CN106669797B - A kind of preparation method of catalyst for hydro-upgrading - Google Patents
A kind of preparation method of catalyst for hydro-upgrading Download PDFInfo
- Publication number
- CN106669797B CN106669797B CN201510758582.4A CN201510758582A CN106669797B CN 106669797 B CN106669797 B CN 106669797B CN 201510758582 A CN201510758582 A CN 201510758582A CN 106669797 B CN106669797 B CN 106669797B
- Authority
- CN
- China
- Prior art keywords
- catalyst
- preparation
- carrier
- hydro
- upgrading
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Catalysts (AREA)
- Production Of Liquid Hydrocarbon Mixture For Refining Petroleum (AREA)
Abstract
The invention discloses a kind of preparation methods of catalyst for hydro-upgrading.This method comprises: the preparation of modified catalyst for hydro-upgrading carrier, hydrogenation active metal component is loaded using infusion process, through dry and roasting, obtain catalyst for hydro-upgrading, wherein it is modified the preparation of catalyst for hydro-upgrading carrier, water-soluble silicon oil and soluble boron-containing compound are sequentially or simultaneously introduced into catalyst for hydro-upgrading carrier, after Overheating Treatment, modified catalyst for hydro-upgrading carrier is made.This method can adjust the distribution of acid centre and hydrogenation sites, make its mutually coordinated effect, improve the comprehensive performance of catalyst, be especially suitable as diesel oil hydrogenation modification catalyst.
Description
Technical field
The present invention relates to a kind of preparation methods of catalyst for hydro-upgrading, especially for diesel oil hydrogenation modification catalyst
Preparation method.
Background technique
For cleaning diesel production, the prior art mainly includes the technologies such as hydrofinishing and Medium Pressure Hydrogenation Modification.Add hydrogen smart
System can reduce the sulfur content of modification diesel oil, but limited to improvement Cetane number and reduction T95 temperature capability.Medium Pressure Hydrogenation Modification is
Using the catalyst for hydro-upgrading for containing molecular sieve (such as Y type molecular sieve, beta-molecular sieve), the aromatic hydrocarbons etc. in diesel oil is suitably cracked,
In reducing diesel oil while sulphur, nitrogen impurity content, improve the comprehensive performances such as diesel cetane-number.But hydrogen is added to change using current
Matter catalyst leads to improve the comprehensive performance (sulphur nitrogen impurity content, Cetane number, T95 temperature, arene content etc.) of diesel oil
Higher cracking degree is often needed, diesel yield can be made lower in this way, and to keep the yield of diesel oil, the comprehensive performance of diesel oil is again
It cannot improve well.
Sulfur-containing compound and aromatic hydrocarbons in diesel oil distillate usually exist with complicated structure, such as dibenzothiophenes, alkyl
Benzothiophene and methyldibenzothiophene etc., wherein plus the more difficult removing of hydrogen is dibenzothiophenes, alkyl benzothiophenes and alkyl
The thiophenes such as dibenzothiophenes, especially with 4,6- dimethyl Dibenzothiophene (4,6- BMDBT) and 2,4,6- front threes
Base dibenzothiophenes (2,4,6- BMDBT) class formation is complicated and has the sulfur-containing compound of space steric effect to be most difficult to remove.It reaches
To depth and ultra-deep desulfurization, it is necessary to remove these sulfur-containing compounds that structure is complicated and steric hindrance is big, and these sulfur-bearings
The compound usually more difficult removing under the hydrofinishing operating condition of the harshness such as high temperature and pressure can reduce bavin by being hydrocracked
Oil yield.Therefore, in the case where keeping the higher situation of diesel yield, the impurity in diesel oil how is removed, while diesel oil can be improved again
Comprehensive performance, this is the important topic for currently needing to study.
Catalyst for hydro-upgrading is usually to use the alumina support containing molecular sieve, currently, the side being modified to carrier
There are many method, wherein introducing auxiliary agent such as silicon, phosphorus, fluorine, boron, zirconium, titanium, magnesium, gallium, vanadium, manganese, copper, zinc etc., can be used to improve carrier
Property, but the dosage of auxiliary agent, type and mode are different due to introducing, and the property of alumina support can be made different or even difference
It is very big.CN1184843A discloses a kind of catalyst for hydrocracking diesel oil, the group of the catalyst become 40~80wt% of aluminium oxide,
0~20wt% of amorphous silica-alumina, 5~30wt% of Y type molecular sieve.CN101463271A discloses a kind of hydro-upgrading of inferior diesel and urges
Agent and preparation method thereof, it is mainly mixed using silica-alumina, the predecessor of aluminium oxide and/or aluminium oxide and Y type molecular sieve
It closes, form and roasts, introduce a effective amount of hydrogenation metal in molding species later.Above-mentioned catalyst desulfurization with higher and de-
The disadvantages of nitrogen is active, but the amplitude that the yield of diesel product is low, the Cetane number of diesel oil improves is small, condensation point is high and density is big.
CN201110350790.2 discloses a kind of diesel oil hydrogenation modification catalyst and preparation method thereof.The catalyst includes
The carrier and hydrogenation active metal component be made of modified beta molecular sieve and aluminium oxide.Changed using the catalyst for diesel oil hydrogenation
When matter, although the condensation point of diesel oil distillate can be reduced, the Cetane number of modification diesel oil is improved, diesel yield is 97% hereinafter, still
It is so lower.
Summary of the invention
Aiming at the problems existing in the prior art, the present invention provides a kind of preparation methods of catalyst for hydro-upgrading.It should
Catalyst makes carrier be capable of providing more acid sites B by support modification, reduces strong acid center, and can adjust in acidity
The distribution of the heart and hydrogenation sites makes its mutually coordinated effect, improves the comprehensive performance of catalyst, the catalyst for hydro-upgrading
It is suitble to the upgrading processes of various distillates, is especially suitable for the hydro-upgrading of diesel oil distillate.
