CN101428230A - Catalysts for the ammoxidation of alkanes - Google Patents

Catalysts for the ammoxidation of alkanes Download PDF

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CN101428230A
CN101428230A CNA2007100478691A CN200710047869A CN101428230A CN 101428230 A CN101428230 A CN 101428230A CN A2007100478691 A CNA2007100478691 A CN A2007100478691A CN 200710047869 A CN200710047869 A CN 200710047869A CN 101428230 A CN101428230 A CN 101428230A
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catalyst
solution
ammoxidation
ammoxidation reaction
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CN101428230B (en
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张顺海
汪国军
吴粮华
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China Petroleum and Chemical Corp
Sinopec Shanghai Research Institute of Petrochemical Technology
China Petrochemical Corp
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Sinopec Shanghai Research Institute of Petrochemical Technology
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Abstract

The invention provides a catalyst for ammoxidation of alkanes. The catalyst contains silicon dioxide carrier and a composite compound of the following formula in atomic ratio: MoVaNb<b>Te<c>DdOx, wherein D is at least one selected from Sn, Ti, Fe, Bi, Sb and W. The catalyst mainly solves the problems of volatilization loss of Te, complicated preparation process, unstable production environment and poor catalyst stability due to volatilization of active components of the catalyst. In order to solve the problems in the prior art, the technical scheme is as follows: the catalyst contains a Mo-V-Nb-Te group as a major component; and a reducer is added in the preparation process to change the preparation environment, that is, the salts or the oxides of Mo and Te are dissolved firstly, then the salts or the oxides of V and Nb are added in the resulting solution, the required amount of the reducer is added to adjust the oxidation state, and finally the required amount of the silica sol is added. The catalyst has the advantages of excellent oxidation-reduction stability, low reaction temperature, clean reaction product and high yield, and is applied to the industrial production of unsaturated nitrile via ammoxidation of alkanes.

Description

The catalyst of alkane ammoxidation reaction
Technical field
The present invention relates to a kind of catalyst of alkane ammoxidation reaction.Especially the catalyst of propane ammoxidation acrylonitrile production and iso-butane prepared by ammoxidation methacrylonitrile.
Background technology
Although the most of ammoxidation of propylene technology that adopts BP/Sohio of the production of acrylonitrile at present, but along with the variation in petrochemical industry market and going deep into of alkane selective oxidation research, because propane and the price difference XOR iso-butane of propylene and the price variance of isobutene, come into one's own day by day by the process route of propane ammoxidation acrylonitrile production or iso-butane prepared by ammoxidation methacrylonitrile.
For obtaining the propane ammoxidation acrylonitrile production catalyst of high activity, high selectivity, people have carried out a series of improvement through constantly exploring.Previously attempt to develop a kind of propane ammoxidation is generated the effective ways of acrylonitrile, the result is that yield is not high enough, perhaps must add halogen and make co-catalyst in the charging thing.In the charging thing, must add halogen and do in the co-catalyst method, not only require reactor to make, and require the co-catalyst quantitative recovery by extraordinary resistant material.This surcharge has been offset the advantage of propane/propylene price difference, has hindered these catalyst in industrial application.
Patent CN1029397C discloses certain O composite metallic oxide catalyst that contains V, Sb, W and some optional elements, is applied in C 3-C 4Alkane ammoxidation is produced α, the method of alpha, beta-unsaturated nitriles and alkene, wherein the average valence mumber of Sb be higher than+3, the average valence mumber of V is lower than+and 5, the method is used in propane ammoxidation when producing acrylonitrile, in the reactant steam need be arranged, severe reaction conditions is brought influence to later industrialized plant capacity.
Patent CN1062306A discloses the catalyst system of alkane ammoxidation; adopt a kind of granulate mixture of two kinds of catalyst components; first kind of catalyst component is effective especially to quickening by alkane generation unsaturated nitrile and alkene; second kind of catalyst component is effective especially to the conversion of unsaturated nitrile to quickening alkene; the method system complexity, acrylonitrile yield is lower.
