuric acid to 0.36 mol / kg (Example 7) with a 93% conversion of caprolactam, adipic acid yield decreases to 25%, which is explained by the appearance of a parallel hydrolysis of caprolactam into aminocaproic acid.

Thus, the conditions for obtaining adipic acid are: the ratio of H ₂ O ₂ : CL = (1-1.1) / 1 (mole); the amount of concentrated sulfuric acid - 0.2-0.23 mol / kg of reaction mass, t = 75-100 ° C; at a caprolactam conversion of 94% and a temperature of 100 ° C, the yield of adipic acid from theory is 75-81%, _mp = 155-155.5 ° C.

Compared with the prototype, the proposed method has a combination of technical advantages: it is technologically simple, differs in greater selectivity, and the absence of difficult to separate impurities in commercial adipic acid.

Indicators Example Number one 2 3 four 5 6 7 The effect of process temperature at a constant concentration of H ₂ SO ₄ The effect of the initial concentration of sulfuric acid at t = const Process temperature ° C 75-80 90 one hundred one hundred one hundred one hundred one hundred The initial concentration of sulfuric acid in the reaction mass, mol / kg of reaction mass 0.23 0.23 0.23 0 0.20 0.23 0.36 Reaction time, hour 32 28 fourteen twenty eighteen fourteen 12 KL conversion,% 90 93 94 95 94 94 93 AK yield from theory,% 53 58 81 0 75 81 25

Literature

1. Copyright certificate SU 1038340 A. Declared 05.05.1981; published 08/30/1983. "A method for the isolation of caprolactam from distillation products of its distillation."

2. USSR copyright certificate No. 247312, cl. C07D 201/16, published on July 4, 1969.

3. French patents No. 2761984, 2791667, 2765930.

4. US Patent No. 5294739.

5. Patent RU 2296743 C2. France. Declared January 27, 2006; published on April 10, 2007. "A method of producing adipic acid."

6. Patent No. 93021182. Russia. Announced on 11/5/1993; published on 06/20/1996. "A method of producing adipic acid."

7. Levanova S.V., Gerasimenko V.I., Glazko I.L. et al. // Journal of the Russian Chemical Society. D.I. Mendeleev. 2006. T. L. No. 3. S.37-42.

Claims (3)

1. A method of producing adipic acid by the oxidation of caprolactam, where caprolactam-containing wastes of caprolactam production are used as feedstock — distillation cubes of caprolactam production by oxidation of cyclohexane with a caprolactam content of at least 90% at a temperature of 75-100 ° C in a liquid medium, characterized in that the reaction is carried out using an oxidizing agent, which is a mixture of 30% hydrogen peroxide, taken in an amount of H ₂ O ₂ / CL (1-1.1) / 1 mol / mol, and concentrated sulfuric acid (96%) in an amount of 0.2- 0.36 mol / kg react onnoy weight, wherein the oxidate was acidified with concentrated sulfuric acid in order to separate adipic acid. 2. The method according to claim 1, characterized in that the amount of concentrated sulfuric acid in the oxidizing agent should be 0.2-0.23 mol / kg of the reaction mass. 3. The method according to claim 1, characterized in that the oxidate is acidified with concentrated sulfuric acid (96%) at the rate of 0.5 mol of acid per 1 mol of caprolactam in order to isolate adipic acid.