The preparation method of catalyst for hydro-upgrading provided by the invention, the system including modified catalyst for hydro-upgrading carrier
It is standby, hydrogenation active metal component is loaded using infusion process, through dry and roasting, obtains catalyst for hydro-upgrading, wherein modified add
The preparation method of hydrogen modifying catalyst carrier, comprising: sequentially or simultaneously introduce water-soluble silicon oil and soluble boron-containing compound
Modified catalyst for hydro-upgrading carrier is made after Overheating Treatment in catalyst for hydro-upgrading carrier.
Catalyst for hydro-upgrading carrier of the present invention can carry for the catalyst for hydro-upgrading of conventional method preparation
Body can be free of adjuvant component, can also contain adjuvant component, wherein helping usually using aluminium oxide and molecular sieve as main component
Agent component can be one of fluorine, silicon, phosphorus, titanium, zirconium, boron etc. or a variety of, the content of adjuvant component in the carrier 15wt% with
Under, preferably 10wt% or less.Catalyst for hydro-upgrading carrier of the present invention can be using systems such as kneading method, mixing plastic methods
Standby, the general process of kneading method is as follows, by after aluminium hydroxide (such as boehmite) and molecular sieve mixed-forming by high temperature
Obtained after roasting, the condition of high-temperature roasting is as follows: 450 DEG C~1000 DEG C roastings 1.0h~20.0h, preferably 3.0 h ~
8.0 h.The general process for mixing plastic method is that molecular sieve is introduced during preparing alumine hydroxide colloid, after plastic, is made
Alumina dry glue containing molecular sieve is formed, and carrier is made in dry and roasting.The shape of carrier, which can according to need, is made ball
The suitable shape such as shape, bar shaped (such as clover, bunge bedstraw herb or cylindrical bars) can be added common molding in forming process and help
Agent, such as extrusion aid, peptization acid, adhesive etc..The property of the catalyst for hydro-upgrading carrier is as follows: specific surface area be 200 ~
550m2/ g, preferably 280 ~ 450m2/g;0.4 ~ 1.3mL/g of Kong Rongwei, preferably 0.6 ~ 1.0mL/g.
Molecular sieve of the present invention is Y type molecular sieve and/or beta-molecular sieve.With the weight of catalyst for hydro-upgrading carrier
On the basis of, the content of molecular sieve is 3% ~ 35%, and the content of aluminium oxide is 65% ~ 97%, and preferably the content of molecular sieve is 3% ~ 20%,
The content of aluminium oxide is 80% ~ 97%.Wherein the molecular sieve is hydrogen type molecular sieve.Wherein beta-molecular sieve preferred property is as follows:
SiO2/Al2O3Molar ratio is 30 ~ 150, specific surface area 400m2/ g~750m2/ g, total pore volume 0.30mL/g~0.55mL/g are infrared
0.1~0.8mmol/g of acid amount;Y type molecular sieve preferred property is as follows: SiO2/Al2O3Molar ratio is 5 ~ 50, specific surface area 450m2/
G~800m2/ g, total pore volume 0.30mL/g~0.60mL/g, 0.2~0.9mmol/g of meleic acid amount.Beta-molecular sieve and Y type of the present invention
Existing method preparation can be used in molecular sieve.
In the method for the present invention, the silicone content being introduced into carrier by water-soluble silicon oil accounts for modified hydro-upgrading in terms of silica
The 0.2%~5.0% of catalyst carrier weight, preferably 0.4%~3.0%, further preferably 0.5% ~ 1.5%.
In the method for the present invention, modification is accounted in terms of diboron trioxide by the boron content that soluble boron-containing compound is introduced into carrier
The 0.1%~6.0% of catalyst for hydro-upgrading vehicle weight, preferably 0.2%~4.0%, further preferably 0.4%~
2.0%.
In the method for the present invention, the dosage of water-soluble silicon oil and soluble boron-containing compound is introduced respectively with silica and three oxygen
The molar ratio for changing two boron meters is 0.02 ~ 30.0, preferably 0.06 ~ 9.0, more preferably 0.15 ~ 2.5.
Water-soluble silicon oil described in the method for the present invention refers to that the silicone oil that can be dissolved in water, preferred property are as follows: viscous at 25 DEG C
Degree is 200 ~ 7000mPa.s, and preferably 500 ~ 5000mPa.s, cloud point is 30 ~ 100 DEG C, preferably 40 ~ 65 DEG C.Described is water-soluble
What the method that group modified silicone oil is usually used in property silicone oil obtained, such as polyether modified silicon oil.
In the method for the present invention, soluble boron-containing compound refers to one of boric acid, ammonium pentaborate, tetraboric acid ammonium etc. or several
The combination of kind.
In the method for the present invention, water-soluble silicon oil and soluble boron-containing compound are sequentially or simultaneously introduced into hydro-upgrading catalysis
On agent carrier, first water-soluble silicon oil can be introduced on catalyst for hydro-upgrading carrier, then again by soluble boracic chemical combination
Object is introduced on catalyst for hydro-upgrading carrier;Or water-soluble silicon oil and soluble boron-containing compound are introduced into add hydrogen simultaneously
On modifying catalyst carrier, incorporation way uses infusion process, and infusion process can be incipient impregnation, be also possible to excessive leaching
Stain;It can be multiple dipping, be also possible to single-steeping.To improve efficiency, an incipient impregnation is preferably used.
In the method for the present invention, using two sections of heat treatments, first segment is 60 DEG C~150 DEG C in temperature, excellent for the heat treatment
Be selected as 90 DEG C~120 DEG C, the processing time is 0.5h~20.0h, preferably 1.0h~6.0h, second segment temperature be 180 DEG C~
400 DEG C, preferably 200 DEG C~350 DEG C, the processing time is 0.5h~20.0h, preferably 1.0h~6.0h.Heat treatment can be
It is carried out in oxygen-containing atmosphere, oxygen concentration is not particularly limited, such as air atmosphere, can also carried out in an inert atmosphere, than
Such as nitrogen atmosphere.
In the method for the present invention, the hydrogenation active metal component is the common active metal group of catalyst for hydro-upgrading
Point, generally one of vib metals and group VIII metal or a variety of, wherein vib metals be preferably W and/or
Mo, group VIII metal are preferably Co and/or Ni.
