Cracking catalyst and its application

A catalyst, catalytic cracking technology, applied in physical/chemical process catalysts, molecular sieve catalysts, cracking and other directions, can solve the problems of small catalyst bulk density, low molecular sieve tolerance, complex preparation process, etc. Beneficial effect on cracking, large pore volume

Active Publication Date: 2007-08-22
CHINA PETROLEUM & CHEM CORP +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the catalyst prepared by this method also has unfavorable factors such as large bulk density, low surface area, and small pore volume.
Moreover, two kinds of silica sols are used in its preparation method, one is ion-exchanged low-sodium silica sol, and the other is silica sol containing aluminum sulfate buffer solution, so the preparation process is relatively complicated.
[0013] It can be seen from the previous work that the silica-alumina gel catalyst prepared by the total synthesis process has the advantages of high activity and good stability, but the catalyst has a small bulk density, poor carrier cohesion, and low molecular sieve tolerance. And the preparation process is relatively complicated; while the catalytic cracking catalyst using silica sol as the binder has good wear resistance, and the preparation process is simple, but the bulk density is large, the surface area is low, the pore volume is small, and the matrix activity is low; Aluminum sol can improve the pore structure of the catalyst to a certain extent, but sodium-free or low-sodium silica sol is often used to prepare catalysts, and the preparation of sodium-free or low-sodium silica sol requires ion exchange, so the preparation process is complicated and costly. high, difficult to use in industry

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0041] Take 1.7L hydrochloric acid (produced by Beijing Chemical Plant, chemically pure, concentration 36-38% by weight), and dilute with 8.0Kg of deionized water. Take 7.7Kg sodium water glass (commercially available, containing SiO 2 Concentration 26.0% by weight, modulus 3.2), add 8.0Kg of decationized water to dilute, slowly add the diluted sodium water glass to the above dilute hydrochloric acid solution under stirring to obtain SiO 2 A silica sol with a concentration of 7.8% by weight and a pH of 2.8.

[0042] Add 5.0 Kg of halloysite (produced by Suzhou Kaolin Company, with a solid content of 74.0% by weight) to the silica sol, and stir for 1 hour to fully disperse the kaolin.

[0043] Add 3.8Kg of DASY molecular sieve (produced by Qilu Catalyst Factory, with a solid content of 92.0% by weight) into 6.8Kg of de-cationized water, and after being fully dispersed by a homogenizer, adjust the pH to 3.5 with dilute hydrochloric acid. The molecular sieve slurry was added to the a...

Embodiment 2

[0060] Take 0.63L of sulfuric acid (produced by Beijing Chemical Plant, chemically pure, with a concentration of 95-98% by weight), add 8.0Kg of deionized water for dilution, and cool. Take 7.7Kg sodium water glass (commercially available, containing SiO 2 Concentration 26.0% by weight, modulus 3.2), add 8.0Kg of decationized water to dilute, slowly add the diluted sodium water glass to the above dilute sulfuric acid solution under stirring to obtain SiO 2 A silica sol with a concentration of 8.2% by weight and a pH of 2.5.

[0061] Add 3.8Kg of halloysite (produced by Suzhou Kaolin Company, with a solid content of 74.0% by weight) to the above silica sol, and stir for 1 hour to fully disperse the kaolin.

[0062] Add 1.6Kg pseudo-boehmite (produced by Shandong Aluminum Factory, containing Al 2 O 3 Concentration 61.0% by weight), add 110 mL of hydrochloric acid (produced by Beijing Chemical Plant, chemically pure, concentration 36-38% by weight), stir for 1 hour to completely pept...

Embodiment 3

[0081] Take 0.31L of sulfuric acid (produced by Beijing Chemical Plant, chemically pure, with a concentration of 95-98% by weight), add 8.0Kg of deionized water for dilution, and add 0.9Kg of aluminum sulfate solution (produced by Shandong Aluminum Plant, containing Al) after cooling. 2 O 3 Concentration 7.4% by weight). Take 3.8Kg sodium water glass (commercially available, containing SiO 2 Concentration 26.0% by weight, modulus 3.2), add 8.0Kg of decationized water to dilute, slowly add the diluted sodium water glass to the above dilute sulfuric acid-aluminum sulfate solution under stirring to obtain SiO 2 A silica sol with a concentration of 4.7% by weight and a pH of 2.8.

[0082] 6.0 Kg of halloysite (produced by Suzhou Kaolin Company, with a solid content of 74.0% by weight) was added to the above silica sol, and stirred for 1 hour to fully disperse the kaolin.

[0083] Add 2.2KgDASY molecular sieve (produced by Qilu Catalyst Factory, solid content of 92.0% by weight), 1.8Kg...

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PUM

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Abstract

A cracking catalyst is prepared from molecular sieve (10-60 Wt%), clay (0-75), Si adhesive (5-40), Al adhesive (5-40) and modifier (0-10) through preparing slurry in sol state, spray drying to become gel, ageing and forming big pores. Its advantages are high strength, stack density and pore volume, high conversion rate of hydrocarbon oil, and high cracking power and selectivity.

Description

Technical field [0001] The invention relates to a hydrocarbon catalytic cracking catalyst, more specifically to a semi-synthetic hydrocarbon cracking catalyst with silica alumina sol as a binder. Background technique [0002] In recent years, due to the heavy and degraded raw materials, the content of molecular sieve in the catalyst has been increasing, which has caused the cost of the catalyst to continue to rise. Moreover, the catalyst carrier with pseudo-boehmite and aluminum sol as the binder can no longer withstand molecular sieve. Further increase in volume. Therefore, the cracking ability of the catalyst carrier must be exerted to reduce the amount of molecular sieve. This requires the carrier to have a certain acidity and appropriate macroporous structure while ensuring good adhesion. [0003] U.S. Patent No. 3,867,308 discloses a catalyst prepared by a semi-synthetic process using sodium-containing silica sol as a binder. Although the carrier has strong binding force, it...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J29/06C10G11/05
Inventor 陈振宇龙军达志坚田辉平张万虹许明德唐立文徐志成
Owner CHINA PETROLEUM & CHEM CORP
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