CN102909049A - Preparation method for hydrocracking catalyst - Google Patents

Abstract

The invention describes a preparation method for a hydrocracking catalyst. The method comprises the following steps of (1) preparing a catalyst carrier containing a molecular sieve and an inorganic refractory oxide; (2) preparing a dipping solution containing a VIB group metallic compound, a VIII group metallic compound and an inorganic phosphorous-containing compound; (3) dipping the catalyst carrier obtained from the step (1) with the dipping solution prepared by the step (2), and then drying the dipped material; (4) performing heat treatment on the material obtained from the step (3) in an air atmosphere; and (5) performing hydrogen activation on the material obtained from the step (4), and obtaining the hydrocracking catalyst used for hydrocracking reactions after the activation. The hydrocracking catalyst prepared by the method has outstanding usage performance, and is particularly suitable for a hydrocracking process of increasing middle distillates.

Description

The preparation method of hydrocracking catalyst

Technical field

The present invention relates to a kind of preparation method of hydrocracking catalyst, this catalyst has good hydrocracking performance, and active high, middle distillates oil selectivity is high.

Background technology

Hydrocracking catalyst is a kind of bifunctional catalyst, have Hydrogenation and cracking performance, non-noble metal hydrocracking catalyst generally selects VI B and VIII family metal to make hydrogenation component, and cracking performance is mainly provided by acidic components, and acidic components can be selected crystal formation zeolite and/or amorphous aluminum silicide etc.Use amorphous aluminum silicide merely, although selectively higher, active low, operational flexibility is restricted, and all take the crystal formation zeolite as acidic components, or crystal formation zeolite and amorphous aluminum silicide are acidic components jointly in most of hydrocracking catalysts.

The middle oil type hydrocracking catalyst major part of using at present on the commercial plant is the catalyst that contains zeolite, and the zeolite component that adopts mainly is that y-type zeolite, β zeolite and two kinds of zeolites mix use, and catalyst all will carry out presulfurization before reaction, make metal component be converted into sulphided state, to improve the serviceability of catalyst.But use not only contaminated environment, harm operating personnel's health of the higher vulcanizing agent of sulfur content, and sulfidation is numerous and diverse, needs to drop into a lot of manpower and materials.

US4820402 discloses a kind of hydrocracking catalyst, has used the β zeolite, and this patent thinks that in order to improve middle distillates oil selectivity and to reduce the hydrogen consumption, the silica/alumina molecular proportion of the zeolite component in the catalyst is 50:1 at least, general 100:1, even 200:1.The middle distillates oil selectivity that the variety classes zeolite is used for catalyst sequentially is: ZSM-20〉β〉the Y type, process Arabic VGO, in the situation that control 60v% transforms, middle distillates oil selectivity 45-65v%, wherein acidic components are the β zeolite, during conversion ratio 60v%, the catalyst middle distillates oil selectivity that this patent relates to is no more than 70v%.

US4894142 discloses a kind of hydrocracking catalyst, purpose is to improve the middle distillates oil selectivity of catalyst, be characterized in being included in 676-788 ℃ of temperature hydrothermal treatment consists or the best 704 ℃ dry type heat treatment method that passes into inert gas by use, obtained a kind of low acidity Y zeolite, but because this zeolitic acid is spent low, reaction temperature is high when being used for catalytic component processing feedstock oil, generally more than 400 ℃, suppressed hydrogenation reaction, the thermal cracking performance trend of zeolite strengthens, make the middle distillates oil selectivity raising of catalyst not obvious, middle distillates oil selectivity is no more than 70%.

US5447623 discloses hydrocracking catalyst and the technique thereof of a kind of compound β zeolite and Y zeolite, but this catalyst is mainly used in light oil type hydrogen cracking catalyst, example embodies 50-185 °F of naphtha yield and improves obviously, and the use of β zeolite relatively only uses the catalyst activity of Y zeolite also high.Although this catalyst also can be used for oil type hydrocracking catalyst, because the characteristic of the β zeolite that uses, the content range of β zeolite generally is limited between the 2.5w%-10w% in middle oil type catalyst, and generally must be used a kind of γ of being dispersed in-Al ₂O ₃And so on the sial on the macroporous aluminium oxide matrix, the middle oil type catalyst that this patent relates to has to force down activity for guaranteeing middle distillates oil selectivity, makes reaction temperature higher, and is general more than 390 ℃, thereby caused relatively poor adaptability to raw material.

