CN104162439A - Hydrogenation activity protective catalyst, preparation and applications thereof - Google Patents

Abstract

The invention discloses a hydrogenation activity protective catalyst, preparation and applications thereof. The catalyst comprises a carrier and a hydrogenation activity metal component, wherein the carrier comprises an element selected from the IVB metal elements and has a dual-peak hole structure; the carrier properties characterized by a mercury intrusion method are as follows: pore capacity of the carrier is 0.95-1.2 mL/g, and the specific surface area is 500-300 m2/g, the volume of the pores with a diameter of 10-30 nm accounts for 55-80% of the total pore volume, and the volume of the pores with a diameter of 300-500 nm accounts for 10-35% of the total pore volume. The preparation of the catalyst comprises the following steps: mixing hydrate alumina containing pseudo-boehmite (P1) and modified hydrate alumina (P2) together, adding a compound containing IVB group metal elements into the mixture, forming, drying, and burning; the kappa value of the P2 is in a range of 0 to 0.9 (0.9 is included), the kappa is equal to DI2/DI1, wherein the DI1 represents the acid peptization index of the hydrate alumina containing pseudo-boehmite (P1), and the DI2 represents he acid peptization index of the modified hydrate alumina (P2). Compared to the prior art, the provide hydrogenation activity protective catalyst has a better hydrogenation activity and a better demetallization activity at the same time.

Description

A kind of hydrogenation activity guard catalyst and preparation and application

Technical field

The present invention relates to a kind of hydrogenation activity guard catalyst and preparation and application thereof.

Background technology

Along with the aggravation of crude oil heaviness, in poor quality trend, crude oil difficulty of processing strengthen, light oil yield reduce, and market to the demand of high grade light-end products in continuous increase, it is strict that environmental regulation is also more and more tending towards.At present, the heavy oil especially processing and making full use of of residual oil just becomes the staple of conversation that global Oil Refining Industry is paid close attention to, and residual hydrogenation technology is a kind of widely used processing technology in processing of heavy oil technique, is the economic environment-friendly type deep process technology of generally acknowledging.In residual oil, contain metal impurities and the solid impurities such as a large amount of Ni, V, Fe, Ca, if this part impurity can not effectively be removed, can downstream hydrogenation catalyst be had a negative impact, be easy to make downstream catalyst inactivation.One of effective way addressing this problem is the protective agent in hydrogenation catalyst top filling with hydrogenation activity, therefore develops that metal removal activity is high, to hold the strong protective agent of metal ability be one of key technology of heavy-oil hydrogenation processing.In prior art, the disclosed example about hydrogenation activity guard catalyst and preparation method thereof comprises:

CN101890381A discloses a kind of hydrotreating guard catalyst for residual oil and application thereof.This catalyst pore volume is large, and aperture is large, and porosity is high, reasonable pore distribution, and outer surface orifice is larger, and duct penetrability is good, and 1000nm contains more than 36% in above duct.

CN00124903.7 discloses a kind of hydrogenation protecting catalyst; this catalyst contains a kind of alumina support and loads on molybdenum and/or tungsten and nickel and/or the cobalt on alumina support; wherein; total ammonia integral heat of adsorption of described alumina support is not more than 25 joule/gram, and the percentage that the ammonia integral heat of adsorption that ammonia differential heat of adsorption is greater than 100 kj/mol accounts for total ammonia integral heat of adsorption is not more than 10%.

Patent CN98111379.6 discloses a kind of hydrogenation protecting catalyst and preparation method thereof, and catalyst carrier is ultra-large aperture, and aperture is the bimodal hole of 0.1-30 μ m, and catalyst pore volume is 0.1-0.8ml/g, specific surface 0.1-20m ²/ g, containing the metallic element 6.65m%-20.0m% of VI B family and/or the metallic element 8.7m1% of VIII family ,-26.13m%.Preparation method adopts particle to pile up legal system for alumina support, then adopts containing molybdenum solution and solution containing nickel equivalent impregnation, and the catalyst after dipping is at 100-120 DEG C of dry 2-5h, at 500-550 DEG C of configuration roast 2-5h.

The technical problem to be solved in the present invention is to provide preparation method and the application of a kind of new hydrogenation activity guard catalyst, this hydrogenation activity guard catalyst.

The present invention relates to following content:

1. a hydrogenation activity guard catalyst, the alumina support and the hydrogenation active metals component that contain IV B family metal component, wherein; described carrier has structure of double peak holes; characterize with mercury injection method, the pore volume of described carrier is 0.95-1.2 ml/g, and specific area is 100-240 rice ²/ gram, diameter is the 55-80% that the pore volume in 10-30nm hole accounts for total pore volume, diameter is the 10-35% that the pore volume in 300-500nm hole accounts for total pore volume.

2. according to the catalyst described in 1, it is characterized in that, the pore volume of described aluminium oxide is 0.95-1.15 ml/g, and specific area is 80-200 rice ²/ gram, diameter is the 60-75% that the pore volume in 10-30nm hole accounts for total pore volume, diameter is the 15-30% that the pore volume in 300-500nm hole accounts for total pore volume.

3. according to the hydrogenation activity guard catalyst described in 1, it is characterized in that, described IV B family metal component is selected from one or more in titanium, zirconium, hafnium, and in oxide and taking carrier as benchmark, the content of described IV B family metal component is 0.1-6 % by weight.

4. according to the hydrogenation activity guard catalyst described in 3, it is characterized in that, described IV B family metal component is titanium, and in oxide and taking carrier as benchmark, the content of described IV B family metal component is 0.3-4 % by weight.

5. according to the hydrogenation activity guard catalyst described in 4, it is characterized in that, in oxide and taking carrier as benchmark, the content of described IV B family metal component is 0.5-2.5 % by weight.

