Catalytic cracking olefin catalyst and its preparation method and application

A catalytic cracking and catalyst technology, which is applied in the direction of physical/chemical process catalysts, hydrocarbon cracking to hydrocarbons, molecular sieve catalysts, etc., can solve the problems of too fast catalyst deactivation, high catalyst cost, and low olefin yield, and achieve the suppression of catalyst strong acid The effect of increasing the strength of the bit acid, increasing the pore volume and specific surface area, and reducing the reaction temperature

Active Publication Date: 2019-09-10
CHINA PETROLEUM & CHEM CORP +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] The above-mentioned catalysts generally have one or more deficiencies such as high cost, low olefin yield, high reaction temperature, too fast catalyst deactivation, and poor stability.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

example 1

[0027] (1) Using Mg(NO 3 ) 2 Aqueous solution impregnated and modified hydrogen ZSM-5. Take 8gMg(NO 3 ) 2 Prepare 60ml of aqueous solution, add 65g of ZSM-5 molecular sieve into it, stir evenly, after impregnation for 6 hours, dry at room temperature, dry at 100°C, and roast at 500°C to obtain hydrogen-type Mg-modified ZSM-5 molecular sieve, Mg The weight content is 0.5%.

[0028] (2) Take 0.6g of phosphotungstic acid, dissolve it in 20ml of distilled water, and stir evenly until the phosphotungstic acid is completely dissolved.

[0029] (3) Add n-butanol and tetraethyl orthosilicate to the solution in step (2), the molar ratio of n-butanol to tetraethyl orthosilicate is 1.0; the molar ratio of water in the solution to the added tetraethyl orthosilicate to 6, continue to stir evenly, drop hydrochloric acid into the solution, and adjust the pH value of the solution to 3.

[0030] (4) Add 16g of ZSM-5 molecular sieve modified by magnesium nitrate solution to the solution i...

example 2

[0034] (1) Using Mg(NO 3 ) 2 Aqueous solution impregnated and modified hydrogen ZSM-5. Take 20gMg(NO 3 ) 2 Prepare 90ml of aqueous solution, add 68g of ZSM-5 molecular sieve to it, stir evenly, after impregnation for 5 hours, dry at room temperature, dry at 150°C, and roast at 500°C to obtain hydrogen-type Mg-modified ZSM-5 molecular sieve, Mg The weight content is 1.8%.

[0035] (2) Take 1.0g of phosphomolybdic acid, dissolve it in 20ml of distilled water, and stir evenly until the phosphomolybdic acid is completely dissolved.

[0036] (3) Add n-butanol and ethyl orthosilicate to the solution in step (2), the molar ratio of n-butanol to ethyl orthosilicate added is 1.6; the molar ratio of water in the solution to ethyl orthosilicate added to 10, continue to stir evenly, drop hydrochloric acid into the solution, and adjust the pH value of the solution to 4.

[0037] (4) Add 20g of ZSM-5 molecular sieve modified by magnesium nitrate solution to the solution in step (3), s...

example 3

[0041] (1) Using Mg(NO 3 ) 2 Aqueous solution impregnated and modified hydrogen ZSM-5. Take 10gMg(NO 3 ) 2 Prepare 90ml of aqueous solution, add 68g of ZSM-5 molecular sieve to it, stir evenly, after impregnation for 5 hours, dry at room temperature, dry at 150°C, and roast at 500°C to obtain hydrogen-type Mg-modified ZSM-5 molecular sieve, Mg The weight content is 1.1%.

[0042] (2) Take 1.6g of phosphotungstic acid, dissolve it in 20ml of distilled water, and stir evenly until the phosphotungstic acid is completely dissolved.

[0043] (3) Add n-butanol and tetraethyl orthosilicate to the solution in step (2), the molar ratio of n-butanol to tetraethyl orthosilicate is 2.7; the molar ratio of water in the solution to the added tetraethyl orthosilicate to 13, continue to stir evenly, drop hydrochloric acid into the solution, and adjust the pH value of the solution to 4.

[0044] (4) Add 18g of ZSM-5 molecular sieve modified by magnesium nitrate solution to the solution i...

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PUM

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Abstract

A catalyst for catalytic cracking to prepare olefins, a preparing method thereof and applications of the catalyst are disclosed. The catalyst includes, by weight, 5-30% of an alkaline earth metal-modified MFI molecular sieve and 0.1-3% of heteropoly acid, with the balance being SiO2, wherein the weight of the alkaline earth metal is 0.5-2% of the weight of the MFI molecular sieve. The preparing method includes (1) weighing a proper amount of the heteropoly acid, dissolving the heteropoly acid into water and fully stirring the solution, (2) adding a proper amount of an ethanol solvent and a proper amount of a silicon-containing precursor into the solution obtained in the step (1), fully stirring the solution, and adjusting the pH value of the solution to be 1-7, (3) adding the alkaline earth metal-modified MFI molecular sieve into the solution in the step (2), fully stirring the solution at a constant temperature, then adding an ionic liquid, and continuously stirring the solution until the solution is converted into sol, and then performing room-temperature ageing to obtain gel, and (4) drying the gel in the step (3) until the weight is constant and grinding the dried gel to obtain the catalyst for catalytic cracking. The catalyst has advantages of a high olefin yield, low reaction temperatures, good catalyst stability, and the like.

Description

technical field [0001] The invention relates to a catalyst for producing olefins by catalytic cracking and its preparation method and application, in particular to a catalyst for producing ethylene and propylene by catalytic cracking of naphtha and its preparation method and application. Background technique [0002] Since the beginning of the new century, the world’s demand for petrochemical raw materials and petrochemical products will continue to grow, and the demand for ethylene and propylene, which are the basic petrochemical raw materials, will continue to grow. However, the production capacity of conventional steam pyrolysis technology cannot meet the rapidly growing demand for propylene. Furnace steam pyrolysis is a process that consumes a lot of energy, and the process conditions are harsh. Compared with steam thermal cracking, the reaction temperature of naphtha catalytic cracking is about 50-200℃ lower than the standard cracking reaction. Therefore, it consumes le...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B01J29/48C07C4/06C07C11/04C07C11/06
Inventor 孙潇磊尹泽群刘全杰张志智
Owner CHINA PETROLEUM & CHEM CORP
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