CN1548229A - Catalyst with nano level dispersed active component and assistant and its one-step prepn process - Google Patents
Catalyst with nano level dispersed active component and assistant and its one-step prepn process Download PDFInfo
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- CN1548229A CN1548229A CNA031170552A CN03117055A CN1548229A CN 1548229 A CN1548229 A CN 1548229A CN A031170552 A CNA031170552 A CN A031170552A CN 03117055 A CN03117055 A CN 03117055A CN 1548229 A CN1548229 A CN 1548229A
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- catalyst
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- auxiliary agent
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- aluminium oxide
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Abstract
The present invention belongs to the field of catalyst preparing technology, and is especially one kind of catalyst with nano level active component and assistant dispersed inside the catalyst carrier. The catalyst contains carrier in 60-99 wt% and active component and assistant in 1-40 wt%, with the weight ratio between the active component and the assistant being 0.05-20. The preparation process of dispersing the active component and the assistant in carrier is completed via high temperature hydrogen process. The catalyst of the present invention is used in hydrorefining of diesel oil or gasoline and has excellent performance.
Description
Technical field
The invention belongs to the preparation catalyst field, particularly a kind of active component and auxiliary agent nanoscale dispersed catalyst and one one-step preparation method.
Technical background
Hydrofining diesel oil or gasoline are one of significant process of PETROLEUM PROCESSING.It mainly is to remove objectionable impurities (S, N, compounds such as O and metal) in diesel oil or the gasoline by catalyst hydrogenation, thereby makes diesel oil or gasoline can satisfy the requirement of deep processing better, reaches the reasonable resources utilization.The research and development of Hydrobon catalyst almost with the petroleum industry synchronized development, at present hydrogenization catalyst preparation method emerge in an endless stream, varied.Usually Preparation of catalysts is divided into two steps, the one, the preparation of catalyst carrier, the 2nd, the load of catalyst activity component and auxiliary agent.The method that second step adopts has infusion process, supercritical fluid drying, ultrasonic wave preparation method, and wherein infusion process is the most frequently used, the most effective.Infusion process is meant under certain condition solution impregnation with required component precursor in type catalyst carrier, and dry then, roasting obtains catalyst, and the impregnation sequence and the content of metal of metal component are adjustable.Disclosed as Chinese patent CN 85103891, on the catalyst carrier that has prepared load molybdenum or tungsten, cobalt and (or) nickel, drying and roasting then; Chinese patent CN 85100215A is disclosed, adopts aqueous solution infusion process supporting Pt or Pd on existing Al2O3 carrier; Chinese patent CN85104438A is disclosed, adopts repeatedly dipping technique load tungsten oxide, nickel oxide isoreactivity component on existing Al2O3 carrier.The Preparation of catalysts of above-mentioned open report, it all is to prepare carrier load active component then earlier, therefore, and loaded down with trivial details, the complex process of process, active component and auxiliary agent mainly are to be distributed in the surface of carrier and to disperse inhomogeneous.Particularly when catalyst activity component and adjuvant component when being insoluble, traditional dipping method is difficult to finish the load of active component and auxiliary agent especially.
Up to now, do not find that active component and auxiliary agent nanoscale are dispersed in the catalyst of catalyst carrier inside and the report of employing one-step preparation process yet.
Summary of the invention
One of purpose of the present invention provides the catalyst that a kind of active component and auxiliary agent nanoscale are dispersed in catalyst carrier inside, to overcome the dispersion inhomogeneities that active component and auxiliary agent are distributed in the surface of carrier, and at catalyst activity component and adjuvant component when being insoluble, active component and auxiliary agent be load easily also.
It is simple that another object of the present invention provides a kind of preparation technology, prepares the method that active component and auxiliary agent nanoscale are dispersed in the catalyst of catalyst carrier inside with an one-step preparation method.
Active component of the present invention and auxiliary agent nanoscale dispersed catalyst are the catalyst that a kind of active component and auxiliary agent nanoscale are dispersed in catalyst carrier inside, wherein contain the carrier of 60~99 weight % and active component and the auxiliary agent of 1~40 weight % in the catalyst, wherein the weight ratio of active component and auxiliary agent is 1: 20 to 20: 1.