The hydrogenation component of above-mentioned hydrocracking catalyst is the metal component of sulphided state.In the hydrocracking catalyst, although provided by two kinds of components on hydrogenation activity and the cracking activity main body, but in catalyst, the effect of two kinds of components is not well-separated, but the interactional coordinated effect that influences each other, hydrocracking reaction is raw material collaborative reaction finishing in two kinds of activated centres.How to regulate in the hydrocracking catalyst, the correlation of hydrogenation activity component and cracking activity component is the important content that improves hydrocracking catalyst Integrated using performance.

Phosphorus component is one of usual component of hydrocracking catalyst, and in hydrocracking catalyst, phosphorus generally is present in the catalyst with two kinds of forms.A kind of mode is to introduce with the auxiliary agent form, and general consumption is less, loads on the catalyst with infusion process, is used for regulating the Acidity of catalyst, and the phosphorus in this catalyst generally exists with oxide form; Another kind of mode is phosphorous compound, such as phosphorous heteropoly acid (such as phosphotungstic acid), or phosphorus containing molecular sieve (such as phosphorus modified molecular sieves or skeleton phosphorus containing molecular sieve etc.).

CN200910112036.8 discloses a kind of hydrocracking catalyst and preparation method thereof, hydrocracking catalyst comprises acidic components and hydrogenation component, acidic components are the phosphotungstic acid cesium salt, hydrogenation component is nickel, this catalyst has improved the yield of hydrocracking product liquid take heteropoly acid hydrochlorate (phosphotungstic acid cesium salt) as acidic components.But heteropoly acid character is unstable, understands gradually decomposition and inversion under hot conditions, and the stability of catalyst is not enough.

CN200410071124.5 discloses a kind of hydrocracking catalyst that contains zeolite, formed by the carrier loaded group VIII and the group vib metal component that contain matrix and zeolite, wherein said zeolite is P-contained zeolite, in oxide and take described zeolite as benchmark, the content of phosphorus is the 0.1-15 % by weight.CN89100867.5 discloses a kind of hydrocracking catalyst that contains alumo-silicate molecular sieve, and its molecular sieve is the alumo-silicate molecular sieve SAPO of nonzeolite.Though contain phosphorus in the above-mentioned hydrocracking catalyst, the form of phosphorus in catalyst is different, and be also different to the performance impact of catalyst.The oxidized catalyst of preparation need be carried out normal vulcanizing treatment before use, and reactive metal is converted into sulphided state, and phosphorus is generally oxidation state or exists with the form of heteropoly acid or phosphorus containing molecular sieve, and the serviceability of catalyst needs further to improve.

Summary of the invention

The object of the present invention is to provide a kind of preparation method of hydrocracking catalyst, hydrocracking catalyst of the present invention is for the treatment of heavy hydrocarbon material, and maximum is produced intermediate oil.

Hydrocracking catalyst preparation method of the present invention comprises following process:

(1) preparation contains the catalyst carrier of molecular sieve and inorganic refractory oxide;

(2) preparation contains the dipping solution of VI B family metallic compound, VIII family metallic compound and inorganic phosphorus compound;

(3) catalyst carrier of the dipping solution impregnation steps (1) of step (2) preparation, then dry;

(4) material that step (3) is obtained is heat-treated under air atmosphere; Heat treatment process is 200-450 ℃ of lower the processing 1-6 hour;

(5) material after step (4) heat treatment carries out the hydrogen activation, obtains the hydrocracking catalyst for hydrocracking reaction after the activation.

Among the hydrocracking catalyst preparation method of the present invention, the consumption of various material raw materials is determined by having following composition in the final catalyst among the preparation method: in catalyst weight, the content of molecular sieve is generally 5%～45%, is preferably 10%～25%; Metal component of group VIB (the oxide weight meter of W and/or Mo) content is generally 10%-40%, better be 15%-35%, best 18%-28%, metal component of group VIII (in the oxide weight of Ni and/or Co) content is generally 1%-10%, better be 2%-9%, preferably 4%-8%.The mol ratio of P and VI B family metallic element is 1:1～2:1, and the mol ratio of P and group VIII metal element is 1:1～1:2.Inorganic refractory oxide is surplus.The initial feed of various components can be the material source of this area routine.