6. according to the hydrogenation activity guard catalyst described in 1; it is characterized in that; described hydrogenation active metals component is selected from least one metal component of group VIII and at least one metal component of group VIB; in oxide and taking catalyst as benchmark; the content of described metal component of group VIII is greater than 0 to being less than or equal to 0.8 % by weight, and the content of metal component of group VIB is greater than 0 to being less than or equal to 4 % by weight.

7. according to the hydrogenation activity guard catalyst described in 6; it is characterized in that; described metal component of group VIII is selected from cobalt and/or nickel; metal component of group VIB is selected from molybdenum and/or tungsten; in oxide and taking catalyst as benchmark; the content of described VIII family metal component is 0.2-0.6 % by weight, and the content of metal component of group VIB is 1.5-3.5 % by weight.

8. according to the preparation method of the hydrogenation activity guard catalyst described in 1; comprise and prepare carrier and load hydrogenation active metals component on this carrier; wherein; the preparation of described carrier comprises introduces the compound containing IV B family metal by mixed the modifier P2 of the hydrated alumina P1 that contains boehmite and P1 being incorporated in this mixture; moulding afterwards, dry and roasting, wherein, the weight mixing ratio of described P1 and P2 is 20-95:5-80; the κ value of P2 is 0 to being less than or equal to 0.9, described κ=DI ₂/ DI ₁, DI ₁for the sour peptization index of the hydrated alumina P1 that contains boehmite, DI ₂for the sour peptization index of the modifier P2 of the hydrated alumina P1 that contains boehmite.

9. according to the method described in 8, it is characterized in that, the weight mixing ratio of described P1 and P2 is 70-95:5-25; The k value of described P2 is 0 to being less than or equal to 0.6.

10. according to the method described in 8, it is characterized in that, in oxide and taking described carrier as benchmark, it is 0.1-6 % by weight that the introduction volume of the described compound that contains IV B family metal makes the content of alkaline components in final carrier.

11. according to the method described in 10, it is characterized in that, in oxide and taking described carrier as benchmark, it is 0.3-4 % by weight that the introduction volume of the described compound that contains IV B family metal makes the content of alkaline components in final carrier.

12. according to the method described in 8 or 9, it is characterized in that, described in contain boehmite the pore volume of hydrated alumina P1 be 0.9-1.4 ml/g, specific surface is 100-350 rice ²/ gram, can and bore dia 8-30nm.

13. according to the method described in 12, it is characterized in that, described in contain boehmite the pore volume of hydrated alumina P1 be 0.95-1.3 ml/g, specific surface is 120-300 rice ²/ gram, can and bore dia 10-25nm.

14. according to the method described in 8 or 9 any one, it is characterized in that, described P2 is 80-300 object particle.

15. according to the method described in 14, it is characterized in that, described P2 is 100-200 object particle.

16. according to the method described in 8, it is characterized in that, described dry condition comprises: temperature is 40-350 DEG C, and the time is 1-24 hour, and the condition of described roasting comprises: temperature is for being greater than 500 to being less than or equal to 1200 DEG C, and the time is 1-8 hour.

17. according to the method described in 16, it is characterized in that, described dry condition comprises: temperature is 100-200 DEG C, and the time is 2-12 hour, and the condition of described roasting comprises: temperature is for being greater than 800 to being less than or equal to 1000 DEG C, and roasting time is for being 2-6 hour.

18. according to the method described in 8, it is characterized in that, it is by the described hydrated alumina P1 moulding that contains boehmite, dry that P1 is modified as to one of method of P2, afterwards it is all or part ofly ground, sieved, obtaining powder thing is P2, described dry condition comprises: temperature is 40-350 DEG C, and the time is 1-24 hour; Two of method is article shaped roastings that method one is obtained, and sintering temperature is for being greater than 350 to being less than or equal to 1400 DEG C, and roasting time is 1-8 hour, afterwards it is all or part ofly ground, is sieved, and obtaining powder thing is P2; Three of method is that the hydrated alumina P1 that contains boehmite is dodged and done, and dodges dry temperature for being greater than 150 to being less than or equal to 1400 DEG C, and flash-off time is 0.05-1 hour, and obtaining powder thing is P2; Four of method is that one or more in two and the modifier that obtains with three of method of one of method, method are mixed to get.

19. according to the method described in 18, it is characterized in that, the dry condition in described method one comprises: temperature is 100-200 DEG C, and the time is 2-12 hour; Method two in sintering temperature be 500-1200 DEG C, roasting time is 0.1-6 hour; Method three in the dry temperature of sudden strain of a muscle be 200-1000 DEG C, flash-off time is 0.1-0.5 hour.

20. according to the method described in 18 or 19, it is characterized in that, described P2 is 80-300 object particle in P1 modifier.

21. according to the method described in 20, it is characterized in that, described P2 is 100-200 object particle in P1 modifier.

22. according to the method described in 8, it is characterized in that, described on carrier the method for load hydrogenation active metals component be infusion process, comprise preparation containing the solution of the compound of hydrogenation active metals and use this solution impregnating carrier, be dried afterwards, roasting or not roasting, described hydrogenation active metals component is selected from the metal component of at least one group VIB and the metal component of at least one VIII family, in oxide and taking catalyst as benchmark, the described compound containing hydrogenation active metals makes the content of the metal component of the group VIB in final catalyst be greater than 0 to being less than or equal to 4 % by weight in the concentration of described solution and the consumption of described solution, the content of the metal component of described VIII family is greater than 0 to being less than or equal to 0.8 % by weight, described drying condition comprises: temperature is 100-250 DEG C, and the time is 1-10 hour, described roasting condition comprises: temperature is 360-500 DEG C, and the time is 1-10 hour.

23. according to the method described in 22, it is characterized in that, the metal component of described group VIB is selected from molybdenum and/or tungsten, the metal component of VIII family is selected from cobalt and/or nickel, in oxide and taking catalyst as benchmark, it is 1.5-3.5 % by weight that the described compound containing hydrogenation active metals makes the content of the metal component of the group vib in final catalyst at the concentration of described solution and the consumption of described solution, and the content of the metal component of VIII family is 0.2-0.6 % by weight; Described drying condition comprises: temperature is 100-140 DEG C.

