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A Y-type molecular sieve with ultra-high mesoporous content and preparation method thereof

A molecular sieve and mass ratio technology, which is applied in the directions of octahedral crystalline aluminosilicate zeolite, crystalline aluminosilicate zeolite, etc. Effects of hydrothermal stability and enrichment of secondary pore structure

Active Publication Date: 2017-03-08
CHINA UNIV OF PETROLEUM (BEIJING)
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, the article published by Krijn P.de Jong et al. in 2001 (Angew.Chem.Int.Ed.2001, 40, No.6) made an in-depth study of the Y-type prepared by hydrothermal dealumination by 3D-TEM technology. The mesoporous properties of molecular sieves found that the mesoporous structure mostly exists in the form of cavities inside the molecular sieve crystal, and the mesopores are only connected by micropores, lacking effective communication.
[0007] The alkali treatment method newly developed in recent years is also an effective means to create mesopores, but it has always been used in the desiliconization of high-silicon molecular sieves (such as ZSM-5, with an atomic silicon-aluminum ratio of not less than 15) to create mesoporous pores. There are not many applications of Y-type molecular sieves with aluminum ratio
[0008] Acid treatment dealumination to create mesoporous pores is mostly used in molecular sieves with low silicon-aluminum ratio. However, for Y-type molecular sieves, the synthetic NaY molecular sieve has a low silicon-aluminum ratio and high aluminum content in the framework. The acid treatment should consider the degree of dealumination, which is slightly different. Caution will cause the skeleton to completely collapse

Method used

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  • A Y-type molecular sieve with ultra-high mesoporous content and preparation method thereof

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Experimental program
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Effect test

Embodiment 1

[0043] This embodiment provides a Y-type molecular sieve with ultra-high mesopore content, which is prepared by the following steps:

[0044] Weigh 20.0g of NaY zeolite sample dried overnight and place it in a quartz reaction tube, pour nitrogen into it, and do leak detection work. After preparation, set the nitrogen purge speed to 50mL / min (glass rotor flowmeter); set The heating program of the reaction furnace: from the starting temperature of 30°C to 500°C for 100 minutes and then holding for 120 minutes; stop heating at this time, and when the temperature naturally drops to 270°C, the SiCl 4 Saturated N 2 (N 2 After equipped with SiCl 4 The liquid container will be SiCl in the form of bubbling 4 Saturated N 2 The gas is brought out), and at the same time the temperature is increased to 430°C at a heating rate of 4°C / min for 40 minutes, and then the flow of SiCl is stopped. 4 Saturated N 2 , Alone N 2 Continue to purge for 120 minutes, then stop heating and cool down naturally; ...

Embodiment 2

[0052] This embodiment provides a Y-type molecular sieve with ultra-high mesopore content, which is prepared by the following steps:

[0053] Weigh 20.0g dried overnight NH 4 The Y zeolite sample is placed in a quartz reaction tube, helium is introduced, and the helium purge speed is set to 50mL / min (glass rotameter); the heating program of the reaction furnace is set: the starting temperature is 30℃ and the temperature is raised to 500 after 100min Keep for 120min after ℃; stop heating at this time, when the temperature naturally cools to 270℃, start to pass in SiCl 4 The saturated He is heated to 510°C at a heating rate of 4°C / min for 1h, and then the flow of SiCl is stopped. 4 Saturated He, He alone continues to purge for 120 minutes, then stop heating and cool down naturally;

[0054] Take out the sample and wash and dry to obtain DY molecular sieve with high silicon to aluminum ratio;

[0055] Take 10g sample of DY molecular sieve with high silicon-to-aluminum ratio, add it to 1...

Embodiment 3

[0063] This embodiment provides a Y-type molecular sieve with ultra-high mesopore content, which is prepared through the following steps:

[0064] Weigh 20.0g of NaY zeolite sample dried overnight and place it in a quartz reaction tube, pour nitrogen into it, and do the leak detection work. After preparation, set the nitrogen purge rate to 50mL / min (glass rotor flowmeter); set the reaction Furnace temperature rising program: after 100 minutes from the starting temperature of 30 ℃ to 500 ℃, keep for 120 minutes; stop heating at this time, when the temperature naturally cools down to 270 ℃, start to pass the SiCl 4 Saturated N 2 At the same time, the temperature is increased to 510°C at a rate of 3°C / min for 80min, and the flow of SiCl is stopped. 4 Saturated N 2 After, alone N 2 Continue to purge for 120 minutes, then stop heating and cool down naturally. The sample was taken out and washed and dried to obtain DY molecular sieve with high silicon to aluminum ratio.

[0065] Take 10g...

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Abstract

The invention provides a Y-type molecular sieve with an ultra-high mesoporous content and a preparation method of the Y-type molecular sieve. The method comprises the following steps: pre-treating Y-type zeolites for 1-5 hours at 300-600 DEG C; cooling to 200-600 DEG C; in an anhydrous drying environment, introducing dry gas saturated by a dealuminating silicon-reinforcing agent into the pre-treated Y-type zeolites and carrying out reaction for 0.5-7 hours to obtain a coarse product; or in the anhydrous dry environment, raising the temperature at a constant speed to 250-700 DEG C, introducing dry gas saturated by the dealuminating silicon-reinforcing agent into the pre-treated Y-type zeolites simultaneously and carrying out reaction for 0.5-7 hours to obtain a coarse product, wherein the introducing speed of the dry gas saturated by the dealuminating silicon-reinforcing agent is 50mL / minute; carrying out acid treatment on the coarse product; and carrying out alkaline treatment on the coarse product after acid treatment to obtain the Y-type molecular sieve. The invention further provides the Y-type molecular sieve with the ultra-high mesoporous content by virtue of the method. The sieve is the Y-type molecular sieve which is high in silica-alumina ratio, wide in range and high in mesoporous content; and the preparation method is simple to operate and low in raw material cost.

Description

Technical field [0001] The invention relates to a molecular sieve and a preparation method thereof, in particular to a Y-type molecular sieve with ultra-high mesopore content and a preparation method thereof, and belongs to the technical field of molecular sieve preparation. Background technique [0002] Because Y-type molecular sieve has suitable acidity, extremely high specific surface area and good thermal stability, it is widely used in catalytic cracking reactions. However, as a microporous molecular sieve, Y-type molecular sieve has disadvantages such as poor accessibility to acid sites and slow intracrystalline diffusion. [0003] In order to solve such problems, in the past 20 years, a large number of studies have aimed to form mesopores and macropores in microporous molecular sieves to form a hierarchical pore state and reduce the limitation of diffusion. The experimental methods include the hydrothermal synthesis of soft and hard template agents. Great progress has been ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C01B39/24
Inventor 申宝剑袁德林高雄厚王宝杰赵红娟李浩王闻年康春燕郭巧霞任申勇曾鹏晖包立业郭成玉李江成孙建学郑庆庆申波俊
Owner CHINA UNIV OF PETROLEUM (BEIJING)
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