CN100469440C - Hydrogenation catalyst and production thereof - Google Patents

Abstract

A hydrocatalyst with high hydrorefining performance contains nickel oxide (1-10 Wt%), molybdenum oxide and tungsten oxide (10-50) and aluminum oxide (rest). It is prepared by introducing Mo, Ni and W to the carrier (aluminum oxide).

Description

A kind of hydrogenation catalyst and preparation method thereof

Technical field

The present invention relates to a kind of hydrogenation catalyst and preparation method thereof.

Background technology

Under hydrogenation conditions, hydrocarbon feed contacts with catalyst and may comprise: reactions such as hydrogenation, hydrodesulfurization, hydrodenitrogeneration, HDM, hydrogenation aromatics-removing, hydroisomerization, Hydrodewaxing, hydrocracking and mitigation hydrocracking.Catalyst is wherein formed by carrier loaded group vib and group VIII metal component usually.The hydrogenation active metals component often is selected from Co or Ni-Mo or Co or Ni-W, and carrier often is selected from aluminium oxide, silica-alumina and their modifier.These catalyst can be made by steps such as drying, roasting or not roastings then by the solution impregnating carrier that contains described metallic compound; Also carrier, group VIII metal component and group vib metal component can be adopted the method preparation of co-precipitation.Generally speaking, for the course of reaction based on desulphurization reaction, the preferred Co of hydrogenation active metals component (Ni) of catalyst-Mo combination is hydrogenated to main course of reaction for the saturated grade of aromatic hydrocarbons, preferred Ni-W combination.

Under certain condition, Mo modification NiW/Al ₂O ₃" Mo modification NiW/Al ₂O ₃The thiophene hydrodesulfurization performance of catalyst, the tenth national catalysis academic meeting paper collection, 2000,491 " or W modification NiMo/Al ₂O ₃(Modificationof the alumina-supported Mo-based hydrodesulfurizationcatalysts by tungsten, Catalysis Letters 53 (1998), 193-198) all to improving active favourable with the loaded catalyst of alumina support.But this activity of such catalysts that contains three kinds of hydrogenation active metals components that is provided by prior art is still lower.

Summary of the invention

The objective of the invention is to contain the active low shortcomings of three kinds of hydrogenation active metals component catalysts, a kind of new high-activity hydrogenation catalyst that contains three kinds of hydrogenation active metals components and preparation method thereof is provided at what existing method provided.

Catalyst provided by the invention contains alumina support, nickel, molybdenum and tungsten, consisting of after its roasting: nickel oxide 1-10 weight %, molybdenum oxide and tungsten oxide sum are greater than 10 to 50 weight %, and surplus is an aluminium oxide, wherein, the mol ratio of tungsten oxide and molybdenum oxide is greater than 2.6 to 30.

Method provided by the invention comprises to alumina support introduces molybdenum, nickel and tungsten, wherein, the consumption of each component makes consisting of after the catalyst roasting: nickel oxide 1-10 weight %, molybdenum oxide and tungsten oxide sum are greater than 10 to 50 weight %, surplus is an aluminium oxide, and wherein the mol ratio of tungsten oxide and molybdenum oxide is greater than 2.6 to 30.

Compare with the catalyst that existing method provides, the activity of hydrogenation catalyst provided by the invention improves.

For example, with a kind of diesel oil distillate oil is that (content of molybdenum oxide is 6.5 weight % to raw material to reference catalyst, the content of nickel oxide is 2.6 weight %, the content of tungsten oxide is 19.0 weight %, the mol ratio of tungsten oxide and molybdenum oxide is 1.8) and (content of molybdenum oxide is 4.1 weight % to the invention provides catalyst, the content of nickel oxide is 2.6 weight %, the content of tungsten oxide is 21.3 weight %, the mol ratio of tungsten oxide and molybdenum oxide is 3.2) estimate, under identical reaction condition, activity with reference catalyst is 100, and the hydrodesulfurization activity that the invention provides catalyst can reach more than 110, and denitrification activity can reach more than 116.