Among the hydrocracking catalyst preparation method of the present invention, molecular sieve is generally one or more in Y molecular sieve, beta-molecular sieve, ZSM-5 molecular sieve, SAPO-11 molecular sieve, modenite, ZSM-22 molecular sieve, ZSM-23 molecular screen and the mesopore molecular sieve, is preferably Y molecular sieve and/or beta-molecular sieve.The modification that required molecular sieve can suit is such as hydrothermal treatment consists modification, acid treatment modification etc.Inorganic refractory oxide is generally aluminium oxide, silica, silica-alumina (being amorphous aluminum silicide), silica-alumina and is scattered in wherein aluminium oxide (namely being dispersed in the amorphous aluminum silicide in the aluminium oxide), aluminium oxide, magnesia, zirconia, boron oxide and the titanium dioxide that silica is covered with paint, lacquer, colour wash, etc. one or more, is preferably amorphous aluminum silicide and/or alumina component.

Among the hydrocracking catalyst preparation method of the present invention, the preparation of catalyst carrier can be adopted the method for this area routine, as required material is obtained catalyst carrier in the final steps such as required ratio mixing, moulding, drying, roasting that form of catalyst.Drying is generally at 80-150 ℃ to descend dry 4-12 hour, and roasting is at 400-600 ℃ of lower roasting 2-6 hour.

Among the hydrocracking catalyst preparation method of the present invention, the dipping in the step (3) is saturated dipping or excess solution dipping, and dipping can once carry out, and also can repeatedly flood.Drying process behind the dipping is to descend dry 4-12 hour at 80-150 ℃.

Among the hydrocracking catalyst preparation method of the present invention, the inorganic phosphorus compound in the step (2) is one or more in phosphoric acid, phosphorous acid, ammonium hydrogen phosphate, ammonium dihydrogen phosphate (ADP) and the ammonium phosphate etc., is preferably ammonium hydrogen phosphate, ammonium dihydrogen phosphate (ADP) and ammonium phosphate.VI B family metallic compound is the soluble compound that contains W and/or Mo, and VIII family metallic compound is the soluble compound that contains Ni and/or Co.Drying process behind the dipping is to descend dry 4-12 hour at 80-150 ℃.

The course of reaction of the hydrogen reduction of activation procedure generation slaine described in the step (5) hydrogen phosphatization is the chemical reaction of WP such as phosphotungstate hydrogen reduction phosphatization:

2WPO _5.5·0.5H ₂O→2WPO _5.5+0.5H ₂O

2WPO _5.5+11H→2WP+11?H ₂O

WPO wherein _5.50.5H ₂After O is the metallic solution dipping, the presoma that in heating process, forms.The XRD spectra of the WP that generates is 21.04 °, 28.68 °, 31.10 °, 43.2 °, 44.6 °, 46.5 ° at 2 θ and locates all to occur stronger diffraction maximum, and is identical with the standard spectrogram (PDF-29-1364) of WP.

The H of the phosphide of Ni ₂Reduction process: (1) Ni ₂P ₂O ₇→ Ni; (2) the P presoma reduces, and generates Ni with Ni ₁₂P ₅(3) Ni ₁₂P ₅Further reduction generates Ni ₂P.Be 40.7 °, 44.6 °, 54.2 ° and 54.9 ° at 2 θ and locate all to occur stronger diffraction maximum, be Ni ₂The diffraction maximum of P.

Among the hydrocracking catalyst preparation method of the present invention, hydrogen activation process and the condition of step (5) are: under nitrogen atmosphere, take heating rate as 2-10 ℃/min rises to 300-500 ℃ from room temperature, then take heating rate as 0.5-2 ℃/min, be warming up to 600-750 ℃, and intensification outlet temperature constant temperature 2-4 hour.Hydrogen purity wherein is greater than the 95%(volume), hydrogen gas space velocity is 50-1000h ^-1, pressure can be normal pressure to 1MPa, be preferably normal pressure.

