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Preparing method of high-selectivity anti-carbon benzene alkylation catalyst

A high-selectivity, carbobenzene technology, applied in physical/chemical process catalysts, molecular sieve catalysts, chemical instruments and methods, etc., can solve the problems of affecting the purity of styrene, limiting the scope of application, increasing the amount of benzene circulating, etc. The effect of slowing down the deactivation rate of coking, prolonging the operation period and improving product quality

Active Publication Date: 2018-05-18
DALIAN UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Because the small amount of xylene impurity that this side reaction generates can affect the purity of styrene downstream product, limit its scope of application; (2) how to slow down the deactivation rate of carbon deposition of catalyst under the condition of low benzene-alcohol ratio, so that catalyst can be used in Long-term operation under relatively mild conditions
[0003] The preparation method of benzene alkylation catalyst disclosed in existing patents does not solve the side reaction problem of isomerization of ethylbenzene and xylene well
In addition, the benzene alkylation catalysts disclosed in existing patents can only operate at a high benzene-to-alcohol ratio to have good activity stability
However, the use of a high benzene-alcohol ratio will lead to an increase in the amount of benzene circulation, which will greatly increase the energy consumption of industrial plants, which is not conducive to industrial applications.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] The catalyst for the alkylation of benzene and ethanol was prepared by using MFI zeolite molecular sieve with high silicon-aluminum ratio as the matrix. The silicon-aluminum ratio of MFI zeolite molecular sieve is 800, and the grain size is between 200-300 nanometers. The hydrothermal synthesis of the above-mentioned molecular sieves is carried out according to the method disclosed in the patent ZL201110364516.0 (a synthesis method of ZSM-5 zeolite). The extrusion molding of the above-mentioned zeolite molecular sieve adopts the acidified silicon ester hydrolyzate as the binder. The silicone grease hydrolysis conditions are: the silicone grease / water ratio is 1.0, the hydrolysis pH value is -1 Under certain conditions, the conversion rate of ethanol is greater than 99%. The product of reacting for 24 hours was analyzed and calculated, and the result showed that among the C8 aromatic products, the proportion of xylene impurities in the main product of ethylbenzene was 3...

Embodiment 2

[0039] Repeat Example 1, but use the above catalyst for gas phase alkylation of benzene and methanol at a reaction temperature of 400°C, a reaction pressure of 1.0 MPa, a benzene / methanol molar ratio of 2, and a total feed space velocity of 2h -1 Under certain conditions, the methanol conversion rate is greater than 99%. The product reacted for 48 hours was analyzed and calculated, and the result showed that in the C8 aromatic hydrocarbon product, the percentage of ethylbenzene impurity in the xylene main product was 8.0%. The one-way operation period of the catalyst is more than 3 months.

Embodiment 3

[0041] Repeat Example 1, but the silicon-aluminum ratio of the high-silicon-aluminum ratio MFI zeolite molecular sieve used is 600, and the grain size is between 200-300 nanometers. The hydrothermal synthesis of the above-mentioned molecular sieves is carried out according to the method disclosed in the patent ZL201110364516.0 (a synthesis method of ZSM-5 zeolite). The above catalyst was used in the gas phase alkylation reaction of benzene and ethanol. When the reaction temperature is 400°C, the reaction pressure is 1.0MPa, the benzene / ethanol molar ratio is 4, and the ethanol feed space velocity is 0.7h -1 Under certain conditions, the conversion rate of ethanol is greater than 99%. The product of reaction for 24 hours was analyzed and calculated, and the results showed that among the C8 aromatic products, the proportion of xylene impurities in the main product of ethylbenzene was 415ppm, and the one-way operation period of the catalyst exceeded 6 months.

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Abstract

The invention belongs to the technical field of petrochemical engineering catalysts, and discloses a preparing method of a high-selectivity anti-carbon benzene alkylation catalyst. The preparing method comprises the steps of 1, selecting a high silica-alumina-ratio MFI zeolite molecular sieve to serve as a parent of the catalyst; 2, mixing acidized silicone grease hydrolysate with the high silica-alumina-ratio MFI zeolite molecular sieve to be subjected to extrusion forming, and then using an aqueous solution of ammonium hexafluorosilicate to treat the formed strip-shaped product; 3, using separating mother liquor which is obtained by using hydration heat to crystallize the high silica-alumina-ratio MFI zeolite molecular sieve to treat the formed strip-shaped product of the high silica-alumina-ratio MFI zeolite molecular sieve; 4, adopting an ion exchange method to convert the formed strip-shaped product of the high silica-alumina-ratio MFI zeolite molecular sieve which is treated by the mother liquor into a hydrogen-form alkylation catalyst. By means of the preparing method of the high-selectivity anti-carbon benzene alkylation catalyst, the mother liquor which is generated duringhydro-thermal synthesis of the high silica-alumina-ratio MFI zeolite molecular sieve is used for treating the formed strip-shaped catalyst, useful ingredients in the mother liquor are recycled, poresof the catalyst are unblocked, and the environmental pollution in the whole production chains of the alkylation catalyst is also reduced.

Description

technical field [0001] The invention belongs to the technical field of petrochemical catalysts, and relates to a preparation method of a benzene alkylation catalyst. Background technique [0002] The gas-phase alkylation of benzene, methanol and ethanol can be used to synthesize xylene and ethylbenzene respectively, the former can be used to produce p-xylene, and then produce terephthalic acid; the latter can be used for dehydrogenation to produce styrene, and then produce polyphenylene vinyl etc. Because water is generated, the alkylation of benzene and methanol, benzene and ethanol can only be carried out under high temperature and gas phase reaction conditions, so it faces the following common problems: (1) How to reduce the mutual isomerism between xylene and ethylbenzene chemical side reaction. That is to say, in the alkylation of benzene and methanol, the further isomerization reaction of the target product xylene to the by-product ethylbenzene should be minimized. ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J29/40C07C2/86C07C15/06C07C15/073
CPCB01J29/40B01J2229/16C07C2/864C07C15/06C07C15/073Y02P20/52Y02P20/584
Inventor 郭洪臣刘家旭林龙祝全仁刘春燕易颜辉郭益铜
Owner DALIAN UNIV OF TECH
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