CN103801375A - Preparation method of hydrocarbon hydrogenation catalyst - Google Patents

Abstract

The invention discloses a preparation method of a hydrocarbon hydrogenation catalyst. The method comprises the following steps: adding a mixture of group VIII metal cation modified molecular sieves and organic amines as well as organic alcohols and/or organic acids before or in the process of preparing an alumina-group VIB metal oxide composite oxide by a coprecipitation method; carrying out aging after gel forming is completed and then obtaining a catalyst intermediate through filtration, washing and drying; then carrying out forming, drying and roasting, thus obtaining the hydrogenation catalyst. The catalyst prepared by the method can organically combine the molecular sieves and alumina together with good combination degree and dispersion degree, thereby avoiding agglomeration and even blockage of the molecular sieves and amorphous alumina, simultaneously controlling the distribution of hydrogenation components on various acidic components effectively and improving the usability of the catalyst; and the catalyst is especially suitable for the hydrocarbon hydro-upgrading process with moderate requirements for acidity and the hydrogenation function.

Description

A kind of preparation method of hydrocarbons hydrogenation catalyst

Technical field

The present invention relates to a kind of preparation method of hydrogenation catalyst, particularly contain the preparation method of the hydrogenation catalyst of molecular sieve.

Background technology

Hydrocracking technology is one of important means of crude oil secondary operations, heavy oil lighting.Because it has that adaptability to raw material is strong, production operation and product solution flexibly and the feature such as good product quality, therefore become production high-quality lightweight clear gusoline and solved the important channel in industrial chemicals source.

Hydrocracking catalyst is generally bifunctional catalyst, and its lytic activity and hydrogenation activity are to be provided respectively by the acidic components in catalyst and hydrogenation activity component.

Acidic components in catalyst are generally to be provided by molecular sieve contained in catalyst and/or the refractory inorganic oxides that forms carrier.Refractory inorganic oxides generally comprises one or more in amorphous aluminum silicide, amorphous alumina.Between conjugation between molecular sieve and refractory inorganic oxides in carrier and decentralization and its reactivity worth, there is inseparable relation, affect to a great extent the active of catalyst and selective to various object products.

For hydrocracking catalyst, the difference of mating between cracking function and hydrogenating function can produce different reaction effects, that is for different object products, need to regulate cracking function and the hydrogenating function of catalyst.

In the patents such as CN200810117102.6, CN200710012770.8, CN00109747.4, disclosed hydrocracking catalyst is all that raw material single to molecular sieve, aluminium oxide etc. is prepared after mechanical mixture.The prepared catalyst of the method can be inhomogeneous because of various raw materials mixing, affects the performance of each component property.

CN1060976A discloses a kind of preparation method of the ultrastable containing amorphous alumina.The method is that in aluminum sulfate solution, to add ammoniacal liquor to regulate pH value be 3.5～7.5, then add NaY zeolite or HNaY zeolite, mix, then prepare USY zeolite process by hydro-thermal method and carry out the subsequent treatment such as ammonium ion exchange and hydrothermal treatment consists, obtain the ultrastable containing amorphous alumina.The method is after aluminium oxide plastic, adds zeolite raw material, then the composite of modification gained according to a conventional method.The method exists amorphous alumina easily to occur agglomeration, make the skewness of amorphous alumina on molecular sieve, even stop up the duct of molecular sieve, specific area and the pore volume of catalyst are significantly reduced, and the patency in molecular sieve and aluminium oxide duct is poor, affect the performance of catalyst.After the method is compound with amorphous alumina by NaY zeolite, carry out hydrothermal treatment consists and ammonium exchange process again, strengthened treating capacity, reduced the efficiency of processing, in processing procedure, amorphous alumina can be processed together, easily aluminium oxide produced to ill effect.

CN200610134152.6 discloses a kind of preparation method of hydrogenation catalyst, and the method is to adopt a kind of carrier material that contains molecular sieve and amorphous aluminum silicide, adopts infusion process or coprecipitation load hydrogenation active metals component to make final catalyst.Wherein carrier material is directly to add the method for molecular sieve to prepare in amorphous aluminum silicide plastic process, easily there is agglomeration in amorphous aluminum silicide like this, also easily enter the other side's duct or the aperture of obstruction molecular sieve, affect the distribution of amorphous aluminum silicide on molecular sieve, the connectivity in molecular sieve and amorphous aluminum silicide duct is poor, specific area and the pore volume of catalyst are reduced, active metal distributes and is not easy to control, and then the hydrogenating function of catalyst is not mated with cracking function, affect the performance of catalyst.