The application of hydrogenation activity guard catalyst in 24. claim 1-7 described in any one in hydrocarbon oil hydrogenation is processed.

Depending on different requirements, the carrier described in the present invention in catalyst can be made into the article shaped of various easy operatings, such as spherical, cellular, nest like, tablet or bar shaped (clover, butterfly, cylindrical etc.).Wherein, the method that the modifier P2 of the described hydrated alumina P1 that contains boehmite and P1 is mixed is conventional method, for example, the P1 of powder and P2 is dropped in stirring-type batch mixer and is mixed according to ingredient proportion.Being conventional method to the method for introducing in described P1 and P2 mixture containing the compound of IV B family metal, for example, can be directly the compound containing IV B family metal of aequum to be sneaked in aforesaid P1 and P2 mixed process.

In a concrete embodiment of preparing carrier, to be mixed with the aqueous solution containing IV B family metallic compound to the method for introducing in the mixture of the modifier P2 of the described hydrated alumina P1 that contains boehmite and P1 containing the compound of IV B family metal, this aqueous solution is sneaked into when described P1 and P1 mix or after described P1 and P1 mix, again this aqueous solution is sneaked into moulding afterwards, dry and roasting.One or more in the water soluble compound that the described compound that contains IV B family metal can be IV B family metal arbitrarily.For example, one or more in the water-soluble inorganic salt of IV B family metal.

In the present invention, described moulding is carried out according to a conventional method, for example, and a kind of method in spin, compressing tablet and extruded moulding or the combination of several method.In the time of moulding, for example extruded moulding, for ensureing that described moulding carries out smoothly, can to add in described mixture water, extrusion aid and/or adhesive, containing or containing expanding agent, then extrusion molding, be dried also roasting afterwards.The kind of described extrusion aid, peptizing agent and consumption are conventionally known to one of skill in the art, for example common extrusion aid can be selected from one or more in sesbania powder, methylcellulose, starch, polyvinyl alcohol, PVOH, described peptizing agent can be inorganic acid and/or organic acid, and described expanding agent can be one or more in starch, synthetic cellulose, polymeric alcohol and surfactant.Synthetic cellulose is wherein preferably one or more in CMC, methylcellulose, ethyl cellulose, hydroxyl fiber fat alcohol polyethylene ether, polymeric alcohol is preferably one or more in polyethylene glycol, poly-propyl alcohol, polyvinyl alcohol, and surfactant is preferably one or more in propenyl copolymer and the maleic acid copolymer that fat alcohol polyethylene ether, fatty alkanol amide and derivative thereof, molecular weight are 200-10000.

Sour peptization index D I in the preparation of described carrier refers to that the hydrated alumina that contains boehmite adds after nitric acid by certain sour aluminum ratio, within certain reaction time by the hydrated alumina that contains boehmite of peptization with Al ₂o ₃the percentage of meter, DI=(1-W ₂/ W ₁) × 100%, W ₁and W ₂be respectively intend thin water aluminium and acid reaction front and with acid reaction after with Al ₂o ₃the weight of meter.

The mensuration of DI comprises: (1) measure the hydrated alumina that contains boehmite calcination base content (calcination base (also referred to as butt) content refers to quantitative boehmite in 600 DEG C of roastings 4 hours, its burn after weight and burn before the ratio of weight), count a; (2) take with assay balance the hydrated alumina W that contains boehmite ₀gram, W ₀amount meet with Al ₂o ₃the W of meter ₁be 6 grams of (W ₁/ a=W ₀), take deionized water W gram, W=40.0-W ₀, under stirring, the hydrated alumina that contains boehmite taking and deionized water are added in beaker and are mixed; (3) pipette with 20mL pipette the dilute nitric acid solution that 20mL, concentration are 0.74N, this acid solution is joined in the beaker of step (2), stir lower reaction 8 minutes; (4) the reacted slurries of step (3) are carried out to centrifugation in centrifuge, sediment are inserted in the crucible of having weighed, afterwards, by its in 125 DEG C dry 4 hours, in Muffle furnace, 850 DEG C of roastings 3 hours, weigh and obtain calcination sample size W ₂gram; (5) according to formula DI=(1-W ₂/ W ₁) × 100% calculates.

Be enough to that final carrier is met under the prerequisite of requirement of the present invention, the present invention does not have special requirement to the described hydrated alumina P1 that contains boehmite, it can be boehmite prepared by any prior art, also can be the mixture of boehmite and other hydrated alumina, described other hydrated alumina be selected from one or more in a water aluminium oxide, gibbsite and amorphous hydrated aluminium oxide.For example, pore volume is 0.9-1.4 ml/g, and specific surface is 100-350 rice ²/ gram, can and bore dia 8-30nm; Preferably pore volume is 0.95-1.3 ml/g, and specific surface is 120-300 rice ²/ gram, can and the hydrated alumina that contains boehmite of bore dia 10-25nm be just particularly suitable for the present invention.In the present invention, the pore volume of the hydrated alumina that contains boehmite, specific area and can and aperture, be that the described hydrated alumina that contains boehmite, is obtained by BET nitrogen absorption representation after 4 hours in 600 DEG C of roastings.

In further preferred embodiment, with X diffraction characterize, described in contain boehmite hydrated alumina in boehmite content be not less than 50%, be more preferably not less than 60%.

The present inventor is surprised to find, the hydrated alumina P1 that contains boehmite is heat-treated after modification, the peptization index of its modifier changes, by this modifier with without heat treated P1 mixed-forming, dry and roasting after, the carrier obtaining has obvious bimodal pore distribution.Particularly by 80-300 object particle wherein, preferably 100-200 object particle with without after heat treated part mixed-forming, dry and roasting, the each unimodal pore size distribution in the carrier obtaining bimodal is concentrated especially.Here, described 80-300 object particle, preferably 100-200 object particle refers to that described modifier is through sieve (step that comprises if desired fragmentation or grinding), its screening thing (screenings) meets 80-300 object particle, the percentage (by weight) that preferred 100-200 object particle accounts for total amount is not less than 60%, is further preferably not less than 70%.

