RU2350592C1 - Method of cyclic sterol dimer production - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: cyclic sterol dimer (cys- and trans-1-methyl-3-phenylindan) is produced by sterol oligomerisation with ceolite catalyst added in solvent characterised by that catalyst is ZSM-12 ceolite in N-form in amount 20-30 wt %. Reaction enabled in chlorbenzene in ratio sterol: chlorbenzene =1:2÷4 (vol.) and temperature 120-130°C.

EFFECT: simplified cyclic sterol dimer production process with higher yield.

1 tbl, 5 ex

Description

The invention relates to the field of petrochemical synthesis, and in particular to a method for producing cyclic styrene dimers of cis-, trans-1-methyl-3-diphenylindane.

Cyclic styrene dimers are of practical interest as components of lubricants, and are also used as intermediates in the production of pesticides and dyes.

It is known that in the presence of mineral acids (sulfuric, phosphoric) at elevated temperatures, styrene forms a mixture of two types of dimers: linear 1,3-diphenylbut-1-ene and cyclic cis-, trans-1-methyl-3-diphenylindane [M.J. Rosen. J. Org. Chem. 1953, v. 18, p. 1701-1705; B.B. Corson, Ju. Dorsky, J.E. Nickels. J. Org. Chem. 1954, v.19, p.17-26; B.B. Corson, My H. Heintzelman, C.R. Roussean. J. Org. Chem. 1962, v. 27, p. 1636].

An example of styrene dimerization in the presence of phosphoric acid in order to obtain a cyclic dimer can be the method described in the patent [UK patent 1343445]. Styrene was added to phosphoric acid (98%) in a ratio of 1: 1 (wt.) And stirred at 100 ° C for 40 minutes. Dimers are extracted from the reaction mass with methylene chloride, and then distilled. The yield of styrene dimers is 67-84%. The dimer fraction contains 9-14% of a linear dimer and 86-91% of a cyclic dimer

The disadvantages of this method include the use of a large amount of mineral acid, the use of extractant with its subsequent separation.

To avoid the disadvantages inherent in mineral acids, the authors of [BBCorson, Ju.Dorsky, JENickels. J. Org. Chem. 1954, v.19, p.17-26] suggest the use of phosphoric acid supported on coal in the dimerization of styrene. A solution of styrene in ethylbenzene is passed through the catalyst with a space velocity of 0.9 h ^-1 at a temperature of 140 ° C. 72.8% of the dimeric fraction is isolated from the obtained product. The ratio of cyclic dimer: linear dimer is 90:10.

At the same time, the authors note that ethylbenzene, which they use as a solvent, is not an inert compound, but in the presence of strong acids it interacts with styrene to form alkylation products. Therefore, the resulting "dimeric fraction" is a mixture of alkylation products (1-ethylphenyl-1-phenylethanes) and styrene dimers.

A known method of producing a cyclic styrene dimer using a cation exchange resin H-Nafion [Hasegawa H., Higashimura T. Polim.J., 1979, 11, p. 737]. Styrene dimerization is carried out in a CCl ₄ solvent at a temperature of 50 ° C for 2 hours. The following composition (wt%) is obtained: dimers — 22, trimers — 18, and higher molecular weight compounds — 60.

The disadvantages of this process include the low yield of dimers and the formation of a large amount (60% wt.) Of oligomeric compounds.

The vapor-phase dimerization of styrene in the presence of an aluminosilicate catalyst was studied [Kuroki T., Ogawa T., Sekiguchi J. et al. Ind. and Eng. Chem. Prod. Res. and Dev., 1983, 22, No. 2, p.234-237]. The reaction is carried out in a quartz tube in a nitrogen atmosphere at temperatures of 200-300 ° C. Get the product composition (% wt.): Ethylbenzene 37.3-49, oligomers 5-21, coke 35-45. The ratio of linear dimer: cyclic dimer = 15:85.

The disadvantages of this method are the very low yield of dimers, a large amount of coke, and high reaction temperatures.