Patent CN1178903C discloses the vanadium-antimony-oxide substrate catalyst that the molybdenum that is used for selective paraffin ammoxidation helps catalysis, with the catalyst after the moistening equably calcining of the aqueous solution that contains molybdenum, dry, wash with isobutanol again after the calcining, the method preparation process complexity, in preparation process, wash with isobutanol, and then dry, operate dangerous property.
Patent CN1087734C discloses a kind of method that is prepared acrylonitrile or methacrylonitrile by propane or iso-butane through ammoxidation, catalyst comprises that composite oxides and load thereon have the silica supports of composite oxides, and wherein composite oxides are expressed as:
Mo 1Te aV bNb cX dO n
Wherein X is at least a element that is selected from tantalum, tungsten, chromium, titanium, zirconium, antimony, bismuth, tin, hafnium, manganese, iron, ruthenium, cobalt, rhodium, nickel, palladium, platinum, zinc, aluminium, gallium, indium, thallium, phosphorus and alkaline-earth metal.
Above-mentioned catalyst can obtain higher acrylonitrile yield, but contains volatile element Te in the catalyst activity component, need add Te in reaction, and stability is bad, thereby does not have enough life-spans to make this method uneconomical.
Patent CN1174801C discloses a kind of formula Mo that contains 1V aNb bX cZ yQ fO n, wherein X is at least a element that is selected from Te and Sb; Y is at least a element that is selected from A1 and W; Z is at least a element that is selected from the element that can be individually formed the oxide with rutile structure, and has the source use of the Z oxide of rutile structure as the Z of preparation catalyst; Q is at least a element that is selected from titanium, tin, germanium, lead, tantalum, ruthenium, rhenium, rhodium, iridium, platinum, chromium, manganese, technetium, osmium, iron, arsenic, cerium, cobalt, magnesium, nickel and zinc; And the Q compound that does not have rutile structure uses as the source of the Q of preparation catalyst.The catalyst acrylonitrile yield that this method makes is higher, but forms complicatedly, and the ingredient requirement height makes that industrial production repeatability is bad and seems uneconomical.
Patent CN1771085A discloses a kind of catalytic gas phase oxidation of propane or iso-butane or oxide catalyst of gas phase catalysis ammoxidation of being used for, it comprises with the specific atoms ratio and contains molybdenum (Mo), vanadium (V), niobium (Nb) and antimony (Sb) as the oxide of component, uses H 2O 2Adjust the percent reduction and the specific area of methods such as the oxidation state control catalyst of oxide.The catalyst that this method makes can stably be produced unsaturated carboxylic acid or unsaturated nitrile with higher yields for a long time, but the controlled condition harshness makes Catalyst Production be difficult for.
All exist corresponding salt of Sb or oxide to reflux among the existing preparation method, adopt the V of severe toxicity 2O 5Be raw material, or the catalyst activity component that makes is volatile and cause problems such as catalyst stability is bad, directly causes preparation environment instability in the preparation process at last, makes that corresponding unsaturated nitrile yield is not high or catalyst stability is bad and seem uneconomical.
Summary of the invention
Technical problem to be solved by this invention is to overcome all to exist Sb to reflux in the above-mentioned document to cause complicated process of preparation and yield not high, and the volatile bad problem of catalyst stability that causes of Te provides a kind of catalyst of new alkane ammoxidation reaction.This catalyst has advantages of excellent oxidation-reduction stability, and reaction temperature is low, and product cleans and can keep for a long time the advantage of higher yields.
