CN109294623A - A kind of grease type raw material prepares the method for hydrotreating of diesel oil distillate - Google Patents
A kind of grease type raw material prepares the method for hydrotreating of diesel oil distillate Download PDFInfo
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- CN109294623A CN109294623A CN201710609462.7A CN201710609462A CN109294623A CN 109294623 A CN109294623 A CN 109294623A CN 201710609462 A CN201710609462 A CN 201710609462A CN 109294623 A CN109294623 A CN 109294623A
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- C—CHEMISTRY; METALLURGY
- C10—PETROLEUM, GAS OR COKE INDUSTRIES; TECHNICAL GASES CONTAINING CARBON MONOXIDE; FUELS; LUBRICANTS; PEAT
- C10G—CRACKING HYDROCARBON OILS; PRODUCTION OF LIQUID HYDROCARBON MIXTURES, e.g. BY DESTRUCTIVE HYDROGENATION, OLIGOMERISATION, POLYMERISATION; RECOVERY OF HYDROCARBON OILS FROM OIL-SHALE, OIL-SAND, OR GASES; REFINING MIXTURES MAINLY CONSISTING OF HYDROCARBONS; REFORMING OF NAPHTHA; MINERAL WAXES
- C10G67/00—Treatment of hydrocarbon oils by at least one hydrotreatment process and at least one process for refining in the absence of hydrogen only
- C10G67/02—Treatment of hydrocarbon oils by at least one hydrotreatment process and at least one process for refining in the absence of hydrogen only plural serial stages only
- C10G67/14—Treatment of hydrocarbon oils by at least one hydrotreatment process and at least one process for refining in the absence of hydrogen only plural serial stages only including at least two different refining steps in the absence of hydrogen
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- Production Of Liquid Hydrocarbon Mixture For Refining Petroleum (AREA)
Abstract
The present invention relates to the method for hydrotreating that a kind of grease type raw material prepares diesel oil distillate, grease type raw material is successively contacted and is reacted with hydrotreating catalyst I and hydrotreating catalyst II, liquid hydrocarbon, water and gas stream are obtained after the separation of hydrotreating reaction effluent, liquid hydrocarbon, which contacts after air lift with hydroisomerization catalyst, to be reacted, and hydroisomerizing reaction effluent obtains diesel oil distillate after separation and fractionation.The diesel oil distillate not sulfur-bearing of the method for the present invention preparation, has lower freezing point and high Cetane number, is good diesel product, is perhaps used in mixed way with fossil base diesel oil or uses as the additive for improving diesel cetane-number.
Description
Technical field
The invention belongs to a kind of production methods of bio-fuel, are that a kind of preparation of grease type raw material is used as more specifically
The method of hydrotreating of diesel fuel or diesel component.
Background technique
As traditional fossil energy supply is becoming tight, the pressure of carbon dioxide discharge-reduction increasingly increases, and how to increase fuel oil
It is the major issue that petroleum refining industry is faced with that carbon dioxide gas emissions are effectively reduced while supply.Development biology
Matter fuel is considered as solving the problems, such as one of this effective means.
Bio-fuel, which gradually attracts people's attention mainly, following reason: 1, bio-fuel is renewable energy;2, raw
The carbon containing characteristic of object fuel and existing fuel performance are close;3, can be subtracted by the carbon dioxide of the precursor adsorption of bio-fuel
The net discharge of few greenhouse gases;4, bioenergy distribution is more evenly distributed than fossil energy.
Vegetable oil is the bio-fuel most easily obtained, and the fatty acid mainly to dissociate by triglycerides and on a small quantity forms.Plant
Use of the oil in diesel engine can trace back to 1900, and Rudolf Diesel confirms peanut oil in the operation energy of diesel engine
Power.During World War II, Africa uses palm oil and peanut oil as the fuel of military vehicle.After war, skill
The development of art cause from petroleum fuel almost at unique raw material, especially diesel engine fuel injector and control system into
Huge improvement is gone, the source for resulting in diesel stocks is very single.Meanwhile pure plant oil viscosity is high, stability is poor,
And the high cost of vegetable oil limits the application by it directly as transport fuel.
