CN109718816A - The hydrofinishing process of Hydrobon catalyst and its preparation method and application and distillate - Google Patents

Abstract

The present invention relates to Hydrobon catalyst fields, disclose the hydrofinishing process of Hydrobon catalyst and its preparation method and application and distillate.Catalyst component containing inorganic refractory, alcohol and carboxylic acid, have the aperture 4-40nm and 100-300nm, and pore volume accounts for the 60-95% and 0.5-30% of total pore volume respectively；Inorganic refractory group is divided into aluminium oxide.Preparation method includes: to roast alumina precursor, obtains inorganic refractory component；By alcohol, carboxylic acid and active component presoma is added to mix, obtain maceration extract, and mixed, forms with inorganic refractory component and dry.Catalyst has the aperture 100-300nm, better performances, and preparation flow shortens.

Description

The hydrofinishing of Hydrobon catalyst and its preparation method and application and distillate Method

Technical field

The present invention relates to Hydrobon catalyst fields, and in particular to a kind of Hydrobon catalyst, a kind of hydrofinishing The preparation method of catalyst and the Hydrobon catalyst prepared by this method, the Hydrobon catalyst are in distillate hydrogenation Application and a kind of hydrofinishing process of distillate in purification.

Background technique

Hydrotreating is the mainstay in modern petroleum refining industry, in production clean fuel, improves product quality, abundant It is played an important role using petroleum resources and pretreatment of raw material etc..With the development of economic environmental protection and society, so that refining Oily enterprise constantly puts forward higher requirements the activity and stability of hydrotreating catalyst, Hydrobon catalyst activity and choosing Selecting property needs to be continuously improved.Wherein, hydrodesulfurization activity is an important indicator for measuring Hydrobon catalyst performance.

Usually, Hydrobon catalyst is using the sulfide of group vib metal (Mo and/or W) as main active component, and Using the sulfide of group VIII metal (Co and/or Ni) as active component is helped, remaining group is divided into carrier in catalyst.Study table Bright, the cellular structure of catalyst has large effect to its reactivity worth, and catalyst should have suitable cellular structure with suitable Answer the diffusion of reactant.Therefore, many patents and research have been directed to the exploitation and research of carrier.It is bad with hydrogenating materials The size of matter, reactant molecule incrementally increases, and needs just better meet reactant using the carrier of more macropore structure The demand of diffusion.

The preparation method of general alumina support be using boehmite as raw material, be added extrusion aid and adhesive carry out at Aluminium oxide is prepared by 100-200 DEG C of drying and 400-1000 DEG C of roasting after molding in type.Increase the common methods master in aperture Will include using different boehmites mixing (such as CN1488441A), using expanding agent (such as CN1160602A, US4448896, CN1055877C etc.) etc..For example, a water aluminium oxide is heat-treated by CN101450327A at a temperature of 150-300 DEG C, processing It mediates uniformly, passes through after being mixed again with expanding agent one or more in graphite, stearic acid, odium stearate, aluminum stearate afterwards Aluminium oxide is prepared using 700-1000 DEG C of roasting after 100-150 DEG C of drying.But the expanding method, expanding agent and intends thin water Aluminium stone can not uniformly mix bad so as to cause reaming effect, and the addition of expanding agent also will increase cost.

In addition, CN1087289A discloses a kind of method for preparing macropore alumina supporter.This method will contain at room temperature The moment containing boehmite of the extruded moulding of moisture is placed in high-temperature atmosphere, and high temperature range is 500-650 DEG C, and in this high temperature Lower constant temperature 2-4h.This method carries out reaming to carrier using the moisture of rapid evaporation under high temperature, but aperture is still smaller, and uses The activity of hydrogenation catalyst made from the carrier also needs to be further increased.

Summary of the invention

The purpose of the invention is to overcome the problems, such as that the prior art is small there are Hydrobon catalyst aperture and active low, A kind of Hydrobon catalyst is provided, pore volume of the aperture of the Hydrobon catalyst in 100-300nm accounts for total pore volume Ratio is 0.5-30%, and catalytic activity is high.

To achieve the goals above, one aspect of the present invention provides a kind of Hydrobon catalyst, wherein the catalyst contains Inorganic refractory component, Investigation On Hydrodesulfurizationof of Catalysts Derived component, alcohol and carboxylic acid；

Wherein, the inorganic refractory group is divided into aluminium oxide；

The aperture in aperture and 100-300nm of the catalyst with 4-40nm, wherein hole body of the aperture in 4-40nm Product accounts for the 60-95% of total pore volume, and the pore volume of 100-300nm accounts for the 0.5-30% of total pore volume.

Second aspect of the present invention provides a kind of preparation method of Hydrobon catalyst, this method comprises:

(1) alumina precursor is roasted, obtains inorganic refractory component；

(2) presoma of alcohol, carboxylic acid and Investigation On Hydrodesulfurizationof of Catalysts Derived component is mixed, obtains maceration extract；

(3) the inorganic refractory component and the maceration extract are mixed, obtained mixture is formed and dried, institute is obtained State Hydrobon catalyst.

Third aspect present invention provides the Hydrobon catalyst of method preparation as described above.

Fourth aspect present invention provides application of the Hydrobon catalyst as described above in fraction oil hydrogenation refining.

Fifth aspect present invention provides a kind of hydrofinishing process of distillate, this method comprises: will add as described above Hydrogen catalyst for refining is vulcanized, and is then passed to hydrogen sweetened distillate oil to be added, is made hydrogen sweetened distillate oil to be added in hydrodesulfurization item It is contacted under part with the vulcanization back end hydrogenation catalyst for refining.

The cellular structure of catalyst provided by the invention is concentrated mainly between 4-40nm and 100-300nm.It is evaporated in poor quality Divide in oil, the size of reactant molecule is larger, certainly will need biggish reaction compartment, the duct of 100-300nm can in catalyst With enough places that the diffusion for reactant provides, the accessibility in reactant and activated centre is promoted, is urged to improve The performance of agent.It is 9100ppm to sulfur content, nitrogen content 532ppm, arene content are 55 weights as documented by embodiment The distillate for measuring % carries out hydrotreating, and sulfur content can reduce to 14ppm hereinafter, nitrogen content is reduced to 5ppm hereinafter, desulfurization Rate is up to 99.8% or more, and denitrification percent is up to 99.0% or more, and arene content is reduced to 40 weight % hereinafter, Porous deproteinized bone rate is reachable 27.3% or more.

