Rare-earth cerium doped alumina nano fiber catalyst carrier material and preparation method thereof

A catalyst carrier, alumina nanotechnology, applied in the direction of catalyst carrier, catalyst activation/preparation, metal/metal oxide/metal hydroxide catalyst, etc., can solve the problems of catalyst catalytic performance reduction, specific surface area reduction, etc., to improve High heat resistance, specific surface area, high porosity, and large specific surface area

Inactive Publication Date: 2009-12-02
TIANJIN POLYTECHNIC UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, due to alumina (Al 2 o 3 ) has a variety of crystal structures, among which γ-Al 2 o 3 With the characteristics of large specific surface area and high reactivity, it can be used for petroleum cracking, automobile exhaust purification catalysts and their carrier materials. Under high temperature conditions, Al 2 o 3 Through the migration of anion and cation vacancies on the surface, the γ crystal form will change to the θ and α crystal forms, thereby reducing the specific surface area and reducing the catalytic performance of the catalyst.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0019] Take 3g of polyvinylpyrrolidone and pour it into 72.2mL of ethanol solvent, stir at high speed until it is completely dissolved to obtain a 5% polyvinylpyrrolidone ethanol solution, weigh 1g of anhydrous aluminum chloride and dissolve in 9mL of distilled water, 0.25 g cerium chloride was dissolved in 2.7mL distilled water, then the three solutions were mixed and stirred at high speed for 1 hour to obtain a sol-gel electrospinning solution; the prepared sol-gel spinning solution was injected into the electrospinning device, Under the conditions of voltage of 25kV, extrusion speed of 10mL / h, and receiving distance of 10cm, polyvinylpyrrolidone / aluminum chloride-cerium chloride organic-inorganic hybrid nanofiber membrane was electrospun; finally, the prepared nanofiber membrane was placed In a muffle furnace, the temperature was raised to 700° C. at a rate of 50° C. / h, and calcined for 10 hours to obtain a cerium-doped alumina nanofiber membrane catalyst support material. ...

Embodiment 2

[0021]Pour 3g of polyoxyethylene into 59.5mL of water solvent, stir at high speed until completely dissolved, and obtain a polyoxyethylene aqueous solution with a concentration of 6%. Weigh 2.4g of aluminum nitrate and dissolve in 8mL of distilled water, 0.6g of nitric acid Cerium was dissolved in 3.6mL distilled water, then the three solutions were mixed and stirred at high speed for 1 hour to obtain a sol-gel electrospinning solution; the obtained sol-gel spinning solution was injected into the electrospinning device, and the voltage was 30kV, the extrusion speed is 2mL / h, and the receiving distance is 10cm under the conditions of electrospinning into polyoxyethylene / aluminum nitrate-cerium nitrate organic-inorganic hybrid nanofiber membrane; finally, the prepared nanofiber membrane is placed in a muffle furnace, The temperature was raised to 800° C. at a rate of 80° C. / h, and calcined for 7 hours to prepare a cerium-doped alumina nanofiber membrane catalyst support material....

Embodiment 3

[0023] Take 3g of polyvinyl alcohol and pour it into 50.5mL of water solvent, stir at a high speed until it is completely dissolved, and prepare a polyvinyl alcohol / water solution with a concentration of 7%. Weigh 2g of anhydrous aluminum chloride and dissolve it in 10mL of distilled water, 0.5 g cerium nitrate was dissolved in 2mL distilled water, then the three solutions were mixed and stirred at high speed for 1 hour to obtain a sol-gel electrospinning solution; the prepared sol-gel spinning solution was injected into an electrospinning device, and the The electrospun polyvinyl alcohol / aluminum chloride-cerium nitrate organic-inorganic hybrid nanofiber membrane was electrospun under the conditions of 30kV, extrusion speed of 3mL / h, and receiving distance of 15cm; finally, the prepared nanofiber membrane was placed in a muffle In the furnace, the temperature was raised to 900° C. at a rate of 100° C. / h, and calcined for 5 hours to prepare a cerium-doped alumina nanofiber memb...

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Abstract

The invention relates to a rare-earth cerium doped alumina nano fiber membrane catalyst carrier material and preparation technology thereof. The nano fiber membrane catalyst carrier material consists of gamma-type alumina nano fiber with the diameter ranging from 50 to 200 nm, and the mass percentage formula of the fiber comprises 80 to 95 weight percent of alumina and 5 to 20 weight percent of cerium oxide. The preparation method of the catalyst carrier material adopts the mass percentage formula and following process steps: (1) preparing sol-gel electrostatic spinning solution; (2) preparing an organic / inorganic hybrid nano fiber material by the prepared sol-gel spinning solution by electrostatic spinning; and (3) putting the prepared nano fiber membrane in a muffle furnace, and calcining the nano fiber membrane at a high temperature to obtain the alumina nano fiber membrane catalyst carrier material. The prepared rare-earth cerium doped alumina nano fiber membrane is a catalyst and a carrier material with high specific surface area, good heat stability and excellent mechanical property, greatly improves the phase transition temperature of the gamma-Al2O3 nano fiber carrier material through doping the rare-earth cerium, and simultaneously endows the material with excellent oxygen storage and release function.

Description

technical field [0001] The invention relates to a method for preparing inorganic nano-oxide fibers, in particular to the technical field of preparation of rare earth cerium-doped alumina nanofiber membrane catalyst carrier materials by an electrospinning method. Background technique [0002] Alumina fiber is a new type of ultra-light high-temperature refractory material. Compared with non-oxide fibers such as carbon fiber and silicon carbide fiber, alumina fiber not only has excellent properties such as high strength, high modulus, and good chemical resistance, And it also has good high temperature oxidation resistance, corrosion resistance and electrical insulation. At present, many companies at home and abroad have produced various types of high-performance alumina fibers. DuPont of the United States uses the slurry method to produce FP alumina fibers, with an alumina content of 99.9% [Lavaste V, Berger M H, Bunsell A R et al.Microstructure and mechanical characteristics ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J32/00B01J23/10B01J21/04B01J35/06B01J37/00B01J37/08C10G11/02B01D53/94
Inventor 康卫民程博闻付文丽李全祥任元林庄旭品
Owner TIANJIN POLYTECHNIC UNIV
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