In concrete enforcement, described P2 can conveniently be obtained by following method:

(1) based on the dry P2 that obtains, comprise by the hydrated alumina P1 that contains boehmite according to a conventional method moulding prepare in conventional alumina support process, the tailing of drying by-product, for example: in extruded moulding, bar shaped article shaped is at tailing (being called traditionally dry waste material) dry, integer process by-product, this tailing is milled, sieve and obtain P2.

(2) obtain based on roasting, comprise by the hydrated alumina P1 that contains boehmite according to a conventional method moulding prepare in conventional alumina support process, through the tailing (being called traditionally roasting waste material) of roasting by-product, for example, in roller forming, the tailing of spheric granules by-product in roasting process, mills this tailing, sieves and obtains P2; Or directly P1 is dodged to dry obtaining, in the time directly P1 sudden strain of a muscle being done, flash-off time is preferably 0.05-1 hour, more preferably 0.1-0.5 hour.

(3) being mixed to get of two or more in the modifier P2 obtaining based on preceding method.In the time adopting mixed method to obtain P2, the mixed proportion of the modifier P2 that aforementioned several method is obtained respectively does not limit.

According to hydrogenation activity guard catalyst provided by the invention; wherein; described hydrogenation active metals component is kind known in those skilled in the art and content thereof; preferably VIII family metal component is cobalt and/or nickel; VI B family metal component is molybdenum and/or tungsten; in oxide and taking catalyst as benchmark; the content of described VIII family metal component is preferably greater than 0 to being less than or equal to 0.8 % by weight; more preferably 0.1-0.6 % by weight; the content of described metal component of group VIB is preferably greater than 0 to being less than or equal to 4 % by weight, more preferably 1.5-3.5 % by weight.

Described hydrogenation active metals component is carried under the prerequisite on described carrier being enough to, the present invention is not particularly limited described carrying method, preferred method is infusion process, comprises the dipping solution of preparation containing the compound of described metal, uses afterwards the carrier described in this solution impregnation.Described dipping method is conventional method, for example, can be excessive immersion stain, hole saturation infusion process.Described be selected from one or more in the soluble compound in them containing the metal component compound that is selected from VI B family, as one or more in molybdenum oxide, molybdate, paramolybdate, preferably molybdenum oxide, ammonium molybdate, ammonium paramolybdate wherein; One or more in tungstates, metatungstate, ethyl metatungstate, preferred ammonium metatungstate, ethyl ammonium metatungstate wherein.One or more in the described soluble compound that is selected from them containing the compound that is selected from VIII family metal component, as one or more in the soluble complexes of cobalt nitrate, cobalt acetate, basic cobaltous carbonate, cobalt chloride and cobalt, be preferably cobalt nitrate, basic cobaltous carbonate; One or more in the soluble complexes of nickel nitrate, nickel acetate, basic nickel carbonate, nickel chloride and nickel, are preferably nickel nitrate, basic nickel carbonate.

According to catalyst provided by the invention, can also contain any interpolation component that the invention provides catalyst performance and maybe can improve the catalytic performance of catalyst provided by the invention that do not affect.As contained the interpolation components such as phosphorus, in oxide and taking catalyst as benchmark, the content of described interpolation component is no more than 10 % by weight, is preferably 0.1-4 % by weight.

In the time also containing phosphorus etc. in described catalyst and add component, the introducing method of described interpolation component can be method arbitrarily, as can be by containing as described in the component such as phosphorus compound directly with as described in boehmite mix, moulding roasting; Can be to flood described carrier after the compound that contains the components such as described phosphorus and the compound that contains hydrogenation active metals component are mixed with to mixed solution; Can also be after independent the compound that contains the components such as phosphorus obtain solution, to flood described carrier roasting.In the time that the interpolation components such as phosphorus and hydrogenation active metals are introduced described carrier respectively, preferably first with carrier roasting described in the solution impregnation that contains described interpolation component composition, afterwards again by the solution impregnation that contains hydrogenation active metals component composition.Wherein, described sintering temperature is 400-600 DEG C, is preferably 420-500 DEG C, and roasting time is 2-6 hour, is preferably 3-6 hour.

According to hydrocarbon ils provided by the present invention (comprising residual oil) hydrotreating method, the reaction condition of the hydrotreatment to described hydrocarbon ils is not particularly limited, in a preferred embodiment, described hydrotreatment reaction condition is: reaction temperature 300-550 DEG C, further preferred 330-480 DEG C, hydrogen dividing potential drop 4-20 MPa, further preferred 6-18 MPa, volume space velocity 0.1-3.0 hour ^-1, further preferred 0.15-2 hour ^-1, hydrogen to oil volume ratio 200-2500, further preferred 300-2000.

The device of described hydrogenation reaction can be enough to make described feedstock oil to carry out under hydrotreatment reaction condition with the catalytic reactor of described catalyst any, for example, at described fixed bed reactors, in moving-burden bed reactor or fluidized bed reactor, carries out.

According to the conventional method in this area, described hydrotreating catalyst is before using, conventionally can be under hydrogen exists, at the temperature of 140-370 DEG C, carry out presulfurization with sulphur, hydrogen sulfide or sulfur-bearing raw material, this presulfurization can be carried out outward also can in device, original position vulcanizing at device, and the active metal component of its load is converted into metal sulfide component.

The employing providing with prior art has compared with hydrogenation protecting catalyst prepared by bimodal hole carrier, bimodal 10nm-30nm and the 300nm-500nm of concentrating on of the carrier that hydrogenation activity guard catalyst provided by the invention adopts.This catalyst has good HDM activity in having GPF (General Protection False agent function.This catalyst be particularly suitable as hydrogenation activity guard catalyst for heavy oil particularly poor residuum carry out hydrotreatment.