The present inventor has found that usual alumina support is by the way that alumina precursor is (quasi- in the course of the research Boehmite powder) with peptizing agent and extrusion aid by extruded moulding, then drying and roasting obtain.Due to hydrogenation reaction Need catalyst that there is biggish cellular structure, and before roasting, general duct concentrates on 5-12nm, therefore, general by will be at The load that carrier after type carries out calcination process to improve the pore size of carrier to improve the pore size of catalyst, after roasting The duct of body is generally concentrated at 6-20nm, and the average pore size of carrier increases, and is generally acknowledged that maturing temperature is higher, pore size It is bigger.However, the present inventor has found under study for action, with the increase of maturing temperature, the hole wall of carrier can collapse Condensation.Although hole wall condensation can be such that the average pore size of carrier increases, the hole wall of condensation can reduce the utilization rate of aluminium oxide, from And reduce the catalytic activity of catalyst.The preparation method of Hydrobon catalyst provided by the invention passes through before extrusion molding Alumina precursor (boehmite powder) is roasted, alumina precursor can be reduced by, which being on the one hand heat-treated, (intends thin water Aluminium mountain flour) hydroxyl quantity in particle, the probability of duct condensation is reduced, the aperture of catalyst is increased.Second aspect, it is after molding to urge Agent does not need to be handled with higher temperature, and aluminium oxide hole wall does not need to carry out excessive condensation, improves aluminium oxide Utilization rate.The third aspect is before the forming heat-treated alumina precursor (boehmite powder), part secondary It can be condensed, this size that will lead to the aluminium oxide particles to be formed tends to be single, and duct will more in catalyst after molding Uniformly, be conducive to the diffusion of reactant.It is more more effective than conventional catalyst especially for heavier and more inferior oil product.

Further, the process of the preparation method of Hydrobon catalyst provided by the invention is shorter, can biggish section Save preparation cost and preparation time.On the other hand, the preparation of catalyst is added without peptizing agent nitric acid and auxiliary agent squeezes sesbania powder, reduces The discharge of harmful substance (such as NOx) reduces material cost and environmentally friendly cost, realizes the green manufacturing of catalyst.

Specific embodiment

The endpoint of disclosed range and any value are not limited to the accurate range or value herein, these ranges or Value should be understood as comprising the value close to these ranges or value.For numberical range, between the endpoint value of each range, respectively It can be combined with each other between the endpoint value of a range and individual point value, and individually between point value and obtain one or more New numberical range, these numberical ranges should be considered as specific open herein.

The first aspect of the present invention provides a kind of Hydrobon catalyst, which contains inorganic refractory component plus hydrogen Desulfurization catalyst active component, alcohol and carboxylic acid；

Wherein, the inorganic refractory group is divided into aluminium oxide；

The aperture in aperture and 100-300nm of the catalyst with 4-40nm, wherein hole body of the aperture in 4-40nm Product accounts for the 60-95% of total pore volume, and the pore volume of 100-300nm accounts for the 0.5-30% of total pore volume.

In addition, catalyst of the invention does not contain expanding agent, for example, carbon black, graphite, stearic acid, odium stearate, stearic acid Aluminium etc., also without containing ingredients such as surfactants.

Preferably, aperture accounts for the 75-90% of total pore volume, hole body of the aperture in 100-300nm in the pore volume of 4-40nm Product accounts for the 5-15% of total pore volume.

According to the present invention, the catalyst also has the aperture of 2-4nm, and the pore volume of 2-4nm is no more than total pore volume 3%, preferably 0.5-2%.

Preferably, the specific surface area of the Hydrobon catalyst is 60-200m²/ g, preferably 80-180 m²/ g, total hole Volume is 0.2-0.6mL/g, preferably 0.25-0.45mL/g, average pore size 10-30nm, preferably 12-20nm.Wherein, than The measurement of surface area, pore volume and average pore size refers to what catalyst was measured after 400 DEG C roast 3h.

According to the present invention, the pore size distribution of the specific surface area of catalyst and 2-4nm therein and 4-40nm, aperture, hole Volume is measured using low temperature nitrogen absorption method (meeting GB/T5816-1995 standard), the pore size distribution of 100-300nm, aperture, hole Volume is measured using mercury injection method.Pore volume of the aperture less than 100nm uses low temperature nitrogen determination of adsorption method, aperture in catalyst Pore volume greater than 100nm is measured using mercury injection method, and the total pore volume of catalyst is sum of the two.Average pore size is according to cylinder Pore model is calculated.

According to the present invention, in the case where no explanation on the contrary, the aperture of the 2-4nm refers to that aperture is more than or equal to 2nm, Less than 4nm, the aperture of the 4-40nm refers to that aperture is greater than 4nm, is less than 40nm, the aperture of the 100-300nm refers to aperture More than or equal to 100nm, it is less than 300nm.Average pore size is 10-30nm, and preferably 12-20nm refers to the porose hole of institute of catalyst The average value of diameter is more than or equal to 10nm, preferably greater than or equal to 12nm, is less than or equal to 30nm, is preferably smaller than equal to 20nm.

According to the present invention, the Investigation On Hydrodesulfurizationof of Catalysts Derived component can be the existing Hydrobon catalyst that can be used for The component of active component, for example, the active component can be group VIII metallic element and vib metals element.Wherein, The content of the active component can also be changed in a wider scope, it is preferred that in the Hydrobon catalyst, On the basis of the dry weight of catalyst and in terms of oxide, the content of group VIII metallic element is 2-20 weight %, preferably For 4-15 weight %；The content of vib metals element is 20-75 weight %, preferably 30-50 weight %.

, according to the invention it is preferred to, on the basis of the dry weight of catalyst, the inorganic refractory constituent content is 5-75 Weight %, more preferably 25-60 weight %.

Herein it should be noted that inorganic refractory powder dry weight is by measuring sample in 600 DEG C of roasting 4h Weight, the dry weight of catalyst is by measuring sample in 400 DEG C of roasting 3h.The dry weight hereinafter occurred is same Sample is suitable for this definition.That is, inorganic refractory powder dry weight described herein is equal in the case where no explanation on the contrary Refer to that the weight by measuring sample and roasting 4h at 600 DEG C, the dry weight of catalyst are by roasting sample at 400 DEG C 3h and measure.Those skilled in the art are able to know that, in the case where being calculated on the basis of dry weight, catalyst In the pure and mild organic acid that contains can decompose vapor away at high temperature, therefore, the content of pure and mild organic acid is not carried out with dry weight It calculates.

A kind of preferred embodiment according to the present invention, the group VIII metallic element be selected from iron, cobalt, nickel, ruthenium, rhodium and At least one of palladium, the vib metals element are selected from least one of chromium, molybdenum and tungsten.

The present inventor has found under study for action, and alcohol is introduced in Hydrobon catalyst, and preferably Organic Alcohol mixes Object can be effectively protected the active component in catalyst, and introducing carboxylic acid compound, which can be improved, in Hydrobon catalyst urges The activity of agent, in the case that the two coexists, additionally it is possible to play the effect of collaboration.Therefore, as long as introducing in the catalyst Alcohol and carboxylic acid can play guard catalyst active component and improve the effect of catalyst activity, and simultaneously for its additional amount There is no particular limitation.The content of a kind of preferred embodiment according to the present invention, the alcohol and group VIII metallic element is rubbed You are than being 0.2-8:1, preferably 1-4:1；On the basis of the dry weight of the inorganic refractory component, the content of the carboxylic acid For 0.2-10 weight %, preferably 2-6 weight %.