The catalyst for hydro-upgrading of the method for the present invention preparation, on the basis of the weight of catalyst, modified hydro-upgrading catalysis
The content of agent carrier is 55.0wt% ~ 94.5wt%, preferably 58.0wt% ~ 90.0wt%, vib metals oxide content
For 5.0wt% ~ 30.0wt%, preferably 8.0wt% ~ 30.0wt%, group VIII metal oxide content be 0.5wt% ~
15.0 wt%, preferably 2.0 wt of wt % ~ 12.0 %.
In catalyst for hydro-upgrading preparation method of the present invention, hydrogenation active metal component is to support carrier by infusion process
On, it can be incipient impregnation, be also possible to excessive dipping, can be step impregnation, can also be co-impregnation, preferably in equal volume
Co-impregnation.Dipping method is well-known to those skilled in the art.After hydrogenation active metal component solution impregnating carrier, through dry
Final catalyst is made in dry and roasting.Method for preparing catalyst is known to technical staff.Dipping solution passes through with containing the VIth B
Prepared by the compound of race or group VIII metal, solution concentration can be adjusted by the dosage of each compound, so that preparation refers to
Determine the catalyst of active component content, the preparation method of solution is known to those skilled in the art.With containing active metal component
Aqueous solution impregnate said catalyst carrier, by dry and calcination steps after dipping.The condition of the drying and roasting is
Conventional, for example, drying temperature is 60 DEG C~200 DEG C, preferably 90 DEG C~160 DEG C, drying time is 0.5h~20h, preferably
For 1h~6h;Maturing temperature is 300 DEG C~700 DEG C, and preferably 300 DEG C~500 DEG C, calcining time is 0.5h~20h, preferably
1h~6h.
Modification catalyst for hydro-upgrading carrier prepared by the method for the present invention, with a small amount of specific water-soluble silicon oil-impregnated
Catalyst for hydro-upgrading carrier makes it load to hydro-upgrading and is catalyzed using the effect of the hydrophilic and hydrophobic grouping of water-soluble silicon oil
On the specific position on agent carrier surface, and make while or the boron-containing compound that impregnates afterwards evenly spread to around siloxy group,
By suitable heat treatment, the better coordinative role of Si, B energy loaded forms more points in carrier surface specific position
On the one hand the uniform silicon boron hydroxyl of cloth makes carrier surface form more acid suitable acid centres, and with the original in carrier
Acidic site matches, and keeps the acidity of carrier and acid distribution more reasonable, reduces strong acid content, provide more acid sites B, separately
On the one hand, be conducive to adjust the distribution for the hydrogenation sites that the subsequent active metal using infusion process load is formed, Yi Jijia
The cooperation of the acid centre of hydrogen activity center and carrier, to improve the service performance of catalyst.
The catalyst of the method for the present invention preparation is suitable for the catalyst for hydro-upgrading as various distillates, especially diesel oil
Catalyst for hydro-upgrading, the catalyst are used for during diesel oil hydrogenation modification, have deep hydrodesulfurizationof activity, and can keep
Improve the comprehensive performances such as Cetane number in the higher situation of diesel yield.
Specific embodiment
In the present invention, cloud point refers to be stopped after the water-soluble silicon oil solution for being 1% by mass concentration is heated to muddiness
Temperature when lower observation aqueous solution becomes limpid by muddiness is stirred in heating.
It, specifically can be using following step according to the preparation method of modified catalyst for hydro-upgrading carrier provided by the invention
It is rapid:
1, soluble boron-containing compound is configured to solution A, wherein boron-containing compound concentration is calculated as with diboron trioxide
0.1g/100mL~32g/100mL;
2, water-soluble silicon oil is configured to solution B, wherein water-soluble silicon oil concentration with silica be calculated as 0.1g/100mL ~
20g/100mL;
3, soluble boron-containing compound and water-soluble silicon oil are hybridly prepared into solution C, wherein boron-containing compound concentration with
Diboron trioxide is calculated as 0.1g/100mL ~ 16g/100mL, and water-soluble silicon oil concentration is calculated as 0.1g/100mL ~ 10g/ with silica
100mL;
4, water-soluble silicon oil and boron-containing compound are guided to by catalyst for hydro-upgrading carrier using a kind of at least following mode
It is upper:
I, catalyst for hydro-upgrading carrier is impregnated with solution C, after health, then by two sections of heat treatments, obtained
Modified catalyst for hydro-upgrading carrier;Wherein in two sections of heat treatments, first segment is 60 DEG C~150 DEG C, preferably 90 DEG C in temperature
~120 DEG C, the processing time is 0.5h~20.0h, and preferably 1.0h~6.0h, second segment is 180 DEG C~400 DEG C in temperature, excellent
200 DEG C~350 DEG C are selected as, the processing time is 0.5h~20.0h, preferably 1.0h~6.0h;
II, it by Low Temperature Heat Treatment, then is impregnated after health with solution B dipping catalyst for hydro-upgrading carrier
Solution A after health, then by two sections of heat treatments, obtains modified catalyst for hydro-upgrading carrier;Wherein at Low Temperature Thermal
Reason is at 60 DEG C~150 DEG C, preferably 90 DEG C~120 DEG C, and the processing time is 0.5h~20.0h, preferably 1.0h~6.0h;Two
In section heat treatment, first segment is 60 DEG C~150 DEG C in temperature, and preferably 90 DEG C~120 DEG C, the processing time is 0.5h~20.0h,
Preferably 1.0h~6.0h, second segment are 180 DEG C~400 DEG C in temperature, and preferably 200 DEG C~350 DEG C, the processing time is 0.5h
~20.0h, preferably 1.0h~6.0h.
In the method for the present invention, heat treatment can carry out in oxygen-containing atmosphere, oxygen concentration be not particularly limited, such as air
Atmosphere etc. can also carry out in an inert atmosphere, such as nitrogen atmosphere etc..
The method of the present invention is not specifically limited the conditioned time after dipping solution, and conditioned time is can guarantee water-soluble silicon
Subject to oil and the uniform adsorption of boron-containing compound component, those skilled in the art can be according to the viscosity situation of solution and the suction of solution
Attached situation is judged, to determine conditioned time.