The specific embodiment

According to catalyst provided by the invention, consisting of after the preferred roasting: nickel oxide 1-7 weight %, molybdenum oxide and tungsten oxide sum are greater than 15 to 45 weight %, and surplus is an aluminium oxide, and wherein the mol ratio of tungsten oxide and molybdenum oxide is greater than 3.1 to 24.Composition after the described roasting is meant that catalyst is formed in the sample of 550 ℃ of roastings after 4 hours under air atmosphere.

Described alumina support can be to be selected among γ, η, θ, δ and the χ one or more, also can be to contain one or more to be selected among titanium, magnesium, boron, zirconium, thorium, niobium, the rare earth among one or more γ, η, θ, δ and χ that dose component one or more, be preferably γ-aluminium oxide and contain one or more that one or more dose the γ-aluminium oxide of component among being selected from titanium, magnesium, boron, zirconium, thorium, niobium, rare earth.

Described alumina support has the specific surface and the pore volume of conventional alumina support, and the specific surface of preferential oxidation aluminium is 150-350 meters ²/ gram, more preferably 180-320 meters ²/ gram, the pore volume of preferred aluminium oxide is 0.4-1.1 milliliter/gram, more preferably 0.5-0.9 milliliter/gram.

Described carrier can be that commercially available commodity also can be by any one method preparation in the prior art.For example, can be by one or more the mixture that is selected among hibbsite, monohydrate alumina and the amorphous hydroted alumina, or one or more the mixture among hibbsite, monohydrate alumina and the amorphous hydroted alumina of titaniferous, magnesium, boron, zirconium, thorium, niobium, rare earth make after moulding and roasting.

Described moulding adopts customary way to carry out, and all can as methods such as compressing tablet, spin, extrusions.When adopting the customary way moulding, for guarantee moulding carry out smoothly in described mixture, introduce auxiliary agent and allow, for example when extrusion, can in mixture, introduce an amount of extrusion aid and water, extrusion molding afterwards.The kind of described extrusion aid and consumption all can be this area routines, and for example common extrusion aid can be selected from one or more in sesbania powder, methylcellulose, starch, polyvinyl alcohol, the poly-ethanol.

Can also contain one or more in the catalyst provided by the invention and be selected from and contain oxygen or nitrogenous organic matter, preferred oxygen-containing organic compound is selected from one or more in organic alcohol, the organic acid; Preferred organic compounds containing nitrogen is selected from one or more in organic amine, the organic ammonium salt.For example, oxygenatedchemicals can be ethylene glycol, glycerine, polyethylene glycol (molecular weight is 200-1500), diethylene glycol, butanediol, acetate, maleic acid, oxalic acid, aminotriacetic acid, 1, in 2-CDTA, citric acid, tartaric acid, the malic acid one or more, organic compounds containing nitrogen can be ethylenediamine, EDTA and ammonium salt thereof.Described organic matter is 0.03-2 with mol ratio in nickel, molybdenum and the tungsten sum of oxide, is preferably 0.08-1.5.

According to method provided by the invention, to the introducing method of described molybdenum, nickel and tungsten without limits, preferable methods can be to introduce by the method with the solution impregnation of alumina carrier that contains molybdenum, nickel and tungsten compound individually or simultaneously.Wherein, the consumption of each component preferably makes consisting of after the catalyst roasting: nickel oxide is 1-7 weight %, and molybdenum oxide and tungsten oxide sum are greater than 15 to 45 weight %, and surplus is an aluminium oxide.Described dipping method is a conventional method, by adjusting and control, prepare that to specify the method for molybdenum, nickel and tungsten metals content catalysts be conventionally known to one of skill in the art to concentration, consumption or the alumina support consumption of one or more solution in nickeliferous, molybdenum, the tungsten compound.

According to method provided by the invention, after finishing, described dipping also comprises the step of drying, roasting or not roasting, the condition of described drying and roasting all is conventional, for example, baking temperature is 100-300 ℃, and excellent is 100-280 ℃, be 1-12 hour drying time, is preferably 2-8 hour; Sintering temperature is 350-550 ℃, is preferably 400-500 ℃, and roasting time is 2-8 hour, is preferably 3-6 hour.