Under preferable case, the alcohol be selected from C1-18 monohydric alcohol, preferably the monohydric alcohol of C1-10 (for example, C1, C2, C3, The monohydric alcohol of C4, C5, C6, C7, C8, C9, C10) (such as, but not limited to methanol, ethyl alcohol, propyl alcohol, isopropanol, butanol, isobutanol, Amylalcohol, enanthol), ethylene glycol, polyethylene glycol, glycerine, polyglycerol, erythrol, pentaerythrite, xylitol, sorbierite and three At least one of hydroxymethyl ethane.

Under preferable case, the carboxylic acid be selected from C1-18 unitary saturated carboxylic acid (for example, C1, C2, C3, C4, C5, C6, The unitary saturated carboxylic acid of C7, C8, C9, C10, C11, C12, C13, C14, C15, C16, C17, C18) (such as, but not limited to first Acid, acetic acid, propionic acid, octanoic acid, valeric acid, caproic acid, capric acid, valeric acid, caproic acid, capric acid, stearic acid), the phenylic acid of C7-10 (for example, The phenylic acid of C7, C8, C9, C10) (such as, but not limited to benzoic acid, phenylacetic acid, phthalic acid, terephthalic acid (TPA)), lemon At least one of acid, adipic acid, malonic acid, succinic acid, maleic acid and tartaric acid etc..

A kind of preferred embodiment according to the present invention, in order to further increase the performance of catalyst, the hydrofinishing Also contain P elements in catalyst, the P elements are preferably with P₂O₅Form exist.Preferably, with the dry weight of catalyst On the basis of and with P₂O₅Meter, the content of the P elements are 0.8-10 weight %, more preferable 2-8 weight %.

, according to the invention it is preferred to, the catalyst is preformed catalyst, and the catalyst is preferably shaped to cylinder Shape, cloverleaf pattern, bunge bedstraw herb shape or honeycombed.

According to the second aspect of the invention, a kind of preparation method of Hydrobon catalyst is provided, this method comprises:

(1) alumina precursor is roasted, obtains inorganic refractory component；

(2) presoma of alcohol, carboxylic acid and Investigation On Hydrodesulfurizationof of Catalysts Derived component is mixed, obtains maceration extract；

(3) the inorganic refractory component and the maceration extract are mixed, obtained mixture is formed and dried, institute is obtained State Hydrobon catalyst.

According to the present invention, the selection of the alcohol, carboxylic acid and Investigation On Hydrodesulfurizationof of Catalysts Derived component hereinbefore carries out Detailed record, it is no longer repeated herein.

According to the present invention, the alcohol and carboxylic-acid substance are introduced in the maceration extract can be effectively protected hydrodesulfurization Catalytic active component, while the molding of catalyst can also be promoted, to effectively improve the performance of catalyst.

According to the present invention, the presoma of the aluminium oxide various can provide the object of alumina support to be existing Matter, an example of the alumina precursor are boehmite.The present invention did not had the selection of the boehmite More limitations, in order to further increase the performance of the catalyst finally prepared, the average pore size of the boehmite is 5- 20nm, preferably 8-15nm, the pore volume that aperture is 2-4nm account for the ratio of total pore volume no more than 15%, preferably 5-12%, aperture The ratio of total pore volume is accounted for not less than 75% for the pore volume of 4-40nm, preferably 80-95%.

Wherein, the aperture of 2-4nm and 4-40nm, pore volume use low temperature nitrogen determination of adsorption method, meet GB/T5816- 1995 standards.Wherein, the aperture of the 2-4nm refers to that aperture is more than or equal to 2nm, is less than 4nm, the aperture of 4-40nm refers to aperture More than or equal to 6nm, it is less than 40nm.Average pore size is 5-20nm, preferably 8-15nm refer to catalyst porose aperture it is flat Mean value is more than or equal to 5nm, preferably greater than or equal to 8nm, is less than or equal to 20nm, is preferably smaller than equal to 15nm.

According to the present invention, in the presoma of the Investigation On Hydrodesulfurizationof of Catalysts Derived component, the presoma packet of the ferro element Include but be not limited to one of ferric nitrate, iron oxide, basic carbonate iron, ferric acetate or a variety of, the presoma packet of the cobalt element Include but be not limited to one of cobalt nitrate, basic cobaltous carbonate, cobalt acetate and cobalt oxide or a variety of, the presoma of nickel element include but It is not limited to one of nickel nitrate, basic nickel carbonate, nickel acetate and nickel oxide or a variety of, the presoma of ruthenium element includes but unlimited In one of nitric acid ruthenium, ruthenium acetate, ruthenium-oxide, hydroxide ruthenium or a variety of, the presoma of rhodium element includes but is not limited to nitric acid One of rhodium, rhodium hydroxide, rhodium oxide are a variety of, and the presoma of palladium element includes but is not limited to palladium nitrate, palladium oxide, hydrogen-oxygen Change one of palladium or a variety of, the presoma of chromium include but is not limited to chromic nitrate, chromium oxide, chromium hydroxide, in chromic acetate It is one or more, the presoma of molybdenum element includes but is not limited to ammonium heptamolybdate, ammonium molybdate, ammonium phosphomolybdate, one in molybdenum oxide Kind is a variety of, and the presoma of wolfram element includes but is not limited to one of ammonium metatungstate, ethyl ammonium metatungstate, tungsten oxide or more Kind.

According to the present invention, in preparation method as above, the dosage of alumina precursor in step (1), alcohol in step (2) The dosage of dosage, the dosage of carboxylic acid and Investigation On Hydrodesulfurizationof of Catalysts Derived component makes in the Hydrobon catalyst being prepared, Aluminium oxide, alcohol, carboxylic acid and Investigation On Hydrodesulfurizationof of Catalysts Derived component contain respectively according to the content recorded in first aspect as above, this It is no longer repeated at place.

According to the present invention, the presoma of Investigation On Hydrodesulfurizationof of Catalysts Derived component in the maceration extract in order to further increase preparation Dissolubility improves the performance of the catalyst finally prepared, phosphorus containg substances is further preferably added in the process for preparation of the maceration extract, The phosphorus containg substances are preferably phosphorous inorganic acid, further preferably in phosphoric acid, hypophosphorous acid, ammonium phosphate and ammonium dihydrogen phosphate It is at least one.It is further preferred that the dosage of the phosphorus containg substances makes in the catalyst finally prepared, using dry weight as base It is quasi- and with P₂O₅Meter, the content of the P elements are 0.8-10 weight %, preferably 1-8 weight %, more preferable 2-8 weight %.

A preferred embodiment of the invention, during preparing maceration extract first by the alcoholic compound with point Element containing vib metals and the predecessor containing group VIII metal are not added in the aqueous solution of phosphorus containg substances, at 40-100 DEG C 1-8h is stirred, until whole dissolutions.Organic Alcohol and phosphorus containg substances and the addition sequence of metal precursor can also be exchanged mutually. It is eventually adding organic acid, until organic acid all dissolves.In addition, the addition sequence of the organic acid can also be exchanged mutually.