In order to solve the problems of the technologies described above, the technical solution used in the present invention is as follows: a kind of catalyst of alkane ammoxidation reaction, contain silica supports and comprise the composition of following general formula with atomic ratio measuring:
MoV aNb bTe cD dO x
Wherein, D is selected from least a among Sn, Ti, Fe, Bi, Sb or the W;
The span of a is 0.1~1.0;
The span of b is 0.01~1.0;
The span of c is 0.01~1.0;
The span of d is 0~1.0;
X satisfies the required oxygen atom sum of each element valence in the catalyst;
The consumption of carrier silica is 30~70% of catalytic amount by weight percentage in the catalyst;
This Preparation of catalysts comprises the steps:
1) with aequum Mo and corresponding salt of Te or the oxide solution (I) of making soluble in water;
2) with corresponding salt of aequum V or the oxide solution (II) of making soluble in water;
3) with corresponding salt of aequum Nb or the oxide solution (III) of making soluble in water;
4) aequum is selected from least a reducing agent solution (IV) of making soluble in water in oxalic acid, hydrazine hydrate, tartaric acid or the pyruvic alcohol;
5) solution (II) is joined in the solution (I), successively solution (III) and solution (IV) are joined wherein again, add a certain amount of Ludox at last, make the slurry of catalyst, this slurry stirs evaporation down at 80~180 ℃ and obtains viscous paste always, dry then, temperature be in 400~800 ℃ the inert atmosphere roasting 0.5~8 hour the alkane ammoxidation catalyst.
In the technique scheme, the reducing agent preferred version is to be selected from least a in oxalic acid or the pyruvic alcohol, the mol ratio preferable range of reducing agent and Mo is 0.01~0.8, catalyst sintering temperature preferable range is 500~700 ℃, the calcination atmosphere preferred version is a nitrogen, and the roasting time preferable range is 1~4 hour.
The raw material of preparation catalyst of the present invention is:
The most handy corresponding oxide of molybdenum component in the catalyst or its ammonium salt, the most handy corresponding oxide of vanadium component or its ammonium salt, the most handy corresponding oxide of tellurium component, hydroxide or its ammonium salt in the catalyst; Niobium can be with its oxide, hydroxide, nitrate or oxalates.
For reaching above-mentioned purpose and advantage, method of the present invention also is included in gas phase makes the alkane that is selected from propane and iso-butane and molecular oxygen and ammonia carry out catalytic reaction, wherein reactant reacts at reaction zone and catalyst, preparation α, alpha, beta-unsaturated nitriles, acrylonitrile or methacrylonitrile, desired molecule oxygen can be used pure oxygen from technical standpoint in the raw material components, oxygen enrichment and air, but from economy and the most handy air of security consideration.
Entering the ammonia of fixed bed reactors and the mol ratio of propane is between 0.8~1.5, is preferably 1.0~1.3.The mol ratio of air and propane is 8~16, is preferably 9.0~14.But from security consideration, the excess of oxygen in the reacting gas can not preferably be not more than 4% greater than 7% (volume).
When catalyst of the present invention was used for fixing bed bioreactor, reaction temperature was 370~450 ℃, was preferably 390~440 ℃.Though catalyst of the present invention is formed simple, but owing to improved the Preparation of catalysts method, in preparation process, regulate the oxidation state of oxide, thereby make that generating crystal between Te, the Mo obtains good catalyst stability, the catalyst that availability can be good by adding reducing agent.Catalyst of the present invention has to be formed simply, and needed raw material is easy to get, good reproducibility, and the catalyst yield height that makes has good stability, and reaction temperature is low, has obtained better technical effect.
Activity of such catalysts of the present invention examination is to carry out in internal diameter is 8 millimeters fixed bed reactors.Loaded catalyst 2.0 gram, 405 ℃ of reaction temperatures, reaction pressure are normal pressure, raw material proportioning (mole) is a propane: ammonia: air=1: 1.2: 10, catalyst time of contact is 1.2 gram-second/milliliters.
Conversion of propane, acrylonitrile selectivity and once through yield are defined as follows in the present invention:
Figure A200710047869D00061
Figure A200710047869D00062
Figure A200710047869D00063
The invention will be further elaborated below by embodiment, but the present invention is not limited by following examples.
