CN103318917A

CN103318917A - Preparation of highly oriented AEL aluminophosphate molecular sieve membrane supported by alumina carrier

Info

Publication number: CN103318917A
Application number: CN2012100771058A
Authority: CN
Inventors: 田志坚; 李科达; 厉晓蕾; 王磊; 马怀军; 徐仁顺; 王炳春
Original assignee: Dalian Institute of Chemical Physics of CAS
Current assignee: Dalian Institute of Chemical Physics of CAS
Priority date: 2012-03-21
Filing date: 2012-03-21
Publication date: 2013-09-25
Anticipated expiration: 2032-03-21
Also published as: CN103318917B

Abstract

The invention specifically relates to a preparation method of a highly C axis oriented AEL structure aluminophosphate molecular sieve membrane supported by a porous alumina carrier. According to the method, an ionic liquid is taken as a reaction medium, and under the auxiliary effect of a mineralizer, the porous alumina carrier reacts with a phosphorus-containing compound, so that the highly C axis oriented AEL structure microporous aluminophosphate molecular sieve membrane can be synthesized on the surface of the alumina carrier. The highly C axis oriented AEL molecular sieve membrane prepared by the method involved in the invention has good gas permeation separation performance. The method provided in the invention is characterized by synthesis of the molecular sieve membrane in the ionic liquid, thus overcoming self-generation of high pressure by the system during conventional hydrothermal synthesis of a molecular sieve membrane. The method involved in the invention has the advantages of environmental-friendliness and simple operation.

Description

The preparation of the height-oriented AEL aluminium phosphate molecular sieve film that alumina supporter supports

Technical field

The invention relates to a kind of ion process for thermosynthesizing of microporous aluminophosphates molecular screen membrane, more precisely about a kind of have the zeolite structured aluminium phosphate molecular sieve film of height C axle orientation AEL type with and preparation method thereof.

Background technology

Molecular sieve is the inorganic microporous material that a class has the regular pore canal structure.In decades, investigator and engineering staff are devoted to study and the catalyzer of the molecular sieve that synthesizes different ducts feature as specific chemical reaction process always.Continuous progress along with science and technology, can be with the molecular sieve film forming if people recognize gradually, just can binding molecule the characteristics that have of sieve material and thin-film material, greatly widen its Application Areas: the accurate molecule screening function that utilizes the microporous molecular sieve duct, efficient was high when simultaneously the combination film material was as separating film, energy consumption is low, continuous production, handiness is strong and the characteristics such as environmental protection, realize blending ingredients efficiently, continuous separate from.Even to this day, because molecular screen material has diversified skeleton pore passage structure, the in addition adjustable sex change of mould material microtexture, the research report of relevant molecular screen membrane is increasing, and vitality also will be continued to shine in this field.

For certain specific molecular sieve structure, shape and the pore size of duct in its structure on crystallography a, b, c direction is not quite similar, differ greatly owing to the rate of diffusion of guest molecule in the duct of different shapes and pore size in the application and separate, therefore controlled synthetic height-oriented molecular screen membrane has very high using value at separation field.AEL type molecular sieve is a kind of of aluminium phosphate molecular sieve, contains the one dimension ten-ring straight hole structure of prolonging the c-axis direction, and the duct is oval, and size is 4.0 * 6.5nm.Its aperture less than branched paraffin, therefore has application prospect aspect the separation of height C axle orientation AEL molecular screen membrane long chain alkane isomers in industrial gas oil greater than straight-chain paraffin.Traditional molecular screen membrane prepares synthetic method and mainly contains: (1) in situ synthesis, and in synthetic liquid, crystallization obtains molecular screen membrane after processing with the substrate direct impregnation; (2) diauxic growth method also is the most frequently used a kind of masking strategy, adheres to first the nano-class molecular sieve crystal of one deck pre-synthesis as crystal seed in substrate, immerses in the synthetic liquid to continue crystallization again, forms continuous molecular screen membrane.There is certain weak point in above-mentioned preparation method: in-situ synthesis is stricter to the requirement of substrate and synthesis condition; The secondary synthesis method inevitably will prepare the nano-class molecular sieve crystal in advance as crystal seed, is coated with thereupon heavy complexity of membrane process; In addition, because these two kinds of methods are all based on the Hydrothermal Synthesis technology, the system's autogenous pressure that produces in its building-up process can cause certain potential safety hazard; The a large amount of acid-base waste fluids that produce in the building-up process in addition also can cause certain pollution to environment.