According to the present invention, in step (1), the condition of the roasting can be selected in a wider scope, it is preferred that The temperature of the roasting is 400-1000 DEG C, preferably 500-800 DEG C；The time of roasting is 1-15h, preferably 3-8h.

It was found by the inventors of the present invention that being passed through vapor during by roasting before shaping, can effectively mention The aperture of carrier mass in the high inorganic refractory component, to can further improve the aperture of catalyst.Therefore, the present invention one Kind preferred embodiment, the roasting carry out under the atmosphere of vapor.Wherein, the vapor is preferably to contain vapor The form of air be passed through, the content of the water vapor in air containing vapor is preferably 5-20 weight %, more preferably 8-15 weight %.

According to the present invention, in step (3), the condition of the drying can be selected in a wider scope, it is preferred that Dry temperature is 50-250 DEG C, preferably 100-200 DEG C；The dry time is 2-10h, preferably 3-8h.

According to the present invention, the molding mode can be existing various forming methods, such as can be extruded moulding, It is also possible to roller forming.The mode of the extruded moulding is referred to prior art progress, will be to the inorganic resistance to of extruded moulding The dipping solution of fiery component and metallic components is extruded into required shape after mixing, such as cylinder, cloverleaf pattern, bunge bedstraw herb Shape, honeycombed etc..

In the prior art, the step of preparing Hydrobon catalyst generally comprises: (1) by alumina precursor (for example, quasi- Boehmite) or squeeze after being mixed with the presoma containing other powders, element and mix with peptizing agent and auxiliary agent, (2) pass through extrusion Mode prepares molding, and alumina support is prepared in alumina precursor after molding roasting by (3)；(4) group containing metal is prepared The dipping solution divided；(5) alumina support after being burnt dipping solution homogeneous impregnation is prepared into catalyst precursor；(6) will Catalyst precursor is dry or Hydrobon catalyst is prepared in roasting.It can thus be seen that the preparation flow is longer, manufacture Higher cost.And it is as described above, process provided by the invention is shorter, can biggish saving preparation cost and preparation time. On the other hand, the preparation of catalyst is added without peptizing agent nitric acid and auxiliary agent squeezes sesbania powder, reduces material cost and environmentally friendly cost, Realize the green manufacturing of catalyst.

In addition, catalyst cellular structure provided by the invention is concentrated mainly between 4-40nm and 100-300nm.Bad In matter distillate, the size of reactant molecule is larger, certainly will need biggish reaction compartment, and 100- in catalyst of the invention The duct of 300nm can be the biggish place that provide of diffusion of reactant, promote the accessible of reactant and activated centre Property, to improve the performance of catalyst.

In the prior art, as described above, usual alumina support be by by alumina precursor (for example, intending thin water Aluminium stone) with peptizing agent and extrusion aid by extruded moulding, then drying and roasting obtain.Since hydrogenation reaction needs are urged Agent has biggish cellular structure, and before roasting, general duct concentrates on 5-12nm, and therefore, general pass through will be after molding Carrier carries out calcination process to improve the pore size of carrier to improve the pore size of catalyst, the hole of the carrier after roasting Road is generally concentrated at 6-20nm, and the average pore size of carrier increases.And it is generally acknowledged that maturing temperature is higher, pore size is bigger. However it was found by the inventors of the present invention that with maturing temperature increase, the hole wall of carrier can occur collapse condensation.Although hole wall contracts Conjunction can be such that the average pore size of carrier increases, but the hole wall being condensed can reduce the utilization rate of aluminium oxide, to reduce catalyst Catalytic activity.The present invention is by roasting boehmite powder before extrusion molding, and on the one hand heat treatment can be reduced Hydroxyl quantity in alumina precursor particle reduces the probability of duct condensation, increases the aperture of catalyst.Second aspect, molding Catalyst afterwards does not need to be handled with higher temperature, and aluminium oxide hole wall does not need to carry out excessive condensation, improves oxygen Change the utilization rate of aluminium.The third aspect is before the forming heat-treated alumina precursor (boehmite powder), and part is secondary Particle can be also condensed, this size that will lead to the aluminium oxide particles to be formed tends to be single, duct in catalyst after molding Will be more uniform, be conducive to the diffusion of reactant.Especially for heavier and more inferior oil product, more than conventional catalyst Effectively.

Third aspect present invention provides the Hydrobon catalyst of method preparation as described above.

Fourth aspect present invention provides application of the Hydrobon catalyst as described above in fraction oil hydrogenation refining.

According to the present invention, Hydrobon catalyst provided by the invention and the hydrofinishing catalysis prepared by method as above Agent is 5000-30000ppm especially suitable for sulfur content, and nitrogen content 50-3000ppm, arene content is 20-80 weight %'s Distillate.It is 9100ppm to sulfur content, nitrogen content 532ppm, arene content are 55 weight % as documented by embodiment Distillate carry out hydrotreating, sulfur content can reduce to 14ppm hereinafter, nitrogen content is reduced to 5ppm hereinafter, desulfurization degree reaches 99.8% or more, denitrification percent is reduced to 40 weight % hereinafter, Porous deproteinized bone rate is up to 27.3% up to 99.0% or more, arene content More than.

Fifth aspect present invention provides a kind of hydrofinishing process of distillate, this method comprises: will add as described above Hydrogen catalyst for refining is vulcanized, and is then passed to hydrogen sweetened distillate oil to be added, is made hydrogen sweetened distillate oil to be added in hydrodesulfurization item It is contacted under part with the vulcanization back end hydrogenation catalyst for refining.

According to the present invention, the conditions of vulcanization of the Hydrobon catalyst can urge to be existing for vulcanizing hydrofinishing The condition of agent, for example, sulfide stress is 0.1-15MPa, volume space velocity 0.5-20h^-1, hydrogen to oil volume ratio 100-2000: 1.Vulcanization is not particularly limited, and can vulcanize for dry pre-sulfiding or wet process.

According to the present invention, the condition of the hydrodesulfurization can carry out adding hydrogen de- using Hydrobon catalyst to be existing The condition of sulphur, for example, pressure is 0.1-8MPa, temperature is 260-410 DEG C, volume space velocity 0.5-10h^-1, hydrogen to oil volume ratio is 200-1000:1.

The present invention will be described in detail by way of examples below.

In following embodiment and comparative example, the hydrodesulfurization performance of catalyst is surveyed on 20mL high pressure reaction assembly It is fixed, temperature programming vulcanization, which is directlyed adopt, by oxidized catalyst is converted into sulphided state catalyst.Conditions of vulcanization are as follows: sulfide stress For 6.4MPa, sulfurized oil is containing CS₂The kerosene of 2% weight, volume space velocity 2h^-1, hydrogen-oil ratio 300v/v, first 230 DEG C/h constant temperature 6h, it is then warming up to 360 DEG C of vulcanization 8h again, the heating rate in each stage is 10 DEG C/h.Switch reaction after vulcanization Raw material carry out hydrodesulfurization activity test, reaction raw materials be sulfur content be 9100ppm, nitrogen content 532ppm, arene content are The high aromatic fraction oil of the high nitrogen of 55wt%.Test condition are as follows: pressure 6.4MPa, volume space velocity 1.5h^-1, hydrogen-oil ratio is 300v/v, reaction temperature are 350 DEG C.7 days post analysis product sulfur levels of stable reaction.