The also further nanoscale of described active component and auxiliary agent is dispersed in the surface of catalyst carrier.
Described dispersion is even dispersion, and has nanoscale.
Described carrier comprises the carriers such as aluminium oxide, molecular sieve, silica or zirconia of various crystal formations.
The aluminium oxide of described various crystal formations is amorphous alumina, ρ-aluminium oxide, χ-aluminium oxide, η-aluminium oxide, gama-alumina, κ-aluminium oxide, δ-aluminium oxide, θ-aluminium oxide or Alpha-alumina.
Described molecular sieve is ZSM molecular sieve, MCM molecular sieve or A type molecular sieve etc.
Described active component is selected from more than one of a kind of of platinum, palladium, gold, group vib element or they etc.
Described auxiliary agent is selected from one or more of VIII family element etc.
Active component of the present invention and auxiliary agent nanoscale dispersed catalyst one one-step preparation method comprise the following steps:
(1) sneaks into one or more active components and auxiliary agent in the raw material of preparing carriers or in the process, perhaps sneak into the compound of active component and auxiliary agent correspondence, in reducibility gas, heat-treat, reduction temperature is 100~1000 ℃, make active component and the auxiliary agent nanoscale is dispersed in catalyst carrier inside, and further nanoscale is dispersed in the surface of catalyst carrier; Wherein contain the carrier of 60~99 weight % and active component and the auxiliary agent of 1~40 weight % in the catalyst, wherein the weight ratio of active component and auxiliary agent is 1: 20 to 20: 1.
Described compound comprises the oxide of crystallization nitrate, crystallization chloride, ammonium salt, phosphate, sulfate, acetate, group vib element or the oxide of group VIII element.
Described reducibility gas is hydrogen or carbon monoxide.
Described carrier be prepared as traditional preparation method, as hydro-thermal method, coprecipitation or inner gel method etc.
Described active component and auxiliary agent nanoscale in carrier disperses to finish by the hydrogen pyroprocess.The catalyst of preparing as shown in Figure 1.
Activity of such catalysts component of the present invention and auxiliary agent nanoscale are dispersed in catalyst carrier inside, have good catalytic performance in the hydrofinishing of diesel oil, gasoline, and the Preparation of catalysts method are simple.
Description of drawings
Fig. 1 is the cross-sectional view of active component and auxiliary agent in the spheric catalyst.
Fig. 2 is Co/Mo-γ-Al
2O
3The XRD spectra of Hydrobon catalyst.
Fig. 3 is Co/Mo-γ-Al
2O
3The SEM profile of Hydrobon catalyst.
Fig. 4 is Co/Mo-γ-Al
2O
3The distribution diagram of element of Hydrobon catalyst.
(a) secondary electron image in Co/Mo-γ-Al2O3 microballoon cross section
(b) the Al element distributes
(c) the Co element distributes
(d) the Mo element distributes
Fig. 5 is Ni/W-γ-Al
2O
3The XRD spectra of Hydrobon catalyst.
Fig. 6 is Ni/W-γ-Al
2O
3The distribution diagram of element of Hydrobon catalyst.
(a) secondary electron image in Ni/W-γ-Al2O3 microballoon cross section
(b) the Al element distributes
(c) the Ni element distributes
(d) the W element distributes
Reference numeral
1. the active constituent and the auxiliary agent that disperse of aluminium hydroxide carrier 2. nanometers
The specific embodiment
One-step method prepares the ball-aluminium oxide catalyst that active component and auxiliary agent nanoscale disperse and contains following steps among the embodiment:
(1) preparation of aluminum hydroxide sol: a certain amount of aluminium foil slowly joins AlCl
3In the aqueous solution, be heated to 80~100 ℃, kept under this temperature 48~96 hours, aluminium foil fully is dissolved in is concentrated to certain volume in the solution, promptly obtain aluminum hydroxide sol, wherein aluminium/chlorine weight ratio is 1.0~2.0;
(2) preparation of organic amine solution: configuration concentration is that 10%~50% urea and/or concentration are the aqueous solution of 10%~50% hexamethylenetetramine;
(3) compound with active component and auxiliary agent correspondence mixes with the aluminum hydroxide sol of step (1), the organic amine solution of step (2), and wherein, the volume ratio of organic amine solution and aluminum hydroxide sol is 1: (0.3~2.5);
(4) adopt inner gel preparation technology to obtain containing the ball-aluminium oxide predecessor of active component and adjuvant component element: under-20~20 ℃, the mixture of step (3) is dispersed in the oil phase, after forming the water-in-oil type drop, heating systems solidifies the aluminum hydroxide sol drop gelling that aqueous phase contains active component and adjuvant component element;
(5) the aluminum oxide precursor thing that step (4) is contained active component and adjuvant component element carries out hydro-thermal, its crystal formation of ageing processing decision;
(6) with product sintering 2h in 200~1000 ℃ of air of step (5);
(7), make the ball-aluminium oxide catalyst that active component and adjuvant component nanoscale disperse with product 100~1000 ℃ of heat treatment 2~8h in hydrogen of step (6).