2004, the people such as Russel E professor Morris of Britain University of St Andrews reported and have used ionic liquid as the ion thermal synthesis method of solvent and the synthetic microporous aluminium phosphate molecular sieve of template, i.e. ion thermal synthesis method.Ionic liquid be a kind of fusing point at the low temperature molten salt of near room temperature, generally consisted of by organic cation and inorganic anion.With traditional molecule-type solvent phase ratio, the ionic liquid vapour pressure is almost nil, is non-volatile liquid; Therefore compare with Hydrothermal Synthesis and the solvent process for thermosynthesizing of routine, ion thermal synthesis reaction can be carried out under normal pressure, so just can eliminate because the potential safety hazard that the spontaneous high pressure of solvent brings in the reaction process.In addition, in the process of the hot method synthetic inorganic material of ion, ionic liquid not only can be used as solvent, sometimes can also participate in building-up reactions as template, and these characteristics all meet the Green Chemistry requirement very much, and building-up process is fool proof, environmental protection.

Can find out from above introduction to molecular screen membrane and ion thermal synthesis, if the hot method of ion can be applied to the synthetic field of molecular screen membrane, will be expected to develop a kind of simple and easy, environmental protection, molecular screen membrane preparation method fast.

Summary of the invention

The object of the invention is to propose the preparation method of the height C axle orientation AEL structure aluminium phosphate molecular sieve film that a kind of porous alumina carrier supports.

Synthetic method provided by the present invention adopts the synthetic method feature to be: take ionic liquid as reaction medium, take porous alumina carrier as supporter, at the synthetic height of supporting body surface C axle orientation AEL type microporous aluminophosphates molecular screen membrane.

Specific operation process is as follows,

1) preparation precursors reaction solution: in ionic liquid, add phosphorous raw material and mineralizer, the rear formation precursors reaction solution that stirs, P in the reaction soln ₂O ₅: F ^-: the molar ratio of ionic liquid is 1: 1～20: 40～400;

For under the normal temperature for liquid or through with the reactant mix and blend after can be formed directly in the ionic liquid of solution, need not heat in the precursors reaction solution preparation process; For still being solid-state ionic liquid, preparation precursors reaction liquid (temperature can be 80～120 ℃) under the temperature of its fusing point should be higher than behind mix and blend;

2) porous alumina carrier is inserted above-mentioned precursors reaction solution, under 100～300 ℃, carry out crystallization, crystallization time 〉=1 minute;

3) crystallization finishes, and takes out porous alumina carrier, remove organic formwork after, obtain height C axle orientation AEL aluminium phosphate molecular sieve film.

1. the height C axle orientation AEL aluminium phosphate molecular sieve film of preparing with aforesaid method determines that by comparing with XRD powder diffraction data storehouse card the molecular sieve crystal that consists of this molecular screen membrane has the AEL structure that International Zeolite Association is confirmed, the molecular sieve crystal that forms this molecular screen membrane has one dimension ten-ring straight hole structure, and its X-ray diffraction spectrogram has following at least listed diffraction peak:

2 θ value representation diffraction peak positions, 2 θ/°: 8.03 ± 0.2; 9.40 ± 0.2; 13.12 ± 0.2; 15.63 ± 0.2; 16.20 ± 0.2; 18.95 ± 0.2; 20.37 ± 0.2; 20.93 ± 0.2; 22.10 ± 0.2; 22.43 ± 0.2; 22.70 ± 0.2; 23.17 ± 0.2; 24.70 ± 0.2; 26.54 ± 0.2

Above-mentioned synthetic method intermediate ion liquid is for having following positively charged ion: quaternary ammonium alkyl salt ion [NR ₄] ⁺, alkyl quaternary phosphine ion [PR ₄] ⁺, the imidazol ion [Rim] that alkyl replaces ⁺, the pyridinium ion [Rpy] that alkyl replaces ⁺In a kind of ionic liquid, R is the alkyl of C1-C16; The negatively charged ion of ionic liquid can be: Br ^-, Cl ^-, I ^-, BF ₄ ^-, PF ₆ ^-, PO ₄ ^3-, NO ₃ ^-, 5O ₄ ^2-In a kind of.

Phosphorous raw material is one or more in phosphoric acid, ammonium phosphate, ammonium hydrogen phosphate or the primary ammonium phosphate, is preferably 85% phosphoric acid.

Mineralizer is one or more in hydrofluoric acid, Neutral ammonium fluoride or the Sodium Fluoride, is preferably 40% hydrofluoric acid.