The composition of catalyst is calculated according to inventory.The specific surface area of catalyst and 2-4nm therein and 4- The pore size distribution of 40nm, aperture, pore volume use low temperature nitrogen determination of adsorption method (meeting GB/T5816-1995 standard), 100- The pore size distribution of 300nm, aperture, pore volume are measured using mercury injection method.The specific surface area of boehmite and 2-4nm therein and The pore size distribution of 4-40nm, aperture, pore volume use low temperature nitrogen determination of adsorption method (meeting GB/T5816-1995 standard).Catalysis The average pore size of agent and boehmite is calculated according to cylindrical hole model.Using sulphur blood urea/nitrogen analyzer, (the silent winged generation that of match goes out Product, model TN/TS3000) sulphur and nitrogen in analysis product mass fraction, the content of aromatic hydrocarbons is using near infrared spectroscopy point Analysis.

Embodiment 1

The present embodiment is for illustrating Hydrobon catalyst provided by the invention and preparation method thereof

(1) by boehmite, (Chang Ling catalyst plant produces boehmite powder, specific surface area 320m²/ g, it is average Aperture is 13nm, and the ratio that the pore volume that aperture is 2-4nm accounts for total pore volume is 10%, and aperture is that the pore volume of 4-40nm accounts for The ratio of total pore volume is that 8h 78%) is roasted at 500 DEG C, obtains inorganic refractory component.

(2) by a certain amount of MoO₃, basic cobaltous carbonate, propyl alcohol be separately added into the aqueous solution of phosphoric acid, in heating stirring Down toward being completely dissolved, a certain amount of citric acid is then added, until being completely dissolved, obtains the dipping solution containing active metal.

Wherein, the molar ratio of propyl alcohol and cobalt atom is 3:1, and citric acid quality is 3 weight % of inorganic refractory component.

(3) dipping solution is uniformly mixed with the inorganic refractory component, then by its extruded moulding.By at 200 DEG C The oxidized catalyst that partial size is 1.6mm is prepared in lower dry 5h.

Wherein, dipping solution and the mixed proportion of the inorganic refractory component are made, is with the dry weight of catalyst Benchmark and in terms of oxide, the content of molybdenum oxide is 50.0 weight % in catalyst, and the content of cobalt oxide is 15 weight %, P₂O₅ Content is 8 weight %, and the content of inorganic refractory component is 27 weight %.

Catalyst analyzes its pore-size distribution after 400 DEG C of roasting 3h, using low temperature nitrogen absorption and mercury injection method.Catalyst Specific surface area is 107m²/ g, the aperture with 2-4nm, 4-40nm and 100-300nm, wherein the total hole pore volume Zhan of 2-4nm The pore volume that the ratio of volume is 1.6%, 4-40nm accounts for the pore volume that the ratio of total pore volume is 85.5%, 100-300nm and accounts for The ratio of total pore volume is 11.2%, total pore volume 0.40mL/g, average pore size 15.0nm.

For catalyst after over cure and reaction test, obtaining sulfur content in product is 9.4ppm, nitrogen content 1.9ppm, virtue Hydrocarbon is 34.0%.

Embodiment 2

The present embodiment is for illustrating Hydrobon catalyst provided by the invention and preparation method thereof

(1) by boehmite, (Chang Ling catalyst plant produces boehmite powder, specific surface area 320m²/ g, average hole Diameter is 13nm, and the ratio that the pore volume that aperture is 2-4nm accounts for total pore volume is 10%, and aperture is that the pore volume Zhan of 4-40nm is total The ratio of pore volume is that 5h 78%) is roasted at 600 DEG C, obtains inorganic refractory component.

(2) by a certain amount of MoO₃, basic nickel carbonate, ethylene glycol be separately added into the aqueous solution of phosphoric acid, stirred in heating It mixes down toward being completely dissolved, a certain amount of acetic acid is then added, until being completely dissolved, obtain the dipping solution containing active metal.

Wherein, the molar ratio of ethylene glycol and nickle atom is 2:1, and quality of acetic acid is 6 weight % of inorganic refractory component.

(3) dipping solution is uniformly mixed with the inorganic refractory component, then by its extruded moulding.By at 150 DEG C The oxidized catalyst that partial size is 1.6mm is prepared in lower dry 8h.

Wherein, dipping solution and the mixed proportion of the inorganic refractory component are made, is with the dry weight of catalyst Benchmark and in terms of oxide, the content of molybdenum oxide is 45.0 weight % in catalyst, and the content of nickel oxide is 10 weight %, P₂O₅ Content is 4 weight %, and the content of inorganic refractory component is 41 weight %.

Catalyst analyzes its pore-size distribution after 400 DEG C of roasting 3h, using low temperature nitrogen absorption and mercury injection method.Catalyst Specific surface area is 106m²/ g, the aperture with 2-4nm, 4-40nm and 100-300nm, wherein the total hole pore volume Zhan of 2-4nm The pore volume that the ratio of volume is 1.2%, 4-40nm accounts for the pore volume that the ratio of total pore volume is 80.9%, 100-300nm and accounts for The ratio of total pore volume is 15.4%, total pore volume 0.38mL/g, average pore size 14.3nm.

For catalyst after over cure and reaction test, obtaining sulfur content in product is 7.1ppm, nitrogen content 1.1ppm, virtue Hydrocarbon is 29.8%.

Embodiment 3

The present embodiment is for illustrating Hydrobon catalyst provided by the invention and preparation method thereof

(1) by boehmite, (Chang Ling catalyst plant produces boehmite powder, specific surface area 320m²/ g, it is average Aperture is 13nm, and the ratio that the pore volume that aperture is 2-4nm accounts for total pore volume is 10%, and aperture is that the pore volume Zhan of 4-40nm is total The ratio of pore volume is that 3h 78%) is roasted at 800 DEG C, obtains inorganic refractory component.

(2) by a certain amount of MoO₃, basic nickel carbonate, ammonium metatungstate, butanol be separately added into the aqueous solution of phosphoric acid, Then a certain amount of tartaric acid is added down toward being completely dissolved in heating stirring, until being completely dissolved, it is molten to obtain the dipping containing active metal Liquid.

Wherein, the molar ratio of butanol and nickle atom is 4:1, and tartaric acid quality is 3.0 weight % of inorganic refractory component.

(3) dipping solution is uniformly mixed with the inorganic refractory component, then by its extruded moulding.By at 100 DEG C The oxidized catalyst that partial size is 1.6mm is prepared in lower dry 8h.

Wherein, dipping solution and the mixed proportion of the inorganic refractory component are made, is with the dry weight of catalyst Benchmark and in terms of oxide, the content of molybdenum oxide is 20.0 weight % in catalyst, and the content of nickel oxide is 4.0 weight %, oxygen The content for changing tungsten is 15.0 weight %, P₂O₅Content is 6 weight %, and the content of inorganic refractory component is 55 weight %.