The described compound that contains molybdenum is selected from the soluble compound that contains molybdenum, as in molybdenum oxide, ammonium molybdate, ammonium paramolybdate and the ammonium phosphomolybdate one or more.

Described nickeliferous compound is selected from nickeliferous soluble compound, as in nickel nitrate, basic nickel carbonate, nickel chloride, the nickelous sulfate one or more.

The compound of described tungstenic is selected from the soluble compound of tungstenic, as in ammonium metatungstate, the ethyl ammonium metatungstate one or more.

When described catalyst contains organic matter, described organic introducing method, can be with described organic matter with contain the compound of other component, as contain in molybdenum, nickel, the tungsten metallization compound one or more and be mixed with the described carrier of dipping and dry behind the mixed solution; Can also be with the described carrier of dipping behind the independent obtain solution of organic matter and dry.When being introduced separately into organic matter, preferably at first introduce other components, as at first introducing molybdenum, nickel and tungsten metal component, introduce organic matter afterwards again.It is 0.03-2 that described organic introducing amount makes organic matter in the catalyst and mol ratio in nickel, molybdenum and the tungsten sum of oxide, is preferably 0.08-1.5.The described dry conventional process that adopts is carried out, and baking temperature wherein is preferably 100-300 ℃, is preferably 1-12 hour drying time, and further preferred baking temperature is 100-280 ℃, and be 2-8 hour drying time.

According to the conventional method in this area, catalyst provided by the invention is before using, usually can be in the presence of hydrogen, under 140-370 ℃ temperature, carry out presulfurization with sulphur, hydrogen sulfide or sulfur-bearing raw material, this presulfurization can be carried out also can original position vulcanizing in device outside device, is translated into sulfide type.

The activity of Hydrobon catalyst provided by the invention is high, is specially adapted to the unifining process of petroleum distillate, and this catalyst and hydrocracking catalyst are used the hydro-upgrading process that also can be used for heavy distillate.

The following examples will the invention will be further described, but not thereby limiting the invention.

Example 1-7 explanation catalyst provided by the invention and these Preparation of catalysts methods.

Example 1

Take by weighing 4000 gram aluminum hydroxide solid elastomer powder (Chang Ling refinery company catalyst plant product), be extruded into circumscribed circle diameter and be 1.3 millimeters cloverleaf pattern bar, wet bar is in 120 ℃ of dryings after 4 hours, and 600 ℃ of roastings 4 hours obtain carrier S 1.

Get carrier S 1100 grams, with containing ammonium paramolybdate (chemical pure, Beijing Chemical Plant's product) 88 milliliters of dippings of the aqueous solution of 6.7 grams are 1 hour, 120 ℃ of dryings 4 hours, reduce to room temperature after, (analyze pure with containing nickel nitrate, Beijing Chemical Plant's product) 10.5 grams, ammonium metatungstate (technical grade, Sichuan Zigong Hard Alloy Foundry product) 84 milliliters of the aqueous solution dipping of 27.4 grams is 1 hour, and 120 ℃ of dryings in 450 ℃ of roastings 4 hours, obtained catalyst C1 after 4 hours.Composition after the catalyst C1 roasting is listed in the table 1.Catalyst is formed employing X fluorescence spectrometry (down together).

Example 2

Get carrier S 1 100 grams of example 1 preparation, flooded 1 hour for 88 milliliters with the aqueous solution that contains ammonium paramolybdate 6.6 grams, 120 ℃ of dryings 4 hours, after reducing to room temperature, flooded 1 hour for 83 milliliters with the aqueous solution that contains nickel nitrate 13.0 grams, ammonium metatungstate 34.4 grams, 120 ℃ of dryings in 450 ℃ of roastings 4 hours, obtained catalyst C2 after 4 hours.Composition after the catalyst C2 roasting is listed in the table 1.