Take porous alumina carrier as supporter.Porous alumina carrier is by extrusion process, teeming practice or Method for bonding preparation; It is shaped as the various shapes such as round sheet, Polygons sheet or cylindrical; Its material is gama-alumina, δ-aluminum oxide or θ-aluminum oxide.

P in the precursors reaction solution in the precursors reaction solution in the above-mentioned synthetic method ₂O ₅: F ^-: the preferred molar ratio example of ionic liquid is 1: 1～4: 40～160.

Preferred crystallization temperature is 120～280 ℃ in the above-mentioned synthetic method step, and preferred crystallization time is 0.5～480h.

After crystallization finishes, the molecular screen membrane that is synthesized is carried out X-ray diffraction characterize to determine its structure.For at the synthetic molecular screen membrane of chip carrier, can directly characterize its surface; For molecular screen membrane synthetic on the tubular carrier, need molecular sieve crystal with carrier surface scrape and characterize.

The method of removing template in the molecular screen membrane duct is: the temperature rise rate with 0.2～1K/min under air atmosphere rises to 500～550 ℃ from room temperature, and keeps 4～8h; Or the temperature rise rate with 0.2～1K/min rises to 500～550 ℃ from room temperature under rare gas element (nitrogen) atmosphere, and keep 4～8h; Or the temperature rise rate with 1～5K/min rises to 150～250 ℃ from room temperature under ozone atmosphere, and keep 4～8h;

Adopt the experiment of single-component gas-permeable that the height C axle orientation AEL molecular screen membrane of removing template is carried out the penetrating quality analysis, namely under certain temperature and pressure condition, gas with various determines by the ratio of flow and the size of corresponding Knudsen diffusion coefficient whether the molecular screen membrane of surveying possesses preferably gas-permeable separation performance by comparing gas with various by the flow of certain molecular screen membrane in unit of measure's time respectively.

For certain specific molecular sieve structure, shape and the pore size of duct in its structure on crystallography a, b, c direction is not quite similar, differ greatly owing to the rate of diffusion of guest molecule in the duct of different shapes and pore size in the application and separate, therefore controlled synthetic height-oriented molecular screen membrane has very high using value at separation field.AEL type molecular sieve is a kind of of aluminium phosphate molecular sieve, contains the one dimension ten-ring straight hole structure of prolonging the c-axis direction, and the duct is oval, and size is 4.0 * 6.5nm.Its aperture less than branched paraffin, therefore has application prospect aspect the separation of height C axle orientation AEL molecular screen membrane long chain alkane isomers in industrial gas oil greater than straight-chain paraffin.

The present invention can prepare the high C-axis orientation AEL type aluminium phosphate molecular sieve film that not yet can prepare so far under hydrothermal condition take ionic liquid as reaction medium.Porous alumina carrier is participated in building-up reactions directly as supporter and aluminium source simultaneously, has overcome under the ion heat condition, and the required molecular sieve crystal seed of film forming is difficult to be attached to the difficulty of carrier surface.The ionic liquid vapour pressure is almost nil, and the present invention does not produce the spontaneous high pressure of system in preparation process.The molecular screen membrane that is synthesized possesses good gas delivery penetrating quality.The inventive method has environmental friendliness, and advantage easy and simple to handle is particularly advantageous in the large-scale production of molecular screen membrane.

Description of drawings

Fig. 1 is the XRD spectra of the height C axle orientation AEL type aluminium phosphate molecular sieve film that synthesized of the embodiment of the invention 1;

Fig. 2 is the SEM electromicroscopic photograph of the height C axle orientation AEL type aluminium phosphate molecular sieve film that synthesized of the embodiment of the invention 1;

Fig. 3 is the single-component gas-permeable experimental data of the height C axle orientation AEL type aluminium phosphate molecular sieve film that synthesized of the embodiment of the invention 1.