Catalyst analyzes its pore-size distribution after 400 DEG C of roasting 3h, using low temperature nitrogen absorption and mercury injection method.Catalyst Specific surface area is 94m²/ g, the aperture with 2-4nm, 4-40nm and 100-300nm, wherein the total hole body of pore volume Zhan of 2-4nm It is total that the pore volume that long-pending ratio is 1.4%, 4-40nm accounts for the pore volume Zhan that the ratio of total pore volume is 81.5%, 100-300nm The ratio of pore volume is 14.4%, total pore volume 0.35mL/g, average pore size 14.9nm.

For catalyst after over cure and reaction test, obtaining sulfur content in product is 7.4ppm, nitrogen content 1.3ppm, virtue Hydrocarbon is 32.4%.

Embodiment 4

The present embodiment is for illustrating Hydrobon catalyst provided by the invention and preparation method thereof

(1) by boehmite, (Chang Ling catalyst plant produces boehmite powder, specific surface area 320m²/ g, it is average Aperture is 13nm, and the ratio that the pore volume that aperture is 2-4nm accounts for total pore volume is 10%, and aperture is that the pore volume Zhan of 4-40nm is total The ratio of pore volume is that 2h 78%) is roasted at 600 DEG C, obtains inorganic refractory component.

(2) by a certain amount of MoO₃, basic nickel carbonate, isopropanol be separately added into the aqueous solution of phosphoric acid, stirred in heating It mixes down toward being completely dissolved, a certain amount of benzoic acid is then added, until being completely dissolved, obtain the dipping solution containing active metal.

Wherein, the molar ratio of isopropanol and nickle atom is 6:1, and benzoic acid Mass is 8.0 weights of inorganic refractory component Measure %.

(3) dipping solution is uniformly mixed with the inorganic refractory component, then by its extruded moulding.By at 250 DEG C The oxidized catalyst that partial size is 1.6mm is prepared in lower dry 2h.

Wherein, dipping solution and the mixed proportion of the inorganic refractory component are made, is with the dry weight of catalyst Benchmark and in terms of oxide, the content of molybdenum oxide is 35.0 weight % in catalyst, and the content of nickel oxide is 3.0 weight %, P₂O₅ Content is 4.0 weight %, and the content of inorganic refractory component is 58.0 weight %.

Catalyst analyzes its pore-size distribution after 400 DEG C of roasting 3h, using low temperature nitrogen absorption and mercury injection method.Catalyst Specific surface area is 113m²/ g, the aperture with 2-4nm, 4-40nm and 100-300nm, wherein the total hole pore volume Zhan of 2-4nm The pore volume that the ratio of volume is 2.1%, 4-40nm accounts for the pore volume that the ratio of total pore volume is 88.4%, 100-300nm and accounts for The ratio of total pore volume is 9.0%, total pore volume 0.32mL/g, average pore size 11.3nm.

For catalyst after over cure and reaction test, obtaining in product sulfur content is 13.3ppm, nitrogen content 4.2ppm, Aromatic hydrocarbons is 37.2%.

Embodiment 5

The present embodiment is for illustrating Hydrobon catalyst provided by the invention and preparation method thereof

(1) by boehmite, (Chang Ling catalyst plant produces boehmite powder, specific surface area 330m²/ g, it is average Aperture is 12nm, and the ratio that the pore volume that aperture is 2-4nm accounts for total pore volume is 14%, and aperture is that the pore volume Zhan of 4-40nm is total The ratio of pore volume is that 3h 82%) is roasted at 600 DEG C, obtains inorganic refractory component.

(2) by a certain amount of MoO₃, basic cobaltous carbonate, glycerine be separately added into the aqueous solution of phosphoric acid, stirred in heating It mixes down toward being completely dissolved, a certain amount of caproic acid is then added, until being completely dissolved, obtain the dipping solution containing active metal.

Wherein, the molar ratio of glycerine and nickle atom is 3:1, and caproic acid quality is 6 weight % of inorganic refractory component.

(3) dipping solution is uniformly mixed with the inorganic refractory component, then by its extruded moulding.By at 200 DEG C The oxidized catalyst that partial size is 1.6mm is prepared in lower dry 5h.

Wherein, dipping solution and the mixed proportion of the inorganic refractory component are made, is with the dry weight of catalyst Benchmark and in terms of oxide, the content of molybdenum oxide is 40.0 weight % in catalyst, and the content of cobalt oxide is 8.0 weight %, P₂O₅ Content is 5.0 weight %, and the content of inorganic refractory component is 47.0 weight %.

Catalyst analyzes its pore-size distribution after 400 DEG C of roasting 3h, using low temperature nitrogen absorption and mercury injection method.Catalyst Specific surface area is 126m²/ g, the aperture with 2-4nm, 4-40nm and 100-300nm, wherein the total hole pore volume Zhan of 2-4nm The pore volume that the ratio of volume is 2.3%, 4-40nm accounts for the pore volume that the ratio of total pore volume is 85.3%, 100-300nm and accounts for The ratio of total pore volume is 9.5%, total pore volume 0.32mL/g, average pore size 10.2nm.

For catalyst after over cure and reaction test, obtaining in product sulfur content is 13.1ppm, nitrogen content 3.9ppm, Aromatic hydrocarbons is 36.8%.

Embodiment 6

The present embodiment is for illustrating Hydrobon catalyst provided by the invention and preparation method thereof

The preparation of Hydrobon catalyst and vulcanization and the reaction test of catalyst are carried out according to the method for embodiment 1, Unlike, the air containing 10 weight % vapor is passed through during step (1) roasts.

Catalyst analyzes its pore-size distribution after 400 DEG C of roasting 3h, using low temperature nitrogen absorption and mercury injection method.Catalyst Specific surface area is 102m²/ g, the aperture with 2-4nm, 4-40nm and 100-300nm, wherein the total hole pore volume Zhan of 2-4nm The pore volume that the ratio of volume is 1.7%, 4-40nm accounts for the pore volume that the ratio of total pore volume is 82.4%, 100-300nm and accounts for The ratio of total pore volume is 12.8%, total pore volume 0.41mL/g, average pore size 16.1nm.

For catalyst after over cure and reaction test, obtaining sulfur content in product is 8.3ppm, nitrogen content 1.5ppm, virtue Hydrocarbon is 33.3%.

Embodiment 7

The present embodiment is for illustrating Hydrobon catalyst provided by the invention and preparation method thereof

The preparation of Hydrobon catalyst and vulcanization and the reaction test of catalyst are carried out according to the method for embodiment 1, Unlike, the water with 6 same volume of embodiment is added during step (1) mixes each component, is then roasted.

Catalyst analyzes its pore-size distribution after 400 DEG C of roasting 3h, using low temperature nitrogen absorption and mercury injection method.Catalyst Specific surface area is 116m²/ g, the aperture with 2-4nm, 4-40nm and 100-300nm, wherein the total hole pore volume Zhan of 2-4nm The pore volume that the ratio of volume is 2.1%, 4-40nm accounts for the pore volume that the ratio of total pore volume is 86.5%, 100-300nm and accounts for The ratio of total pore volume is 10.8%, total pore volume 0.36mL/g, average pore size 12.4nm.