The technical solution that the invention is further illustrated by the following examples, but invention should not be deemed limited to this reality
It applies in example.In the present invention, wt% is mass fraction, and no specified otherwise is air atmosphere.
In the present invention, meleic acid amount, B acid and L acid are measured using Pyridine adsorption IR spectra method, and wherein meleic acid amount is B
The sum of acid and L acid acid amount.
In embodiment, water-soluble silicon oil A used is produced by Qingdao industrial organosilicon new material company, SiO2Content is
15wt%, viscosity (25 DEG C) 1500 ~ 5000 mPa.s, cloud point are 47 DEG C;Water-soluble silicon oil B is by Laiyang Shunming Chemical Co., Ltd
Production, SiO2Content is 9wt%, and (25 DEG C) of viscosity are 500~1500mPa.s, and cloud point is 45~55 DEG C;Water-soluble silicon oil C is by Lay
The production of Yang Shengbang organosilicon Science and Technology Ltd., SiO2Content is 30wt%, and (25 DEG C) of viscosity are 600~5000mPa.s, cloud point
It is 42~46 DEG C.
In embodiment, the property of beta-molecular sieve B1 used is as follows: SiO2/Al2O3Molar ratio is 58, specific surface area 532m2/ g,
Total pore volume 0.45mL/g, meleic acid amount 0.41mmol/g;The property of beta-molecular sieve B2 used is as follows: SiO2/Al2O3Molar ratio is
82, specific surface area 546m2/ g, total pore volume 0.46mL/g, meleic acid amount 0.38mmol/g.The property of Y type molecular sieve Y1 used is such as
Under: SiO2/Al2O3Molar ratio is 16, specific surface area 613m2/ g, total pore volume 0.48mL/g, meleic acid amount 0.47mmol/g;It is used
The property of Y type molecular sieve Y2 is as follows: SiO2/Al2O3Molar ratio is 26, specific surface area 635m2/ g, total pore volume 0.49mL/g are infrared
Acid amount 0.44mmol/g.
The diameter of cylindrical vector used is about 1.2mm in embodiment, and length is about 3 ~ 5mm, physico-chemical property such as 1 institute of table
Show.
The preparation of Z1: by beta-molecular sieve B1, macroporous aluminium oxide, (hole holds 1.0mL/g, specific surface area 400m2/ g), adhesive
(molar ratio of nitric acid and small porous aluminum oxide is 0.3) is put into mixed grind in roller, adds water, is rolled into paste, extrusion squeezes out item
It is 4 hours dry at 110 DEG C, it is then roasted 4 hours at 550 DEG C, obtains carrier Z1.
The preparation of Z2: by beta-molecular sieve B1, Y type molecular sieve Y1, macroporous aluminium oxide, (hole holds 1.0mL/g, specific surface area
400m2/ g), adhesive (molar ratio of nitric acid and small porous aluminum oxide is 0.3) be put into mixed grind in roller, add water, be rolled into paste
Cream, extrusion, extrusion item is 4 hours dry at 110 DEG C, then roasts 4 hours at 550 DEG C, obtains carrier Z2.
The preparation of Z3: by beta-molecular sieve B2, Y type molecular sieve Y2, macroporous aluminium oxide, (hole holds 1.0mL/g, specific surface area
400m2/ g), adhesive (molar ratio of nitric acid and small porous aluminum oxide is 0.3) be put into mixed grind in roller, add water, be rolled into paste
Cream, extrusion, extrusion item is 4 hours dry at 110 DEG C, then roasts 4 hours at 550 DEG C, obtains carrier Z3.
The physico-chemical property of catalyst for hydro-upgrading carrier used in 1 embodiment of table
Project | Z1 | Z2 | Z3 |
Beta-molecular sieve content, wt% | _ | 4 | 6 |
Y molecular sieve content, wt% | 10 | 6 | 6 |
Aluminium oxide | Surplus | Surplus | Surplus |
Specific surface area, m2/g | 348 | 336 | 351 |
Kong Rong, mL/g | 0.63 | 0.64 | 0.64 |
It is saturated liquid absorption amount, mL/100g | 72 | 73 | 73 |
W predecessor in the present embodiment in W, Ni maceration extract used is ammonium metatungstate, and Ni predecessor is nickel nitrate.
Embodiment 1
Tetraboric acid ammonium 8.1g is weighed, appropriate amount of deionized water dissolution is added, makes volume 105mL, obtained solution A1.Weigh water
Dissolubility silicone oil A 21.0g is added appropriate amount of deionized water dissolution, makes volume 105mL, obtained solution B1.It, will under stirring
35mL B1 solution is poured slowly into 35mL A1 solution, and appropriate amount of deionized water is added, and is made final volume 72mL, is configured to C1
Solution.
100g catalyst for hydro-upgrading carrier Z1 is taken, solution C 1 is uniformly sprayed on carrier Z1, after health 10 hours, warp
100 DEG C of heat treatments 2h, 220 DEG C of heat treatment 2h obtain modified carrier S 1.
100g catalyst for hydro-upgrading carrier Z1 is taken, 35mL solution B 1 is diluted to 72mL with deionized water, is uniformly sprayed
On carrier Z1, health 10 hours, it is diluted to 71mL with deionized water after 100 DEG C of heat treatment 2h, then by 35mL A1 solution,
It is uniformly sprayed on carrier Z1, after health 3 hours, obtains modified load through 100 DEG C of heat treatments 2h, 220 DEG C of heat treatment 2h
Body S2.
Embodiment 2
Boric acid 3.6g, water-soluble silicon oil B 32.0g are weighed, appropriate amount of deionized water dissolution is added, makes volume 146mL, makes
Obtain solution C 2.
100g catalyst for hydro-upgrading carrier Z1 is taken, 73mL solution C 2 is uniformly sprayed on carrier Z1, health 10 hours
Afterwards, modified carrier S 3 is obtained through 100 DEG C of heat treatments 2h, 220 DEG C of heat treatment 2h.