Comparative Examples 1

Get the carrier S of example 1 preparation ₁200 grams, with 176 milliliters of dippings of the aqueous solution that contain ammonium paramolybdate 22.4 gram, nickel nitrate 28.7 grams, ammonium metatungstate 61.4 1 hour, 120 ℃ of dryings 4 hours in 450 ℃ of roastings 4 hours, obtained catalyst D1.Composition after the catalyst D1 roasting is listed in the table 1.

Example 3

Get carrier S 1 200 grams of example 1 preparation, this carrier was flooded 1 hour for 176 milliliters with the aqueous solution that contains ammonium paramolybdate 21.4 grams, 120 ℃ of dryings 4 hours, after reducing to room temperature, flooded 1 hour for 162 milliliters with the aqueous solution that contains nickel nitrate 71.6 grams, ammonium metatungstate 129.4 grams, 120 ℃ of dryings in 350 ℃ of roastings 4 hours, obtained catalyst C3 after 4 hours.Composition after the catalyst C3 roasting is listed in the table 1.

Example 4

Get carrier S 1 100 grams of example 1 preparation, this carrier was flooded 1 hour for 88 milliliters with the aqueous solution that contains ammonium paramolybdate 3.0 grams, 120 ℃ of dryings 4 hours, after reducing to room temperature, flooded 1 hour for 85 milliliters with the aqueous solution that contains nickel nitrate 53.2 grams, ammonium metatungstate 101.2 grams, 120 ℃ of dryings after 4 hours in 250 ℃ dry 4 hours again, obtain catalyst C4.Composition after the catalyst C4 roasting is listed in the table 1.

Example 5

Get carrier S 1 200 grams of example 1 preparation, this carrier was flooded 1 hour for 176 milliliters with the aqueous solution that contains ammonium paramolybdate 21.4 grams, 120 ℃ of dryings 4 hours, after reducing to room temperature, flooded 1 hour for 162 milliliters with the aqueous solution that contains nickel nitrate 71.6 grams, ammonium metatungstate 129.4 grams, 200 ℃ of dryings were flooded this containing metal carrier with the aqueous solution 120ml that contains ethylene glycol 78.3 grams after 4 hours, and 120 ℃ of dryings obtain catalyst C5 after 4 hours.Calculating ethylene glycol is 1.5 with mol ratio in nickel, molybdenum and the tungsten of oxide.Composition after the catalyst C5 roasting is listed in the table 1.

Example 6

Get carrier S 1 200 grams of example 2 preparation, with 170 milliliters of dippings of the aqueous solution that contain ammonium paramolybdate 7.2 grams, nickel nitrate 42.4 grams, ammonium metatungstate 83.9 grams, citric acid 8.3 grams 1 hour, 150 ℃ of dryings 4 hours obtained catalyst C6 with this carrier.Calculating citric acid is 0.08 with mol ratio in nickel, molybdenum and the tungsten of oxide.Composition after the catalyst C6 roasting is listed in the table 1.

Example 7

Get carrier S 1 200 grams of example 1 preparation, this carrier was flooded 1 hour for 176 milliliters with the aqueous solution that contains ammonium paramolybdate 6.2 grams, 120 ℃ of dryings 4 hours, after reducing to room temperature, with 171 milliliters of dippings of the aqueous solution that contain nickel nitrate 60.1 gram, ammonium metatungstate 134.8 grams 1 hour, 120 ℃ of dryings after 4 hours in 400 ℃ of roastings 4 hours.This containing metal carrier of 118 milliliters of dippings of the aqueous solution to contain ethylenediamine 8.8g obtained catalyst C7 in 4 hours in 120 ℃ of dryings.Calculating ethylenediamine is 0.2 with mol ratio in nickel, molybdenum and the tungsten of oxide.Composition after the catalyst C7 roasting is listed in the table 1.

Table 1

Comparative Examples 2

The hydrodesulfurization performance of this Comparative Examples explanation reference catalyst.