For catalyst after over cure and reaction test, obtaining in product sulfur content is 11.6ppm, nitrogen content 2.1ppm, Aromatic hydrocarbons is 35.5%.

Embodiment 8

The present embodiment is for illustrating Hydrobon catalyst provided by the invention and preparation method thereof

The preparation of Hydrobon catalyst and vulcanization and the reaction test of catalyst are carried out according to the method for embodiment 1, Unlike, in step (2), phosphoric acid is not used, by MoO₃Ammonium heptamolybdate and cobalt nitrate are replaced with basic cobaltous carbonate.

Catalyst analyzes its pore-size distribution after 400 DEG C of roasting 3h, using low temperature nitrogen absorption and mercury injection method.Catalyst Specific surface area is 123m²/ g, the aperture with 2-4nm, 4-40nm and 100-300nm, wherein the total hole pore volume Zhan of 2-4nm The pore volume that the ratio of volume is 2.5%, 4-40nm accounts for the pore volume that the ratio of total pore volume is 87.7%, 100-300nm and accounts for The ratio of total pore volume is 7.4%, total pore volume 0.31mL/g, average pore size 10.1nm.

For catalyst after over cure and reaction test, obtaining in product sulfur content is 13.6ppm, nitrogen content 4.5ppm, Aromatic hydrocarbons is 39.7%.

Comparative example 1

This comparative example is for illustrating existing Hydrobon catalyst and preparation method thereof

By boehmite, (Chang Ling catalyst plant produces boehmite powder, specific surface area 320m²/ g, average pore size For 13nm, the ratio that the pore volume that aperture is 2-4nm accounts for total pore volume is 10%, and aperture is the total hole body of pore volume Zhan of 4-40nm Long-pending ratio be 78%), sesbania powder according to a certain percentage after mixing, it is water-soluble that the nitric acid that 130mL concentration is 1.5wt% is added Liquid, and it is again stirring for uniform extruded moulding.6h is roasted at 500 DEG C, obtains alumina support.It is obtained being prepared in embodiment 1 Dipping solution according to hole be saturated impregnation carrier, it is identical with the dosage of metal component using aluminium oxide, be prepared and urge Agent, catalyst are dried at identical conditions.Catalyst is characterized using BET and mercury injection method, finds to be free of in catalyst The duct of 100-300nm.Catalyst is after over cure and reaction test, and obtaining sulfur content in product is 54.5ppm, and nitrogen content is 11.4ppm, aromatic hydrocarbons 48.2%.

Comparative example 2

This comparative example is for illustrating existing Hydrobon catalyst and preparation method thereof

By boehmite, (Chang Ling catalyst plant produces boehmite powder, specific surface area 320m²/ g, average pore size For 13nm, the ratio that the pore volume that aperture is 2-4nm accounts for total pore volume is 10%, and aperture is the total hole body of pore volume Zhan of 4-40nm Long-pending ratio be 78%), sesbania powder according to a certain percentage after mixing, it is water-soluble that the nitric acid that 110mL concentration is 1.5wt% is added Liquid, and it is again stirring for uniform extruded moulding.3h is roasted at 600 DEG C, obtains alumina support.It is obtained being prepared in embodiment 3 Dipping solution according to hole be saturated impregnation carrier, it is identical with the dosage of metal component using aluminium oxide, be prepared and urge Agent, catalyst are dried at identical conditions.Catalyst is characterized using BET and mercury injection method, finds to be free of in catalyst The duct of 100-300nm.Catalyst is after over cure and reaction test, and obtaining sulfur content in product is 52.3ppm, and nitrogen content is 14.5ppm, aromatic hydrocarbons 46.5%.

Comparative example 3

This comparative example is for illustrating Hydrobon catalyst of reference and preparation method thereof

The preparation of Hydrobon catalyst and vulcanization and the reaction test of catalyst are carried out according to the method for embodiment 1, Unlike, in step (2), do not use citric acid.

Catalyst analyzes its pore-size distribution after 400 DEG C of roasting 3h, using low temperature nitrogen absorption and mercury injection method.Catalyst Specific surface area is 113m²/ g, the aperture with 2-4nm, 4-40nm and 100-300nm, wherein the total hole pore volume Zhan of 2-4nm The pore volume that the ratio of volume is 1.9%, 4-40nm accounts for the pore volume that the ratio of total pore volume is 87.1%, 100-300nm and accounts for The ratio of total pore volume is 10.3%, total pore volume 0.31mL/g, average pore size 11.0nm.

For catalyst after over cure and reaction test, obtaining in product sulfur content is 12.4ppm, nitrogen content 3.5ppm, Aromatic hydrocarbons is 36.4%.

Comparative example 4

This comparative example is for illustrating Hydrobon catalyst of reference and preparation method thereof

The preparation of Hydrobon catalyst and vulcanization and the reaction test of catalyst are carried out according to the method for embodiment 1, Unlike, in step (2), do not use alcohol.

Catalyst analyzes its pore-size distribution after 400 DEG C of roasting 3h, using low temperature nitrogen absorption and mercury injection method.Catalyst Specific surface area is 109m²/ g, the aperture with 2-4nm, 4-40nm and 100-300nm, wherein the total hole pore volume Zhan of 2-4nm The pore volume that the ratio of volume is 2.0%, 4-40nm accounts for the pore volume that the ratio of total pore volume is 84.3%, 100-300nm and accounts for The ratio of total pore volume is 10.0%, total pore volume 0.36mL/g, average pore size 13.2nm.

For catalyst after over cure and reaction test, obtaining in product sulfur content is 15.8ppm, nitrogen content 7.4ppm, Aromatic hydrocarbons is 37.4%.

From embodiment and comparative example as can be seen that method provided by the invention can be prepared with the aperture 100-300 point The Hydrobon catalyst of cloth, and the catalyst provided has preferable performance, not only makes to be catalyzed compared with customary preparation methods The performance of agent gets a promotion, and shortens catalyst preparation process, reduces catalyst preparation cost, has good industrial application Prospect.

The preferred embodiment of the present invention has been described above in detail, and still, the present invention is not limited thereto.In skill of the invention In art conception range, can with various simple variants of the technical solution of the present invention are made, including each technical characteristic with it is any its Its suitable method is combined, and it should also be regarded as the disclosure of the present invention for these simple variants and combination, is belonged to Protection scope of the present invention.

Claims (19)

1. a kind of Hydrobon catalyst, which is characterized in that the catalyst contains inorganic refractory component, Investigation On Hydrodesulfurizationof of Catalysts Derived Component, alcohol and carboxylic acid；

Wherein, the inorganic refractory group is divided into aluminium oxide；

The aperture in aperture and 100-300nm of the catalyst with 4-40nm, wherein pore volume Zhan of the aperture in 4-40nm is total The pore volume of the 60-95% of pore volume, 100-300nm account for the 0.5-30% of total pore volume.