Following example will the present invention is further illustrated, but protection scope of the present invention is not subjected to the restriction of these examples.
In an embodiment, the JSM-840 type ESEM (SEM) that has X-ray energy spectrum analyzer is adopted in the pattern of sample and elementary analysis.X-ray diffraction (XRD) carries out Cu target K alpha ray, wavelength X=1.54, sweep limits 10-90 ° on D/Max-2400 Rigaku (Japan is of science) diffractometer.
The preparation method of alumina support in an embodiment, with reference to US.Pat.4,273,735 and US.Pat.4,315,839 publication.
With 50.0g Co (NO
3)
26H
2O (Beijing Chemical Plant) is dissolved in the 100ml distilled water, 20.0g (NH
4)
6Mo
7O
244H
2O (57601 chemical plant, Beijing) is dispersed in the 100mL distilled water, and is standby.
Take by weighing AlCl
36H
2O (the two ship chemical reagent factories in Tianjin) 92.5 grams, be dissolved in the 600ml deionized water, be heated to 80~100 ℃, slowly add 42.6 gram high-purity aluminum foils (Xing Jin chemical plant, Beijing), under this temperature, kept 60~72 hours, make aluminium foil fully be dissolved in the solution after, liquor capacity heating is concentrated into 300ml, obtain clarifying translucent colloidal sol, standby.Aluminium in this colloidal sol is converted to aluminium oxide and is about 100 grams.
At room temperature, measure the 100ml aluminum hydroxide sol, the Co solution of 10ml, the Mo solution of 10ml, 95ml concentration is that the hexamethylenetetramine (Beijing sharp fine chemicals of benefit company) of 10 ℃ of 120g/L mixes, and stirs, and forms uniform aqueous phase system.The 1400ml that packs in 3 liters of column type stirring reactors contains the sulfonated kerosene of 0.05 volume %Span80 (Beijing chemical reagents corporation), above-mentioned aqueous phase solution is added in the sulfonated kerosene,, under the rotating speed of 800rpm, be uniformly dispersed in room temperature, form water-in-oil emulsion, system is warming up to 85~90 ℃ subsequently, keep 15min, this moment, organic amine decomposed, and discharged ammonia, aqueous phase solution pH value raises gradually, makes the aluminum hydroxide sol gelling be solidified into the spherical Al (OH) that Co and Mo component are contained in inside
3
With spherical Al (OH)
3Combination product; pack into and contain in the 1L autoclave of 0.7L sulfonated kerosene medium; the following 140 ℃ of hydrothermal treatment consists of nitrogen protection 3 hours; after the product cleaning oil removing; in the weak aqua ammonia of pH=11, (measure under the room temperature) subsequently in 80 ℃ of ageings 6 hours (removing wherein partial impurities); after 60 ℃ of oven dry, the spherical Al (OH) of Co and Mo component is contained in the inside that can obtain structure of similar to thin diaspore
3Product, this product sintering 2 hours under 580 ℃ of air atmospheres can obtain spherical gamma-Al that Co and Mo component are contained in inside
2O
3Carrier is designated as CoO/MoO-γ-Al
2O
3
Prepared spherical CoO/MoO-γ-Al
2O
3The pattern of catalyst is Fig. 3, and as can be seen from Figure 3, the average grain diameter of this material is about 140 μ m.Each constituent content ratio sees Table 1 in this catalyst.