It is Ester exchange by the conventional method that vegetable oil or other derivative of fatty acid are converted into liquid fuel.Ester exchange method is
The ester exchange reaction for using alcohol under the effect of the catalyst, makes the triglycerides to form vegetable oil be converted into corresponding fatty acid alkane
Base ester, usually fatty acid methyl ester.But the low temperature flow of fatty acid methyl ester limits it to be made in low temperature environment
With.The low temperature flow of fatty acid methyl ester is determined that the presence of carbon-carbon double bond can improve low temperature by the chain characteristic of its fatty acid
Mobility, but reduce the stability of fatty acid methyl ester.Since the presence of oxygen in fatty acid methyl ester will lead to relative to biography
System diesel fuel has higher NOxDischarge.
Grease can produce the diesel component with high cetane number by hydrogen addition technology.Such as in US4992605
A kind of method for producing high cetane number hydrocarbon is disclosed, product is mainly C15-C18N-alkane, freezing point with higher,
Its low temperature flow is poor.
Disclosed in US5705722 by with relatively high unsaturated compound content comprising butter and biomass
The method that raw material prepares liquid hydrocarbon of the boiling range in diesel range.At least 350 DEG C at a temperature of hydrotreating described in raw material.?
Obtained product is with the n-alkane compared with high-solidification point in this method, and low temperature flow is poor.
In order to improve the low temperature fluidity of hydrogenation products, usual way is that product is carried out isomerization reaction.Such as
EP1396531 discloses the method for converting liquid hydrocarbon for the raw material selected from vegetable oil, animal oil or fish oil, the method includes
Hydrodeoxygenation step is hydroisomerisation step later.Isomerization steps are operated using countercurrent action, and hydrodeoxygenation step is produced
The impurity such as raw hydrogen sulfide, water are removed, and the poisoning of noble metal isomerization catalyst is avoided.
Summary of the invention
The purpose of the present invention is in prior art basis, provide a kind of grease type raw material prepares diesel oil distillate plus hydrogen side
Method.
Method provided by the invention, comprising the following steps:
(1) grease type raw material at hydrotreating reaction conditions, successively with hydrotreating catalyst I and hydrorefining catalyst
Agent II contact is reacted, and hydrotreating reaction effluent, the dress of hydrotreating catalyst I and hydrotreating catalyst II are obtained
Filling out ratio is 70:30-95:5, and the hydrotreating catalyst I and hydrotreating catalyst II are loaded catalyst, are added
The active metal component that hydrogen handles catalyst I is molybdenum, the active metal component of hydrotreating catalyst II be in cobalt and nickel at least
One kind and at least one of molybdenum and tungsten,
(2) the resulting hydrotreating reaction effluent of step (1) enters high-pressure separator progress gas-liquid separation, obtains liquid
Logistics, water and gas stream, gained liquid stream carry out air lift, remove the hydrogen sulfide, ammonia and water of dissolution, obtain liquid hydrocarbon,
(3) step (2) resulting liquid hydrocarbon contacts under hydroisomerizing reaction condition with reduction-state hydroisomerization catalyst
It is reacted, obtains hydroisomerizing reaction effluent, after separation and fractionation, obtain diesel oil distillate.
Grease type raw material of the present invention is selected from animal and plant fat, the fatty acid from grease, fatty acid methyl ester, food and drink
One or more mixtures of waste oil, algae oil.
Grease type raw material is under the effect of sulphided state hydrogenation catalyst, it will usually which there are three types of hydrogenation deoxidation approach, with fatty acid
For methyl esters:
1, direct hydrogenation deoxygenation
R-COOCH3+4H2→R-CH3+CH4+2H2O
2, plus hydrogen decarboxylation is reacted
R-COOCH3+2H2→R-H3+CH4+CO+H2O
3, add hydrogen de-carbonyl reaction
R-COOCH3+H2→R-H3+CH4+CO2
CH if grease, in above-mentioned reaction product4For C3H8。
An object of the present invention is to improve ratio shared by direct hydrogenation deoxygenation, to improve the receipts of liquid hydrocarbon
Rate, while reducing by-product CO and CO2Generation.The utilization rate of the carbon of biological source rate is not only increased in this way, can also be reduced
Because there are CO and CO2And the influence of the methanation reaction generated.