2. Hydrobon catalyst according to claim 1, wherein the Investigation On Hydrodesulfurizationof of Catalysts Derived group is divided into Section VIII Race's metallic element and vib metals element, the group VIII metallic element are preferably selected from iron, cobalt, nickel, ruthenium, rhodium and palladium At least one, the vib metals element is preferably selected from least one of chromium, molybdenum and tungsten；And in the hydrofinishing In catalyst, on the basis of the dry weight of catalyst and in terms of oxide, the content of group VIII metallic element is 2-20 weight Measure %, preferably 4-15 weight %；The content of vib metals element is 20-75 weight %, preferably 30-50 weight %.

3. Hydrobon catalyst according to claim 1 or 2, wherein pore volume Zhan total hole body of the aperture in 4-40nm Long-pending 75-90%, aperture account for the 5-15% of total pore volume in the pore volume of 100-300nm；

Preferably, the catalyst is preformed catalyst, and the catalyst is preferably shaped to cylinder, cloverleaf pattern, four leaves Careless shape or honeycombed；

Preferably, the specific surface area of the Hydrobon catalyst is 60-200m²/ g, total pore volume 0.2-0.6mL/g, it is average Aperture is 10-30nm；

Preferably, the catalyst also has the aperture of 2-4nm, and the pore volume of 2-4nm is no more than the 3% of total pore volume.

4. Hydrobon catalyst described in any one of -3 according to claim 1, wherein be with the dry weight of catalyst Benchmark, the inorganic refractory constituent content are 5-75 weight %, preferably 25-60 weight %.

5. the Hydrobon catalyst according to any one of claim 2-4, wherein the alcohol and group VIII metal The content molar ratio of element is 0.2-8:1, preferably 1-4:1；It is described on the basis of the dry weight of the inorganic refractory component The content of carboxylic acid is 0.2-10 weight %, preferably 2-6 weight %；

Preferably, the alcohol is selected from unitary saturated carboxylic acid, ethylene glycol, polyethylene glycol, glycerine, polyglycerol, the Ding Si of C1-18 At least one of alcohol, pentaerythrite, xylitol, sorbierite and trimethylolethane；

Preferably, the carboxylic acid is selected from the unitary saturated carboxylic acid of C1-18, the phenylic acid of C7-10, citric acid, adipic acid, the third two At least one of acid, succinic acid, maleic acid and tartaric acid etc..

6. Hydrobon catalyst according to claim 1, wherein the Hydrobon catalyst also contains P elements, On the basis of the dry weight of catalyst and with P₂O₅Meter, the content of the P elements are 0.8-10 weight %, preferably 1-8 weight Measure %.

7. a kind of preparation method of Hydrobon catalyst, which is characterized in that this method comprises:

(1) alumina precursor is roasted, obtains inorganic refractory component；

(2) presoma of alcohol, carboxylic acid and Investigation On Hydrodesulfurizationof of Catalysts Derived component is mixed, obtains maceration extract；

(3) the inorganic refractory component and the maceration extract are mixed, obtained mixture is formed and dried, obtain described add Hydrogen catalyst for refining.

8. according to the method described in claim 7, wherein, in step (2), the Investigation On Hydrodesulfurizationof of Catalysts Derived component presoma is The presoma of group VIII metallic element and the presoma of vib metals element, the group VIII metallic element preferably select From at least one of iron, cobalt, nickel, ruthenium, rhodium and palladium, the vib metals element is preferably selected from chromium, molybdenum and tungsten at least It is a kind of；And the dosage of the presoma of the presoma and vib metals element of group VIII metallic element makes in described plus hydrogen In catalyst for refining, on the basis of the dry weight of catalyst and in terms of oxide, the content of group VIII metallic element is 2- 20 weight %, preferably 4-15 weight %；The content of vib metals element is 20-75 weight %, preferably 30-50 weight Measure %.

9. method according to claim 7 or 8, wherein the dosage of the inorganic refractory component makes in described plus hydrogen essence In catalyst processed, on the basis of the dry weight of the Hydrobon catalyst, the content of the inorganic refractory component is 5-75 Weight %, preferably 25-60 weight %.

10. method according to claim 8 or claim 9, wherein in step (2), the alcohol and group VIII metallic element Dosage molar ratio is 0.2-8:1, preferably 1-4:1；On the basis of the dry weight of the inorganic refractory component, the carboxylic acid Dosage is 0.2-10 weight %, preferably 2-6 weight %；

Preferably, the alcohol is selected from unitary saturated carboxylic acid, ethylene glycol, polyethylene glycol, glycerine, polyglycerol, the Ding Si of C1-18 At least one of alcohol, pentaerythrite, xylitol, sorbierite and trimethylolethane；

Preferably, the carboxylic acid is selected from the unitary saturated carboxylic acid of C1-18, the phenylic acid of C7-10, citric acid, adipic acid, the third two At least one of acid, succinic acid, maleic acid and tartaric acid etc..

11. described according to the method described in claim 7, wherein, also contain phosphorus containg substances in the maceration extract that step (2) obtains The dosage of phosphorus containg substances makes on the basis of the dry weight of the Hydrobon catalyst and with P₂O₅Meter, the P elements Content is 0.8-10 weight %, preferably 1-8 weight %；

Preferably, the phosphorus containg substances are selected from least one of phosphoric acid, hypophosphorous acid, ammonium phosphate and ammonium dihydrogen phosphate.

12. according to the method described in claim 7, wherein, in step (1), the condition of the roasting includes: that the temperature of roasting is 400-1000 DEG C, preferably 500-800 DEG C；The time of roasting is 1-15h, preferably 3-8h.

13. according to the method described in claim 7, wherein, in step (3), the condition of the drying includes: that dry temperature is 50-250 DEG C, preferably 100-200 DEG C；The dry time is 2-10h, preferably 3-8h.

14. according to the method described in claim 7, wherein, the alumina precursor is boehmite；

Preferably, the average pore size of the boehmite is 5-20nm, and aperture is that the pore volume of 2-4nm accounts for the ratio of total pore volume Example is not more than 15%, and the pore volume that aperture is 4-40nm accounts for the ratio of total pore volume not less than 75%.

15. according to the method described in claim 7, wherein, in step (1), the roasting carries out under the atmosphere of vapor.

16. the Hydrobon catalyst of the preparation of method described in any one of claim 7-15.

17. application of the Hydrobon catalyst in fraction oil hydrogenation refining described in any one of claim 1-6 and 16.

18. application according to claim 17, wherein the sulfur content in the distillate is 5000-30000ppm, and nitrogen contains Amount is 50-3000ppm, and arene content is 20-80 weight %.

19. a kind of hydrofinishing process of distillate, which is characterized in that this method comprises: by any in claim 1-6 and 16 Hydrobon catalyst described in one is vulcanized, and hydrogen sweetened distillate oil to be added is then passed to, and makes hydrogen sweetened distillate oil to be added It is contacted under hydrodesulfurizationconditions conditions with the vulcanization back end hydrogenation catalyst for refining.