100g catalyst for hydro-upgrading carrier Z1 is taken, 73mL solution C 2 is uniformly sprayed on carrier Z1, health 10 hours
Afterwards, in a nitrogen atmosphere, modified carrier S 4 is obtained through 100 DEG C of heat treatments 2h, 350 DEG C of heat treatment 2h.
Embodiment 3
Boric acid 1.8g, water-soluble silicon oil C2.5g are weighed, appropriate amount of deionized water dissolution is added, makes volume 73mL, is made molten
Liquid C3.
100g catalyst for hydro-upgrading carrier Z2 is taken, solution C 3 is uniformly sprayed on carrier Z2, after health 10 hours, warp
100 DEG C of heat treatments 2h, 250 DEG C of heat treatment 2h obtain modified carrier S 5.
Embodiment 4
Ammonium pentaborate 5.9g, water-soluble silicon oil C 9.8g are weighed, appropriate amount of deionized water dissolution is added, makes volume 73mL,
Obtained solution C4.
100g catalyst for hydro-upgrading carrier Z2 is taken, solution C 4 is uniformly sprayed on carrier Z2, after health 10 hours, warp
100 DEG C of heat treatments 2h, 250 DEG C of heat treatment 2h obtain modified carrier S 6.
Embodiment 5
Boric acid 2.7g, water-soluble silicon oil C2.5g are weighed, appropriate amount of deionized water dissolution is added, makes volume 73mL, is made molten
Liquid C5.
100g catalyst for hydro-upgrading carrier Z3 is taken, solution C 3 is uniformly sprayed on carrier Z3, after health 10 hours, warp
100 DEG C of heat treatments 2h, 250 DEG C of heat treatment 2h obtain modified carrier S 7.
Comparative example 1
Water-soluble silicon oil A 7.0g is weighed, appropriate amount of deionized water dissolution is added, makes volume 72mL, obtained solution B2.It takes
100g catalyst for hydro-upgrading carrier Z1, solution B 2 is uniformly sprayed on carrier Z1, after health 10 hours, at 100 DEG C of heat
2h is managed, 220 DEG C of heat treatment 2h obtain modified carrier DS1.
Comparative example 2
Tetraboric acid ammonium 2.7g is weighed, appropriate amount of deionized water dissolution is added, makes volume 72mL, is configured to A2 solution.It takes
100g catalyst for hydro-upgrading carrier Z1, solution A 2 is uniformly sprayed on carrier Z1, after health 10 hours, at 100 DEG C of heat
2h is managed, 220 DEG C of heat treatment 2h obtain modified carrier DS2.
Comparative example 3
Compared with the preparation method of carrier S 2 in embodiment 2, this comparative example is first to introduce boron-containing compound, is introduced afterwards water-soluble
Property silicone oil, detailed process is as follows:
100g catalyst for hydro-upgrading carrier Z1 is taken, 35mL A1 solution is diluted to 72mL with deionized water, is uniformly sprayed
On carrier Z1, after health 3 hours, it is diluted to 71mL with deionized water through 100 DEG C of heat treatment 2h, then by 35mL solution B 1,
It is uniformly sprayed on carrier Z1, health 10 hours, after 100 DEG C of heat treatment 2h, 220 DEG C of heat treatment 2h obtain modified load
Body DS3.
2 embodiment of table and the modified catalyst for hydro-upgrading support of comparative example
Bearer number | S1 | S2 | S3 | S4 | S5 | S6 | S7 |
Introduce B2O3Amount, wt% | 1.6 | 1.6 | 1.0 | 1.0 | 1.0 | 5.0 | 1.5 |
Introduce SiO2Amount, wt% | 1.0 | 1.0 | 1.4 | 1.4 | 0.7 | 2.8 | 0.7 |
Specific surface area, m2/g | 312 | 310 | 305 | 302 | 310 | 280 | 306 |
Kong Rong, mL/g | 0.61 | 0.61 | 0.61 | 0.61 | 0.62 | 0.58 | 0.62 |
Infrared total acid, mmol/g | 0.522 | 0.517 | 0.528 | 0.536 | 0.509 | 0.484 | 0.513 |
B acid, mmol/g | 0.120 | 0.119 | 0.125 | 0.130 | 0.117 | 0.110 | 0.120 |
L acid, mmol/g | 0.402 | 0.398 | 0.403 | 0.406 | 0.392 | 0.374 | 0.393 |
Strong acid content *, % | 15.1 | 14.9 | 14.7 | 14.9 | 15.2 | 14.2 | 15.1 |
* note: in table 2, strong acid content, which refers to, accounts for total acid content using acid amount when determination of infrared spectroscopy acid amount greater than 450 DEG C
Percentage.
Continued 2
Bearer number | Z1 | Z2 | Z3 | DS1 | DS2 | DS3 |
Introduce B2O3Amount, wt% | ? | ? | ? | ? | 1.6 | 1.6 |
Introduce SiO2Amount, wt% | ? | ? | ? | 1.0 | ? | 1.0 |
Specific surface area, m2/g | 348 | 336 | 351 | 318 | 317 | 304 |
Kong Rong, mL/g | 0.63 | 0.64 | 0.64 | 0.62 | 0.62 | 0.61 |
Infrared total acid, mmol/g | 0.432 | 0.427 | 0.433 | 0.489 | 0.477 | 0.498 |
B acid, mmol/g | 0.070 | 0.071 | 0.073 | 0.105 | 0.098 | 0.0101 |
L acid, mmol/g | 0.362 | 0.356 | 0.360 | 0.384 | 0.379 | 0.397 |
Strong acid content *, % | 23.6 | 23.1 | 23.9 | 18.6 | 12.5 | 13.6 |
Embodiment 6 ~ 12
Carrier strip S1, S2, S3, S4, S5, S6 and S7 in the embodiment of the present invention are taken respectively, with W, Ni solution bodies such as respectively
After product dipping 2h, 120 DEG C of dry 3h, 480 DEG C of roasting 2h respectively obtain catalyst T1, T2, T3, T4, T5, T6 and T7.