Detailed description of the invention

The present invention will be further described for the following examples, but should therefore not be interpreted as limitation of the invention.

Agents useful for same in example, except special instruction, is chemically pure reagent.

The boehmite using in following embodiment comprises:

P1-1: (pore volume is 1.2 mls/g to the dry glue powder that Chang Ling catalyst branch company produces, and specific surface is 280 meters ²/ gram, can and bore dia 15.8nm.Butt is 73%, and wherein boehmite content is 68%, and gibbsite content is 5 % by weight, and surplus is amorphous alumina, DI value 15.8).

P1-2: (pore volume is 1.1 mls/g to the dry glue powder that Yantai Heng Hui Chemical Co., Ltd. produces, and specific surface is 260 meters ²/ gram, can and bore dia 12nm.Butt is 71%, and wherein boehmite content is 67%, and gibbsite content is 5 % by weight, and surplus is amorphous alumina, DI value 17.2).

Modifier P2 of the described P1 that embodiment 1-5 explanation preparation carrier of the present invention is used and preparation method thereof.

Embodiment 1

Take 1000 grams of P1-1, add afterwards containing 1440 milliliters of the aqueous solution of 10 milliliters, nitric acid (Tianjin chemical reagent three factory's products), on double screw banded extruder, be extruded into the butterfly bar of external diameter φ 1.4mm.Wet bar in 120 DEG C dry 4 hours, obtain dried strip, by dried strip shaping, sieve, the dried strip material (being commonly referred to as industrially drying bar waste material) that length is less than to 2mm is milled, and sieves, and gets wherein 100～200 mesh sieves and divides, and obtains the modifier P2A of P1-1.The k value of P2A is in table 1.

Embodiment 2

Take 1000 grams of P1-1, dodge and do 6 minutes in 240 DEG C, obtain the modifier P2B of P1-1.The k value of P2B is in table 1.

Embodiment 3

Each 200 grams of even mixing of P2B that the P2A that embodiment 1 is obtained and embodiment 2 obtain, obtain the modifier P2C of P1-1.The k value of P2C is in table 1.

Embodiment 4

Take 1000 grams of P1-2, add afterwards containing 1440 milliliters of the aqueous solution of 10 milliliters, nitric acid (Tianjin chemical reagent three factory's products), on double screw banded extruder, be extruded into the butterfly bar of external diameter φ 1.4mm.Wet bar in 120 DEG C dry 4 hours, 1200 DEG C of roastings 4 hours, obtain carrier, by carrier strip shaping, sieve, the carrier strip material (being commonly referred to as industrial carrier waste material) that length is less than to 2mm is milled, sieve, get wherein 100～200 mesh sieves and divide, obtain the modifier P2D of P1-2.The k value of P2D is in table 1.

Embodiment 5

Take 1000 grams of P1-2, dodge and do 10 minutes in 650 DEG C, obtain the modifier P2E of P1-2.The k value of P2E is in table 1.

Table 1

Embodiment	Raw material	k
			1	P2A	0.5
2	P2B	0.4
			3	P2C	0.4
4	P2D	0
			5	P2E	0.3

The preparation method of carrier for embodiment 6-13 explanation preparation catalyst of the present invention.The preparation method of comparative example 1-2 explanation conventional catalyst carrier.

Embodiment 6

Take 800 grams of P1-1, after 200 grams of raw material P2A that make with embodiment 1 evenly mix, 1440 milliliters of the aqueous solution that add and contain 10 milliliters, nitric acid (Tianjin chemical reagent three factory's products), contains titanium tetrachloride 16.6g are extruded into external diameter 2.5mm, the Raschig ring shape bar of internal diameter 1.0mm on plunger type bar extruder.Wet bar in 120 DEG C dry 4 hours, obtain article shaped, by 900 DEG C of roastings of this article shaped 3 hours, obtain carrier Z1.The character of carrier Z1 is listed in table 2.

Embodiment 7

Take 200 grams of P1-1, after 800 grams of raw material P2B that make with embodiment 2 evenly mix, add containing nitric acid Tianjin chemical reagent three factory's products) 10 milliliters, containing 1440 milliliters of the aqueous solution of titanium tetrachloride 16.6g, on plunger type bar extruder, be extruded into external diameter 2.5mm, the Raschig ring shape bar of internal diameter 1.0mm.Wet bar in 120 DEG C dry 4 hours, obtain article shaped, by 900 DEG C of roastings of this article shaped 3 hours, obtain carrier Z2.The character of carrier Z2 is listed in table 2.

Embodiment 8

Take 500 grams of P1-1, after 500 grams of raw material P2C that make with embodiment 3 evenly mix, add containing nitric acid Tianjin chemical reagent three factory's products) 10 milliliters, containing 1440 milliliters of the aqueous solution of titanium tetrachloride 16.6g, on plunger type bar extruder, be extruded into external diameter 2.5mm, the Raschig ring shape bar of internal diameter 1.0mm.Wet bar in 120 DEG C dry 4 hours, obtain article shaped, by 950 DEG C of roastings of this article shaped 3 hours, obtain carrier Z3.The character of carrier Z3 is listed in table 2.

Comparative example 1

Take 1000 grams of P1-1, add containing nitric acid Tianjin chemical reagent three factory's products) 10 milliliters, containing 1440 milliliters of the aqueous solution of titanium tetrachloride 16.6g, on plunger type bar extruder, be extruded into external diameter 2.5mm, the Raschig ring shape bar of internal diameter 1.0mm.Wet bar in 120 DEG C dry 4 hours, obtain article shaped, by 900 DEG C of roastings of this article shaped 3 hours, obtain carrier DZ1.The character of carrier DZ1 is listed in table 2.

