Production for synthesizing high-content NaY molecular sieve from kaolin atomized microball

一种喷雾微球、高岭土的技术,应用在分子筛催化剂、分子筛和碱交换化合物、化学仪器和方法等方向,能够解决微球抗磨性差、原料要求很高、晶化产物孔结构不够理想等问题,达到改善孔结构、提高分子筛含量的效果

Inactive Publication Date: 2006-05-31
PETROCHINA CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] US4493902 describes the technology of synthesizing crystallized products with high zeolite content containing partial soil and high soil and seeds in the same microsphere. The crystallinity of crystallized products is higher than 40%, but the raw materials used for spray molding in USP4493902 technology are required Very high: use superfine high soil Satone №2 and superfine original soil ASP~600, this kind of superfine soil is expensive and not easy to buy in the market
[0006] EP369629 describes the method of increasing the fine powder high soil in the spray slurry to increase the pore volume of the parent microsphere, and to increase the zeolite content in the microsphere through the increase of the pore volume, which can make the crystallization product crystallinity up to 70%, but the ultrafine powder Shaped kaolin is expensive, and the spray microspheres contain a large amount of kaolin that has been roasted and has poor cohesiveness, which makes the microspheres poor in abrasion resistance
[0007] CN1232862 provides a method for preparing in-situ crystallized high molecular sieve content, but the pore structure of the crystallized product prepared by this method is not ideal, which affects the selectivity of heavy oil and coke
[0008] CN1429883 provides a method for preparing in-situ crystallization products with high molecular sieve content and strong anti-heavy metal ability. From the specific surface results of catalysts shown in the examples, this method does not reach the goal of increasing the molecular sieve content in crystallization products. Purpose

Method used

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  • Production for synthesizing high-content NaY molecular sieve from kaolin atomized microball
  • Production for synthesizing high-content NaY molecular sieve from kaolin atomized microball

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0033] 1500g of kaolin (calcium base), based on the mass of kaolin, 2% of sodium silicate, 12% of silica sol, 1.4% of sodium hydroxide, 2% of starch, 2% of carboxymethyl cellulose, and deionized water were added to prepare The mixed slurry with a kaolin solid content of 33% was spray-dried to obtain 1540 g of kaolin spray microspheres SM1 with a particle size of 20-110 μm.

Embodiment 2

[0035] 1500g of kaolin (calcium base), based on the mass of kaolin, 10% of sodium silicate, 7% of pseudoboehmite, 1.0% of sodium hydroxide, 5% of starch, 2% of graphite powder, and deionized water are added to prepare The mixed slurry with a kaolin solid content of 40% was spray-dried to obtain 1610 g of kaolin spray microspheres SM2 with a particle size of 20-110 μm.

Embodiment 3

[0037] Add 1500g of kaolin (calcium base), based on the mass of kaolin, add 6% sodium silicate, 10% aluminum sol, 1.2% sodium hydroxide, 3% graphite powder, 4% starch, 2% carboxymethyl cellulose, add Deionized water was prepared into a mixed slurry with a kaolin solid content of 47%, and spray-dried to obtain 1532 g of kaolin spray microspheres SM3 with a particle size of 20-110 μm.

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Abstract

Synthesis of high-content NaY molecular sieve from kaolin spray micro-sphere is carried out by taking kaolin as raw materials, adding into functional components, removing ion water to obtain mixed size, spray drying to obtain kaolin micro-sphere, calcining at 700í½1000íÒC, mixed crystallizing by guiding agent, washing and drying by filter cake, or high-temperature baking one part of spray micro-sphere with 20í½110ª–m to obtain high-temperature calcined clay, baking another part of micro-sphere at low temperature to obtain biskaolin, mixing the two baked kaolin, and crystallization reacting under hydrothermal condition to obtain crystallized product containing NaY molecular sieve in proportion of NaY=46í½60% and silicon:aluminium=3.5í½5.5.

Description

technical field [0001] The invention belongs to the field of oil refining catalyst preparation, and relates to a preparation method for synthesizing high-content NaY molecular sieves by kaolin spray microspheres, more specifically, a method for synthesizing NaY molecular sieves by in-situ crystallization using kaolin spray microspheres as raw materials. The crystallization product synthesized by this method can be used as the precursor for preparing catalytic cracking catalyst. Background technique [0002] The usual method for preparing NaY molecular sieves is to synthesize them using an alkaline silica-alumina gel system. Generally, the raw materials used are sodium silicate, aluminum sulfate, sodium metaaluminate, and guiding agent as raw materials. In this way, the synthetic molecular sieve has the characteristics of high molecular sieve content and high silicon-aluminum ratio. Different modification methods can make it have a variety of reaction characteristics. . In ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C01B39/00C01B39/02
CPCB01J29/084B01J37/0018B01J37/0045B01J2229/64C01B39/24
Inventor 高雄厚刘宏海王宝杰段长艳庞新梅张莉赵连鸿马建刚刘蕴恒
Owner PETROCHINA CO LTD
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