Embodiment

Embodiment 1

76.4 gram 1-ethyl-3-methyl bromination imidazole ion liquids being added in 100 ml beakers, be warming up to 100 ℃, evenly drip 0.5 gram mass concentration and be 40% hydrofluoric acid, stirs 2 hours to even, is 85% phosphoric acid to wherein dripping 2.3 gram mass concentration, P ₂O ₅: F ^-: the molar ratio of ionic liquid is 1: 1: 40, continue to stir 10 minutes, then reaction solution is poured in the reactor of having placed in advance δ-round sheet alumina supporter, noticed that carrier need be submerged in the reaction solution fully, the amount ratio of supporter and precursors reaction solution is 0.5 (cm ²Ml ^-1Supporting body surface is long-pending), reactor is warming up to 150 ℃, kept 12 hours, subsequently reactor is down to room temperature, take out carrier, deionized water for ultrasonic washing three times, and use the acetone washing by soaking.Place 110 ℃ of baking ovens to dry in washing carrier later.Temperature rise rate with 1K/min in air atmosphere rises to 550 ℃ from room temperature, and keeps 6h, removes the organism in the molecular screen membrane duct, thereby obtains height-oriented AEL type molecular screen membrane.

As seen from Figure 1, the molecular screen membrane of preparing is pure phase, does not contain stray crystal; As seen from Figure 2, the molecular screen membrane of preparing is fine and close, and is complete, continuously; Thickness is about 40 microns; As seen from Figure 3, prepared molecular screen membrane possesses good gas permeability.

Embodiment 2

76.4 gram 1-ethyl-3-methyl bromination imidazole ion liquids being added in 100 ml beakers, be warming up to 120 ℃, evenly drip 1 gram mass concentration and be 40% hydrofluoric acid, stirs 2 hours to even, is 85% phosphoric acid to wherein dripping 1.15 gram mass concentration, P ₂O ₅: F ^-: the molar ratio of ionic liquid is 1: 4: 80, continue to stir 10 minutes, then reaction solution is poured in the reactor of having placed in advance δ-round sheet alumina supporter, noticed that carrier need be submerged in the reaction solution fully, the amount ratio of supporter and precursors reaction solution is 0.6 (cm ²Ml ^-1Supporting body surface is long-pending), reactor is warming up to 160 ℃, kept 24 hours, subsequently reactor is down to room temperature, take out carrier, deionized water for ultrasonic washing three times, and use the acetone washing by soaking.Place 110 ℃ of baking ovens to dry in washing carrier later.Temperature rise rate with 1K/min in air atmosphere rises to 550 ℃, and keeps 6h, removes the organism in the molecular screen membrane duct, thereby obtains height-oriented AEL type molecular screen membrane.

Embodiment 3

76.4 gram 1-ethyl-3-methyl bromination imidazole ion liquids being added in 100 ml beakers, be warming up to 90 ℃, evenly drip 1 gram mass concentration and be 40% hydrofluoric acid, stirs 2 hours to even, is 85% phosphoric acid to wherein dripping 0.23 gram mass concentration, P ₂O ₅: F ^-: the molar ratio of ionic liquid is 1: 20: 200, continue to stir 10 minutes, then reaction solution is poured in the reactor of having placed in advance θ-square sheet alumina supporter, noticed that carrier need be submerged in the reaction solution fully, the amount ratio of supporter and precursors reaction solution is 0.4 (cm ²Ml ^-1Supporting body surface is long-pending), reactor is warming up to 120 ℃, kept 480 hours, subsequently reactor is down to room temperature, take out carrier, deionized water for ultrasonic washing three times, and use the acetone washing by soaking.Place 110 ℃ of baking ovens to dry in washing carrier later.Temperature rise rate with 1K/min in air atmosphere rises to 550 ℃, and keeps 6h, removes the organism in the molecular screen membrane duct, thereby obtains height-oriented AEL type molecular screen membrane.

Embodiment 4

76.4 gram 1-ethyl-3-methyl bromination imidazole ion liquids being added in 100 ml beakers, be warming up to 100 ℃, evenly drip 2 gram mass concentration and be 40% hydrofluoric acid, stirs 2 hours to even, is 85% phosphoric acid to wherein dripping 1.15 gram mass concentration, P ₂O ₅: F ^-: the molar ratio of ionic liquid is 1: 8: 80, continue to stir 10 minutes, then reaction solution is poured in the reactor of having placed in advance γ-cylindrical alumina supporter, noticed that carrier need be submerged in the reaction solution fully, the amount ratio of supporter and precursors reaction solution is 0.5 (cm ²Ml ^-1Supporting body surface is long-pending), reactor is warming up to 280 ℃, kept 0.5 hour, subsequently reactor is down to room temperature, take out carrier, deionized water for ultrasonic washing three times, and use the acetone washing by soaking.Place 110 ℃ of baking ovens to dry in washing carrier later.Temperature rise rate with 1K/min in air atmosphere rises to 550 ℃, and keeps 6h, removes the organism in the molecular screen membrane duct, thereby obtains height-oriented AEL type molecular screen membrane.