Embodiment 9

Take 800 grams of P1-2, after 200 grams of raw material P2D that make with embodiment 4 evenly mix, 1440 milliliters of the aqueous solution that add and contain 10 milliliters, nitric acid (Tianjin chemical reagent three factory's products), contains titanium tetrachloride 29.9g are extruded into external diameter 2.5mm, the Raschig ring shape bar of internal diameter 1.0mm on plunger type bar extruder.Wet bar in 120 DEG C dry 4 hours, obtain article shaped, by 1000 DEG C of roastings of this article shaped 3 hours, obtain carrier Z4.The character of carrier Z4 is listed in table 2.

Embodiment 10

Take 900 grams of P1-1, after 100 grams of raw material P2E that make with embodiment 5 evenly mix, add containing nitric acid Tianjin chemical reagent three factory's products) 10 milliliters, containing 1440 milliliters of the aqueous solution of titanium tetrachloride 29.9g, on plunger type bar extruder, be extruded into external diameter 2.5mm, the Raschig ring shape bar of internal diameter 1.0mm.Wet bar in 120 DEG C dry 4 hours, obtain article shaped, by 1000 DEG C of roastings of this article shaped 3 hours, obtain carrier Z5.The character of carrier Z5 is listed in table 2.

Embodiment 11

Take 850 grams of P1-2, after 150 grams of raw material P2C that make with embodiment 3 evenly mix, add containing nitric acid Tianjin chemical reagent three factory's products) 10 milliliters, containing 1440 milliliters of the aqueous solution of titanium tetrachloride 29.9g, on plunger type bar extruder, be extruded into external diameter 2.5mm, the Raschig ring shape bar of internal diameter 1.0mm.Wet bar in 120 DEG C dry 4 hours, obtain article shaped, by 850 DEG C of roastings of this article shaped 3 hours, obtain carrier Z6.The character of carrier Z6 is listed in table 2.

Comparative example 2

Take 1000 grams of P1-2, add containing nitric acid Tianjin chemical reagent three factory's products) 10 milliliters, containing 1440 milliliters of the aqueous solution of titanium tetrachloride 29.9g, on plunger type bar extruder, be extruded into external diameter 2.5mm, the Raschig ring shape bar of internal diameter 1.0mm.Wet bar in 120 DEG C dry 4 hours, obtain article shaped, by 1000 DEG C of roastings of this article shaped 3 hours, obtain carrier DZ2.The character of carrier DZ2 is listed in table 2.

Embodiment 12

Take 900 grams of P1-2, after 100 grams of raw material P2D that make with embodiment 4 evenly mix, add containing nitric acid Tianjin chemical reagent three factory's products) 10 milliliters, containing 1440 milliliters of the aqueous solution of titanium tetrachloride 41.6g, on plunger type bar extruder, be extruded into external diameter 2.5mm, the Raschig ring shape bar of internal diameter 1.0mm.Wet bar in 120 DEG C dry 4 hours, obtain article shaped, by 1000 DEG C of roastings of this article shaped 3 hours, obtain carrier Z7.The character of carrier Z7 is listed in table 2.

Embodiment 13

Take 850 grams of P1-2, after 150 grams of raw material P2E that make with embodiment 5 evenly mix, add containing nitric acid Tianjin chemical reagent three factory's products) 10 milliliters, containing 1440 milliliters of the aqueous solution of titanium tetrachloride 41.6g, on plunger type bar extruder, be extruded into external diameter 2.5mm, the Raschig ring shape bar of internal diameter 1.0mm.Wet bar in 120 DEG C dry 4 hours, obtain article shaped, by 900 DEG C of roastings of this article shaped 3 hours, obtain carrier Z8.The character of carrier Z8 is listed in table 2.

Comparative example 3

The method providing according to patent CN1782031A embodiment 7 is extruded into external diameter 2.5mm on plunger type bar extruder, the Raschig ring shape bar of internal diameter 1.0mm.Wet bar in 120 DEG C dry 4 hours, obtain article shaped, by 900 DEG C of roastings of this article shaped 3 hours, obtain carrier DZ3.The character of carrier DZ3 is listed in table 2.

Table 2

Embodiment 14-19 illustrates Catalysts and its preparation method provided by the invention.

Embodiment 14

Get 200 grams of carrier Z1, with 220 milliliters containing MoO ₃28.6 grams per liters, the ammonium molybdate of NiO5 grams per liter and nickel nitrate mixed solution dipping 1 hour, dries 4 hours for 120 DEG C, and 400 DEG C of roastings 3 hours, obtain hydrogenation activity guard catalyst C1.The composition of C1 is listed in table 3.

Embodiment 15

Get 200 grams of carrier Z2, with 220 milliliters containing WO ₃28.6 grams per liters, the ammonium metatungstate of NiO5 grams per liter and nickel nitrate mixed solution dipping 1 hour, dries 4 hours for 120 DEG C, and 400 DEG C of roastings 3 hours, obtain hydrogenation activity guard catalyst C2.The composition of C2 is listed in table 3.

Embodiment 16

Get 200 carrier Z3, with 220 milliliters containing MoO ₃25 grams per liters, the ammonium molybdate of NiO3 grams per liter and nickel nitrate mixed solution dipping 1 hour, dries 4 hours for 120 DEG C, and 400 DEG C of roastings 3 hours, obtain hydrogenation activity guard catalyst C3.The composition of C3 is listed in table 3.

Embodiment 17

Get 200 grams of carrier Z4, with 220 milliliters containing MoO ₃25 grams per liters, the ammonium molybdate of CoO3 grams per liter and cobalt nitrate mixed solution dipping 1 hour, dries 4 hours for 120 DEG C, and 400 DEG C of roastings 3 hours, obtain hydrogenation activity guard catalyst C4.The composition of C4 is listed in table 3.

Embodiment 18

Get 200 grams of carrier Z5, with 220 milliliters containing MoO ₃19.0 grams per liters, the ammonium molybdate of NiO2 grams per liter and nickel nitrate mixed solution dipping 1 hour, dries 4 hours for 120 DEG C, and 400 DEG C of roastings 3 hours, obtain hydrogenation activity guard catalyst C5.The composition of C5 is listed in table 3.