The hydrocracking catalyst of the inventive method preparation is used for take the hydrocracking process of vacuum distillate as raw material inceasing output of jet fuel and diesel oil, and reaction pressure is preferably in 6-20MPa, hydrogen to oil volume ratio 500:1-2000:1, raw material volume space velocity 0.5-2.0hr ^-1, reaction temperature 350-410 ℃.Feedstock oil carried out hydrofinishing before carrying out hydrocracking, below organic nitrogen content to 50 μ g/g wherein, be preferably below the 20 μ g/g.

In the hydrocracking catalyst preparation process of the present invention, introduce the phosphorus-containing compound that is complementary with active metal component, by suitable process phosphorus and reactive metal are formed the to a certain degree metal phosphorizing attitude of bonding state, by the analysis showed that, has metal phosphide in the catalyst of the inventive method preparation, and with the common sulfidation cancellation of hydrocracking catalyst, adopt the hydrogen reducing mode that metal-containing compound and the catalyst that contains phosphorus component are carried out activation process, so that metallic compound is converted into metal phosphide.The phosphatization attitude of active metal component has desirable Hydrogenation on the one hand, and the phosphatization attitude of active metal component has produced certain effect to the acid centre of molecular sieve on the other hand.Show by analysis, the B acid site of reactive metal phosphatization attitude and molecular sieve interacts, significantly improved the acid strength on the zeolite and distributed, strong acid is reduced, middle intensity acid increases, the acid site number increases to some extent, and L acid site number reduces relatively, can reduce the fine melt function like this, increases the activity that moderate strength acid amount is conducive to improve catalyst, reduce reaction temperature, and improve the selective of intermediate oil (kerosene and diesel oil).Hydrocracking catalyst of the present invention can obviously improve the nitrogen resistance of catalyst simultaneously, and when using identical acidic components, the anti-nitrogen ability of catalyst of the present invention obviously improves.In addition, method for preparing catalyst of the present invention has suitable active metal component and the interaction between the carrier, guarantees on the one hand the stability of active constituent loading, makes on the other hand better synergy of catalyst cracking performance and Hydrogenation performance.

The specific embodiment

The hydrocracking catalyst of the inventive method preparation is applicable to hydrocracking process, be particularly suitable for treatment of heavy hydrocarbon material, generally in 250-600 ℃ of scope, preferably in 300-550 ℃ of scope, wherein the cut more than the 70w% is more than 350 ℃ for the boiling range of heavy hydrocarbon material.Have These characteristics feedstock oil such as gas oil, vacuum distillate, take off pitch prill oil, catalytic cracking recycle oil, shale oil, coal tar wet goods.Reaction condition generally under the hydrogen existence condition, reaction pressure 5-20MPa, hydrogen to oil volume ratio 100:1-5000:1, raw material volume space velocity 0.1-5.0hr ^-1, reaction temperature 350-450 ℃.Hydrocracking process generally comprises the hydrofinishing of leading portion, be used for removing the most S of feedstock oil, N, and the saturated severity that reduces the operation of hydrocracking section of polycyclic aromatic hydrocarbon, but this catalyst can reduce the severity of refining stage operation, embodies preferably effect when high nitrogen-containing.

Following embodiment has illustrated the present invention, yet does not limit its scope.Reduction activation is to carry out under the normal pressure under the hydrogen atmosphere.

Comparative example 1

With 25.3 gram Y sieves (butt 95wt%), 71.4 gram amorphous aluminum silicide (SiO ₂Content 50wt%, pore volume 0.85ml/g, specific area 370m ²/ g, butt 70wt%), 122.9 gram macroporous aluminium oxide (pore volume 1.0ml/g, specific area 400m ²/ g, butt 70wt%), 133.3 gram adhesives (butt 30wt%, the mol ratio of nitric acid and little porous aluminum oxide is 0.3) put into the roller mixed grind, add water, be rolled into paste, extrusion is extruded bar 110 ℃ of dryings 4 hours, then 550 ℃ of roastings 4 hours, get carrier T-1, character sees Table 1.