Evaluate catalysts D1 on the little inverse spectral apparatus of continuous-flow, feedstock oil is the hexane solution that contains thiophene 20 weight %, the catalyst loading amount is 1.0 grams.Be that sulfurized oil carries out presulfurization to catalyst with the mixed solution that contains 3 weight % carbon disulfide and cyclohexane earlier, conditions of vulcanization is: pressure 4.1 MPas, 300 ℃ of temperature, 2.5 hours time, sulfurized oil feed rate 0.2 ml/min, H ₂Flow velocity 400 ml/min; Cut feedstock oil afterwards and react, reaction condition is: pressure 4.1 MPas, and feedstock oil input 0.1 ml/min, volume of hydrogen oil ratio are 4000, temperature is 290 ℃, reacts the online gas chromatographic analysis of sampling after 3 hours.

Example 8-14

The explanation of this example the invention provides the catalyst hydrogenation desulfurization performance.

Adopt and Comparative Examples 2 identical method evaluate catalysts C1, C2, C3, C4, C5, C6, C7.

Thiophene HDS reaction is handled as first order reaction, and reaction rate constant k can calculate by following formula:

$k=A\ln \frac{1}{1-x}$

X is the thiophene conversion ratio in the formula, and A is the constant relevant with volume flow rate and catalyst weight.Thiophene conversion ratio x is calculated as follows:

Represent that with following formula catalyst is desulphurizing activated relatively:

Desulphurizing activated relatively=k _C/ k _D* 100%.

K in the formula _CBe the reaction rate constant of catalyst of the present invention, k _DReaction rate constant for the Comparative Examples catalyst.Evaluation result sees Table 2.

Table 2

Embodiment	Catalyst	Desulphurizing activated relatively, %
			8	C1	113
9	C2	120
			Comparative Examples 2	D1	100
10	C3	128
			11	C4	134
12	C5	176
			13	C6	149
14	C7	154

Catalyst system therefor C2 compares with catalyst system therefor D1 in the Comparative Examples 2 in the example 8, and total metal content, Ni content, carrier and preparation method are all identical, and that different is WO among the catalyst C2 ₃/ MoO ₃Mol ratio is 3.2, and WO among the contrast medium D1 ₃/ MoO ₃Mol ratio is 1.8.Data by table 2 can illustrate, and are desulphurizing activated apparently higher than Comparative Examples catalyst D1 by its thiophene of catalyst C2 provided by the invention.

Example 15-16

The explanation of this example the invention provides the diesel oil hydrofining performance that method prepares catalyst.

Evaluation is carried out on 250 milliliters of fixed bed reactors, and feedstock oil character sees Table 3.Catalyst C2, C5 are broken into the particle of diameter 2-4 millimeter, and 100 milliliters of catalyst amounts are before formal charging, with the kerosene that contains 2.5 weight %DMDS catalyst is vulcanized earlier, conditions of vulcanization is: pressure 3.2 MPas, 290 ℃ of temperature, 8 hours time, sulfurized oil charging air speed 2.0 hours ^-1, hydrogen-oil ratio 300 is cut raw material afterwards and is reacted, and the hydrogen dividing potential drop is 3.2 MPas, and hydrogen-oil ratio is 300, air speed 2.0h ^-1, reaction temperature is 340 ℃.

Comparative Examples 3

This Comparative Examples explanation comparative catalyst's performance.

Adopt with example 15 same procedure and estimate Comparative Examples catalyst D1.

The assay method of sulphur is SH/T0253-92, and the assay method of nitrogen is SH/T0657-1998.The hydrodesulfurization activity of catalyst calculates by 1.65 order reactions, and hydrodenitrogenationactivity activity is calculated by 1 order reaction, and related computing formula is as follows.

With the D1 activity of such catalysts is 100, and the results are shown in Table 4.

Table 3

Density, g/ml	0.840
		Refractive power, n D 20	1.4684
S, weight %	0.83
		N，μg/g	204
Boiling range D-86, ℃
		Initial boiling point	189
50% point	280
		The end point of distillation	392

Table 4

	Catalyst	Desulphurizing activated relatively, %	Relative denitrification activity, %
				Example 15	C2	110	116
Example 16	C5	161	144
				Comparative Examples 3	D1	100	100

Data by table 4 can show that when diesel oil distillate was carried out hydrofinishing, the catalyst that the inventive method provides had better hydrofinishing performance.