Embodiment 19

Get 200 grams of carrier Z8, with 220 milliliters containing WO ₃19.0 grams per liters, the ammonium metatungstate of NiO2 grams per liter and nickel nitrate mixed solution dipping 1 hour, dries 4 hours for 120 DEG C, and 400 DEG C of roastings 3 hours, obtain hydrogenation activity guard catalyst C6.The composition of C6 is listed in table 3.

Contrast row 4

Get 200 grams of carrier DZ1, with 220 milliliters containing MoO ₃28.6 grams per liters, the ammonium molybdate of NiO5 grams per liter and nickel nitrate mixed solution dipping 1 hour, dries 4 hours for 120 DEG C, and 400 DEG C of roastings 3 hours, obtain hydrogenation activity guard catalyst DC1.The composition of DC1 is listed in table 3.

Contrast row 5

Get 200 grams of carrier DZ1, with 220 milliliters containing WO ₃28.6 grams per liters, the ammonium metatungstate of NiO5 grams per liter and nickel nitrate mixed solution dipping 1 hour, dries 4 hours for 120 DEG C, and 400 DEG C of roastings 3 hours, obtain hydrogenation activity guard catalyst DC2.The composition of DC2 is listed in table 3.

Comparative example 6

Get 200 grams of carrier DZ2, with 220 milliliters containing MoO ₃25 grams per liters, the ammonium molybdate of NiO3 grams per liter and nickel nitrate mixed solution dipping 1 hour, dries 4 hours for 120 DEG C, and 400 DEG C of roastings 3 hours, obtain hydrogenation activity guard catalyst DC3.The composition of DC3 is listed in table 3.

Comparative example 7

Get 200 grams of carrier DZ3, with 220 milliliters containing MoO ₃25 grams per liters, the ammonium molybdate of CoO3 grams per liter and cobalt nitrate mixed solution dipping 1 hour, dries 4 hours for 120 DEG C, and 400 DEG C of roastings 3 hours, obtain hydrogenation activity guard catalyst DC4.The composition of DC4 is listed in table 3.

Table 3

In catalyst, the content of each metal component is calculated value.

Embodiment 20-25

Embodiment 20-25 illustrates demetallization per and the desulfurization degree of hydrogenation protecting catalyst provided by the invention.

Taking the normal slag of Yi Chong as raw material (feedstock oil character is in table 4), on 100 milliliters of small fixed reactors, evaluate protective agent.

Catalyst C1, C2, C3, C4, C5 and C6 are broken into the particle of diameter 2-3 millimeter, catalyst loading amount is 100 milliliters.Reaction condition is: 380 DEG C of reaction temperatures, hydrogen dividing potential drop 14 MPas, liquid hourly space velocity (LHSV) are 0.7 hour ^-1, hydrogen to oil volume ratio is 1000, reacts sample analysis after 200 hours.Adopt inductive coupling plasma emission spectrograph (ICP-AES) to measure the content (instrument is the U.S. PE-5300 of PE company type plasma quantometer, and concrete grammar is shown in Petrochemical Engineering Analysis method RIPP124-90) of metal in the oil of hydrotreatment front and back.Calculate according to the following formula metal removal rate:

Feedstock oil character is listed in table 4, and evaluation result is listed in table 5.

Comparative example 8-11

According to the demetallization per of method evaluation catalyst DC1, DC2, DC3 and the DC4 of embodiment 20-25, the results are shown in Table 5.

Table 4

Feedstock oil title	The normal slag of Yi Chong
		Density (20 DEG C), kg/m 3	0.966
Mean molecule quantity	452
		Ni，μg/g	47.7
V，μg/g	133
		Fe，μg/g	8.4
Ca，μg/g	29.5

Table 5 protective agent evaluation result

Can be found out compared with existing catalyst by the data of table 5, hydrogenation protecting agent provided by the invention has higher demetallization per.

Claims (24)

1. a hydrogenation activity guard catalyst, the alumina support and the hydrogenation active metals component that contain IV B family metal component, wherein; described carrier has structure of double peak holes; characterize with mercury injection method, the pore volume of described carrier is 0.95-1.2 ml/g, and specific area is 50-300 rice ²/ gram, diameter is the 55-80% that the pore volume in 10-30nm hole accounts for total pore volume, diameter is the 10-35% that the pore volume in 300-500nm hole accounts for total pore volume.

2. according to the catalyst described in 1, it is characterized in that, the pore volume of described aluminium oxide is 0.95-1.15 ml/g, and specific area is 80-200 rice ²/ gram, diameter is the 60-75% that the pore volume in 10-30nm hole accounts for total pore volume, diameter is the 15-30% that the pore volume in 300-500nm hole accounts for total pore volume.

3. according to the hydrogenation activity guard catalyst described in 1, it is characterized in that, described IV B family metal component is selected from one or more in titanium, zirconium, hafnium, and in oxide and taking carrier as benchmark, the content of described IV B family metal component is 0.1-6 % by weight.

4. according to the hydrogenation activity guard catalyst described in 3, it is characterized in that, described IV B family metal component is titanium, and in oxide and taking carrier as benchmark, the content of described IV B family metal component is 0.3-4 % by weight.

5. according to the hydrogenation activity guard catalyst described in 4, it is characterized in that, in oxide and taking carrier as benchmark, the content of described IV B family metal component is 0.5-2.5 % by weight.

6. according to the hydrogenation activity guard catalyst described in 1; it is characterized in that; described hydrogenation active metals component is selected from least one metal component of group VIII and at least one metal component of group VIB; in oxide and taking catalyst as benchmark; the content of described metal component of group VIII is greater than 0 to being less than or equal to 0.8 % by weight, and the content of metal component of group VIB is greater than 0 to being less than or equal to 4 % by weight.

