Method for preparing molecular sieve

A molecular sieve and reactor technology, which is applied in the field of preparing molecular sieve by the gas-phase chemical method of extracting aluminum and supplementing silicon, can solve the problems of unfavorable harm, aggravated environmental pollution, device blockage, etc., and achieves stable product performance, low labor intensity, and production efficiency. high effect

Active Publication Date: 2014-05-14
CHINA PETROLEUM & CHEM CORP +1
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  • Description
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AI Technical Summary

Problems solved by technology

However, this method uses gas to carry the molecular sieve powder material and SiCl 4 The gas phase ultrastable reaction is carried out by means of gas contact reaction. In order to fluidize the molecular sieve, the amount of gas must be large enough. The carrier gas and SiCl 4 The weight ratio can reach 10-250, otherwise it will easily cause the problem of device blockage. Increasing the amount of gas will make it difficult to increase the reaction depth of dealumination and silicon supplementation. There is a contradiction between the solid material transportation and the improvement of the gas phase ultra-stable reaction depth. In addition, In order to achieve a certain degree of reaction, this method requires a large SiCl 4 The amount of input will inevitably cause the residual SiCl after the gas phase ultrastable reaction 4 The increase in the amount of exhaust gas not only aggravates the harm of environmental pollution, but also is not conducive to the effective absorption of exhaust gas.

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preparation example Construction

[0022] In the method for preparing molecular sieves provided by the present invention, the molecular sieves are continuously introduced into the gas-phase ultrastable reactor, so that the molecular sieves generally move continuously from the molecular sieve inlet to the molecular sieve outlet without carrier gas transportation, and react with the gas-phase ultrastable The silicon tetrachloride gas in the container is contacted to carry out the ultra-stabilizing reaction. Simultaneously, silicon tetrachloride was continuously introduced into the reactor.

[0023] In the method for preparing molecular sieves provided by the present invention, silicon tetrachloride can be introduced into the reactor in a liquid phase and then vaporized in the reactor and reacted with the molecular sieve, but in order to make the reaction uniform, it is preferred that silicon tetrachloride is vaporized and then introduced into the gas phase stabilized in the reactor. The molecular sieve and vapor...

Embodiment 1

[0056] Made of industrial grade stainless steel with a thickness of 3mm NiCr18Ti figure 2 In the molecular sieve gas-phase silicon replenishment equipment shown, the upper part of the gas-solid separator 2 is cylindrical with a diameter of 6 meters and a height of 14 meters, and the lower part is conical with an opening with a cone angle of 45°, and a valve is provided at the opening , the outlet is located at a position 1 meter away from the top of the gas-solid separator, and the absorption tower 3 is filled with an aqueous sodium hydroxide solution with a concentration of 10 mol / liter. The absorption tower 3 and the gas-solid separator 2 are connected by a conduit, and the conduit goes deep into the Sodium hydroxide aqueous solution.

[0057] Reactor 1 is a tubular reactor, such as Figure 5 As shown, the total length of the pipe body is 80 meters, and the diameter of the pipe body is 0.8 meters. The pipe body of the reactor is made into a ring. The reactor includes an up...

Embodiment 2

[0060] Made of industrial grade stainless steel with a thickness of 3mm NiCr18Ti figure 2 In the molecular sieve gas-phase silicon replenishment equipment shown, the upper part of the gas-solid separator 2 is cylindrical with a diameter of 6 meters and a height of 14 meters, and the lower part is conical with an opening with a cone angle of 45°, and a valve is provided at the opening , the outlet is located at a position 1 meter away from the top of the gas-solid separator, and the absorption tower 3 is filled with an aqueous sodium hydroxide solution with a concentration of 10 mol / liter. The absorption tower 3 and the gas-solid separator 2 are connected by a conduit, and the conduit goes deep into the Sodium hydroxide aqueous solution.

[0061] The length of the tubular reactor 1 is 60 meters, which is a straight tube, the angle between the axis of the tubular reactor and the horizontal plane is 45°, and the diameter (inner diameter) of the tubular reactor is 1 meter, such a...

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Abstract

The invention relates to a method for preparing a molecular sieve, which comprises the following steps: the molecular sieve is introduced in a gas phase ultra-stable reactor, the gas phase ultra-stable reactor is capable of moving the molecular sieve from the molecular sieve inlet of the gas phase ultra-stable reactor to the molecular sieve outlet of the gas phase ultra-stable reactor under the condition that carrying gas is not used for conveying, and the molecular sieve and gas-phase silicon tetrachloride are contacted for reacting in the gas phase ultra-stable reactor. The conveying of the molecular sieve does not require inertia carrying gas, the technology flow is simplified, carrying gas amount is saved, and the consumption of silicon tetrachloride can be greatly reduced.

Description

technical field [0001] The invention relates to a method for preparing molecular sieves, and more particularly relates to a method for preparing molecular sieves by using a gas-phase chemical method to extract aluminum and supplement silicon. Background technique [0002] Molecular sieve is a widely used material in catalytic cracking catalyst, and it is also a very important component. The performance of molecular sieve directly affects the reaction performance of catalytic cracking catalyst. According to different needs, molecular sieves can be modified differently to meet the requirements of use. For example, molecular sieves with a high silicon-to-aluminum ratio are generally considered to be required for catalytic cracking catalysts. [0003] In terms of preparing molecular sieves with high silicon-aluminum ratio, there are mainly the following methods: ammonium fluorosilicate method to extract aluminum and replenish silicon, hydrothermal method and gas phase chemical ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01B39/02
Inventor 周灵萍刘子阳张杰潇许明德张蔚琳朱玉霞田辉平
Owner CHINA PETROLEUM & CHEM CORP
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