Comparative example 4 ~ 8
Take respectively comparative example of the present invention carrier strip DS1, DS2 and DS3 and embodiment used in carrier Z1 and Z2,
With W, Ni solution distinguish incipient impregnation 2h after, 120 DEG C of dry 3h, 480 DEG C of roasting 2h, respectively obtain catalyst DT1, DT2,
DT3, DT4 and DT5.
The composition of 3 catalyst of table
Catalyst composition | T1 | T2 | T3 | T4 | T5 | T6 | T7 |
WO3, wt% | 30.21 | 29.97 | 30.11 | 30.18 | 30.08 | 30.19 | 30.12 |
NiO, wt% | 3.27 | 3.25 | 3.20 | 3.26 | 3.29 | 3.21 | 3.23 |
Continued 3
Catalyst composition | DT1 | DT2 | DT3 | DT4 | DT5 |
WO3, wt% | 30.24 | 30.29 | 30.28 | 30.23 | 30.27 |
NiO, wt% | 3.22 | 3.23 | 3.27 | 3.22 | 3.28 |
Embodiment 13
The present embodiment is the henchnmrk test of catalyst.
Catalyst performance evaluation experiment carries out on 100mL small hydrogenation device, carries out before performance evaluation to catalyst pre-
Vulcanization.Evaluating catalyst condition is 1.5 h of volume space velocity in reaction stagnation pressure 10.0MPa, liquid-1, hydrogen to oil volume ratio 800:1, instead
Answering temperature is 365 DEG C.Henchnmrk test is shown in Table 4 with raw material oil nature, and Evaluation results are shown in Table 5, by data in table as it can be seen that
Catalyst for hydro-upgrading is prepared with the present invention, the desulphurizing activated of catalyst is apparently higher than comparative example catalyst, and diesel oil is being kept to receive
The Cetane number of diesel oil is improved 10 units or more under conditions of being not less than 98% by rate, and product quality has obtained changing well
It is kind.
4 raw material oil nature of table
Feedstock oil | Catalytic diesel oil |
Density (20 DEG C), g/cm3 | 0.9520 |
Boiling range/DEG C | |
IBP/ EBP | 186/373 |
Condensation point, DEG C | 5 |
Total sulfur, μ g/g | 8766 |
4,6-BMDBT contents, μ g/g | 105.6 |
Nitrogen, μ g/g | 1196 |
Cetane number | 28 |
C, wt% | 87.69 |
H, wt% | 11.09 |
5 catalyst performance evaluation result of table
Catalyst number | T1 | T2 | T3 | T4 | T5 | T6 | T7 |
Diesel oil | |||||||
Yield, wt% | 98.2 | 98.4 | 98.1 | 98.5 | 98.5 | 98.6 | 98.5 |
Density (20 DEG C), g/cm3 | 0.8423 | 0.8421 | 0.8425 | 0.8423 | 0.8426 | 0.8421 | 0.8422 |
T95, DEG C | 350 | 350 | 351 | 350 | 349 | 351 | 350 |
Condensation point, DEG C | -22 | -22 | -22 | -21 | -22 | -21 | -22 |
Cetane number | 48.0 | 48.2 | 48.1 | 48.3 | 48.3 | 47.6 | 48.1 |
Sulphur, μ g/g | 6 | 6 | 6 | 5 | 6 | 6 | 5 |
Continued 5
Catalyst number | DT1 | DT2 | DT3 | DT4 | DT5 |
Diesel oil | |||||
Yield, wt% | 97.6 | 97.5 | 97.4 | 97.0 | 97.1 |
Density (20 DEG C), g/cm3 | 0.8416 | 0.8419 | 0.8420 | 0.8409 | 0.8403 |
T95, DEG C | 347 | 351 | 347 | 345 | 346 |
Condensation point, DEG C | -20 | -18 | -19 | -21 | -22 |
Cetane number | 45.5 | 43.1 | 44.6 | 44.7 | 45.0 |
Sulphur, μ g/g | 11 | 19 | 13 | 14 | 14 |
Claims (30)
1. a kind of preparation method of catalyst for hydro-upgrading, comprising: the preparation of modified catalyst for hydro-upgrading carrier, it is negative using infusion process
Hydrogenation active metal component is carried, through dry and roasting, obtains catalyst for hydro-upgrading, wherein modified catalyst for hydro-upgrading carrier
Preparation, water-soluble silicon oil and soluble boron-containing compound are sequentially or simultaneously introduced into catalyst for hydro-upgrading carrier, through overheating
After processing, modified catalyst for hydro-upgrading carrier is made;
Wherein, water-soluble silicon oil and soluble boron-containing compound are sequentially or simultaneously introduced to the introducing of catalyst for hydro-upgrading carrier
Mode uses infusion process;
Wherein, the catalyst for hydro-upgrading carrier is using aluminium oxide and molecular sieve as main component, with or without auxiliary agent
Component, wherein adjuvant component is one of fluorine, silicon, phosphorus, titanium, zirconium, boron or a variety of, and adjuvant component is based on the element in the carrier
Content is in 15wt% or less;
Wherein, the silicone content being introduced into carrier by water-soluble silicon oil accounts for modified catalyst for hydro-upgrading carrier weight in terms of silica
The 0.5% ~ 1.5% of amount;The boron content being introduced into carrier by soluble boron-containing compound is accounted for modified plus hydrogen in terms of diboron trioxide and changed
The 0.1%~6.0% of matter catalyst carrier weight.
2. preparation method described in accordance with the claim 1, it is characterised in that: the property of the catalyst for hydro-upgrading carrier is as follows: ratio
Surface area is 200 ~ 550m20.4 ~ 1.3mL/g of/g, Kong Rongwei.
3. preparation method described in accordance with the claim 1, it is characterised in that: the property of the catalyst for hydro-upgrading carrier is as follows: ratio
Surface area is 280 ~ 450m20.6 ~ 1.0mL/g of/g, Kong Rongwei.
4. preparation method described in accordance with the claim 1, it is characterised in that: the catalyst for hydro-upgrading carrier using kneading method or
Mix the preparation of plastic method.