Carrier is with the maceration extract room temperature dipping of tungstenic and nickel (ammonium metatungstate and nickel nitrate, lower with) 2 hours, and 120 ℃ of dryings 4 hours 500 ℃ of roastings 4 hours, get catalyst B J-1, and catalyst property sees Table 2.Catalyst uses the common vulcanizing treatment of row of advancing, sulfidation for hydrogen sulfide containing hydrogen 230 ℃ of constant temperature 8 hours, 280 ℃ of constant temperature 8 hours, 320 ℃ of constant temperature 8 hours.

Embodiment 1

Prepare the maceration extract that weight concentration is 30% ammonium dihydrogen phosphate (ADP) and tungsten and nickel, the carrier T-1 of comparative example 1 was flooded 2 hours with the maceration extract for preparing, 120 ℃ of dryings 4 hours, 250 ℃ of lower heat treatment is 6 hours under air atmosphere, then reduction activation under hydrogen atmosphere, and the reduction activation program is for to rise to 450 ℃ with 5 ℃/min from room temperature, take heating rate as 2 ℃/min, rise to 700 ℃ from 450 ℃, and 700 ℃ of constant temperature 2 hours, be prepared into catalyst C-1 of the present invention.

Comparative example 2

With 14.7 gram beta-molecular sieves (butt 95wt%), 151.4 gram amorphous aluminum silicide (SiO ₂Content 50wt%, pore volume 0.85ml/g, specific area 370m ²/ g, butt 70wt%), 57.1 gram macroporous aluminium oxide (pore volume 1.0ml/g, specific area 400m ²/ g, butt 70wt%), 133.3 gram adhesives (butt 30wt%, the mol ratio of nitric acid and little porous aluminum oxide is 0.3) put into the roller mixed grind, add water, be rolled into paste, extrusion is extruded bar 110 ℃ of dryings 4 hours, then 550 ℃ of roastings 4 hours, get carrier T-2, character sees Table 1.

Carrier is with the maceration extract room temperature dipping of tungstenic and nickel 2 hours, and 120 ℃ of dryings 4 hours 500 ℃ of roastings 4 hours, get catalyst B J-2, and catalyst property sees Table 2.Catalyst uses the common vulcanizing treatment of row of advancing, sulfidation for hydrogen sulfide containing hydrogen 230 ℃ of constant temperature 8 hours, 280 ℃ of constant temperature 8 hours, 320 ℃ of constant temperature 8 hours.

Embodiment 2

Prepare the maceration extract that weight concentration is 40% ammonium dihydrogen phosphate (ADP) and tungstenic and nickel, the carrier T-2 of comparative example 2 was flooded 2 hours with the maceration extract for preparing, 100 ℃ of dryings 6 hours, 400 ℃ of lower heat treatment was 1 hour under air atmosphere, then under hydrogen atmosphere, carry out the hydrogen activation, at first rise to 350 ℃ with 10 ℃/min from room temperature, take heating rate as 1 ℃/min, rise to 600 ℃ from 350 ℃, and 600 ℃ of constant temperature 4 hours, prepare phosphatization transition-metal catalyst C-2.

Comparative example 3

With 8.4 gram Y molecular sieves (butt 95wt%), 85.7 gram amorphous aluminum silicide (SiO ₂Content 50wt%, pore volume 0.85ml/g, specific area 370m ²/ g, butt 70wt%), 131.42 gram macroporous aluminium oxide (pore volume 1.0ml/g, specific area 400m ²/ g, butt 70wt%), 133.3 gram adhesives (butt 30wt%, the mol ratio of nitric acid and little porous aluminum oxide is 0.3) put into the roller mixed grind, add water, be rolled into paste, extrusion is extruded bar 110 ℃ of dryings 4 hours, then 550 ℃ of roastings 4 hours, get carrier T-3, character sees Table 1.

Carrier is with the maceration extract room temperature dipping of tungstenic and nickel 2 hours, 120 ℃ of dryings 4 hours, and 500 ℃ of roastings of temperature programming 4 hours get catalyst B J-3, and catalyst property sees Table 2.Catalyst uses the common vulcanizing treatment of row of advancing, sulfidation for hydrogen sulfide containing hydrogen 230 ℃ of constant temperature 8 hours, 280 ℃ of constant temperature 8 hours, 320 ℃ of constant temperature 8 hours.