Embodiment 5

76.4 gram 1-ethyl-3-methyl bromination imidazole ion liquids are added in 100 ml beakers, be warming up to 100 ℃, evenly drip 1 gram mass concentration and be 40% hydrofluoric acid, stirs 2 hours to evenly, restrain ammonium hydrogen phosphates, P to wherein adding 1.32 ₂O ₅: F ^-: the molar ratio of ionic liquid is 1: 4: 80, continue to stir 10 minutes, then reaction solution is poured in the reactor of having placed in advance δ-square sheet alumina supporter, noticed that carrier need be submerged in the reaction solution fully, the amount ratio of supporter and precursors reaction solution is 0.2 (cm ²Ml ^-1Supporting body surface is long-pending), reactor is warming up to 150 ℃, kept 12 hours, subsequently reactor is down to room temperature, take out carrier, deionized water for ultrasonic washing three times, and use the acetone washing by soaking.Place 110 ℃ of baking ovens to dry in washing carrier later.Temperature rise rate with 1K/min in nitrogen atmosphere rises to 550 ℃, and keeps 6h, removes the organism in the molecular screen membrane duct, thereby obtains height-oriented AEL type molecular screen membrane.

Embodiment 6

76.4 gram 1-ethyl-3-methyl bromination imidazole ion liquids are added in 100 ml beakers, be warming up to 90 ℃, evenly add 0.84 gram Sodium Fluoride, stir 2 hours to evenly, to wherein adding 1.15 gram primary ammonium phosphates, P ₂O ₅: F ^-: the molar ratio of ionic liquid is 1: 4: 80, continue to stir 10 minutes, then reaction solution is poured in the reactor of having placed in advance δ-square sheet alumina supporter, noticed that carrier need be submerged in the reaction solution fully, the amount ratio of supporter and precursors reaction solution is 0.8 (cm ²Ml ^-1Supporting body surface is long-pending), reactor is warming up to 150 ℃, kept 12 hours, subsequently reactor is down to room temperature, take out carrier, deionized water for ultrasonic washing three times, and use the acetone washing by soaking.Place 110 ℃ of baking ovens to dry in washing carrier later.Temperature rise rate with 1K/min in nitrogen atmosphere rises to 550 ℃, and keeps 6h, removes the organism in the molecular screen membrane duct, thereby obtains height-oriented AEL type molecular screen membrane.

Embodiment 7

76.4 gram 1-ethyl-3-methyl bromination imidazole ion liquids being added in 100 ml beakers, be warming up to 100 ℃, evenly add 0.74 gram Neutral ammonium fluoride, stirs 2 hours to even, is 85% phosphoric acid to wherein dripping 1.15 gram mass concentration, P ₂O ₅: F ^-: the molar ratio of ionic liquid is 1: 4: 80, continue to stir 10 minutes, then reaction solution is poured in the reactor of having placed in advance δ-round sheet aluminum oxide, noticed that carrier need be submerged in the reaction solution fully, the amount ratio of supporter and precursors reaction solution is 0.5 (cm ²Ml ^-1Supporting body surface is long-pending), reactor is warming up to 150 ℃, kept 12 hours, subsequently reactor is down to room temperature, take out carrier, deionized water for ultrasonic washing three times, and use the acetone washing by soaking.Place 110 ℃ of baking ovens to dry in washing carrier later.Temperature rise rate with 4K/min in the air atmosphere that contains ozone 50mg/L rises to 140 ℃, and keeps 8h, removes the organism in the molecular screen membrane duct, thereby obtains height-oriented AEL type molecular screen membrane.

Embodiment 8

82.0 gram 1-propyl group-3-methyl chlorination imidazole ion liquids are added in 100 ml beakers, be warming up to 90 ℃, evenly add 0.37 gram Neutral ammonium fluoride and 0.42 gram Sodium Fluoride, stir 2 hours to even, to wherein adding 0.66 gram ammonium hydrogen phosphate and 0.575 gram primary ammonium phosphate, P ₂O ₅: F ^-: the molar ratio of ionic liquid is 1: 4: 80, continue to stir 10 minutes, then reaction solution is poured in the reactor of having placed in advance δ-cylinder shape tubulose aluminum oxide, noticed that carrier need be submerged in the reaction solution fully, the amount ratio of supporter and precursors reaction solution is 0.5 (cm ²Ml ^-1Supporting body surface is long-pending), reactor is warming up to 150 ℃, kept 12 hours, subsequently reactor is down to room temperature, take out carrier, deionized water for ultrasonic washing three times, and use the acetone washing by soaking.Place 110 ℃ of baking ovens to dry in washing carrier later.Temperature rise rate with 4K/min in the air atmosphere that contains ozone 50mg/L rises to 200 ℃, and keeps 6h, removes the organism in the molecular screen membrane duct, thereby obtains height-oriented AEL type molecular screen membrane.