CoO/MoO-γ-Al with embodiment 1
2O
3Catalyst is at 400 ℃ of hydrogen reducing 2h, obtains Co and the Mo nanometer is dispersed in γ-Al
2O
3Novel hydrogenation catalyst for refining in the carrier is designated as Co/Mo-γ-Al
2O
3, distribution diagram of element 4 shows that Co and Mo component are at γ-Al
2O
3The carrier inside nanometer is disperseed.
Embodiment 3
With 20.3gNiCl
26H
2O (Beijing chemical reagent three factories) is dissolved in the 100mL distilled water 7.4g metatungstic acid amine ((NH4)
6W
7O
24.6H
2O) be dispersed in the 100mL distilled water, standby.
Take by weighing AlCl
36H
2O (the two ship chemical reagent factories in Tianjin) 92.5 grams, be dissolved in the 600ml deionized water, be heated to 80~100 ℃, slowly add 42.6 gram high-purity aluminum foils (Xing Jin chemical plant, Beijing), under this temperature, kept 60~72 hours, make aluminium foil fully be dissolved in the solution after, liquor capacity heating is concentrated into 300ml, obtain clarifying translucent colloidal sol, standby.Aluminium in this colloidal sol is converted to aluminium oxide and is about 100 grams.
At room temperature, measure the 100ml aluminum hydroxide sol, the Ni solution of 10ml, the W solution of 10ml, 95ml concentration is that the hexamethylenetetramine (Beijing sharp fine chemicals of benefit company) of 10 ℃ of 120g/L mixes, and stirs, and forms uniform aqueous phase system.The 1400ml that packs in 3 liters of column type stirring reactors contains the sulfonated kerosene of 0.05 volume %Span80 (Beijing chemical reagents corporation), above-mentioned aqueous phase solution is added in the sulfonated kerosene,, under the rotating speed of 800rpm, be uniformly dispersed in room temperature, form water-in-oil emulsion, system is warming up to 85~90 ℃ subsequently, keep 15min, this moment, organic amine decomposed, and discharged ammonia, aqueous phase solution pH value raises gradually, makes the aluminum hydroxide sol gelling be solidified into the spherical Al (OH) that Ni and W component are contained in inside
3
With spherical Al (OH)
3Combination product; pack into and contain in the 1L autoclave of 0.7L sulfonated kerosene medium; the following 140 ℃ of hydrothermal treatment consists of nitrogen protection 3 hours; after the product cleaning oil removing; in the weak aqua ammonia of pH=11, (measure under the room temperature) subsequently in 80 ℃ of ageings 6 hours (removing wherein partial impurities); after 60 ℃ of oven dry, the spherical Al (OH) of Ni and W component is contained in the inside that can obtain structure of similar to thin diaspore
3Product, this product sintering 2 hours under 580 ℃ of air atmospheres can obtain spherical gamma-Al that Ni and W component are contained in inside
2O
3Carrier is designated as NiO/WO-γ-Al
2O
3Catalyst.
Prepared spherical Ni O/WO-γ-Al
2O
3Each constituent content ratio sees Table 2 in the catalyst.
Embodiment 4
NiO/WO-γ-Al with embodiment 3
2O
3Catalyst is at 400 ℃ of hydrogen reducing 2h, obtains Ni and the W nanometer is dispersed in γ-Al
2O
3Novel hydrogenation catalyst for refining in the carrier, Fig. 6 show that Ni and W component are at γ-Al
2O
3The carrier inside nanometer is disperseed, and is designated as Ni/W-γ-Al
2O
3Catalyst.
Embodiment 5
In the simulated system, embodiment 1,2,3,4 products, the hydrogenation catalyst performance test, simulated system is formed (volume) by n-hexane 88.0%, thiophene 1.0%, cyclohexane 10.0%, pyridine 1.0%.The results are shown in Table 3.
Embodiment 6
Fig. 2, Fig. 5 are seen in the XRD test of embodiment 1,2 products, and this figure shows catalyst carrier Al
2O
3Crystal formation be γ-type.