Embodiment 3

Prepare the maceration extract that weight concentration is 40% ammonium hydrogen phosphate and tungstenic and nickel, the carrier T-3 of comparative example 3 was flooded 2 hours with the maceration extract for preparing, 110 ℃ of dryings 6 hours, 350 ℃ of lower heat treatment was 2 hours under air atmosphere, then under hydrogen atmosphere, carry out activation process, at first rise to 450 ℃ with 8 ℃/min from room temperature, take heating rate as 1 ℃/min, rise to 650 ℃ from 450 ℃, and 650 ℃ of constant temperature 4 hours, prepare phosphatization transition-metal catalyst C-3.

The physico-chemical property of table 1 catalyst carrier.

Numbering	T-1	T-2	T-3
				Molecular sieve, wt%	12.0	7.0	4.0
Amorphous aluminum silicide, wt%	25.0	53.0	30.0
				Macroporous aluminium oxide, wt%	43.0	20.0	46.0
Adhesive, wt%	20.0	20.0	20.0
				Pore volume, ml/g	0.73	0.76	0.78
Specific area, m 2/g	425	392	383

Table 2 catalyst forms and character.

Numbering	BJ-1	C-1	BJ-2	C-2	BJ-3	C-3
							WO 3，wt%	16.58	-	22.82	-	23.27	-
WP，wt%	-	16.66	-	23.9	-	23.81
							NiO，wt%	4.36	-	5.73	-	5.81	-
Ni 2P，wt%	-	4.18	-	5.16	-	5.95
							Pore volume, ml/g	0.56	0.55	0.53	0.54	0.55	0.56
Specific area, m 2/g	324	310	279	298	281	291

Table 3 feedstock oil main character.

Feedstock oil	Vacuum distillate
		Density (20 ℃), kg/m 3	920.6
Boiling range, ℃	?
		? IBP/10%	328/413
? 30%/50%	450/471
		? 70%/90%	493/522
? 95%/EBP	534/545
		Nitrogen, μ g/g	1575
Carbon, wt%	85.25
		Hydrogen, wt%	11.96
Carbon residue, wt%	0.35

Table 4 catalyst comparative evaluation result of the present invention.

Catalyst	BJ-1	C-1	BJ-2	C-2	BJ-3	C-3
							The refined oil nitrogen content, μ g/g	3	23	5	29	8	34
Reaction temperature, ℃	383	366	390	375	393	380
							Product yield and character	?	?	?	?	?	?
Heavy naphtha	?	?	?	?	?	?
							Yield, wt%	9	8.9	8.9	6.6	9.7	9.7
Virtue is dived, wt%	61.9	62.9	62.8	63.5	60.8	62.1
							Jet fuel		?		?		?
Yield, wt%	25.3	23.8	23.8	23.1	22.6	23.4
							Smoke point, mm	24	27	23	29	22	28
Aromatic hydrocarbons, volume %	8.9	8.5	10	8.9	12.4	10.6
							Diesel oil		?		?		?
Yield, wt%	36.5	35.8	35.9	38.4	32.6	33.6
							Cetane number	58.2	62.9	56.4	61.4	55.5	60.4
Tail oil		?		?		?
							Yield, wt%	24.2	28.6	28.5	29.3	28.6	28.4
The BMCI value	9.8	8.9	10	9.1	11	9.3
							Chemical hydrogen consumption, wt%	2.21	2.22	2.18	2.35	2.26	2.14
Middle distillates oil selectivity, wt%	83.7	85.1	85.6	88.1	80.2	83.1

 

Embodiment 4

Present embodiment has been introduced by the catalyst of the present invention's preparation and the activity rating result of comparative example catalyst.Estimate at the fixed bed hydrogenation experimental rig.

Appreciation condition is: reaction stagnation pressure 14.7MPa, hydrogen to oil volume ratio 1200, raw material volume space velocity 1.0h ^-1, use vacuum distillate (VGO) as feedstock oil, feedstock oil character is listed in table 3.The catalyst for preparing in above-mentioned each example is estimated under above-mentioned process conditions, and the evaluation result that obtains is listed in table 4.

As can be seen from Table 4, catalyst of the present invention activity in the situation that the refined oil nitrogen content obviously improves is higher, and product property is better.

Claims (11)

1. the preparation method of a hydrocracking catalyst is characterized in that comprising following process:

(1) preparation contains the catalyst carrier of molecular sieve and inorganic refractory oxide;

(2) preparation contains the dipping solution of VI B family metallic compound, VIII family metallic compound and inorganic phosphorus compound;

(3) catalyst carrier of the dipping solution impregnation steps (1) of step (2) preparation, then dry;

(4) material that step (3) is obtained is heat-treated under air atmosphere;

(5) material after step (4) heat treatment carries out the hydrogen activation, obtains the hydrocracking catalyst for hydrocracking reaction after the activation.

2. in accordance with the method for claim 1, it is characterized in that: the consumption of various material raw materials is determined by having following composition in the final catalyst among the preparation method: in catalyst weight, the content of molecular sieve is 5%～45%, take the content of W and/or Mo oxide as 10%-40%, take the oxide content of Ni and/or Co as 1%-10%, the mol ratio of P and VI B family metallic element is 1:1～2:1, and the mol ratio of P and group VIII metal element is 1:1～1:2; Inorganic refractory oxide is surplus.

3. in accordance with the method for claim 2, it is characterized in that: the content of molecular sieve is 10%～25%, take the content of W and/or Mo oxide as 15%-35%, take the content of Ni and/or Co oxide as 2%-9%.

4. according to claim 1 or 2 described methods, it is characterized in that: the molecular sieve in the hydrocracking catalyst is one or more in Y molecular sieve, beta-molecular sieve, ZSM-5 molecular sieve, SAPO-11 molecular sieve, modenite, ZSM-22 molecular sieve, ZSM-23 molecular screen and the mesopore molecular sieve, is preferably Y molecular sieve and/or beta-molecular sieve.

5. according to claim 1 or 2 described methods, it is characterized in that: inorganic refractory oxide is that aluminium oxide, silica, silica-alumina, silica-alumina are scattered in one or more in wherein aluminium oxide, aluminium oxide, magnesia, zirconia, boron oxide and the titanium dioxide that silica is covered with paint, lacquer, colour wash, etc., is preferably amorphous aluminum silicide and/or aluminium oxide.

6. in accordance with the method for claim 1, it is characterized in that: the dipping in the step (3) is saturated dipping or excess solution dipping, and the drying process behind the dipping is to descend dry 4-12 hour at 80-150 ℃.

7. it is characterized in that in accordance with the method for claim 1: the inorganic phosphorus compound in the step (2) is one or more in phosphoric acid, phosphorous acid, ammonium hydrogen phosphate, ammonium dihydrogen phosphate (ADP) and the ammonium phosphate.

8. it is characterized in that in accordance with the method for claim 1: the heat treatment described in the step (4) is for processing 1-6 hour under 200-450 ℃.

9. in accordance with the method for claim 1, it is characterized in that: hydrogen activation process and the condition of step (5) are: under nitrogen atmosphere, take heating rate as 2-10 ℃/min rises to 300-500 ℃ from room temperature, then take heating rate as 0.5-2 ℃/min, be warming up to 600-750 ℃, and intensification outlet temperature constant temperature 2-4 hour.

10. in accordance with the method for claim 9, it is characterized in that: the hydrogen purity of hydrogen activation process is greater than 95%, and hydrogen gas space velocity is 50-1000h ^-1

11. the application of the hydrocracking catalyst of the described method preparation of the arbitrary claim of claim 1 to 10, be used for take the hydrocracking process of vacuum distillate as raw material inceasing output of jet fuel and diesel oil, reaction pressure is 6-20MPa, hydrogen to oil volume ratio 500:1-2000:1, raw material volume space velocity 0.5-2.0hr ^-1, reaction temperature 350-410 ℃, feedstock oil carried out hydrofinishing before carrying out hydrocracking, below organic nitrogen content to 50 μ g/g wherein.