The XRD diffraction peak position of sample and relatively strong and weak in table 1 embodiment of the invention 1～8

As seen from the above table, in the Reaction conditions range that present method is stated, all can prepare height-oriented AEL type aluminium phosphate molecular sieve film.

Claims

1. the preparation of the height-oriented AEL aluminium phosphate molecular sieve film of alumina supporter support, it is characterized in that: take ionic liquid as reaction medium, take porous alumina carrier as supporter, at the synthetic height of supporting body surface C axle orientation AEL type microporous aluminophosphates molecular screen membrane;

Specific operation process is as follows,

1) preparation precursors reaction solution: in ionic liquid, add phosphorous raw material, mineralizer, the rear formation precursors reaction solution that stirs, P in the reaction soln ₂O ₅: mineralizer: the molar ratio of ionic liquid is 1: 1～20: 40～400;

2. in accordance with the method for claim 1, it is characterized in that: the molecular sieve crystal that consists of this molecular screen membrane has the AEL structure that International Zeolite Association is confirmed, the molecular sieve crystal that forms this molecular screen membrane has one dimension ten-ring straight hole structure, and its X-ray diffraction spectrogram has following at least listed diffraction peak:

2 θ value representation diffraction peak positions, 2 θ/°: 8.03 ± 0.2; 9.40 ± 0.2; 13.12 ± 0.2; 15.63 ± 0.2; 16.20 ± 0.2; 18.95 ± 0.2; 20.37 ± 0.2; 20.93 ± 0.2; 22.10 ± 0.2; 22.43 ± 0.2; 22.70 ± 0.2; 23.17 ± 0.2; 24.70 ± 0.2; 26.54 ± 0.2.

3. according to preparation method claimed in claim 1, it is characterized in that: the mineralizer that adds is for containing F ^-Compound, F in precursors reaction solution ^-With the mol ratio of ionic liquid be 1: 20～160.

4. according to preparation method claimed in claim 1, it is characterized in that: reaction medium is ionic liquid, and this ionic liquid can have following positively charged ion: quaternary ammonium alkyl salt ion [NR ₄] ⁺, alkyl quaternary phosphine ion [PR ₄] ⁺, the imidazol ion [Rim] that alkyl replaces ⁺, the pyridinium ion [Rpy] that alkyl replaces ⁺In a kind of, R is the alkyl of C1-C16; Wherein the negatively charged ion of ionic liquid can be: Br ^-, Cl ^-, I ^-, BF ₄ ^-, PF ₆ ^-, PO ₄ ^3-, NO ₃ ^-, SO ₄ ^2-In a kind of.

5. according to preparation method claimed in claim 1, it is characterized in that: phosphorous raw material is one or more in phosphoric acid, ammonium phosphate, ammonium hydrogen phosphate or the primary ammonium phosphate;

Mineralizer is one or more in hydrofluoric acid, Neutral ammonium fluoride or the Sodium Fluoride.

6. according to preparation method claimed in claim 1, it is characterized in that: take porous alumina carrier as supporter, the aluminum oxide crystalline phase of porous alumina carrier can be a kind of in gama-alumina, δ-aluminum oxide or the θ-aluminum oxide;

The amount ratio of supporter and precursors reaction solution is calculated by the long-pending ratio of the surface-area of the supporter that contacts with solution and precursors reaction liquid, is 0.2～0.8cm corresponding to every ml solution ²The surface-area of supporter.

7. according to preparation method claimed in claim 1, it is characterized in that: P in the precursors reaction solution ₂O ₅: mineralizer F ^-: the molar ratio of ionic liquid is 1: 1～4: 40～160.

8. according to preparation method claimed in claim 1, it is characterized in that: crystallization temperature is 120～280 ℃, crystallization time 0.5～480h.

9. according to preparation method claimed in claim 1, it is characterized in that: water content is the 0-10wt% of precursors reaction solution weight in the described precursors reaction solution.

10. according to preparation method claimed in claim 9, it is characterized in that: the water in the described precursors reaction solution can be brought into by raw material, also can additionally add.