In the hydrotreating step of method provided by the invention, grease type raw material is in hydrotreating reaction condition
Under, it successively contacts and is reacted with hydrotreating catalyst I and hydrotreating catalyst II, obtain hydrotreating reaction outflow
The filling ratio of object, hydrotreating catalyst I and hydrotreating catalyst II are 70:30-95:5, preferably 80:20-90:10.
The hydrotreating catalyst I and hydrotreating catalyst II is loaded catalyst, the activity of hydrotreating catalyst I
Metal component is molybdenum, the active metal component of hydrotreating catalyst II be at least one of cobalt and nickel and molybdenum and tungsten at least
It is a kind of.Alkene saturation and direct hydrogenation deoxygenation mainly occur in hydrotreating step for grease type raw material, wherein grease type
Oxygen in raw material is mainly removed in a manner of generating water.Hydrotreating reaction outflow is mainly the alkane of carbon number 8~24, this
It further include outside propane, water, carbon monoxide, carbon dioxide, hydrogen sulfide and hydrogen etc..
The resulting hydrotreating reaction effluent of step (1) enter high-pressure separator carry out gas-liquid separation, obtain liquid hydrocarbon,
Water and gas stream, in the liquid hydrocarbon, even carbon chain Determination of Alkane Content is not less than 90 weight %.
The hydrotreating catalyst that the present invention uses two kinds of different activities in hydrotreating step carries out grading loading,
Hydrotreating catalyst I is the monometallic hydrogenation catalyst that active metal component is molybdenum, and hydrotreating catalyst II is plus hydrogen is living
The higher more catalytic hydrogenations of property.By two kinds of hydrotreating catalyst grading loadings, even carbon chain alkane can be obtained
Content is not less than the liquid hydro-carbon products of 90 weight %, and can remove sulphur in grease type raw material, nitrogen and colloid substance well, special
It is not the amount of nitrides significantly reduced in grease type raw material.
It is preferred that the hydrotreating catalyst I, counted by oxide and on the basis of hydrotreating catalyst I, the molybdenum
Content be 10 weight % to less than 17 weight %.
It is preferred that being counted in the hydrotreating catalyst II by oxide and on the basis of hydrotreating catalyst II, cobalt
And/or the content of nickel is 1-10 weight %, the content of molybdenum and/or tungsten is 5-40 weight %.Hydrotreating of the present invention is anti-
Answer condition are as follows: 250-450 DEG C of reaction temperature, reaction pressure 3.0-10.0MPa, volume space velocity 0.1-10h-1, hydrogen to oil volume ratio
300-2000Nm3/m3.It is preferred that are as follows: 300-400 DEG C of reaction temperature, reaction pressure 4.0-8.0MPa, volume space velocity 0.5-5h-1, hydrogen
Oil volume ratio is 500-1500Nm3/m3。
In order to maintain the sulphided state of hydrotreating catalyst I and hydrotreating catalyst II, preferably in grease type raw material
Vulcanizing agent is added, the concentration of the vulcanizing agent is 0.01-0.5 weight %.The vulcanizing agent is H2S、CS2, dimethyl disulfide,
One of Dimethyl sulfide, n-butyl sulfide and thiophene are a variety of.
The reactor of hydroprocessing processes is fixed bed reactors, and reactor can set multiple beds, the hydrotreating
Catalyst I is seated in reactor top, and hydrotreating catalyst II is seated in below hydrotreating catalyst I.Using in bed
Between inject the mode of cold hydrogen and control reaction temperature rising, reaction temperature rising or two methods can also be controlled by the way of recycle oil
Dual-purpose.
In step (2), the resulting hydrotreating reaction effluent of step (1) enters high-pressure separator and carries out gas-liquid point
From obtaining liquid stream, water and gas stream, gained liquid stream carries out air lift, removes the hydrogen sulfide, ammonia and water of dissolution, obtains
To liquid hydrocarbon.
In the one of embodiment of the present invention, the gas stream obtains hydrogen rich gas by hydrogen purification unit
Body, gas purification technology can be used conventional pressure swing adsorption, can also use membrane separation technique.The hydrogen-rich gas with
Step (2) resulting liquid hydrocarbon is mixed into the hydroisomerizing reaction process of step (3).