The ball-aluminium oxide catalyst that active component in the embodiments of the invention and adjuvant component nanoscale disperse
Have following characteristics:
1, the component as active component and auxiliary agent is dispersed in the alumina support uniformly;
2, in the hydrofinishing of diesel oil, gasoline, has good catalytic performance.
Table 1 is Co/Mo-γ-Al
2O
3Each constituent content of Hydrobon catalyst.
Table 2 is Ni/W-γ-Al
2O
3Each constituent content of Hydrobon catalyst.
Table 3 is the catalytic performance tests in the analog gasoline system of embodiment 1,2,3,4 products.
Table 1 Co/Mo-γ-Al
2O
3Each constituent content of Hydrobon catalyst
The pantogen subnumber is than % mass ratio % error Wt%
Al 93.99 84.66 +/-0.52
Co 3.17 6.24 +/-0.33
Mo 2.84 9.10 +/-0.56
Amount to 100 100
Table 2 Ni/W-γ-Al
2O
3Each constituent content of Hydrobon catalyst
The pantogen subnumber is than % mass ratio % error Wt%
Al 94.13 80.07 +/-0.42
Ni 3.51 6.49 +/-0.40
W 2.32 13.44 +/-0.55
Amount to 100 100
Table 3 is product catalytic performance test in the analog gasoline system of embodiment 1,2
Catalyst HDS% HDN%
Claims (10)
1. active component and auxiliary agent nanoscale dispersed catalyst, it is characterized in that: described catalyst is the catalyst that a kind of active component and auxiliary agent nanoscale are dispersed in catalyst carrier inside, wherein contain the carrier of 60~99 weight % and active component and the auxiliary agent of 1~40 weight % in the catalyst, wherein the weight ratio of active component and auxiliary agent is 1: 20 to 20: 1.
2. catalyst as claimed in claim 1 is characterized in that: the also further nanoscale of described active component and auxiliary agent is dispersed in the surface of catalyst carrier.
3. catalyst as claimed in claim 1 or 2 is characterized in that: described dispersion is even dispersion, and has nanoscale.
4. catalyst as claimed in claim 1 or 2 is characterized in that: described carrier comprises aluminium oxide, molecular sieve, silica or the Zirconia carrier of various crystal formations.
5. catalyst as claimed in claim 4 is characterized in that: the aluminium oxide of described various crystal formations is amorphous alumina, ρ-aluminium oxide, χ-aluminium oxide, η-aluminium oxide, gama-alumina, κ-aluminium oxide, δ-aluminium oxide, θ-aluminium oxide or Alpha-alumina.
6. catalyst as claimed in claim 4 is characterized in that: described molecular sieve is ZSM molecular sieve, MOM molecular sieve or A type molecular sieve.
7. catalyst as claimed in claim 1 is characterized in that: described active component is selected from one or more of platinum, palladium, gold, group vib element.
8. catalyst as claimed in claim 1 is characterized in that: described auxiliary agent is selected from one or more of VIII family element.
9. one-step preparation method as claim 1~8 catalyst as described in each, it is characterized in that: described method for making comprises the following steps:
(1) sneaks into one or more active components and auxiliary agent in the raw material of preparing carriers or in the process, perhaps sneak into the compound of active component and auxiliary agent correspondence, in hydrogen or carbon monoxide reducibility gas, heat-treat, reduction temperature is 100~1000 ℃, make active component and the auxiliary agent nanoscale is dispersed in catalyst carrier inside, and further nanoscale is dispersed in the surface of catalyst carrier; Wherein contain the carrier of 60~99 weight % and active component and the auxiliary agent of 1~40 weight % in the catalyst, wherein the weight ratio of active component and auxiliary agent is 1: 20 to 20: 1.
10. method for making as claimed in claim 9 is characterized in that: described compound comprises the oxide of crystallization nitrate, crystallization chloride, ammonium salt, phosphate, sulfate, acetate, group vib element or the oxide of group VIII element.
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100368089C (en) * | 2005-07-06 | 2008-02-13 | 北京化工大学 | One-step method for preparing compound oxide supported nano noble metal catalyst |
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2003
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN100368089C (en) * | 2005-07-06 | 2008-02-13 | 北京化工大学 | One-step method for preparing compound oxide supported nano noble metal catalyst |
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Granted publication date: 20060823 Termination date: 20120521 |