Summary of the invention

In order to overcome the deficiencies in the prior art, the invention provides a kind of preparation method of hydrogenation catalyst.The catalyst of being prepared by the method can combine molecular sieve and aluminium oxide, there is good conjugation and decentralization, can avoid occurring reuniting between molecular sieve and amorphous alumina even clogging, effectively control the distribution of hydrogenation component on each acidic components simultaneously, the quantity at adjustment of acidity center and ratio, the serviceability of raising catalyst.

The preparation method of hydrogenation catalyst of the present invention, comprising:

(1) use group VIII metal cation modified molecular screen, wherein group VIII metal accounts for 1% ~ 12% of modified molecular screen weight in oxide;

(2) modified molecular screen of step (1) gained is mixed with organic amine, wherein the addition of organic amine accounts for the 1wt% ~ 40wt% of molecular sieve weight, is preferably 7wt% ~ 40wt%;

(3) mixture, the organic matter that adopt coprecipitation to prepare aluminium oxide and group vib metal oxide composite oxides before or add step (2) to obtain in process, making the weight ratio of aluminium oxide and molecular sieve is 1:19 ~ 19:1, and group vib metal accounts for 2% ~ 40% of alumina weight in the addition of oxide; Organic addition accounts for the 1wt% ~ 50wt% of alumina weight, is preferably 20wt% ~ 50wt%, described organic matter be containing the organic alcohols of two or more hydroxyls, contain two or more carboxyls organic acid in one or more;

(4) after step (2) coprecipitation reaction finishes, carry out agingly, then after filtration, washing, dry, obtain catalyst intermediate;

(5) catalyst intermediate of step (4) gained is through moulding, and dry and roasting, obtains hydrogenation catalyst.

In step of the present invention (1), described group VIII metal is one or more in Fe, Co, Ni.

In step of the present invention (1), group VIII metal cation modified molecular screen can adopt ion-exchange or infusion process preparation, be about to the solution impregnation molecular sieve containing group VIII metal, then drying and roasting and obtain, dry and roasting condition is wherein as follows: under 60 ~ 180 ℃ of temperature conditions, be dried 2 ~ 24 hours, roasting 2 ~ 12 hours under 300 ~ 600 ℃ of conditions.

In step of the present invention (2), described organic amine is that carbon number is less than one or more in the fatty amine, aromatic amine, hydramine of 20.Better suited is the amine that contains chain, is preferably one or more in the fatty amines that contains 2 ~ 10 carbon numbers.For example: ethamine, propylamine, tert-butylamine; Decyl amine, dimethylamine, di-n-propylamine, butylamine, hexylamine, 2 ethyl hexylamine, diethylamine, diisopropylamine, hexamethylene diamine, 1,2-dimethyl propylamine, sec-butylamine, 1,5-dimethylhexylamine, ethylenediamine, 1, one or more in 2-propane diamine, Putriscine, monoethanolamine, diethanol amine, triethanolamine, 3-Propanolamine, monoisopropanolamine, diisopropanolamine (DIPA), triisopropanolamine, aniline.Organic amine mixes with molecular sieve, organic amine directly can be added in molecular sieve, also organic amine can be dissolved in solvent and add in molecular sieve again, solvent is wherein one or more in water, low-carbon alcohols (being that carbon number is one or more in 1 ~ 5 monohydric alcohol).After the molecular sieve of step (1) gained being mixed with organic amine in step (2), can after filtration, after can also being also dried after filtration, then carry out step (3).

In step of the present invention (3), described group vib metal is Mo and/or W.

In step of the present invention (3), employing coprecipitation prepares aluminium oxide and group vib metal oxide composite oxides can be undertaken by process well known to those skilled in the art.Generally in acid material and alkaline material and plastic process.Plastic process can adopt the mode of the continuous acid-base titration of soda acid, also can adopt the mode of two kinds of materials stream neutralization.

In step of the present invention (3), coprecipitation is to adopt aluminium source to react with precipitating reagent and carry out plastic with group vib source metal (being preferably molybdenum source and/or tungsten source), wherein aluminium source used is aluminum soluble salt, be generally one or more in aluminium chloride, aluminum sulfate, aluminum nitrate, molybdenum source is molybdenum trioxide, adopt the form of molybdenum trioxide slurries to add, tungsten source is sodium tungstate, ammonium metatungstate or wolframic acid.Precipitating reagent used is generally one or several in sodium carbonate, sodium acid carbonate, NaOH, potassium hydroxide, ammoniacal liquor etc., preferably ammoniacal liquor.Described plastic process is generally carried out at room temperature ~ 85 ℃, is suitably for 40 ~ 80 ℃, is preferably 50 ~ 70 ℃.Described plastic process is generally carried out under certain pH value condition, and typical pH is 6.0 ~ 10.0, is suitably for 7.0 ~ 9.5, is preferably 7.5 ~ 9.0.Described aging of step (4), condition is as follows: pH is 6.0 ~ 10.0, is preferably 7.0 ~ 9.5, and ageing time 0.25 ~ 8 hour, is adapted at 0.5 ~ 5 hour, is preferably 1 ~ 3 hour, and aging temperature is room temperature ~ 85 ℃, is preferably 40 ~ 80 ℃.Temperature when aging and pH with in and time temperature and pH preferably identical.