In step (3), liquid hydrocarbon obtained in step (2) under hydroisomerizing reaction condition with reduction-state hydroisomerizing
Catalyst contact is reacted, and is obtained hydroisomerizing reaction effluent, after separation and fractionation, is obtained diesel oil distillate.
It is preferred that the hydroisomerization catalyst contains molecular sieve, heat-resistant inorganic oxide base with one-dimensional central hole structure
Matter and hydrogenation metal component, on the basis of hydroisomerization catalyst total amount, the content of the one-dimensional mesoporous molecular sieve is 20~80
The content of weight %, aluminium oxide are 15~75 heavy %, and in terms of oxide, the content of hydrogenation metal component is 0.2~5 heavy %, above-mentioned
The sum of each component content is 100%.
Further preferably, the hydrogenation metal component is selected from one of cobalt, nickel, ruthenium, rhodium, palladium, osmium, iridium, platinum, molybdenum and tungsten
Or it is several.
Further preferably, the one-dimensional medium-pore molecular screened from ZSM-22, Nu-10, Thete-1, ISI-1, ZSM-23,
One or more of SAPO-11, SAPO-31, SAPO-41.
Hydroisomerizing reaction condition preferably described in the present invention are as follows: 200-500 DEG C of reaction temperature, reaction pressure 1.0-
10.0MPa, volume space velocity 0.1-5.0h-1, hydrogen to oil volume ratio 300-1200Nm3/m3, it is preferable that 280-350 DEG C of reaction temperature, instead
Answer pressure 3.0-8.0MPa, volume space velocity 0.5-3.0h-1, hydrogen to oil volume ratio 400-800Nm3/m3。
Hydroisomerization catalyst of the present invention is reduction-state hydroisomerization catalyst, i.e., described when in use plus hydrogen
The metal active constituent of heterogeneous catalyst is reduction-state, therefore, needs to carry out the hydroisomerization catalyst before use
Reduction, the reduction process are routine techniques.
Hydroisomerizing reaction effluent obtains diesel oil distillate and part naphtha after separation and fractionation.Diesel oil distillate can
Exclusive use also can be used as blending component and be used in mixed way with fossil foundation stone oil.
Two kinds of hydrotreating catalyst combinations of use of the invention, not only realize higher direct hydrogenation deoxygenation,
The removal efficiency for improving the impurity such as the colloid for being not easy to remove in raw material, sulphur and nitrogen simultaneously ensure that adding at hydrogen for grease type raw material
Manage effect.
Hydroisomerisation step of the invention uses reduction-state hydroisomerization catalyst, has preferable stereoselectivity.
The diesel oil distillate not sulfur-bearing of the method for the present invention preparation, has lower freezing point and high Cetane number, Ke Yizuo
It for diesel product use, can also be used in mixed way with fossil base diesel oil, be also used as improving the additive of diesel cetane-number
It uses.
Detailed description of the invention
Fig. 1 is the flow diagram for the method for hydrotreating that grease type raw material of the present invention prepares diesel oil distillate.
Specific embodiment
Method provided by the present invention is further described with reference to the accompanying drawing, but the present invention not therefore by
Any restrictions.
As shown in Figure 1, grease type feedstock oil 1, new hydrogen 2 and recycle hydrogen 3 enter hydrotreating reactor 4 after mixing, add hydrogen
Treatment reactor successively loads hydrotreating catalyst I (4-1) and hydrotreating catalyst II (4-2), and grease type raw material is adding
Hydrogen is handled under reaction condition, is successively contacted and is reacted with hydrotreating catalyst I and hydrotreating catalyst II, obtains adding hydrogen
Handle reaction effluent 5.Hydrotreating reaction effluent 5 enters high-pressure separator 6, by isolated water 9, gas stream 7
And liquid stream, gained liquid stream carry out air lift, remove the hydrogen sulfide, ammonia and water of dissolution, obtain liquid hydrocarbon 8.Gas stream 7
Hydrogen-rich gas 11 is obtained by hydrogen purification unit 10, hydrogen-rich gas 11 and liquid hydrocarbon 8 enter hydroisomerization reactor after mixing
12, it contacts and is reacted with hydroisomerization catalyst, obtain hydroisomerizing reaction effluent 13.Hydroisomerizing reaction effluent 13
Gas-liquid separation is carried out into high-pressure separator 14, the gas 15 after separation uses after compressor 17 as recycle hydrogen;Separation
Liquid hydrocarbon 16 afterwards obtains diesel oil distillate and naphtha cut after fractionation.
Method provided by the present invention is further described below by embodiment, but the present invention not therefore by
To any restrictions.
Reagent used in example is except as expressly described pure chemistry reagent.
Hydrogenation active component uses x-ray fluorescence spectrometry.
The boiling range of liquid hydrocarbon is measured using ASTM D2887 method.
Hydrotreating catalyst I includes the molybdenum of alumina support and load, in terms of oxide and with hydrotreating catalyst I
On the basis of, the content of the molybdenum is 15 weight %.
Hydrotreating catalyst II uses RS-2000 catalyst, by Sinopec catalyst Co. Chang Ling catalyst point public affairs
Department's production.
Hydroisomerization catalyst the preparation method is as follows:
By a kind of ZSM-22 molecular sieve (Chang Ling catalyst plant provides, silica alumina ratio 56) and boehmite P1-1, sesbania powder
It being uniformly mixed, aqueous solution of nitric acid is added, then abundant kneading squeezes out 1.3 millimeters of diameter of cloverleaf pattern item on banded extruder,
Dry 4 hours at 120 DEG C, then in air 600 DEG C roast 2 hours, obtain carrier.Carrier is used and contains Pt (NH3)4Cl2's
Solution carries out saturation dipping, then 4 hours dry at 110 DEG C, roasts 3 hours for 400 DEG C in air atmosphere.Then by gained
Catalyst is restored, reduction temperature be 350 DEG C, the recovery time 4 hours, Hydrogen Vapor Pressure 0.1MPa.Catalyst after reduction is
Hydroisomerization catalyst, 50.2 weight % of ZSM-22 content in hydroisomerization catalyst, alumina content 49.0 weight %, Pt contain
Measure 0.8 weight %.
Embodiment 1
The present embodiment is using palm oil as grease type raw material, and the main character of palm oil is shown in Table 1, using technique shown in FIG. 1
Process.85mL hydrotreating catalyst I and 15mL hydrotreating catalyst II, hydrotreating are housed in hydrotreating reactor
Catalyst I and II are after over cure, in reaction pressure 6.0MPa, 330 DEG C of reaction temperature, volume space velocity 2.0h-1With hydrogen oil volume
Under conditions of 1200, palm oil and the dimethyl disulfide containing 0.3 weight % carry out hydrotreating reaction.Hydrotreating reaction
The end point temperature of liquid hydrocarbon obtained in effluent is less than 350 DEG C, and the content of even carbon chain alkane is 92 weights in liquid hydrocarbon
% is measured, sulfur content is less than 2.0mg/kg in liquid hydrocarbon, and nitrogen content is less than 2.0mg/kg.
Hydroisomerisation catalysts equipped with 100mL preparation in hydroisomerization reactor, in reaction pressure 5.0MPa, instead
Answer 300 DEG C of temperature, volume space velocity 1.5h-1Under conditions of hydrogen to oil volume ratio 600, liquid hydrocarbon carries out hygrogenating isomerization reaction,
Reaction product obtains the diesel oil distillate that cold filter plugging point is -5 DEG C after separation and fractionation, and isomery hydrocarbon content is 52 weights in the diesel oil distillate
Measure %.
Embodiment 2
The present embodiment is using waste cooking oil as grease type raw material, and the main character of waste cooking oil is shown in Table 1, and use is shown in FIG. 1
Process flow.90mL hydrotreating catalyst I and 10mL hydrotreating catalyst II is housed in hydrotreating reactor, adds hydrogen
Catalyst I and hydrotreating catalyst II is handled after over cure, it is empty in reaction pressure 6.0MPa, 320 DEG C of reaction temperature, volume
Fast 1.5h-1Under conditions of hydrogen to oil volume ratio 1000, waste cooking oil and the dimethyl disulfide containing 0.2 weight % add at hydrogen
Reason reaction.The end point temperature of liquid hydrocarbon obtained in hydrotreating reaction effluent is less than 350 DEG C, even carbon chain in liquid hydrocarbon
The content of alkane is 95 weight %, and sulfur content is less than 2.0mg/kg in liquid hydrocarbon, and nitrogen content is less than 2.0mg/kg.
Hydroisomerisation catalysts equipped with 100mL preparation in hydroisomerization reactor, in reaction pressure 5.0MPa, instead
Answer 310 DEG C of temperature, volume space velocity 1.0h-1Under conditions of hydrogen to oil volume ratio 500, liquid hydrocarbon carries out hygrogenating isomerization reaction,
Reaction product obtains the diesel oil distillate that cold filter plugging point is -20 DEG C after separation and fractionation, and isomery hydrocarbon content is 73 in the diesel oil distillate
Weight %.
Comparative example 1
The present embodiment is using waste cooking oil as grease type raw material, and the main character of waste cooking oil is shown in Table 2, and use is shown in FIG. 1
Process flow.In hydrotreating reactor be equipped with 100mL hydrotreating catalyst I, hydrotreating catalyst after over cure,
In reaction pressure 6.0MPa, 320 DEG C of reaction temperature, volume space velocity 1.5h-1Under conditions of hydrogen to oil volume ratio 1000, waste cooking oil
Hydrotreating reaction is carried out with the dimethyl disulfide containing 0.2 weight %.Liquid hydrocarbon obtained in hydrotreating reaction effluent
Boiling range in account for even carbon chain alkane in 96%, wherein the fraction hydrocarbon lower than 350 DEG C lower than 350 DEG C of fraction content be 97 weights
% is measured, sulfur content is less than 2.0mg/kg, nitrogen content 16mg/kg in liquid hydrocarbon.
Comparative example 2
The present embodiment is using waste cooking oil as grease type raw material, and the main character of waste cooking oil is shown in Table 2, and use is shown in FIG. 1
Process flow.50mL hydrotreating catalyst I and 50mL hydrotreating catalyst II is housed in hydrotreating reactor, adds hydrogen
Catalyst I and hydrotreating catalyst II is handled after over cure, it is empty in reaction pressure 6.0MPa, 320 DEG C of reaction temperature, volume
Fast 1.5h-1Under conditions of hydrogen to oil volume ratio 1000, waste cooking oil and the dimethyl disulfide containing 0.2 weight % add at hydrogen
Reason reaction.The end point temperature of liquid hydrocarbon obtained in hydrotreating reaction effluent is less than 350 DEG C, even carbon chain in liquid hydrocarbon
The content of alkane is 75 weight %, and sulfur content is less than 2.0mg/kg in liquid hydrocarbon, and nitrogen content is less than 2.0mg/kg.
Table 1
| Project | Palm oil | Waste cooking oil |
| Density (20 DEG C), kg/m3 | 921.2 | 918.6 |
| Total acid number, mgKOH/g | 0.2 | 10.2 |
| Oxygen content, % | 11.4 | 11.9 |
| Sulfur content, mg/kg | ﹤ 2.0 | 5.5 |
| Nitrogen content, mg/kg | ﹤ 2.0 | 59 |
Claims (12)
1. the method for hydrotreating that a kind of grease type raw material prepares diesel oil distillate, comprising:
(1) grease type raw material at hydrotreating reaction conditions, successively with hydrotreating catalyst I and hydrotreating catalyst II
Contact is reacted, and hydrotreating reaction effluent, the filling ratio of hydrotreating catalyst I and hydrotreating catalyst II are obtained
Example is 70:30-95:5, and the hydrotreating catalyst I and hydrotreating catalyst II are loaded catalyst, are added at hydrogen
The active metal component for managing catalyst I is molybdenum, and the active metal component of hydrotreating catalyst II is at least one of cobalt and nickel,
And at least one of molybdenum and tungsten,
(2) the resulting hydrotreating reaction effluent of step (1) enters high-pressure separator progress gas-liquid separation, obtains liquids
Stream, water and gas stream, gained liquid stream carry out air lift, remove the hydrogen sulfide, ammonia and water of dissolution, obtain liquid hydrocarbon,
(3) step (2) resulting liquid hydrocarbon contacts progress under hydroisomerizing reaction condition with reduction-state hydroisomerization catalyst
Reaction, obtains hydroisomerizing reaction effluent, after separation and fractionation, obtains diesel oil distillate.
2. the method according to claim 1, wherein even carbon chain alkane contains in step (2) resulting liquid hydrocarbon
Amount is not less than 90 weight %.
3. the method according to claim 1, wherein hydrotreating catalyst I and hydrotreating catalyst II
Filling ratio is 80:20-90:10.
4. method according to claim 1 or 3, which is characterized in that the hydrotreating catalyst I, in terms of oxide
And on the basis of hydrotreating catalyst I, the content of the molybdenum is 10 weight % to less than 17 weight %.
5. method according to claim 1 or 3, which is characterized in that with oxide in the hydrotreating catalyst II
It counts and on the basis of hydrotreating catalyst II, the content of cobalt and/or nickel is 1-10 weight %, and the content of molybdenum and/or tungsten is 5-
40 weight %.
6. the method according to claim 1, wherein the hydrotreating reaction condition are as follows: reaction temperature
250-450 DEG C, reaction pressure 3.0-10.0MPa, volume space velocity 0.1-10h-1, hydrogen to oil volume ratio 300-2000Nm3/m3。
7. the method according to claim 1, wherein the hydroisomerization catalyst contains with one-dimensional mesoporous knot
Molecular sieve, heat-resistant inorganic oxide matrix and the hydrogenation metal component of structure, on the basis of hydroisomerization catalyst total amount, described one
The content for tieing up mesoporous molecular sieve is 20~80 heavy %, and the content of aluminium oxide is 15~75 heavy %, in terms of oxide, hydrogenation metal group
The content divided is 0.2~5 heavy %, and the sum of above-mentioned each component content is 100%.
8. the method according to the description of claim 7 is characterized in that the hydrogenation metal component be selected from cobalt, nickel, ruthenium, rhodium, palladium,
One or more of osmium, iridium, platinum, molybdenum and tungsten.
9. the method according to the description of claim 7 is characterized in that the one-dimensional medium-pore molecular screened from ZSM-22, Nu-10,
One or more of Thete-1, ISI-1, ZSM-23, SAPO-11, SAPO-31, SAPO-41.
10. the method according to claim 1, wherein the hydroisomerizing reaction condition are as follows: reaction temperature
200-500 DEG C, reaction pressure 1.0-10.0MPa, volume space velocity 0.1-5.0h-1, hydrogen to oil volume ratio 300-1200Nm3/m3, excellent
Choosing, 280-350 DEG C of reaction temperature, reaction pressure 3.0-8.0MPa, volume space velocity 0.5-3.0h-1, hydrogen to oil volume ratio 400-
800Nm3/m3。
11. the method according to claim 1, wherein the grease type raw material is selected from animal and plant fat, is originated from
The fatty acid of grease, fatty acid methyl ester, waste cooking oil, algae oil one or more mixtures.
12. the method according to claim 1, wherein step (2) resulting gas stream passes through hydrogen purification list
Member obtains hydrogen-rich gas, and the hydrogen-rich gas and step (2) resulting liquid hydrocarbon are mixed into step (3).
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN111909722A (en) * | 2020-08-15 | 2020-11-10 | 易高生物化工科技(张家港)有限公司 | Method for preparing biological aviation kerosene and renewable alkane by waste animal and vegetable oil hydrogenation |
| CN112159682A (en) * | 2020-08-11 | 2021-01-01 | 易高生物化工科技(张家港)有限公司 | Method for preparing low-condensation-point renewable alkane by hydrogenating waste animal and vegetable oil |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112159682A (en) * | 2020-08-11 | 2021-01-01 | 易高生物化工科技(张家港)有限公司 | Method for preparing low-condensation-point renewable alkane by hydrogenating waste animal and vegetable oil |
| CN111909722A (en) * | 2020-08-15 | 2020-11-10 | 易高生物化工科技(张家港)有限公司 | Method for preparing biological aviation kerosene and renewable alkane by waste animal and vegetable oil hydrogenation |
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