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Preparing method of hydrocarbon cracking catalyst

A technology for cracking catalysts and hydrocarbons, which is applied in the field of semi-synthetic hydrocarbon cracking catalysts. It can solve the problems of high catalyst bulk density, complex preparation process, and low matrix activity, and achieve the effects of simple process, high cracking activity, and moderate bulk density.

Active Publication Date: 2008-04-02
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, The other is silica sol containing aluminum sulfate buffer solution, so the preparation process is relatively complicated
[0010] It can be seen from the previous work that the semi-synthetic catalytic cracking catalyst prepared by using sodium-containing silica sol as a binder has good wear resistance, and the preparation process is simple, and the price of silica sol is also lower than that of pseudo-boehmite and Aluminum sol is cheap, but there are unfavorable factors such as large bulk density, low surface area, small pore volume, and low matrix activity.
Although the introduction of alumina can make the catalyst have more mesopores, or improve the cracking activity and heavy metal resistance of the catalyst, but the problems of high bulk density, low surface area and small pore volume of the catalyst still exist.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] Take 2.1L of hydrochloric acid (produced by Beijing Chemical Factory, chemically pure, concentration 36-38% by weight), add 10.0Kg of decationized water to dilute. Get 9.6Kg sodium water glass (commercially available, containing SiO 2 Concentration 26.0% by weight, modulus is 3.2), add 11.6Kg decationized water to dilute, slowly add the diluted sodium water glass in the above dilute hydrochloric acid solution under stirring, obtain SiO 2 Silica sol with a concentration of 7.5% by weight and a pH value of 2.3.

[0032] Add 4.7Kg halloysite (produced by Suzhou Kaolin Company, solid content: 74.0% by weight) to the above silica sol, and stir for 1 hour to fully disperse the kaolin.

[0033] Add 3.8KgDASY molecular sieve (produced by Qilu Catalyst Factory, solid content is 92.0% by weight) in 6.8Kg decationized water, after fully dispersed by homogenizer, adjust the pH value to 3.5 with dilute hydrochloric acid; 0.53kg gibbsite fine powder (produced by Shandong Aluminum P...

Embodiment 2

[0056] Take 0.63L of sulfuric acid (produced by Beijing Chemical Factory, chemically pure, concentration 95-98% by weight), add 8.0kg of decationized water to dilute, and cool. Get 7.7Kg sodium water glass (commercially available, containing SiO 2 Concentration 26.0% by weight, modulus is 3.2), add 8.0Kg decationized water to dilute, slowly add the diluted sodium water glass in the above dilute sulfuric acid solution under stirring to obtain SiO 2 Silica sol with a concentration of 8.2% by weight and a pH value of 2.5.

[0057] Add 4.1 Kg of halloysite (produced by Suzhou Kaolin Company, solid content: 74.0% by weight) to the above silica sol, and stir for 1 hour to fully disperse the kaolin. Add 0.86Kg pseudo-boehmite fine powder (production of Shandong Aluminum Plant, containing Al 2 o 3 Concentration 93.6% by weight), stirred for 0.5h.

[0058] In 7.0Kg decationized water, add 2.7KgMOY molecular sieve (production of Qilu Catalyst Factory, solid content is 93.0% by weigh...

Embodiment 3

[0081] Get 0.47L sulfuric acid (produced by Beijing Chemical Plant, chemically pure, concentration 95-98% by weight), add 8.0Kg decationized water to dilute, add 1.3Kg aluminum sulfate solution after cooling (produced by Shandong Aluminum Plant, containing Al 2 o 3 Concentration 7.4% by weight). Get 5.8Kg sodium water glass (commercially available, containing SiO 2 Concentration 26.0% by weight, modulus is 3.2), add 8.0Kg decationized water to dilute, slowly add the diluted sodium water glass in the above-mentioned sulfuric acid-aluminum sulfate dilute solution under stirring, obtain SiO 2 Silica sol with a concentration of 6.4% by weight and a pH value of 2.8.

[0082] Add 6.6Kg halloysite (produced by Suzhou Kaolin Company, solid content: 74.0% by weight) to the above-mentioned silica sol, and stir for 1 hour to fully disperse the kaolin.

[0083] In 6.8kg decationized water, add 2.2KgDASY molecular sieve (production of Qilu Catalyst Factory, solid content is 92.0% by wei...

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Abstract

The hydrocarbon cracking catalyst consists of molecular sieve 10-60wt%, clay 0-75wt%, silicon adhesive accounting in silica 5-40wt%, alumina 0.1-10wt%, and modifying component accounting in oxide 0-10wt%. The catalyst is prepared through the sol-gel process of maintaining the catalyst in sol state before formation and spray drying at 50-150 deg.c to create microball gel, and subsequent ageing and pore expanding treatment. The catalyst has high matrix cracking activity and is favorable to the cracking of heavy oil and residual oil.

Description

technical field [0001] The invention relates to a hydrocarbon catalytic cracking catalyst and its application, more specifically to a semi-synthetic hydrocarbon cracking catalyst with silica sol as a binder and its application. Background technique [0002] In recent years, due to the heavy and inferior quality of raw materials, the content of molecular sieves in catalysts has been increasing continuously. The catalyst carrier with pseudo-boehmite and aluminum sol as a binder can no longer tolerate further increases in the amount of molecular sieves, resulting in catalyst resistance. The abrasiveness is poor. In addition, the prices of pseudo-boehmite and alumina sol are relatively high, resulting in high catalyst costs. Therefore, it is necessary to improve the cohesiveness of the catalyst carrier to ensure that the catalyst has good wear resistance during use. [0003] U.S. Patent No. 3,867,308 discloses a catalyst prepared by a semi-synthetic process using sodium-contain...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J29/00C10G11/05
Inventor 田辉平陈振宇龙军达志坚张万虹唐立文许明德徐志成
Owner CHINA PETROLEUM & CHEM CORP
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