In step of the present invention (1), described molecular sieve is known any or several molecular sieves, preferably one or several in modified molecular screen.In hydrogenation catalyst, conventional molecular sieve as Y zeolite, β zeolite, ZSM Series Molecules sieve, SAPO Series Molecules sieve, MCM Series Molecules sieve etc. one or more, these molecular sieves are that those skilled in that art are known.In order to obtain the catalytic performance of hope, various molecular sieves can carry out suitable modifying process, the process that method of modifying is well known to those skilled in the art, as one or more method modifications in hydrothermal treatment consists, acid treatment, ion-exchange, various solvent processing etc.

In step of the present invention (3), the introducing mode of the mixture of step (2) gained adopts the one or more combination of following manner: (1), in coprecipitation reaction process, adds this mixture in plastic cans continuously; (2) this mixture is first joined in plastic cans, then carry out coprecipitation reaction; (3) by this mixture, one or more with coprecipitation reaction material are mixed, and then carry out coprecipitation reaction.

Organic alcohols described in step of the present invention (3) is the organic compound containing two or more hydroxyls, its boiling point is higher than plastic temperature, generally at 100 ℃ ~ 350 ℃, preferably more than 120 ℃, further preferably more than 150 ℃, for example diethylene glycol (DEG), triethylene glycol, tetraethylene glycol, propane diols, glycerine, 1,4-butanediol, butantriol, 2,2-dimethyl-1,3 propane diols, DPG, xylitol, pentanediol, 1, one or more in 6-hexylene glycol, hexitol, sweet mellow wine.Described organic acid is the organic compound containing two or more carboxyls, its boiling point is higher than plastic temperature, generally at 100 ℃ ~ 350 ℃, preferably more than 120 ℃, further preferably more than 150 ℃, for example, in ethanedioic acid (oxalic acid), malonic acid, citric acid, succinic acid, malic acid, tartaric acid, glutaric acid, adipic acid, pimelic acid, suberic acid one or more.

In step of the present invention (3), the described organic one or more combination that adds mode can select following manner: (1) joined in advance in plastic cans before coprecipitation reaction, (2) in coprecipitation reaction process, be added drop-wise in plastic cans, (3) with one or more mixing of coprecipitation reaction raw material, add in plastic cans with material.Described organic matter can same step (2) gained mixture together add, also can add separately.

In step of the present invention (4), the mode of washing of described material is known in those skilled in the art, can select making beating washing, filtration time, add the mode such as water washing, lower alcohols washing, the temperature of washing should be in the scope of room temperature ~ 90 ℃ temperature, preferably 50 ~ 70 ℃.In the scope that the washing of described material is generally 1.0 ~ 9.0 at pH, carry out, preferably pH is 4.0 ~ 8.5.Material described in step of the present invention (4) should not contain or contain the seldom heteroion of amount after washing, filtration, and heteroion comprises Na ⁺, Cl ^-, SO ₄ ^2-, NO ₃ ^-, K ⁺deng in one or more.

In step of the present invention (4), described material is after washing, filtering, filter cake is dried, and that drying mode can adopt is natural drying, oven drying, spraying are dry, microwave drying or infra-red drying, drying condition: generally at 50 ~ 150 ℃ dry 1 ~ 15 hour.

In step (5) catalyst intermediate forming process, can add as required shaping assistant as one or more in adhesive, peptization acid, extrusion aid etc.

In step (5), after catalyst intermediate moulding, drying condition is generally at 80 ~ 200 ℃, and dry 1 ~ 15 hour, sintering temperature was generally 450 ~ 700 ℃, and roasting time is generally 1 ~ 10 hour.

Hydrogenation catalyst prepared by the inventive method also can add other auxiliary agent as required, as one or more in phosphorus, boron, titanium, zirconium etc.The mode of introducing in hydrogenation catalyst can adopt conventional method, such as introducing in step (3) plastic process, can in step (5) forming process, introduce, and also can adopt infusion process to introduce.

