PL150056B1 - A method of p-xylene production - Google Patents

Description

POLAND PATENT DESCRIPTION 150 056 REPUBLIC FOLK • Additional patent to patent no. CZ V 1 fcLNl A || l | t Reported: ^{86 10 29} / ^p · 262101 / Potential Office Priority - Int. Cl. ⁴ C07C 15/08 C07C 4/18 OFFICE PATENT Application announced: ^{88 07} 21 PRL The patent description was published: 90 07 31

Creators of the invention: Roch Kazimierczuk, Irena Petrykowska, Stanisław Szwaczyk, Witold Tęcza

Authorized by the patent: Industrial Chemistry Research Institute, Warsaw / Poland /

METHOD OF MAKING P-XYLENE

The subject of the invention is a process for the production of p-xylene by dealkylation of the raw material containing the aromatics fraction C _{g +} using a high-silicon zeolite catalyst of the ZSM-5 type.

The reforming process yields significant amounts of aromatic hydrocarbons of the C _{g +} fraction (mesitylene, hemimellitene, pseudocumene and others), which are of less industrial importance and are used only as solvents in the paint and varnish industry and as an additive to gasoline. Therefore, this fraction is subjected to various chemical processes, e.g. dealkylation to obtain more valuable products, especially p-xylene

The previously known processes of dealkylation of the Cg + fraction are carried out in one stage in the temperature range 400-600 ° C under the pressure of 0.1-20 MPa. ZSM-5 type zeolites formed with the addition of aluminum oxide in an amount of up to 35% by weight are used as catalysts. Catalysts can be modified with nickel, palladium, platinum, zinc and cadmium salts

There are also known processes of processing C 1 - hydrocarbons into aromatic hydrocarbons using systems containing, in addition to zeolite of the ZSM-5 type, also antimony in an amount of up to 60% by weight. steam in xylenes about 100% and convection 12.5%. When the raw material was butene-1, the content of aromatic hydrocarbons increased to 27.2%. Processes carried out at a temperature of 500 ° C, under normal pressure

The aim of the present invention was to develop a method of processing Cg + aromatics into Cg hydrocarbons with a high content of p-xylene and a minimum amount of gaseous products.

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Unexpectedly, it turned out that by carrying out the process in a two-stage system using appropriately formed zeolite catalysts of the ZSM-5 type, it is possible to process Cg * aromatics into more valuable products, especially p-xylene.

The essence of the invention consists in the use of a new catalyst and the combination of two methods of p-xylene production. According to the invention, the process is carried out in two stages, and the catalyst is a high-silicon zeolite catalyst formed in an intensively mixed mineral oil from a mixture of zeolite type ZSM-5, aluminum oxide, magnesium oxide and a polysiloxane binder with the possible addition of promoters. , organic solvent, mineral acid and water, resulting in acid-catalyzed hydrolysis of ethyl silicate. Preferably, phosphoric acid is used as the hydrolysis catalyst. It is also advantageous to add a nickel nitrate solution to the binder produced in this way as a promoter.

The method according to the invention consists in contacting the C _g * fraction in the first stage of conversion with a bed of spherical zeolite catalyst.

The process is carried out in the first stage in the temperature range from 350 ° C to 600 ° C, under the pressure from 0.1 to 10 MPa with the load from 0.25 to 3 h ¹

The obtained gaseous products, after the separation of liquid products, are directed directly to the second stage of the transformation and are re-contacted with the above-mentioned catalyst at the temperature of 500 600 ° C under normal pressure. The main advantage of the process according to the invention is the increase of xylenes in liquid products with isomer content to 35% steam above 60% with conversion of the raw material about 55%

Example I Raw material, fraction C _g> obtained in the reforming process, with the composition in percent by weight:

xylenes ₄ , _g atylbenzene ethyltoluenes 47.3 trimethylbenzenes 40.7 hydrocarbons Cg * 7.1

It is contacted with a spherical zeolite catalyst at a temperature of 400 ° C under a pressure of 1 MPa in an atmosphere of hydrogen The catalyst was formed in an intensely mixed mineral oil from a mixture of zeolite type ZSM-5, alumina, magnesium oxide and polysiloxane binder , ethyl alcohol and phosphoric acid, and an aqueous solution of nickel nitrate. The dealkylation process resulted in a total conversion of 92.7%, 67.7% for liquid products, and 25.0% for gas products.

The composition of liquid products after the first stage was:

r ’ Liquid products and "" Ί,% by weight ₍ Paraffins and cycloparaffins 1 1 0.1% benzene 1 0.8% toluene 1 17.3% ethylbenzene 1 fl 2.3% xylenes 1 1 32.4% hydrocarbons C _Q 1 31.2% hydrocarbons C _g * 1 15.9% u-.

The content of p-xylene in the xylenes of the 1st degree was 52%. The gaseous products obtained from reactor I, composed of: - 5.6%, C ₂ - 12.3%, C _g - 68.6%, C ₄ - 13.5%, were directly contacted with the same catalyst as in stage I at the temperature 550 ° C under normal pressure

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Composition of liquid products after the 2nd degree it is: and------------------- . Liquid products 1 % by weight and paraffins and cycloparaffins 1 9.3% ¹ benzene l 6.3% toluene 1 40.3% and ethylbenzene 2.9% ¹ xylenes 1 1 28.0% , C _{g +} hydrocarbons 1 13.2% - - - - - - - - - - - - - - - - - - ---------- J__

The content of p-xylene in xylenes is 65%

Claims (3)

Patent claims 1 The method of producing p-xylene from aromatic hydrocarbons C _{g +} using a zeolite catalyst of the ZSM-5 type, characterized in that the process is carried out in two stages with the use of a high-silicon zeolite catalyst formed in an intensively mixed mineral oil from a mixture of zeolite type ZSM-5, aluminum oxide , magnesium oxide with the optional addition of promoters and a polysiloxane binder obtained by mixing ethyl silicate, organic solvent, mineral acid and water, in which in the first stage the hydrocarbon feed is contacted with a high-silicon catalyst at a temperature of 350-600 C under a hydrogen pressure of 0.1- 10 MPa, and the obtained gaseous products are contacted again with this catalyst at a temperature of 500-600 ° C under normal pressure Method according to claim 1, characterized in that phosphoric acid is used as the mineral acid for the preparation of the binder. A method according to claim 1, characterized in that nickel nitrate introduced in an aqueous solution to the binder is used as the promoter.