7. according to the hydrogenation activity guard catalyst described in 6; it is characterized in that; described metal component of group VIII is selected from cobalt and/or nickel; metal component of group VIB is selected from molybdenum and/or tungsten; in oxide and taking catalyst as benchmark; the content of described VIII family metal component is 0.2-0.6 % by weight, and the content of metal component of group VIB is 1.5-3.5 % by weight.

8. according to the preparation method of the hydrogenation activity guard catalyst described in 1; comprise and prepare carrier and load hydrogenation active metals component on this carrier; wherein; the preparation of described carrier comprises introduces the compound containing IV B family metal by mixed the modifier P2 of the hydrated alumina P1 that contains boehmite and P1 being incorporated in this mixture; moulding afterwards, dry and roasting, wherein, the weight mixing ratio of described P1 and P2 is 20-95:5-80; the κ value of P2 is 0 to being less than or equal to 0.9, described κ=DI ₂/ DI ₁, DI ₁for the sour peptization index of the hydrated alumina P1 that contains boehmite, DI ₂for the sour peptization index of the modifier P2 of the hydrated alumina P1 that contains boehmite.

9. according to the method described in 8, it is characterized in that, the weight mixing ratio of described P1 and P2 is 70-95:5-25; The k value of described P2 is 0 to being less than or equal to 0.6.

10. according to the method described in 8, it is characterized in that, in oxide and taking described carrier as benchmark, it is 0.1-6 % by weight that the introduction volume of the described compound that contains IV B family metal makes the content of alkaline components in final carrier.

11. according to the method described in 10, it is characterized in that, in oxide and taking described carrier as benchmark, it is 0.3-4 % by weight that the introduction volume of the described compound that contains IV B family metal makes the content of alkaline components in final carrier.

12. according to the method described in 8 or 9, it is characterized in that, described in contain boehmite the pore volume of hydrated alumina P1 be 0.9-1.4 ml/g, specific surface is 100-350 rice ²/ gram, can and bore dia 8-30nm.

13. according to the method described in 12, it is characterized in that, described in contain boehmite the pore volume of hydrated alumina P1 be 0.95-1.3 ml/g, specific surface is 120-300 rice ²/ gram, can and bore dia 10-25nm.

14. according to the method described in 8 or 9 any one, it is characterized in that, described P2 is 80-300 object particle.

15. according to the method described in 14, it is characterized in that, described P2 is 100-200 object particle.

16. according to the method described in 8, it is characterized in that, described dry condition comprises: temperature is 40-350 DEG C, and the time is 1-24 hour, and the condition of described roasting comprises: temperature is for being greater than 500 to being less than or equal to 1200 DEG C, and the time is 1-8 hour.

17. according to the method described in 16, it is characterized in that, described dry condition comprises: temperature is 100-200 DEG C, and the time is 2-12 hour, and the condition of described roasting comprises: temperature is for being greater than 800 to being less than or equal to 1000 DEG C, and roasting time is for being 2-6 hour.

18. according to the method described in 8, it is characterized in that, it is by the described hydrated alumina P1 moulding that contains boehmite, dry that P1 is modified as to one of method of P2, afterwards it is all or part ofly ground, sieved, obtaining powder thing is P2, described dry condition comprises: temperature is 40-350 DEG C, and the time is 1-24 hour; Two of method is article shaped roastings that method one is obtained, and sintering temperature is for being greater than 350 to being less than or equal to 1400 DEG C, and roasting time is 1-8 hour, afterwards it is all or part ofly ground, is sieved, and obtaining powder thing is P2; Three of method is that the hydrated alumina P1 that contains boehmite is dodged and done, and dodges dry temperature for being greater than 150 to being less than or equal to 1400 DEG C, and flash-off time is 0.05-1 hour, and obtaining powder thing is P2; Four of method is that one or more in two and the modifier that obtains with three of method of one of method, method are mixed to get.

19. according to the method described in 18, it is characterized in that, the dry condition in described method one comprises: temperature is 100-200 DEG C, and the time is 2-12 hour; Method two in sintering temperature be 500-1200 DEG C, roasting time is 0.1-6 hour; Method three in the dry temperature of sudden strain of a muscle be 200-1000 DEG C, flash-off time is 0.1-0.5 hour.

20. according to the method described in 18 or 19, it is characterized in that, described P2 is 80-300 object particle in P1 modifier.

21. according to the method described in 20, it is characterized in that, described P2 is 100-200 object particle in P1 modifier.

22. according to the method described in 8, it is characterized in that, described on carrier the method for load hydrogenation active metals component be infusion process, comprise preparation containing the solution of the compound of hydrogenation active metals and use this solution impregnating carrier, be dried afterwards, roasting or not roasting, described hydrogenation active metals component is selected from the metal component of at least one group VIB and the metal component of at least one VIII family, in oxide and taking catalyst as benchmark, the described compound containing hydrogenation active metals makes the content of the metal component of the group VIB in final catalyst be greater than 0 to being less than or equal to 4 % by weight in the concentration of described solution and the consumption of described solution, the content of the metal component of described VIII family is greater than 0 to being less than or equal to 0.8 % by weight, described drying condition comprises: temperature is 100-250 DEG C, and the time is 1-10 hour, described roasting condition comprises: temperature is 360-500 DEG C, and the time is 1-10 hour.

23. according to the method described in 22, it is characterized in that, the metal component of described group VIB is selected from molybdenum and/or tungsten, the metal component of VIII family is selected from cobalt and/or nickel, in oxide and taking catalyst as benchmark, it is 1.5-3.5 % by weight that the described compound containing hydrogenation active metals makes the content of the metal component of the group vib in final catalyst at the concentration of described solution and the consumption of described solution, and the content of the metal component of VIII family is 0.2-0.6 % by weight; Described drying condition comprises: temperature is 100-140 DEG C.

The application of hydrogenation activity guard catalyst in 24. claim 1-7 described in any one in hydrocarbon oil hydrogenation is processed.