A known method of producing cyclic styrene dimers in the presence of Beta zeolite. The reaction is carried out in a solvent CCl ₄ , the amount of which is from 227 to 454 vol.h. on 1 ob.ch. styrene. The catalyst is used in an amount of 500-1000% wt. based on styrene. The reaction temperature is 72 ° C, the time is 3 hours. The selectivity for the formation of a cyclic dimer is 84-90% at a styrene conversion of 95% [Benito A., Corma A., Garcia H. Appl. Catal. A: General. 1994, 116, p. 127-135].

Despite the high yield of cyclic dimer, the method can only be used as preparative. Its significant disadvantages are huge amounts of catalyst and solvent.

Closest to the proposed invention, the technical solution, selected as a prototype, is a method for producing cyclic styrene dimers, carried out by dimerization of styrene in the presence of modified Fe zeolite type Y in an amount of 55.5% wt. on styrene at a temperature of 25 ° C. The reaction is carried out in a batch reactor in an argon atmosphere, in a solvent of CH ₂ Cl ₂ , with a ratio of solvent: styrene = 50: 1 (vol.). The output of the cyclic styrene dimer is 47% upon conversion of the feed to 100% by weight; there is no linear dimer. Trimers — 36% and higher boiling compounds — 17% [KBJoon, JLLim, JK Kochi. J. Mol. Catal., 1989, 52, p. 375-386].

The disadvantages of this method include:

1. The use of a catalyst in large quantities is 55.5% wt., Which reduces the efficiency of the process.

2. The use of expensive solvent in large volumes, which leads to irrational use of equipment.

3. High yield of styrene oligomers - in the amount of 53% wt.

4. It is noted that type Y zeolite during deep decationation (to the degree of ion exchange of 100%) is destroyed with the formation of an amorphous aluminosilicate phase, and this leads to a decrease in its catalytic activity.

The objective of the present invention is to simplify the method of producing cyclic styrene dimers and increase its yield.

This goal is achieved by the fact that the method for producing cyclic styrene dimers by dimerization of styrene is carried out according to the invention in the presence of ZSM-12 type zeolite in the H-form in a solvent - chlorobenzene at a reaction temperature of 120-130 ° C and a catalyst amount of 20-30% wt. The ratio of styrene: chlorobenzene is 1: 2 ÷ 4 (vol.).

A comparative analysis of the proposed solution with the prototype shows that the claimed method differs from the prototype in that in the process of dimerization of styrene to a cyclic dimer, a zeolite of the ZSM-12 type in H form is used as a catalyst. The dimerization process is carried out in chlorobenzene with the ratio styrene: solvent = 1: 2 ÷ 4 (vol.), In the presence of 20-30% wt. catalyst, at a temperature of 120-130 ° C. The degree of conversion of styrene reaches 100% wt. After separation of the catalyst and distillation of the solvent, a product of the composition (% wt.) Is obtained: styrene 0, linear dimers 0, cyclic dimers 81.3-85.4, trimers 14.6-18.7.

Tetramers and higher molecular weight compounds are absent.

Zeolite type ZSM-12 is an aluminosilicate material with a typical unit cell described by the formula Na ₈ (AlO ₂ ) ₈ (SiO ₂ ) ₄₀ · 24H ₂ O and a clear crystalline structure. Refers to high silica zeolites of the pentasil family. The pentasils differ from zeolites of other structural types by the structure of the crystal lattice, the basis of which is a five-membered ring, and a high silicon content (SiO ₂ / Al ₂ O ₃ > 25), which determines the strength and localization of active acid sites. These features determine the unusual physicochemical, adsorption, and catalytic properties of pentasils. Pentasyls are characterized by high chemical and thermal stability, the homogeneity of the catalytically active centers inside the channels of the zeolite.

The porous structure of ZSM-12 is a system of interconnected rectilinear channels formed by 12-membered rings with an entrance window diameter of 0.55-0.62 nm.

Zeolite ZSM-12 is available on an industrial scale. It is used as a component of zeolite-containing catalysts for certain petrochemical and chemical processes, for example, cracking of diisopropylbenzene to produce a mixture of benzene, toluene and xylenes [US Pat. No. 4,593,136]. It is also known the use of zeolite ZSM-12 as a catalyst for the conversion of alcohols and esters to aromatic hydrocarbons [US patent 4538015]. The use of zeolite ZSM-12 for the synthesis of cyclic styrene dimers is not known.

The proposed method is as follows.

ZSM-12 type zeolite catalyst in H-form was synthesized at Angarsk Plant of Catalysts and Organic Synthesis OJSC according to DK 04-21303-008-2004. The molar ratio of SiO ₂ / Al ₂ O ₃ is 34; degree of crystallinity of more than 85%. Before experiments on dimerization of styrene, the catalyst was calcined in an atmosphere of air at 540 ° C for 4 hours.

Styrene dimerization is carried out by a periodic method.

Styrene and chlorobenzene are loaded into the reactor and at a reaction temperature of 120-130 ° C, the catalyst is loaded in portions in an amount of 20-30% wt. (based on styrene). The suspension is stirred at the reaction temperature for 2-3 hours. At certain intervals, samples are taken and analyzed by GLC on a Chrom-5 chromatograph. Analysis conditions: glass capillary column 0.2 ÷ 0.25 mm × 20 m with a stationary liquid phase SE-30, linear programming of temperature from 100 to 280 ° C at a speed of 6 ° C / min. Carrier gas helium, carrier gas velocity 1 ÷ 2 ml / min, carrier gas flow rate through the column and bypass 1: 100. In addition, to determine the composition of oligomers with n> 3, the product was analyzed by high performance liquid chromatography on an HP-1090 instrument. Analysis conditions: a Plgel polystyrene column 100Å, a feed rate of toluene of 0.8 ml / min, a tape speed of 1.5 cm ^-1 , a refractometric detector.

The proposed method is illustrated by the following examples (table.).

EXAMPLE 1. 40 ml of chlorobenzene and 10 ml (9.0 g) of styrene are charged into a glass heated reactor with a stirrer, reflux condenser and thermometer. At a temperature of 120 ° C, 1.8 g of ZSM-12 zeolite are charged in portions. The suspension is stirred at 120 ° C. for 3 hours. The reaction mass is filtered off from the catalyst and the solvent is distilled off. Get 8.9 g of product composition (% wt.):

cyclic dimer (1-methyl-3-phenylindane) - 85.4 trimers - 14.6

The styrene conversion is 100% by weight, the selectivity for the cyclic dimer is 85.4%.

EXAMPLES 2-5. Analogously to example 1. The conditions and results of the examples are presented in the table.

Styrene dimerization in the presence of zeolite type ZSM-12 No. p / p Reaction Conditions The conversion of styrene,% wt. Selectivity,% [kt],% wt. T, ° C τ, h chlorobenzene: styrene, vol. CD LD Tr CIS trance- one twenty 120 3 4: 1 one hundred 42.9 42.5 - 14.6 2 twenty 130 2 4: 1 one hundred 42.5 42.3 - 15,2 3 thirty 120 3 4: 1 one hundred 42,4 42.1 - 15,5 four thirty 130 2 4: 1 one hundred 42.7 42,2 - 15.1 5 twenty 120 3 2: 1 one hundred 40.8 40.5 - 18.7 ID - cyclic dimers; LD - linear dimers; Tr - trimers.

Claims (1)

A method of producing cyclic styrene dimers (cis- and trans-1-methyl-3-phenylindane) by oligomerization of styrene in the presence of a zeolite catalyst in a solvent, characterized in that the catalyst used is ZSM-12 type zeolite in the form of 20- 30 wt.%, The reaction is carried out in chlorobenzene with the ratio styrene: chlorobenzene = 1: 2 ÷ 4 (vol.) And a temperature of 120-130 ° C.