5. according to preparation method described in claim 1 or 4, it is characterised in that: the catalyst for hydro-upgrading carrier is through forming
And the catalyst for hydro-upgrading carrier Jing Guo high-temperature roasting, the condition of high-temperature roasting are as follows: in 450 DEG C~1000 DEG C roasting 1.0h
~20.0h.
6. preparation method described in accordance with the claim 1, it is characterised in that: on the basis of the weight of catalyst for hydro-upgrading carrier, point
The content of son sieve is 3% ~ 35%, and the content of aluminium oxide is 65% ~ 97%.
7. preparation method described in accordance with the claim 1, it is characterised in that: on the basis of the weight of catalyst for hydro-upgrading carrier, point
The content of son sieve is 3% ~ 20%, and the content of aluminium oxide is 80% ~ 97%.
8. according to preparation method described in claim 1 or 6, it is characterised in that: the molecular sieve is Y type molecular sieve and/or beta molecule
Sieve.
9. preparation method according to claim 8, it is characterised in that: the molecular sieve is hydrogen type molecular sieve, wherein beta-molecular sieve
Property is as follows: SiO2/Al2O3Molar ratio is 30 ~ 150, specific surface area 400m2/ g~750m2/ g, total pore volume 0.30mL/g~
0.55mL/g, 0.1~0.8mmol/g of meleic acid amount;Y type molecular sieve property is as follows: SiO2/Al2O3Molar ratio is 5 ~ 50, compares table
Area 450m2/ g~800m2/ g, total pore volume 0.30mL/g~0.60mL/g, 0.2~0.9mmol/g of meleic acid amount.
10. preparation method described in accordance with the claim 1, it is characterised in that: contained by the boron that soluble boron-containing compound is introduced into carrier
Amount accounts for the 0.2%~4.0% of modified catalyst for hydro-upgrading vehicle weight in terms of diboron trioxide.
11. preparation method described in accordance with the claim 1, it is characterised in that: contained by the boron that soluble boron-containing compound is introduced into carrier
Amount accounts for the 0.4%~2.0% of modified catalyst for hydro-upgrading vehicle weight in terms of diboron trioxide.
12. preparation method described in accordance with the claim 1, it is characterised in that: introduce water-soluble silicon oil and soluble boron-containing compound
The molar ratio in terms of silica and diboron trioxide is 0.02 ~ 30.0 to dosage respectively.
13. preparation method described in accordance with the claim 1, it is characterised in that: introduce water-soluble silicon oil and soluble boron-containing compound
The molar ratio in terms of silica and diboron trioxide is 0.06 ~ 9.0 to dosage respectively.
14. preparation method described in accordance with the claim 1, it is characterised in that: introduce water-soluble silicon oil and soluble boron-containing compound
The molar ratio in terms of silica and diboron trioxide is 0.15 ~ 2.5 to dosage respectively.
15. preparation method described in accordance with the claim 1, it is characterised in that: the property of the water-soluble silicon oil is as follows: at 25 DEG C
Viscosity is 200 ~ 7000mPa s, and cloud point is 30 ~ 100 DEG C.
16. preparation method described in accordance with the claim 1, it is characterised in that: the property of the water-soluble silicon oil is as follows: at 25 DEG C
Viscosity is 500 ~ 5000mPa s, and cloud point is 40 ~ 65 DEG C.
17. according to preparation method described in claim 1 or 15, it is characterised in that: the water-soluble silicon oil is polyether modified silicon oil.
18. preparation method described in accordance with the claim 1, it is characterised in that: the soluble boron-containing compound is boric acid, five boric acid
One or more of ammonium, tetraboric acid ammonium.
19. preparation method described in accordance with the claim 1, it is characterised in that: the heat treatment is existed using two sections of heat treatments, first segment
Temperature be 60 DEG C~150 DEG C, the processing time be 0.5h~20.0h, second segment temperature be 180 DEG C~400 DEG C, handle the time be
0.5h~20.0h.
20. preparation method described in accordance with the claim 1, it is characterised in that: the heat treatment is existed using two sections of heat treatments, first segment
Temperature be 90 DEG C~120 DEG C, the processing time be 1.0h~6.0h, second segment temperature be 200 DEG C~350 DEG C, handle the time be
1.0h~6.0h.
21. preparation method described in accordance with the claim 1, it is characterised in that: water-soluble silicon oil and soluble boron-containing compound successively draw
Enter onto carrier, incorporation way uses infusion process, i.e., first water-soluble silicon oil is impregnated on carrier, after health, by low
Soluble boron-containing compound, is then impregnated on carrier by warm processing again, is heat-treated by two sections, obtains modified plus hydrogen
Modifying catalyst carrier;Wherein Low Temperature Heat Treatment is at 60 DEG C~150 DEG C, and the processing time is 0.5h~20.0h.
22. according to the preparation method described in claim 21, it is characterised in that: the dipping solution for being made into soluble boron-containing compound
In, boron-containing compound concentration is calculated as 0.1g/100mL ~ 32g/100mL with diboron trioxide;The dipping that water-soluble silicon oil is made into
In solution, water-soluble silicon oil concentration is calculated as 0.1g/100mL ~ 20g/100mL with silica.
23. preparation method described in accordance with the claim 1, it is characterised in that: water-soluble silicon oil and soluble boron-containing compound draw simultaneously
Enter onto carrier, incorporation way uses infusion process, i.e., water-soluble silicon oil and soluble boron-containing compound is impregnated into load simultaneously
On body, after health, it is heat-treated by two sections, obtains modified catalyst for hydro-upgrading carrier.
24. according to the preparation method described in claim 23, it is characterised in that: mix soluble boron-containing compound and water-soluble silicon oil
In the dipping solution of preparation, boron-containing compound concentration is calculated as 0.1g/100mL ~ 16g/100mL, water-soluble silicon with diboron trioxide
Oil concentration is calculated as 0.1g/100mL ~ 10g/100mL with silica.
25. according to any preparation method of claim 21 ~ 24, it is characterised in that: infusion process uses an incipient impregnation.