Hydrogenation catalyst prepared by the inventive method, take the weight of hydrogenation catalyst as benchmark, hydrogenation active metals content is counted 3wt% ~ 40wt% with oxide.In catalyst of the present invention, the mol ratio of group vib metal and VIII family metal is 2 ~ 8.

In general, hydrogenation catalyst uses group vib metal as main hydrogenation sites, and group VIII metal is as helping hydrogenation sites.In the preparation process of hydrogenation catalyst of the present invention, molecular sieve first passes through the modification of group VIII metal cation, make the highly acid center of group VIII metal cation and molecular sieve fully approaching, molecular sieve after modification has more suitable acidity and acid distributes, group VIII metal loads on molecular sieve substantially simultaneously, can avoid the direct contact of group VIII metal with aluminium oxide, reduce the generation of spinelle.Molecular sieve after the modification of group VIII metal cation mixes with organic amine in advance, organic amine can be adsorbed onto duct and the aperture place of molecular sieve in advance, the pore passage structure of molecular sieve is protected in advance, can avoid like this in aluminium oxide plastic process fragment to enter duct, stop up aperture or direct plastic in duct, also can stop group vib metal deposit to enter molecular sieve inside simultaneously, thereby reach molecular sieve and group vib metal oxide is farthest isolated, effectively regulate the hydrogenating function of catalyst, organic amine has the guide effect to aluminium oxide duct in aluminium oxide plastic process, and match with the hydroxyl adding in aluminium oxide plastic process or the organic matter of carboxyl, because the organic matter of hydroxyl or carboxyl is water-soluble, make to have hydrophilic aluminium oxide orderly at molecular sieve surface alignment, be deposited on equably the surface of molecular sieve, and strengthen the adhesion of molecular sieve and aluminium oxide, avoid amorphous alumina even to stop up the phenomenon in duct with occurring between molecular sieve reuniting, and the duct of aluminium oxide and molecular sieve is connected mutually, make aluminium oxide and molecular sieve give full play to synergy, improve the serviceability of catalyst.Preferably according to requirements adopt suitable method to carry out modification at molecular sieve, the modification process of molecular sieve can not produce adverse influence to composite carrier like this.

Use hydrogenation catalyst prepared by the inventive method can make the acid centre of molecular sieve fully isolate with main hydrogenation center on the one hand, regulate hydrogenation and the cracking function of catalyst, the acidic cleavage component of molecular sieve plays one's part to the full, and makes reactant that cracking reaction occur as much as possible before not contacting hydrogenation sites; The acid that can use on the other hand group VIII Modified Molecular Sieves to adjust molecular sieve distributes and acid amount, improves the serviceability of catalyst.Alumina growth is surrounded molecular sieve in the outside of molecular sieve, for product provides unobstructed diffusion admittance, makes reactant can be diffused into timely reaction center outside, provides good reaction environment for reaching desirable object product.The catalyst that uses the method to prepare is particularly suitable for acidity to require moderate, hydrogenating function is also required to moderate hydrocarbons hydrogenation upgrading process simultaneously.Such as, diesel oil hydrogenation modification catalyst.

The specific embodiment

The prepared hydrogenation catalyst of the inventive method can directly use as hydrogenation catalyst, also can supplement as required partial hydrogenation active metal component, to meet the needs of differential responses.Select suitable method according to the amount of the performance of catalyst and supplementary hydrogenation active metals component, such as adopting in infusion process, physical mixed method, coprecipitation method one or more, preferably adopt infusion process.Supplement after dip loading hydrogenation active metals, after drying and roasting, obtain hydrogenation catalyst.Wherein drying condition is as follows: be generally at 80 ~ 200 ℃, dry 1 ~ 15 hour, roasting condition was roasting 1 ~ 8 hour at 350 ~ 550 ℃.

In the inventive method, preparation adopts conventional method preparation containing the maceration extract of hydrogenation active metals, such as nickel source, cobalt source are selected from one or more in nitrate, acetate, chloride, soluble complexes, molybdenum source is selected from one or more in molybdate, molybdenum trioxide, tungsten source is selected from one or more in tungstates, ethyl metatungstate, also can adopt the solution of preparing containing heteropoly acid or its salt of hydrogenation active metals component.According to method provided by the invention, the solvent in solution is not limited, can be organic solvent, as alcohol, ether and acid, can be inorganic solvent, as water.

Catalyst preparation process of the present invention is simple, convenient, and easy operating is applicable to industrial production.

The inventive method is particularly useful for preparing hydrocracking catalyst, select suitable molecular sieve (Y molecular sieve and/or beta-molecular sieve), adjust cracking function and the hydrogenating function of catalyst, improve the selective of the activity of catalyst and object product, can obtain good result of use.This hydrocracking catalyst is particularly suitable for treatment of heavy hydrocarbon material, the boiling range scope of heavy hydrocarbon material is at 250 ~ 600 ℃, generally, at 300 ~ 550 ℃, there is the feedstock oil of These characteristics as gas oil, vacuum distillate, deasphalted oil, catalytic cracking recycle oil, shale oil, coal tar wet goods.Reaction condition generally under hydrogen existence condition, reaction pressure 5 ~ 30MPa, hydrogen to oil volume ratio 100 ~ 5000, volume space velocity 0.1 ~ 5.0h when liquid ^-1, 340 ~ 420 ℃ of reaction temperatures.

The specific area of product of the present invention and pore volume are to adopt low temperature liquid nitrogen physisorphtion to measure, and relative crystallinity and cell parameter adopt X-ray diffraction method to measure.Sodium content adopts By Icp-aes.In the present invention, wt% is mass fraction.

Further illustrate preparation method of the present invention below in conjunction with specific embodiment, but scope of the present invention is not only limited to the scope of these embodiment.

embodiment 1

By 555g solid aluminum chloride, 153g Nickelous nitrate hexahydrate joins in 10 liters of distilled water, heats simultaneously and is stirred to dissolving, obtains solution (a).Add appropriate distilled water diluting into about 10wt% weak aqua ammonia (b) concentrated ammonia liquor, 42.5g 1,5-PD is dissolved in 2L water, forms solution (c).27g Y zeolite Y-1 (SiO ₂/ Al ₂o ₃mol ratio is 11.0, and lattice constant is 24.42, and relative crystallinity is 95%) use containing the dipping solution of 174g sodium tungstate and carry out saturated dipping, after dipping 120 ℃ dry 180 minutes, 500 ℃ of roastings 4 hours; 10.5g ethylenediamine is dissolved in 300ml absolute ethyl alcohol, is heated to 60 ℃, stirs half an hour, adds the Y molecular sieve after metal-modified, continues to stir 2 hours, obtains adsorbing in advance the modified molecular screen (d) of organic amine after filtration.Get a plastic cans, in tank, add (a) and be heated with stirring to after 60 ℃, open the valve of the container that has (b), within controlling 10 minutes, system in tank is added drop-wise to pH=4.0, now in tank, adds (d), continue to drip (b), open the valve of the container that has (c), in controlling 30 minutes, system in tank is added drop-wise to pH=8.0, controls the valve of the container of (c), guarantee to be now added dropwise to complete.Keeping temperature is 60 ℃, pH=8.0, and aging 1 hour, material in tank to be filtered, washing, to without chlorion, is filtered, and filter cake is dried to 10 hours at 110 ℃, pulverizes and sieves and obtains catalyst intermediate J-1.

Get 100 grams of catalyst intermediate J-1, the same contact of the peptization liquid containing nitric acid forms paste, and extruded moulding is then dry at 120 ℃, is dried after 180 minutes, and dried catalyst, 500 ℃ of roastings 4 hours, is obtained to catalyst A, and its composition is in table 2.

embodiment 2

By 555g solid sulphuric acid aluminium, 148g nickel nitrate joins in 10 liters of distilled water, heats simultaneously and is stirred to dissolving, obtains solution (a).Add appropriate distilled water diluting into about 10wt% weak aqua ammonia (b) concentrated ammonia liquor, 82g BDO is dissolved in 1L water, obtains solution (c).166g Y zeolite Y-1 (SiO ₂/ Al ₂o ₃mol ratio is 11.0, and lattice constant is 24.42, and relative crystallinity is 95%) use containing the dipping solution of 168g sodium tungstate and carry out saturated dipping, after dipping 120 ℃ dry 180 minutes, 500 ℃ of roastings 4 hours; 35g ethylenediamine is dissolved in 5L water, is heated to 60 ℃, stirs half an hour, adds molecular sieve after metal-modified to stir after 2 hours and obtains molecular sieve pulp (d).Get a plastic cans, in tank, add (a) and be heated with stirring to after 60 ℃, open the valve of the container that has (b), within controlling 10 minutes, system in tank is added drop-wise to pH=4.0, open the valve that has (c) and container (d), continue to drip (b), system in tank is added drop-wise to pH=8.0 in controlling 30 minutes, control the valve of (c) and container (d), guarantee to be now added dropwise to complete.Keeping temperature is 60 ℃, pH=8.0, and aging 1 hour, material in tank is filtered, wash to sulfate radical-free ion, filter, filter cake is dried to 10 hours at 110 ℃, pulverize and sieve and obtain catalyst intermediate J-2.

Get 100 grams of catalyst intermediate J-2, the same contact of the peptization liquid containing nitric acid forms paste, and extruded moulding is then dry at 120 ℃, is dried after 180 minutes, and dried catalyst, 500 ℃ of roastings 4 hours, is obtained to catalyst B, and its composition is in table 2.

embodiment 3

By 555g solid sulphuric acid aluminium, 767g nickel nitrate joins in 10 liters of distilled water, heats simultaneously and is stirred to dissolving, obtains solution (a).It is 20g Al that solid sodium metaaluminate is mixed with to concentration ₂o ₃/ l sodium aluminate solution (b), 198.4g propane diols is dissolved in 1L water, forms solution (c).1543g Y zeolite Y-1 (SiO ₂/ Al ₂o ₃mol ratio is 11.0, and lattice constant is 24.42, and relative crystallinity is 95%) use containing the dipping solution of 870g sodium tungstate and carry out saturated dipping, after dipping 120 ℃ dry 180 minutes, 500 ℃ of roastings 4 hours; 155g diethanol amine is dissolved in 10L water, is heated to 60 ℃, adds the molecular sieve after metal-modified under stirring, continues to keep temperature to stir 2 hours, filters and obtains processing rear molecular sieve (d).Get a plastic cans, insert after 2l deionized water and stirring is heated to 60 ℃ and add (d), open simultaneously have (a), the valve of (b) and container (c), the pH=8.0 of the hierarchy of control, in controlling 45 minutes, drip off valve-off by (a) with (c).Keeping temperature is 60 ℃, pH=8.0, and aging 1 hour, material in tank is filtered, wash to sulfate radical-free ion, filter, filter cake is dried to 10 hours at 110 ℃, pulverize and sieve and obtain catalyst intermediate J-3.

Get 100 grams of catalyst intermediate J-3, the same contact of the peptization liquid containing nitric acid forms paste, and extruded moulding is then dry at 120 ℃, is dried after 180 minutes, and dried catalyst, 500 ℃ of roastings 4 hours, is obtained to catalyst C, and its composition is in table 2.

embodiment 4

By 555g solid aluminum chloride, 12.3g nickel nitrate joins in 3L water, heats simultaneously and is stirred to dissolving, obtains solution (a).Add appropriate distilled water diluting into about 10wt% weak aqua ammonia (b) concentrated ammonia liquor, 84g adipic acid is dissolved in 1L water, forms solution (c).11.2g Hydrogen β zeolite B-1 (SiO ₂/ Al ₂o ₃mol ratio is 30.0, and lattice constant is 12.00, and relative crystallinity is 90%) use containing the dipping solution of 14g sodium tungstate and carry out saturated dipping, after dipping 120 ℃ dry 180 minutes, 500 ℃ of roastings 4 hours; 4.4g monoethanolamine is dissolved in 50ml ethanol, is heated to 60 ℃, adds metal-modified molecular sieve under stirring, continues to keep temperature to stir 2 hours, filters and obtains pretreatment molecular sieves (d).Get a plastic cans, in tank, add (a) and be heated with stirring to after 60 ℃, open the valve of the container that has (b), within controlling 10 minutes, system in tank is added drop-wise to pH=4.5, now in tank, adds (d), continue to drip (b), open the valve of the container that has (c), in controlling 30 minutes, system in tank is added drop-wise to PH=8.0, controls the valve of the container of (c), guarantee to be now added dropwise to complete.Keeping temperature is 60 ℃, pH=8.0, and aging 1 hour, material in tank to be filtered, washing, to without chlorion, is filtered, and filter cake is dried to 10 hours at 110 ℃, pulverizes and sieves and obtains catalyst intermediate J-4.

Get 100 grams of catalyst intermediate J-4, the same contact of the peptization liquid containing nitric acid forms paste, and extruded moulding is dry at 120 ℃, is dried after 180 minutes, and dried catalyst, 500 ℃ of roastings 4 hours, is obtained to catalyst D, and its composition is in table 2.

comparative example 1

Repeat the synthetic of embodiment 2, do not add ethylenediamine and BDO, make comparative catalyst's intermediate DF-1.

The process of catalyst intermediate DF-1 synthetic catalyst, with embodiment 2, obtains catalyst DA, and its composition is in table 2.

comparative example 2

Repeat the synthetic of embodiment 2, do not add ethylenediamine, make comparative catalyst's intermediate DF-2.

The process of catalyst intermediate DF-2 synthetic catalyst, with embodiment 2, obtains catalyst DB, and its composition is in table 2.

comparative example 3

Repeat the synthetic of embodiment 4, do not add organic amine and organic acid, make comparative catalyst's intermediate DF-3.

The process of catalyst intermediate DF-3 synthetic catalyst, with embodiment 4, obtains catalyst DC, and its composition is in table 2.

comparative example 4

Repeat the synthetic of embodiment 2, do not add active metal component in coprecipitation process, molecular sieve does not carry out metal-modified, makes comparative composite DF-4.Get 100 grams of product DF-4 carrier materials, form paste with the peptization liquid contact containing nitric acid, extruded moulding, the same contact of the maceration extract containing W-Ni metal component 3 hours after drying roasting, then dry after 180 minutes at 120 ℃, dried catalyst, 500 ℃ of roastings 4 hours, is obtained to catalyst DD, and its composition is in table 2.

  

Table 1 raw molecule sieve main character

?	Y-1	B-1
			Specific area, m 2/g	786	553
Pore volume, ml/g	0.37	0.40

The composition of table 2 catalyst and character

Catalyst numbering	A	B	C	D	DA	DB	DC	DD
									WO 3，wt％	28.74	22.69	18.91	3.78	23.0	23.4	4.0	23.3
NiO，wt％	9.26	7.31	6.09	1.22	7.9	5.5	1.3	6.5
									Specific area, m 2/g	204	329	420	313	291	324	255	274
Pore volume, ml/g	0.39	0.34	0.30	0.65	0.30	0.32	0.56	0.32

The invention described above catalyst and comparative catalyst thereof are evaluated.Evaluation is a kind of LCO inferior with feedstock oil, and character is in table 3, and appreciation condition is as follows: reaction pressure 14MPa, hydrogen to oil volume ratio 1500, volume space velocity 1.5 h when liquid ^-1.Main character is in table 4.

  

Table 3 raw material oil properties

Boiling range, ℃	175~370
		S，wt%	0.55
N，μg/g	711
		Condensation point, ℃	-3
Cetane number	25

Table 4 evaluation result

Catalyst numbering	B	DA	DB	DF
					Reaction temperature, ℃	360	365	369	360
Product boiling range, ℃	182~370	182~370	182~370	182~370
					S，wt%	22	25	20	23
N，μg/g	1	1	1	1
					Condensation point, ℃	-35	-32	-30	-36
Cetane number	38	35	25	37
					Diesel yield, wt%	98	95	97	97

Can find out from evaluation result, the catalyst that uses the inventive method to prepare has good activity and product selectivity.

Claims (21)

1. a preparation method for hydrogenation catalyst, comprising:

(1) use group VIII metal cation modified molecular screen, wherein group VIII metal accounts for 1% ~ 12% of modified molecular screen weight in oxide;

(2) modified molecular screen of step (1) gained is mixed with organic amine, wherein the addition of organic amine accounts for the 1wt% ~ 40wt% of molecular sieve weight;

(3) mixture, the organic matter that adopt coprecipitation to prepare aluminium oxide and group vib metal oxide composite oxides before or add step (2) to obtain in process, making the weight ratio of aluminium oxide and molecular sieve is 1:19 ~ 19:1, and group vib metal accounts for 2% ~ 40% of alumina weight in the addition of oxide; Organic addition accounts for the 1wt% ~ 50wt% of alumina weight, described organic matter be containing the organic alcohols of two or more hydroxyls, contain two or more carboxyls organic acid in one or more;

(4) after step (2) coprecipitation reaction finishes, carry out agingly, then after filtration, washing, dry, obtain catalyst intermediate;

(5) catalyst intermediate of step (4) gained is through moulding, and dry and roasting, obtains hydrogenation catalyst.

2. in accordance with the method for claim 1, it is characterized in that described group VIII metal is one or more in Fe, Co, Ni, group vib metal is Mo and/or W.

3. in accordance with the method for claim 1, it is characterized in that in step (1), group VIII metal cation modified molecular screen adopts ion-exchange or infusion process preparation, be about to the solution impregnation molecular sieve containing group VIII metal component, then drying and roasting and obtain, dry and roasting condition is wherein as follows: under 60 ~ 180 ℃ of temperature conditions, be dried 2 ~ 24 hours, roasting 2 ~ 12 hours under 300 ~ 600 ℃ of conditions.

4. in accordance with the method for claim 1, it is characterized in that in step (2), the addition of organic amine accounts for the 7wt% ~ 40wt% of molecular sieve weight.

5. in accordance with the method for claim 1, it is characterized in that in step (2), described organic amine is that carbon number is less than one or more in the fatty amine, aromatic amine, hydramine, acid amides, naphthylamines of 20.

