Synthesis technology for improving yield of nanometer Y type molecular sieve

A synthesis process and molecular sieve technology, which are applied in the directions such as fajhedral crystalline aluminosilicate zeolite, crystalline aluminosilicate zeolite, etc., can solve the problems of low production efficiency, complex production process, low separation efficiency, etc., to improve the utilization rate, overcome the There are more processes and the effect of improving work efficiency

Inactive Publication Date: 2016-06-01
赵建英
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  • Application Information

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Problems solved by technology

In the current synthesis process for improving the yield of nanometer Y-type molecular sieves, the process flow is not easy to implement, the separation efficiency is low, the recycling of raw materials cannot be realized, the production process is complicated, and the production efficiency is low.

Method used

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Embodiment

[0011] The synthesis technique of improving the yield of nanometer Y-type molecular sieve of the present embodiment comprises the following steps:

[0012] (1) Add organic template agent and aluminum source to deionized water in turn under stirring conditions, stir until dissolved, then add silicon source, fully stir or heat to make the solution transparent or translucent, then add sodium source; the molar ratio of the reaction raw materials Be: SiO2 / Al2O3=4.5, Na2O / Al2O3=0.050, H2O / Al2O3=270, organic template / Al2O3=5.0;

[0013] (2) Transfer the synthetic system obtained in step (1) to a reaction kettle, seal it and raise the temperature to 130°C for hydrothermal crystallization for 110 hours;

[0014] (3) Separate the solid-liquid mixture obtained from the crystallization in step (2), keep the mother liquor obtained, wash the solid with water, and dry it to obtain a nano-Y molecular sieve.

[0015] The synthetic process for improving the yield of nanometer Y-type molecular ...

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Abstract

The invention discloses a synthesis technology for improving the yield of a nanometer Y type molecular sieve. The technology comprises the following steps: sequentially adding an organic template and an aluminum source to deionized water under stirring, stirring the organic template and the aluminum source until the organic template and the aluminum source are dissolved, and adding a silicon source and a sodium source; transferring the above synthesis system to a reaction kettle, sealing the reaction kettle, heating the reaction kettle to 90-130DEG C, and carrying out hydrothermal crystallization for 60-110h; separating the above obtained solid-liquid mixture to obtain a solid which is nanometer Y type molecular sieve, and reserving a mother liquor; and supplementing a proper amount of the reaction raw materials to the obtained mother liquor, continuously crystallizing the above material, and carrying out solid-liquid separation to obtain the nanometer Y type molecular sieve and the reaction mother liquor. Supplementation of the reaction raw materials, crystallization and solid-liquid separation are repeated to improve the yield of the nanometer Y type molecular sieve. The technology effectively utilizes unreacted silicon, aluminum, the organic template and other raw materials in the synthesis system, so the yield of the nanometer Y type molecular sieve is improved to 40% or above; and the particle size of the above product is 100nm or below, and the time required by every crystallization is short.

Description

technical field [0001] The invention belongs to the field of chemical technology, and in particular relates to a synthesis process for improving the yield of nanometer Y-type molecular sieves. Background technique [0002] Molecular sieves are materials containing precise and single tiny pores that can be used to adsorb gases or liquids. Sufficiently small molecules can be adsorbed through the pores, while larger molecules cannot. Unlike a normal sieve it operates on a molecular level. For example, a water molecule small enough to pass through but a molecule slightly larger than it cannot. Therefore, molecular sieves are often used as desiccants. A molecular sieve can absorb up to 22% of its own weight in water. Molecular sieves are often used in the petroleum industry, especially for the purification of gases. In the current synthesis process for improving the yield of nanometer Y-type molecular sieves, the process flow is not easy to implement, the separation effici...

Claims

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Application Information

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IPC IPC(8): C01B39/24
Inventor 赵建英
Owner 赵建英
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