RU2786692C1 - Method for obtaining 3,5-xylenol - Google Patents

Abstract

FIELD: organic synthesis.

SUBSTANCE: present invention relates to the field of organic synthesis, in particular to a method for producing 3,5-xylenol, which is of practical interest as a raw material for the production of drugs (antibiotics), biologically active substances (vitamin E), high-quality polyester fibers, films and coatings for food and technical purpose, high-performance disinfectants, dyes, non-toxic high-temperature phosphate turbine oils. The method consists in the condensation of acetone in the presence of a zeolite-containing catalyst La₂O₃/Na-Ymmm, in which the content of La₂O₃ is 10 wt.%. The reaction is carried out at a temperature of 425÷450°C, a feed space velocity of 0.5^-2 h^-1, and atmospheric pressure. When this acetone is served in a mixture with toluene at a mass ratio of components 1:1.

EFFECT: development of a heterogeneous catalytic method for the synthesis of 3,5-xylenol by gas-phase condensation of acetone under milder conditions.

1 cl, 1 tbl, 4 ex

Description

The invention relates to the field of organic synthesis, and in particular to a method for producing 3,5-xylenol.

3,5-Xylenol is of practical interest as a raw material for the production of drugs (antibiotics), biologically active substances (vitamin E), high-quality polyester fibers, films and coatings for food and technical purposes, highly effective disinfectants, dyes. Also, 3,5-xylenol is used in the production of non-toxic high-temperature phosphate turbine oils [N.V. Lebedeva and others. Izv. Higher Textbook Head Series Chem. and Khim. Tekhnol., 2020, 63 (3), pp. 4-9].

To date, the main method for obtaining 3,5-xylenol in industry is the method of alkaline melting of m-xylene sulfonic acids. The key problems of this approach are: the need to use strong acids and alkalis; the formation of a large amount of heavily polluted wastewater; high energy intensity of the process of obtaining the product and its purification [In Feng et al. Green Chem., 2021, 23, P. 9640-9645].

In this regard, one of the alternative methods for the synthesis of 3,5-xylenol can be the gas-phase condensation of acetone.

A number of works are devoted to the study of the condensation of acetone in the gas phase on heterogeneous catalysts, which were magnesium oxide (II) (temperature in the reactor 482°C, pressure 3.5 atm) [Patent US No. 3803249]; a mixture of oxides of potassium (I) and magnesium (II) incorporated on the surface of α-alumina (temperature in the reactor 480°C, pressure 5 atm) [X. Lu et al. Keji Daobao, 2008, 26 (22), P. 63-65]. In the first case, the conversion of acetone is 47 wt. %, and the selectivity for 3,5-xylenol 48 wt. %. In the second case, the conversion of acetone does not exceed 33 wt. %, and the selectivity for 3,5-xylenol 35 wt. %.

The disadvantages of the above methods are the high temperature of the process; carrying out the reaction under pressure, which creates difficulties in the instrumentation of the experiment.

The objective of the present invention is to develop a heterogeneous catalytic method for the synthesis of 3,5-xylenol by gas-phase condensation of acetone under milder conditions.

The solution of this problem is achieved by the fact that the synthesis of 3,5-xylenol is carried out by condensation of acetone under the action of a zeolite-containing catalyst La ₂ O ₃ /Na-Ymmm. The reaction is carried out in a flow reactor with a fixed catalyst bed in the gas phase at a temperature of 425÷450°C, a feed space velocity of 0.5-2 h ^-1 , atmospheric pressure, acetone is dissolved in toluene, the mass ratio of acetone : toluene is 1:1 .

The La ₂ O ₃ /Na-Ymmm catalyst is a granular zeolite of the FAU structural type modified with lanthanum (III) oxide, with a high degree of crystallinity and phase purity in the Na-form, with a micro-meso-macroporous structure. The Na-Ymmm zeolite was synthesized in the form of granules without binders; its granules are single aggregates of zeolite crystals and have a degree of crystallinity close to 100%. The porous structure of the granules consists of the microporous structure of the Y zeolite itself and the mesoporous structure formed between the intergrowths of crystals. The combined micro-meso-macroporous crystal structure of the Na-Ymmm zeolite is highly stable and does not collapse during heat treatments. Synthesis of the Na-Ymmm zeolite is carried out according to the method given in the following publication [OS Travkiria et al. RSC Adv., 2017, 7 (52), P. 32581-32590]. Lanthanum (III) oxide is deposited on the Na-Ymmm zeolite by impregnation in an amount of 10 wt. %.

Carrying out the condensation of acetone in the presence of a catalyst La ₂ O ₃ /Na-Ymmm under the indicated conditions allows you to synthesize 3,5-xylenol with a selectivity of 31÷64 wt. %, at an acetone conversion of 22÷52 wt. %.

The advantages of the proposed method:

1. Highly active and selective La ₂ O ₃ /Na-Ymmm catalyst is used;

2. Moderate temperature regime of the experiment (≤450°C) at atmospheric pressure, which improves the economic efficiency of the process;

3. Ease of isolation of 3,5-xylenol from the reaction mass using vacuum distillation;

4. The introduction of toluene into the raw material makes it possible to remove resinous compounds from the reaction zone, preventing the formation of deposits on the catalyst surface, which leads to an increase in the service life of the catalyst.

The method is illustrated with examples:

Example 1 Preparation of 3,5-xylenol.

In a flow reactor, which is a stainless steel tube, 300 mm long with an inner diameter of 20 mm, 2 g of a La ₂ O ₃ /Na-Ymmm catalyst containing lanthanum (III) oxide in an amount of 10 wt. % and an inert packing. Within 1 h cocurrent with an inert gas (nitrogen) serves a mixture of acetone with toluene at a mass ratio of 1:1 and a temperature of 425°C, atmospheric pressure and space velocity of 1 h ^-1 . The conversion of acetone is 22 wt. %. with a process selectivity for 3,5-xylenol equal to 31 wt. %.

Examples 2-4. Conducted analogously to example 1. The conditions and results of the examples are presented in the table.

Claims (1)

A method for producing 3,5-xylenol by catalytic condensation of acetone, characterized in that a zeolite-containing La ₂ O ₃ /Na-Ymmm catalyst is used as a catalyst, in which the content of lanthanum (III) oxide is 10 wt. %, the reaction is carried out at a temperature of 425÷450°C, the volumetric feed rate of 0.5-2 h ^-1 , atmospheric pressure, acetone is served in a mixture with toluene at a mass ratio of 1:1.