6. in accordance with the method for claim 1, it is characterized in that in step (2), described organic amine is one or more in the fatty amines that contains 2 ~ 10 carbon numbers.

7. in accordance with the method for claim 1, it is characterized in that in step (2), described organic amine and molecular sieve mixed method: organic amine is directly added in molecular sieve, or organic amine is dissolved in solvent and is added in molecular sieve again, and solvent is wherein one or more in water, low-carbon alcohols; Described low-carbon alcohols is that carbon number is one or more in 1 ~ 5 monohydric alcohol.

8. in accordance with the method for claim 1,, after it is characterized in that step (2) molecular sieve mixes with organic amine, after being also dried after filtration or after filtration, then carry out step (3).

9. in accordance with the method for claim 1, it is characterized in that in step (3), coprecipitation is that aluminium source, group vib source metal and precipitating reagent are carried out to plastic process, group vib source metal is molybdenum source and/or tungsten source, wherein aluminium source is one or more in aluminium chloride, aluminum sulfate, aluminum nitrate, molybdenum source is molybdenum trioxide, and tungsten source is sodium tungstate, ammonium metatungstate or wolframic acid, and precipitating reagent used is one or several in sodium carbonate, sodium acid carbonate, NaOH, potassium hydroxide, ammoniacal liquor.

10. in accordance with the method for claim 1, it is characterized in that in step (1), described molecular sieve is one or more in Y zeolite, β zeolite, ZSM Series Molecules sieve, SAPO Series Molecules sieve, MCM Series Molecules sieve and above-mentioned modified molecular screen.

11. in accordance with the method for claim 1, it is characterized in that in step (3), the introducing mode of the mixture of step (2) gained adopts the one or more combination of following manner: (1), in coprecipitation reaction process, adds this mixture in plastic cans continuously; (2) this mixture is first joined in plastic cans, then carry out coprecipitation reaction; (3) by this mixture, one or more with coprecipitation reaction material are mixed, and then carry out coprecipitation reaction.

12. in accordance with the method for claim 1, it is characterized in that in step (3), organic addition accounts for the 20wt% ~ 50wt% of alumina weight.

13. in accordance with the method for claim 1, it is characterized in that the boiling point of the organic alcohols described in step (3) is higher than plastic temperature, and boiling point is 100 ℃ ~ 350 ℃; The boiling point of described organic acid is higher than plastic temperature, and boiling point is 100 ℃ ~ 350 ℃.

14. in accordance with the method for claim 1, it is characterized in that the organic alcohols described in step (3) is diethylene glycol (DEG), triethylene glycol, tetraethylene glycol, propane diols, glycerine, 1,4-butanediol, butantriol, 2,2-dimethyl-1,3 propane diols, DPG, xylitol, pentanediol, 1, one or more in 6-hexylene glycol, hexitol, sweet mellow wine.

15. in accordance with the method for claim 1, it is characterized in that the organic acid described in step (3) is one or more in ethanedioic acid, malonic acid, citric acid, succinic acid, malic acid, tartaric acid, glutaric acid, adipic acid, pimelic acid, suberic acid.

16. in accordance with the method for claim 1, it is characterized in that in step (3), the described organic mode that adds is selected the one or more combination of following manner: (1) joined in advance in plastic cans before coprecipitation reaction, (2) in coprecipitation reaction process, be added drop-wise in plastic cans, (3) with one or more mixing of coprecipitation reaction raw material, add in plastic cans with material.

17. in accordance with the method for claim 1, it is characterized in that in step (5), and after catalyst intermediate moulding, drying condition is at 80 ~ 200 ℃, and dry 1 ~ 15 hour, sintering temperature was 450 ~ 700 ℃, and roasting time is 1 ~ 10 hour.

18. in accordance with the method for claim 1, it is characterized in that the hydrogenation catalyst of gained supplements partial hydrogenation active metal component as required.

19. in accordance with the method for claim 18, it is characterized in that: adopt infusion process to supplement load hydrogenation active metals component, again after drying and roasting, obtain hydrogenation catalyst, wherein drying condition is as follows: at 80 ~ 200 ℃, dry 1 ~ 15 hour, roasting condition was roasting 1 ~ 8 hour at 350 ~ 550 ℃.

20. according to the method described in claim 1 or 18, it is characterized in that described hydrogenation catalyst, and take the weight of hydrogenation catalyst as benchmark, hydrogenation active metals content is counted 3wt% ~ 40wt% with oxide.

21. according to the method described in claim 1 or 18, it is characterized in that in described hydrogenation catalyst, and the weight ratio of group vib metal and VIII family metal is 2 ~ 8.