Rare-earth ultrastable Y-type molecular sieve and preparation method thereof

A molecular sieve and rare earth technology, applied in molecular sieve catalysts, chemical instruments and methods, catalyst activation/preparation, etc., can solve the problems of poor thermal stability and dispersibility, human and environmental toxicity, and poor retention rate, and achieve dispersibility and stability. Good properties, strong conversion of heavy oil and moderate rare earth content

Active Publication Date: 2014-08-06
PETROCHINA CO LTD
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  • Application Information

AI Technical Summary

Problems solved by technology

The preparation process of the molecular sieve is complicated, the cost is high, and the raw materials have certain toxic effects on the human body and the environment
[0012] Chinese patent CN1629258 discloses a preparation method of a rare earth ultra-stable Y-type molecular sieve. In this method, NaY molecular sieve and an aqueous solution containing 6-94 wt% ammonium salt are subjected to conditions of normal pressure and a temperature greater than 90°C to not greater than the boiling point of the ammonium salt aqueous solution. Next, according to the weight ratio of ammonium salt and molecular sieve 0.1 to 24, contact twice or more to make the Na in the molecular sieve 2 The O content is reduced to below 1.5wt%, and then an aqueous solution with a rare earth salt content of 2 to 10wt% is used to contact the molecular sieve at 70°C to 95°C, so that the rare earth content in the molecular sieve is 0.5 to 18wt% (in RE 2 o 3 In the preparation process of the molecular sieve, multiple ammonium salt exchanges are required, the preparation process is cumbersome, the ammonia nitrogen pollution is serious, and the cost is high
[0014] From the point of view of the prior art, since the NaY molecular sieve crystallization slurry prepared by the hydrothermal method contains a large amount of unreacted amorphous colloids, the colloids cannot be effectively removed in the subsequent separation process, resulting in the low crystallinity of the prepared NaY molecular sieves. Poor stability and dispersibility
In the existing molecular sieve exchange process, there is a competitive exchange between rare earth ions and ammonium ions, the utilization efficiency of rare earth ions is low, the crystallinity of molecular sieves is low, and the retention rate is poor
The preparation process of rare earth Y-type molecular sieve is complicated, the cost is high, and it is mostly synthesized from environmentally polluting raw materials, which has adverse effects on the environment and human body, and the existing methods do not have the function of improving the dispersion of molecular sieves

Method used

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  • Rare-earth ultrastable Y-type molecular sieve and preparation method thereof
  • Rare-earth ultrastable Y-type molecular sieve and preparation method thereof
  • Rare-earth ultrastable Y-type molecular sieve and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0048] Take 500ml of fresh NaY crystallization slurry, and maintain the crystallization slurry temperature at 60°C. Filter and separate the molecular sieve crystallization slurry on a simulated belt filter. When the filter cake is not cracked, wash the molecular sieve filter cake with 300ml of 0.02mol / l (pH 12.3) NaOH solution (50°C), dry it, and record the sample for S-1.

Embodiment 2

[0061] Using S-1 molecular sieve as raw material, cross-baked RE, H(Na)Y molecular sieve was prepared. The molecular sieve cross-baking process is as follows: at room temperature, beat 50g of S-1 molecular sieve (on a dry basis) with 250g of distilled water, and after the S-1 is uniformly dispersed, add 2.1ml of dilute hydrochloric acid (13-15wt%), NaY The pH of the molecular sieve slurry was 4.0, and the reaction was carried out at room temperature for 30 min. After the reaction is finished, the molecular sieve slurry is rapidly heated to 95°C, and 6.7ml of lanthanum nitrate solution (La 2 o 3 , 298.2g / l), react at 95°C for 60min. At the end of the reaction, filter and separate the molecular sieve on a simulated belt filter, and when the molecular sieve filter cake is not cracked, add 54ml of 140g / l ammonium chloride solution (90°C) and 250ml of distilled water (90°C) to wash the molecular sieve filter cake . The filter cake was collected and the molecular sieve filter ca...

Embodiment 3

[0071] Example 3 Using S-1 molecular sieve as raw material, adopting the exchange process of S-2 sample, filtering and separating on a simulated belt filter to obtain RE, NH 4 (Na)Y filter cake. The molecular sieve filter cake was roasted on a rotary furnace, the roasting temperature was 600°C, the residence time of the samples was 120 min., and the roasting atmosphere was 100% water vapor. The sample obtained by roasting is cross-calcined molecular sieve, and the sample is recorded as S-3.

[0072] Table 4: Effects of cross-baking conditions on the physical and chemical properties of molecular sieves

[0073] sample

[0074] Table 4 shows the physical and chemical properties of cross-baked molecular sieves. It can be seen from Table 4 that the use of two-stage temperature-controlled rotary furnace roasting can improve the crystallinity of molecular sieves and reduce the Na in molecular sieves. 2 O content.

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Abstract

The invention relates to a high-dispersion rare-earth ultrastable Y-type molecular sieve and a preparation method thereof, and in particular to a modified molecular sieve for preparation of a catalytic cracking catalyst and a preparation method thereof. Since the NaY molecular sieve in the invention is pretreated, the physical and chemical properties such as degree of crystallinity, dispersibility and stability of the zeolite NaY can be improved significantly. Compared with the ultrastable molecular sieve with the same rare earth content prepared by a conventional method, the rare-earth ultrastable Y-type molecular sieve prepared by the two exchange and two calcination method disclosed by the invention has the characteristics of low rare earth content, good dispersibility and stability, low coke yield and strong heavy oil conversion ability; and the has the process is simple, low in cost and pollution-free.

Description

technical field [0001] The invention relates to a highly dispersed rare earth ultra-stable Y-type molecular sieve and a preparation method thereof, in particular to a modified molecular sieve used for preparing catalytic cracking (FCC) catalysts and a preparation method thereof. Background technique [0002] Rare earth Y-type molecular sieve is one of the main active components of FCC catalysts. Its precursor is NaY molecular sieve, and its physical and chemical properties significantly affect the catalytic characteristics of the active component. [0003] The hydrothermal synthesis process of the precursor NaY molecular sieve is a very complicated process. The NaY molecular sieve crystallization system contains not only small NaY molecular sieve crystal particles, but also inorganic salt ions, as well as a large number of sols and gels. After the hydrothermal crystallization of NaY molecular sieve is completed, the inorganic salt ions and colloids in the molecular sieve ar...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J29/08B01J37/06C10G11/05
Inventor 刘璞生张忠东高雄厚汪毅刘涛樊红超石晓庆王栋张志喜
Owner PETROCHINA CO LTD
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