Claims (8)

1, a kind of hydrogenation catalyst, consisting of after its roasting: nickel oxide 1-10 weight %, molybdenum oxide and tungsten oxide sum greater than 10 to smaller or equal to 50 weight %, surplus is an aluminium oxide, wherein the mol ratio of tungsten oxide and molybdenum oxide greater than 2.6 to smaller or equal to 30, composition after the described roasting is meant that catalyst is formed in the sample of 550 ℃ of roastings after 4 hours under air atmosphere.

2, catalyst according to claim 1, it is characterized in that consisting of after the described roasting: nickel oxide 1-7 weight %, molybdenum oxide and tungsten oxide sum greater than 15 to smaller or equal to 45 weight %, surplus is an aluminium oxide, wherein the mol ratio of tungsten oxide and molybdenum oxide greater than 3.1 to smaller or equal to 24.

3, catalyst according to claim 1 and 2, it is characterized in that, described catalyst contains to be selected from and contains in oxygen or the nitrogenous organic matter one or more, described oxygen containing organic matter is selected from one or more in organic alcohol, the organic acid, nitrogenous organic matter is selected from one or more in organic amine, the organic ammonium salt, and described organic matter is 0.03-2 with mol ratio in nickel, molybdenum and the tungsten sum of oxide.

4, catalyst according to claim 3, it is characterized in that, it is 200-1500 polyethylene glycol, diethylene glycol, butanediol, acetate, maleic acid, oxalic acid, aminotriacetic acid, 1 that described oxygen containing organic matter is selected from ethylene glycol, glycerine, molecular weight, in 2-CDTA, citric acid, tartaric acid, the malic acid one or more, nitrogenous organic matter is selected from one or more in ethylenediamine, EDTA and the ammonium salt thereof, and described organic matter is 0.08-1.5 with mol ratio in nickel, molybdenum and the tungsten sum of oxide.

5, a kind of hydrogenization catalyst preparation method, this method comprises to alumina support introduces molybdenum, nickel and tungsten, wherein, the consumption of each component makes consisting of after the catalyst roasting: nickel oxide 1-10 weight %, molybdenum oxide and tungsten oxide sum are greater than 10 to smaller or equal to 50 weight %, and surplus is an aluminium oxide, wherein the mol ratio of tungsten oxide and molybdenum oxide greater than 2.6 to smaller or equal to 30, composition after the described roasting is meant that catalyst is formed in the sample of 550 ℃ of roastings after 4 hours under air atmosphere.

6, method according to claim 5, it is characterized in that, the consumption of described each component makes consisting of after the catalyst roasting: nickel oxide 1-7 weight %, molybdenum oxide and tungsten oxide sum greater than 15 to smaller or equal to 45 weight %, surplus is an aluminium oxide, wherein the mol ratio of tungsten oxide and molybdenum oxide greater than 3.1 to smaller or equal to 24.

7, method according to claim 5, it is characterized in that, described method also comprises introduces organic step, described organic matter is selected from and contains in oxygen and the nitrogenous organic matter one or more, described oxygen containing organic matter is selected from one or more in organic alcohol, the organic acid, nitrogenous organic matter is selected from one or more in organic amine, the organic ammonium salt, and it is 0.03-2 with mol ratio in nickel, molybdenum and the tungsten sum of oxide that organic introducing amount makes the organic matter in the final catalyst.

8, method according to claim 7, it is characterized in that, described oxygen containing organic matter is selected from ethylene glycol, glycerine, molecular weight is 200-1500 polyethylene glycol, diethylene glycol, butanediol, acetate, maleic acid, oxalic acid, aminotriacetic acid, 1,2-CDTA, citric acid, tartaric acid, in the malic acid one or more, nitrogenous organic matter is selected from ethylenediamine, in EDTA and the ammonium salt thereof one or more, described organic introducing amount make in the final catalyst organic matter with in the nickel of oxide, the mol ratio of molybdenum and tungsten sum is 0.08-1.5.