26. according to any preparation method of claim 21 ~ 24, it is characterised in that: two sections of heat treatments, first segment is in temperature
Degree be 60 DEG C~150 DEG C, the processing time be 0.5h~20.0h, second segment temperature be 180 DEG C~400 DEG C, handle the time be
0.5h~20.0h.
27. according to any preparation method of claim 21 ~ 24, it is characterised in that: two sections of heat treatments, first segment is in temperature
Degree be 90 DEG C~120 DEG C, the processing time be 1.0h~6.0h, second segment temperature be 200 DEG C~350 DEG C, handle the time be
1.0h~6.0h.
28. preparation method described in accordance with the claim 1, it is characterised in that: the hydrogenation active metal component is vib metals
With one of group VIII metal or a variety of, wherein vib metals are W and/or Mo, group VIII metal be Co and/or
Ni。
29. according to the preparation method described in claim 28, it is characterised in that: on the basis of the weight of catalyst, modified hydro-upgrading
The content of catalyst carrier is 55.0wt% ~ 94.5wt%, and vib metals oxide content is 5.0wt% ~ 30.0wt%,
Group VIII metal oxide content is the wt% of 0.5wt% ~ 15.0.
30. according to the preparation method described in claim 28, it is characterised in that: on the basis of the weight of catalyst, modified hydro-upgrading
The content of catalyst carrier is 58.0wt% ~ 90.0wt%, and vib metals oxide content is 8.0wt% ~ 30.0wt%,
Group VIII metal oxide content is the wt% of 2.0 wt% ~ 12.0.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510758582.4A CN106669797B (en) | 2015-11-10 | 2015-11-10 | A kind of preparation method of catalyst for hydro-upgrading |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201510758582.4A CN106669797B (en) | 2015-11-10 | 2015-11-10 | A kind of preparation method of catalyst for hydro-upgrading |
Publications (2)
Publication Number | Publication Date |
---|---|
CN106669797A CN106669797A (en) | 2017-05-17 |
CN106669797B true CN106669797B (en) | 2019-06-11 |
Family
ID=58864415
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201510758582.4A Active CN106669797B (en) | 2015-11-10 | 2015-11-10 | A kind of preparation method of catalyst for hydro-upgrading |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN106669797B (en) |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1444506A (en) * | 2000-07-28 | 2003-09-24 | 日本凯金株式会社 | Hydroprocessing catalyst for heavy oils and its use |
CN101491767A (en) * | 2008-01-23 | 2009-07-29 | 中国石油化工股份有限公司 | Preparation of hydrogenation catalyst |
CN104667984A (en) * | 2013-11-26 | 2015-06-03 | 中国石油化工股份有限公司 | A catalyst carrier for hydrogenation modification and a preparing method thereof |
CN104667967A (en) * | 2013-11-26 | 2015-06-03 | 中国石油化工股份有限公司 | Diesel hydroupgrading catalyst and preparation method thereof |
CN105709761A (en) * | 2014-12-02 | 2016-06-29 | 中国石油化工股份有限公司 | Method used for preparing hydrogenation catalyst |
-
2015
- 2015-11-10 CN CN201510758582.4A patent/CN106669797B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN1444506A (en) * | 2000-07-28 | 2003-09-24 | 日本凯金株式会社 | Hydroprocessing catalyst for heavy oils and its use |
CN101491767A (en) * | 2008-01-23 | 2009-07-29 | 中国石油化工股份有限公司 | Preparation of hydrogenation catalyst |
CN104667984A (en) * | 2013-11-26 | 2015-06-03 | 中国石油化工股份有限公司 | A catalyst carrier for hydrogenation modification and a preparing method thereof |
CN104667967A (en) * | 2013-11-26 | 2015-06-03 | 中国石油化工股份有限公司 | Diesel hydroupgrading catalyst and preparation method thereof |
CN105709761A (en) * | 2014-12-02 | 2016-06-29 | 中国石油化工股份有限公司 | Method used for preparing hydrogenation catalyst |
Also Published As
Publication number | Publication date |
---|---|
CN106669797A (en) | 2017-05-17 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN103769194B (en) | A kind of catalytic hydro-dearomatization catalyst and preparation method thereof | |
CN107442129A (en) | A kind of hydrotreating catalyst and its preparation method and application | |
CN103785400A (en) | Preparation method of high-activity hydrodemetalization catalyst for residuum | |
CN106669863B (en) | The method of modifying of catalyst for hydro-upgrading carrier | |
CN108067287A (en) | A kind of carrier of the molecular sieve containing SBA-15 and its preparation method and application | |
CN105709763A (en) | Method used for preparing hydrogenation catalyst | |
CN106669796B (en) | A kind of preparation method of catalyst for hydro-upgrading | |
CN106669795B (en) | The preparation method of catalyst for hydro-upgrading | |
CN105709712B (en) | A kind of preparation method of modified oxidized alumina-based support | |
CN105709850B (en) | A kind of preparation method of siliceous and magnesium alumina-based supports | |
CN107442161A (en) | A kind of catalyst for hydro-upgrading and its preparation method and application | |
CN107442126A (en) | A kind of preparation method of hydrotreating catalyst | |
CN109833890B (en) | Residual oil hydrogenation catalyst and preparation thereof | |
CN105709761B (en) | A kind of method for preparing hydrotreating catalyst | |
CN105709788B (en) | The preparation method of hydrotreating catalyst | |
CN106669849B (en) | The method of modified catalyst for hydro-upgrading carrier | |
CN111318312A (en) | Hydrogenation modified catalyst carrier, preparation method and application thereof | |
CN106669797B (en) | A kind of preparation method of catalyst for hydro-upgrading | |
CN106669848B (en) | A kind of method of modified catalyst for hydro-upgrading carrier | |
CN106669813B (en) | The preparation method of catalyst for hydro-upgrading | |
CN106669859B (en) | A kind of method of modifying of catalyst for hydro-upgrading carrier | |
CN105709849B (en) | The preparation method of modified oxidized alumina-based support | |
CN105709762B (en) | A kind of preparation method of hydrotreating catalyst | |
CN105709851B (en) | A kind of preparation method of siliceous and boron alumina-based supports | |
CN105419858B (en) | A kind of hydrotreating method |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |