CN109701555A - A kind of purification method of the hydrogen-rich gas containing methanol and oxycarbide - Google Patents
A kind of purification method of the hydrogen-rich gas containing methanol and oxycarbide Download PDFInfo
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Abstract
The invention belongs to field of gas purification, are related to a kind of purification method of hydrogen-rich gas containing methanol and oxycarbide.This method comprises: the hydrogen-rich gas containing methanol and oxycarbide is contacted with the composite catalyst after activation, it is less than 20000h in 200-400 DEG C of reaction temperature, pressure 0.1-7.0MPa, gas space velocity‑1, entrance oxycarbide concentration≤20000ppm, carry out methanation reaction under conditions of entrance methanol concentration≤20000ppm;The composite catalyst includes: continuous phase carbon, dispersed phase Raney alloy particle and dispersed phase titanium-containing oxide, the continuous phase carbon is by obtaining after at least one organic carbon being carbonized, and the titanium-containing oxide is thermally decomposed to yield through titaniferous sol-gel.The reactivity of used catalyst of the present invention is high, the CO in the hydrogen containing methanol and oxycarbide can be removed to 1ppm simultaneously hereinafter, methanol stripper is to 50ppm or less.
Description
Technical field
The invention belongs to field of gas purification, more particularly, to a kind of hydrogen-rich gas containing methanol and oxycarbide
Purification method.
Background technique
In catalytic field, " Lei Nifa " is a kind of preparation method of active metal catalyst, this method comprises: i) first making
The alloy and ii of the standby above component of the binary containing active metal) then at least one metal component is extracted, it is left tool
There is the metal component of porous structure and higher catalytic activity.Step ii) also referred to as " activate ".For example, U.S. M.Raney is earliest
Raney's nickel catalyst (Industrial and Engineering Chemistry, 1940, Vol.32,1199) has been invented, it should
Catalyst is prepared via a method which: first being prepared nickel alumin(i)um alloy, is then dissolved the aluminium element in alloy with strong base solution, is left tool
There are porous structure, the nickel metal with very high catalytic activity.
Methanation catalyst is mainly used in ethylene unit or synthetic ammonia installation in thick hydrogen trace amounts of oxycarbide (mainly
CO deep removal) generally requires the oxycarbide in thick hydrogen that must be removed to through methanator less than 5ppm.
Methanation catalyst mainly includes Ru catalyst and Ni catalyst.Since Ru metal is expensive, so the application of industry
Seldom.The methanation catalyst being widely used at present is mainly Ni catalyst.Ni catalyst be also divided into high temperature catalyst and
Low temperature catalyst.In ethylene unit, high temperature catalyst operation temperature is generally 280-350 DEG C, low temperature catalyst operation temperature
Generally 150-200 DEG C.Catalyst for Low-Temperature Methanation has energy-saving and environmental protection, safe, economic advantage, therefore, high-temperature methanation
Technique will gradually be replaced by low temperature methanation process.
Hydrogen purification containing methanol and oxycarbide is the new problem occurred in industrial production, can take absorption, washing
The methods of, but how efficiently methanol removal and oxycarbide it is also desirable to find a kind of more suitable method, this method simultaneously
By great industrial application value.
Summary of the invention
The object of the present invention is to provide a kind of purification method of hydrogen-rich gas containing methanol and oxycarbide, this method can be same
When methanol removal and oxycarbide.
The present invention provides a kind of purification method of hydrogen-rich gas containing methanol and oxycarbide, which is characterized in that in fixation
In bed reactor, the hydrogen-rich gas containing methanol and oxycarbide is contacted with the composite catalyst after activation, in reaction temperature
200-400 DEG C, pressure 0.1-7.0MPa, gas space velocity be less than 20000h-1, entrance oxycarbide concentration≤20000ppm, entrance
Methanation reaction is carried out under conditions of methanol concentration≤20000ppm;Preferably, reaction temperature is 280-350 DEG C, and pressure is
2.0-4.0MPa, gas space velocity are less than 10000h-1, entrance oxycarbide concentration is less than 10000ppm, and entrance methanol concentration is less than
5000ppm;
The composite catalyst includes: continuous phase carbon, dispersed phase Raney alloy particle and dispersed phase titanium-containing oxide,
Middle dispersed phase Raney alloy particle and dispersed phase titanium-containing oxide are respectively evenly or uniformly dispersed in continuous phase carbon, described
Continuous phase carbon is by obtaining after at least one organic carbon being carbonized, and the titanium-containing oxide is solidifying through titaniferous colloidal sol-
What glue thermally decomposed to yield;
The Raney alloy particle includes Raney metal nickel and the element that can be leached;The element being leached is preferred
Selected from least one of aluminium, zinc and silicon.
According to the present invention, the content of the nickel in the composite catalyst after the activation and titanium-containing oxide can be as needed
It determines.It, can by the additional amount of Raney alloy particle in control catalyst preparation process and/or the activation degree of control catalyst
Easily to control the load capacity of Raney metal in catalyst, pass through titaniferous colloidal sol in control composite catalyst preparation process
Additional amount can also easily control activation after catalyst in titanium-containing oxide load capacity.Specific to the present invention, nickel
Content it is higher be conducive to reaction effect, with the total weight of the composite catalyst after the activation, the content of nickel is preferably
20-80wt%, further preferably 45-65wt%.Difference of the content of titanium-containing oxide according to the expected property of composite catalyst,
It can change in a wider scope, in terms of titanium elements, the content of the titanium-containing oxide can be 0.5wt%-50wt%.According to
A kind of specific embodiment of the present invention, the content of the titanium-containing oxide can be 1wt%-20wt%.
Term " Raney metal " used herein refers to gold insoluble, with catalytic activity when being activated with Lei Nifa
Belong to.Term " element that can be leached " used herein refers to the element that can be dissolved when being activated with Lei Nifa.
In the present invention, " oxycarbide " refers mainly to CO.
In a preferred embodiment, the Raney alloy is selected from nickel alumin(i)um alloy, cobalt aluminium alloy, albronze.
In one embodiment, the weight ratio of the Raney metal and the element being leached is 1:99-10:1,
Preferably 1:10-4:1.
In order to improve catalyst activity or selectivity, Raney alloy may be incorporated into promotor, form multicomponent mixture
Raney alloy, the promotor are selected from least one of Mo, Cr, Ti, Pt, Pd, Rh and Ru.The content of the promotor is preferably
The 0.01-5wt% of Raney alloy particle total weight.
Term " organic matter that can be carbonized " used herein refers to those organic matters, can be by certain temperature
With processing under the conditions of oxygen deprivation or oxygen-free atmosphere so that the whole or big portion of the non-carbon elements such as hydrogen therein, oxygen, nitrogen, sulphur vapors away and turns
Change the higher synthetic material of phosphorus content into.Obtained carbon containing synthetic material has high temperature resistant, high intensity, high-modulus, porous etc.
Performance.
In one embodiment, the organic matter being carbonized is preferably organic high molecular compound, including is naturally had
Machine high-molecular compound and synthetic organic polymer compound.
In a preferred embodiment, the organic matter being carbonized is selected from rubber, thermosetting plastics and thermoplasticity
The synthetic organic polymer compound of at least one of plastics;The rubber is preferably butadiene-styrene rubber and/or polyurethane rubber;Institute
It states thermosetting plastics and is preferably selected from least one of epoxy resin, phenolic resin and furane resins;The thermoplastic is excellent
Choosing is selected from least one of polystyrene, styrene-divinylbenzene copolymer and polyacrylonitrile.
In another preferred embodiment, the organic matter being carbonized be selected from starch, modified starch, viscose rayon,
The natural organic polymer compounds of at least one of lignin, cellulose and carboxymethyl cellulose.
In yet another preferred form, the organic matter being carbonized is selected from coal, bitumen, asphalt and coal tar
At least one of pitch.
The organic matter being carbonized can also be high for the conduction selected from least one of polyaniline, polypyrrole and polythiophene
Molecular compound.
In the present invention, the titanium-containing oxide is preferably titanyl compound, is specifically preferably selected from TiO, TiO2And Ti2O3In
At least one.The titanium-containing oxide is thermally decomposed to yield via titaniferous sol-gel.Wherein, titaniferous colloidal sol can be used
The various conventional methods in this field obtain, it is preferable that the titaniferous colloidal sol is obtained by metatitanic acid ester hydrolysis, and the hydrolysis is usually in second
It is carried out in alcohol medium;The titanate esters are preferably tetraisopropyl titanate and/or butyl titanate.
The granular size of Raney alloy particle of the present invention can select in a wide range.For example, average grain diameter can be
0.1-1000 microns, preferably 1-500 microns, more preferably 10-100 microns.
The present invention does not have special limitation to the shape of the composite catalyst, as long as it is suitble to fixed bed or fluidized bed
Technique.Expediently, the composite catalyst can be in sphere, hemisphere, ring bodies, half-annuli, cylindrical body, semicolumn
The combination of body, hollow cylinder, prism, cuboid, cube, tooth form object, irregular particle shape or the above shape.
The granular size of composite catalyst of the invention can change in a wide range, depend on preparation method and catalyst
Desired use.The average equivalent diameter of the composite catalyst preferably exists typically within the scope of 0.3mm-20mm
Within the scope of 0.5mm-10mm, more preferably within the scope of 1mm-8mm.
Carbon, titanium-containing oxide, Raney alloy are combined together by the present invention by the molding method of Process Technology of Polymer,
It is prepared for the Raney metal composite catalyst suitable for fixed bed.On the one hand the organic matter that can be carbonized is mixed with Raney alloy
After be carbonized, obtain the compound of carbon and Raney alloy, Raney alloy plays facilitation to carbonisation, can make to be carbonized
Carry out more complete, after carbonization, Raney alloy is dispersed in the continuous phase of carbon, and is firmly combined with continuous phase carbon, continuous phase
Carbon itself have porous structure so that composite catalyst have it is very high-intensitive, simultaneously as Raney alloy particle distribution is porous
In carbon continuous phase, solution can easily touch Raney alloy particle, and in activation process, Raney alloy particle is easy to
It is activated to form porous high activity Raney metal, and since a small amount of agraphitic carbon is also washed away in activation process,
To enable the reaming of continuous phase carbon material and more Raney alloys is enable to expose.Therefore, the catalysis after present invention activation
Agent has very high catalytic activity.On the other hand, titanium-containing oxide plays auxiliary skeleton function and provides different from carbon surface property
Effect, such as promote the surface acidity of chemical reaction, therefore, catalyst of the invention also has better intensity, and special
It is not applicable to the reaction of acid auxiliary.
Composite catalyst of the invention is preferably made by method comprising the following steps:
A, curable compositions are prepared, the curable compositions or its cured product include the organic matter that can be carbonized;It is described
Solidification composition filling can be liquid, gluey, paste or powdered;
B, Raney alloy particle, titaniferous colloidal sol are mixed with the obtained curable compositions of step a, is then made obtained
Mixture solidification, and optionally crush cured mixture, obtain catalyst precarsor;
C, composite catalyst is made under inert gas protection, catalyst precarsor described in high temperature cabonization.
In the method for the invention, the Raney alloy particle, titaniferous colloidal sol and the organic matter that can be carbonized such as first aspect
It is described.
A kind of specific embodiment according to the present invention, prepare the method for the composite catalyst the following steps are included:
A, curable compositions are often prepared with curing formula according to the organic matter that can be carbonized, the curable compositions are liquid
Body shape is powdered;Titanate esters are hydrolyzed, titaniferous colloidal sol is obtained;
B, Raney alloy particle, titaniferous colloidal sol are uniformly mixed with the curable compositions that step a is obtained, then makes gained
The mixture molded curing arrived, titaniferous colloidal sol become gel, obtain catalyst precarsor;
C, composite catalyst is made under inert gas protection, catalyst precarsor described in high temperature cabonization.
The composition of the curable compositions generally depends on the selected organic matter being carbonized.In some embodiments
In, when the selected organic matter being carbonized is thermoplastic, the curable compositions can be substantially by the warm
The powder of thermoplastic plastic forms.Such curable compositions can be solidified by heating-cooling.
In other embodiments, the curable compositions may include the organic matter that can be carbonized and solvent and/
Or liquid dispersant.Such curable compositions can by least partly remove the solvent and/or liquid dispersant come
Solidification.The example of the solvent and liquid dispersant includes but is not limited to water;C1-C8Alcohol, such as methanol, ethyl alcohol, isopropanol, just
Butanol, 2-Ethylhexyl Alcohol;Ester, such as ethyl acetate, methyl acetate;Ketone, such as acetone, methyl ethyl ketone, cyclohexanone;C5-C30Hydrocarbon, such as penta
Alkane, pentamethylene, hexane, hexamethylene, heptane, octane, decane, dodecane, benzene,toluene,xylene;C1-C10Halogenated hydrocarbons.In this way
Curable compositions in the lower limit of the concentration of organic matter that can be carbonized can be 5,10,15,20,25,30,35 or 40wt%,
And the upper limit can be 20,30,40,45,50,55,60,65,70,75,80,85,90 or 95wt%.
In other embodiments, the curable compositions may include thermosetting resin and solidification if necessary
Agent.Such curable compositions can be solidified by heating.Curing system suitable for different thermosetting resins is ability
Known to field technique personnel.
One or more additives selected from the following can be optionally added when preparing the curable compositions: bonding
Agent, curing accelerator, dyestuff, pigment, colorant, antioxidant, stabilizer, plasticizer, lubricant, flow ability modifying agent help
Agent, fire retardant, dripping inhibitor, anti-caking agent, adhesion promoter, conductive agent, polyvalent metal ion, impact modifying agent, demolding aids, nucleation
Agent etc..Additive therefor dosage is conventional amount used, or can requirement according to the actual situation be adjusted.
The curable compositions of preparation can be liquid system, liquid-solid system, gluey system or powdery solid system.Liquid
Body system can be evenly mixed;Pulverized solid system can directly be blended uniformly;Granulated solid system is available industrial common
Any disintegrating apparatus crush after be blended it is uniform.
In stepb, the weight for the curable compositions that Raney alloy particle, the total weight of titaniferous colloidal sol and step a are obtained
Amount according to the amount of expected Raney metal and titanium-containing oxide than that can determine, preferably 10:90-90:10, further preferably
25:75-75:25.
In step b, by the way that the mixture of Raney alloy particle, titaniferous colloidal sol and curable compositions is solidified and optionally will
Cured mixture crushes, and obtains catalyst precarsor.Curing mode and process conditions depend on the group of the curable compositions
At, and can be readily determined by those skilled in the art.For example, if thermoplastic resin is used as in curable compositions
Can carbonization organic matter, then can be by the way that the mixture of the Raney alloy particle and curable compositions be heated to the heat
The solidification of curable compositions more than the softening temperature of plastic resin is realized with then cooling;If thermosetting resin is used as
In curable compositions can carbonization organic matter, then can be by by the mixing of the Raney alloy particle and curable compositions
The solidification that object is heated to cause curing reaction to realize curable compositions;If natural organic polymer compounds such as starch,
Modified starch, cellulose, carboxymethyl cellulose and lignin be used as in curable compositions can carbonization organic matter, then can be with
Liquid medium in mixture and/or heating by removing the Raney alloy particle and curable compositions can be consolidated to realize
Change the solidification of composition.If desired, the cured mixture obtained by curing operation can use it is any known in the art
High-molecular organic material process equipment, by such as cutting, cutting, punching press or the methods of broken be processed into required shape
The particle of shape and size.
Carbonization, that is, high-temperature roasting described in step c, carries out, carburizing temperature is generally 400- generally in tubular heater
1200 DEG C, preferably 600-950 DEG C, protective gas are the inert gases such as nitrogen or argon gas, are carbonized 1-24 hours.For example, phenolic aldehyde
Resin 850 DEG C be carbonized 3 hours, can carbonization, form porous carbon.Higher carburizing temperature obtains after can making carbonization
Carbon it is more regular.Under Carbonization Conditions, the solidification of titaniferous colloidal sol, which is decomposed, obtains titanium-containing oxide.
Composite catalyst of the invention can be easy to be activated, and the method for the activation includes multiple described in base extraction
Mould assembly catalyst.
Specific base extraction activates the method for the composite catalyst and its condition used is substantially known.Example
Such as, the step of base extraction includes: and is activated with the lye of 0.5-30 weight % concentration described compound at 25 DEG C -95 DEG C
It type catalyst -72 hours 5 minutes, is activated with element that at least part dissolved out in Raney alloy can be leached.One
In kind preferred embodiment, the lye is sodium hydrate aqueous solution or potassium hydroxide aqueous solution.
The method have the advantages that:
(1) method for preparing catalyst used in the present invention is simple, and intensity is good, high temperature resistant.
(2) catalyst used in the present invention is compound fixed-bed thunder Buddhist nun type catalyst, and surface nature has both carbon and titaniferous
The characteristics of oxide, the catalyst surface and cellular structure, titanium-containing oxide that carbon skeleton can be provided close to neutrality can provide
The granule strength of surface acidity, enhancing catalyst granules in oxygen atmosphere, even if part carbon skeleton is oxidized loss, but due to containing
The presence of titanium oxide, catalyst granules will not complete dusting, be conducive to reactor safe and stable operation.
(3) reactivity of the catalyst used in the present invention is high, can be simultaneously by the hydrogen containing methanol and oxycarbide
In CO be removed to 1ppm hereinafter, methanol stripper is to 50ppm or less.
Other features and advantages of the present invention will then part of the detailed description can be specified.
Specific embodiment
The preferred embodiment of the present invention is described in more detail below.
Embodiment 1
(1) butyl titanate and dehydrated alcohol are mixed according to mass ratio 1:1, above-mentioned mixed solution is taken to be added to deionization
In water, the molar ratio of mixed solution and water is 1:3, is stirred 2 hours at room temperature, and titaniferous colloidal sol is made.
(2) by 50 parts of titaniferous colloidal sol obtained in step (1), liquid-state epoxy resin (Ba Ling petrochemical industry, CYD-128) 100 matter
Measure part, curing agent methyl tetrahydro phthalic anhydride (MeTHPA) (the Guangdong flourishing age reaches science and trade limited liability company) 85 mass parts, solidification promotion
1.5 mass parts of agent triethanolamine (TEA) (Tianjin Chemical Reagents Factory No.1) stir evenly.
(3) it weighs the mixture system prepared in 60g step (2) and 180g Nickel Aluminium Alloy Powder is thoroughly mixed, nickel aluminium
Ni content is 48% (weight) in alloy, and aluminium content 52% (weight) takes appropriate mixture to be added in cylindrical die, with flat
Plate vulcameter is molded 30mins under conditions of 120 DEG C of temperature, pressure 7MPa, with compression molding instrument in 150 DEG C of temperature, pressure
90mins is molded under conditions of 7MPa, it is cooling to take out to get particulate catalyst precursor is arrived;
(4) 100ml catalyst precarsor is measured, is put into tubular type high-temperature electric resistance furnace, under the nitrogen flow of 200ml/min, with
10 DEG C/min of heating rate is warming up to 600 DEG C of carburizing temperature, is kept for 3 hours at such a temperature, then cools down, obtain compound urge
Agent.
(5) 20%NaOH aqueous solution 400g is configured with deionized water, and added it to compound obtained by 50ml step (4)
In catalyst.Obtained mixture is kept for 8 hours at 85 DEG C, then filters out solution, and by solids deionized water
Washing is to close neutrality, the composite catalyst activated.The composite catalyst of the activation is deposited in deionized water
It is spare.Nickel content of metal is about 55% (weight) in the composite catalyst of the activation, and the content of titanium elements is about 5%
(weight), the poidometer of the catalyst based on activation.
Embodiment 2
(1) butyl titanate and dehydrated alcohol are mixed according to mass ratio 1:1, above-mentioned mixed solution is taken to be added to deionization
In water, the molar ratio of mixed solution and water is 1:3, is stirred 2 hours at room temperature, and titaniferous colloidal sol is made.
(2) by 100 mass parts of titaniferous colloidal sol obtained in step (1), liquid-state epoxy resin (Ba Ling petrochemical industry, CYD-128)
100 mass parts, curing agent methyl tetrahydro phthalic anhydride (MeTHPA) (the Guangdong flourishing age reaches science and trade limited liability company) 85 mass parts, solidification
1.5 mass parts of promotor triethanolamine (TEA) (Tianjin Chemical Reagents Factory No.1) stir, and obtain curable mixing
Objects system.
(3) it weighs the mixture system prepared in 60g step (2) and 180g Nickel Aluminium Alloy Powder is thoroughly mixed, nickel aluminium
Ni content is 48% (weight) in alloy, and aluminium content 52% (weight) takes appropriate mixture to be added in cylindrical die, with flat
Plate vulcameter is molded 30mins under conditions of 120 DEG C of temperature, pressure 7MPa, with compression molding instrument in 150 DEG C of temperature, pressure
90mins is molded under conditions of 7MPa, it is cooling to take out, obtain particulate catalyst precursor.
(4) 100ml catalyst precarsor is measured, is put into tubular type high-temperature electric resistance furnace, under the nitrogen flow of 200ml/min, with
10 DEG C/min of heating rate is warming up to 600 DEG C of carburizing temperature, is kept for 3 hours at such a temperature, then cools down, obtain compound urge
Agent.
(5) 20%NaOH aqueous solution 400g is configured with deionized water, and added it to compound obtained by 50ml step (4)
In catalyst.Obtained mixture is kept for 8 hours at 85 DEG C, then filters out solution, and by solids deionized water
Washing is to close neutrality, the composite catalyst activated.The composite catalyst of the activation is deposited in deionized water
It is spare.Nickel content of metal is about 50% (weight) in the composite catalyst of the activation, and the content of titanium elements is about 9%
(weight), the poidometer of the catalyst based on activation.
Comparative example 1
This comparative example is used to illustrate the preparation of the not catalyst of titanium-containing oxide:
(1) by liquid-state epoxy resin (Ba Ling petrochemical industry, CYD-128) 100 mass parts, curing agent methyl tetrahydro phthalic anhydride
(MeTHPA) (the Guangdong flourishing age reaches science and trade limited liability company) 85 the mass parts, (Tianjin curing accelerator triethanolamine (TEA)
Learn one factory of reagent) 1.5 mass parts stir evenly.
(2) epoxy systems prepared in 50g step (1) are weighed and 180g Nickel Aluminium Alloy Powder is thoroughly mixed, nickel aluminium closes
Ni content is 48% (weight) in gold, and aluminium content 52% (weight) takes appropriate mixture to be added in cylindrical die, uses plate
Vulcameter is molded 30mins under conditions of 120 DEG C of temperature, pressure 7MPa, with compression molding instrument in 150 DEG C of temperature, pressure 7MPa
Under conditions of be molded 90mins, it is cooling to take out to get particulate catalyst precursor is arrived.
(3) 100ml catalyst precarsor is measured, is put into tubular type high-temperature electric resistance furnace, under the nitrogen flow of 200ml/min, with
10 DEG C/min of heating rate is warming up to 700 DEG C of carburizing temperature, is kept for 3 hours at such a temperature, then cools down, obtain compound urge
Agent.
(4) 20%NaOH aqueous solution 400g is configured with deionized water, and added it to compound obtained by 50ml step (3)
In catalyst.Gained mixture is kept for 4 hours at 85 DEG C, then filters out solution, and solids is washed with deionized
To close neutrality, the composite catalyst activated.The composite catalyst of the activation is deposited in spare in deionized water.
Nickel content of metal is about 55% (weight), the poidometer of the catalyst based on activation in the composite catalyst of the activation.
Comparative example 2
This comparative example is used to illustrate the preparation of the traditional catalyst of alumina load:
The nickel-metal catalyst of alumina load is prepared by pressed disc method.First by 1kg basic nickel carbonate NiCO3·2Ni
(OH)2·4H2O is with after a certain amount of boehmite kneading, and dry, roasting is granulated, and compression molding is Φ 3mm × 3mm cylinder
Shape catalyst granules restores and contains 56% (weight) nickel metal in rear catalyst, reacts for fixed bed hydrogenation.
Embodiment 3
Fixed bed reaction evaluation:
It measures 10ml catalyst and is packed into stainless steel fixed bed reactors, be passed through high pure nitrogen, nitrogen flow 300ml/
Min is heated to 120 DEG C, is kept for 2 hours;Raw material solid/liquid/gas reactions are then switched to, reaction temperature is adjusted, contains CO in unstripped gas
20000ppm, 10000ppm containing methanol, other specific reaction conditions are listed in table.Gas composition uses gas-chromatography point after reaction
Analysis, chromatographic detector FID, CO content can be as accurate as 1ppm.Embodiment 1-3, comparative example 1-2 is set forth in table 1-4
Detailed assessment result.Outlet CO content (ppm) is smaller, shows that the activity of catalyst is higher.
1 embodiment of table, 1 catalyst reaction evaluation result
2 embodiment of table, 2 catalyst reaction evaluation result
3 comparative example of table, 1 catalyst reaction evaluation result
4 comparative example of table, 2 catalyst reaction evaluation result
Can be seen that method of the invention from the above reaction result can be by the methanol and oxycarbide in hydrogen while logical
Methanation removing is crossed, and catalyst used in the present invention is better than catalyst reaction performance used in comparative example 1,2.In addition, phase
It can be to avoid oxidation of coal using the method for catalyst of the present invention due to the presence of titanium-containing oxide than in the catalyst of comparative example 1
Catalyst granules loss of strength caused by loss guarantees reactor stable operation.
Various embodiments of the present invention are described above, above description is exemplary, and non-exclusive, and
It is not limited to disclosed each embodiment.Without departing from the scope and spirit of illustrated each embodiment, for this skill
Many modifications and changes are obvious for the those of ordinary skill in art field.
Claims (17)
1. a kind of purification method of the hydrogen-rich gas containing methanol and oxycarbide, which is characterized in that, will in fixed bed reactors
Hydrogen-rich gas containing methanol and oxycarbide is contacted with the composite catalyst after activation, in 200-400 DEG C of reaction temperature, pressure
0.1-7.0MPa, gas space velocity are less than 20000h-1, entrance oxycarbide concentration≤20000ppm, entrance methanol concentration≤
Methanation reaction is carried out under conditions of 20000ppm;
The composite catalyst includes: continuous phase carbon, dispersed phase Raney alloy particle and dispersed phase titanium-containing oxide, wherein dividing
Dephasing Raney alloy particle and dispersed phase titanium-containing oxide are respectively evenly or uniformly dispersed in continuous phase carbon, described continuous
Phase carbon is by obtaining after at least one organic carbon being carbonized, and the titanium-containing oxide is through titaniferous sol-gel heat
What decomposition obtained;
The Raney alloy particle includes Raney metal nickel and the element that can be leached;The element being leached is preferably selected from
At least one of aluminium, zinc and silicon.
2. according to the method described in claim 1, wherein, with the total weight of the composite catalyst after the activation, nickel
Content is 20-80wt%, preferably 45-65wt%.
3. according to the method described in claim 1, wherein, the weight ratio of the Raney metal and the element being leached is excellent
It is selected as 1:99-10:1, further preferably 1:10-4:1.
4. according to the method described in claim 1, wherein, the Raney alloy particle further include selected from Mo, Cr, Ti, Pt, Pd,
The promotor of at least one of Rh and Ru, the content of the promotor are the 0.01-5wt% of Raney alloy particle total weight.
5. according to the method described in claim 1, wherein, the organic matter being carbonized be selected from rubber, thermosetting plastics and
The synthetic organic polymer compound of at least one of thermoplastic;
The rubber is preferably butadiene-styrene rubber and/or polyurethane rubber;
The thermosetting plastics is preferably selected from least one of epoxy resin, phenolic resin and furane resins;
The thermoplastic is preferably selected from least one in polystyrene, styrene-divinylbenzene copolymer and polyacrylonitrile
Kind.
6. according to the method described in claim 1, wherein, the organic matter being carbonized is selected from starch, modified starch, viscose glue
The natural organic polymer compounds of at least one of fiber, lignin, cellulose and carboxymethyl cellulose.
7. according to the method described in claim 1, wherein, the organic matter being carbonized is selected from coal, bitumen, asphalt
At least one of with coal tar pitch.
8. according to the method described in claim 1, wherein, the organic matter being carbonized is selected from polyaniline, polypyrrole and to gather
The conducting polymer compound of at least one of thiophene.
9. being preferably selected from TiO, TiO according to the method described in claim 1, wherein, the titanium-containing oxide is titanyl compound2
And Ti2O3At least one of.
10. according to the method described in claim 1, wherein, the titaniferous colloidal sol is obtained by metatitanic acid ester hydrolysis;The titanate esters are excellent
It is selected as tetraisopropyl titanate and/or butyl titanate.
11. method described in any one of -10 according to claim 1, wherein the composite catalyst has following characteristics
At least one of:
The average grain diameter of the Raney alloy particle is 0.1-1000 microns;
The composite catalyst is in sphere, hemisphere, ring bodies, half-annuli, cylindrical body, semicylinder, hollow cylinder
The combination of body, prism, cuboid, cube, tooth form object, irregular particle shape or the above shape;
The composite catalyst is in granular form, and has the average equivalent diameter within the scope of 0.3mm-20mm.
12. method described in any one of -10 according to claim 1, wherein the composite catalyst is by including following
The method of step is made:
A, curable compositions are prepared, the curable compositions or its cured product include the organic matter that can be carbonized;
B, Raney alloy particle, titaniferous colloidal sol are mixed with the obtained curable compositions of step a, then makes obtained mixing
Object solidification, and optionally crush cured mixture, obtain catalyst precarsor;
C, composite catalyst is made under inert gas protection, catalyst precarsor described in high temperature cabonization.
13. according to the method for claim 12, wherein the composite catalyst passes through method comprising the following steps system
:
A, curable compositions are often prepared with curing formula according to the organic matter that can be carbonized, the curable compositions are liquid
Or it is powdered;Titanate esters are hydrolyzed, titaniferous colloidal sol is obtained;
B, Raney alloy particle, titaniferous colloidal sol are uniformly mixed with the curable compositions that step a is obtained, is then made obtained
Mixture molded curing, titaniferous colloidal sol become gel, obtain catalyst precarsor;
C, composite catalyst is made under inert gas protection, catalyst precarsor described in high temperature cabonization.
14. according to the method for claim 12, wherein the preparation method of the composite catalyst has in following characteristics
At least one:
In stepb, the weight ratio for the curable compositions that Raney alloy particle, the total weight of titaniferous colloidal sol and step a are obtained
For 10:90-90:10, more preferably 25:75-75:25;
In step c, carburizing temperature is 400-1200 DEG C, and carbonization time is 1-24 hours;
In step c, inert gas is nitrogen or argon gas.
15. method described in any one of -10 according to claim 1, wherein the method for the activation includes using base extraction
The composite catalyst.
16. according to the method for claim 15, wherein the step of base extraction includes: to use at 25 DEG C -95 DEG C
The lye of 0.5-30 weight % concentration activates the composite catalyst -72 hours 5 minutes.
17. according to the method described in claim 1, wherein, reaction temperature is 280-350 DEG C, pressure 2.0-4.0MPa, gas
Air speed is less than 10000h-1, entrance oxycarbide concentration is less than 10000ppm, and entrance methanol concentration is less than 5000ppm.
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US3542906A (en) * | 1964-08-16 | 1970-11-24 | Bridgestone Tire Co Ltd | Production of butadiene-styrene graft copolymers with a catalyst containing a nickel complex |
CN104944373A (en) * | 2014-03-27 | 2015-09-30 | 中国石油化工股份有限公司 | Method for removing trace amount of oxycarbide in hydrogen-rich gas |
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US3542906A (en) * | 1964-08-16 | 1970-11-24 | Bridgestone Tire Co Ltd | Production of butadiene-styrene graft copolymers with a catalyst containing a nickel complex |
CN104944373A (en) * | 2014-03-27 | 2015-09-30 | 中国石油化工股份有限公司 | Method for removing trace amount of oxycarbide in hydrogen-rich gas |
CN104944373B (en) * | 2014-03-27 | 2017-05-31 | 中国石油化工股份有限公司 | A kind of method of trace amounts of oxycarbide removing in hydrogen-rich gas |
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