The specific embodiment
[embodiment 1]
15.0 gram ammonium heptamolybdates and 4.46 gram telluric acids are dissolved in the 69.2 gram hot water, make solution (I); 3.06 gram ammonium metavanadates are dissolved in the 60.0 gram hot water, make solution (II); 5.78 gram niobium oxalates are dissolved in the 16.0 gram hot water, make solution (III); 2.32 gram oxalic acid are dissolved in 5 grams make solution (IV) in the water.Under agitation solution (I) is joined in the solution (II), add solution (III) and solution (IV) more successively, add 50 gram weight concentration at last and be 40% Ludox, make the slurry of catalyst, this slurry is stirred evaporation down at 90 ℃ obtain viscous paste always, dry then, grind, roasting is 2 hours in 600 ℃ of nitrogen atmospheres, can get propane ammoxidation catalyst Mo 1V 0.31Nb 0.22Te 0.23O x+ 50%SiO 2, get 20~40 orders behind the compressing tablet and carry out the fixed bed micro anti-evaluation.
[comparative example 1]
15.0 gram ammonium heptamolybdates and 4.46 gram telluric acids are dissolved in the 69.2 gram hot water, make solution (I); 3.06 gram ammonium metavanadates are dissolved in the 60.0 gram hot water, make solution (II); 5.78 gram niobium oxalates are dissolved in the 16.0 gram hot water, make solution (III).Under agitation solution (I) is joined in the solution (II), add solution (III) again, add 50 gram weight concentration at last and be 40% Ludox, make the slurry of catalyst, this slurry is stirred evaporation down at 90 ℃ obtain viscous paste always, dry then, grind, roasting is 2 hours in 600 ℃ of nitrogen atmospheres, can get propane ammoxidation catalyst Mo 1V 0.31Nb 0.22Te 0.23O x+ 50%SiO 2, get 20~40 orders behind the compressing tablet and carry out the fixed bed micro anti-evaluation.
[embodiment 2~6 and comparative example 2~3]
Adopt method substantially the same manner as Example 1 preparation to have the different catalyst of forming in the following table, and under following reaction condition, carry out the reaction of propane ammoxidation generation acrylonitrile, specifically change and the results are shown in Table 1 with prepared catalyst.
The reaction condition of the foregoing description and comparative example is:
Internal diameter is 8 millimeters fixed bed reactors
405 ℃ of reaction temperatures
The reaction pressure atmospheric pressure
Loaded catalyst 2.0 grams
Catalyst gram-second/milliliter times of contact 1.2
Raw material proportioning (mole) propane/ammonia/air=1/1.2/10
Table 1
Embodiment Catalyst is formed The preparation committed step Conversion of propane % Acrylonitrile selectivity %
Embodiment 1 Mo 1V 0.31Nb 0.22Te 0.23O x Reducing agent is an oxalic acid, and the mol ratio of oxalic acid and Mo is 0.3 56.2 54.5
Comparative example 1 Mo 1V 0.31Nb 0.22Te 0.23O x No reducing agent 45.6 30.0
Comparative example 2 Mo 1V 0.31Nb 0.22Te 0.01O x Reducing agent is an oxalic acid, and the mol ratio of oxalic acid and Mo is 0.9, roasting in the air 7.7 4.6
Comparative example 3 Mo 1V 1.1Nb 0.11Te 0.23O x No reducing agent, roasting in the air 7.5 4.3
Embodiment 2 Mo 1V 0.42Nb 0.22Te 0.23O x Reducing agent is a pyruvic alcohol, the mol ratio 0.8 of pyruvic alcohol and Mo 52.9 48.6
Embodiment 3 Mo 1V 0.31Nb 0.22Te 0.23Bi 0.01O x Roasting in 500 ℃ of nitrogen 51.8 49.2
Embodiment 4 Mo 1V 0.31Nb 0.11Te 0.23O x Reducing agent is an oxalic acid, and the mol ratio of oxalic acid and Mo is 0.4 49.8 54.3
Embodiment 5 Mo 1V 0.31Nb 0.22Te 0.17O x Roasting is 4 hours in 700 ℃ of nitrogen 50.2 48.5
Embodiment 6 Mo 1V 0.31Nb 0.22Te 0.23O x Reducing agent is an oxalic acid, and the mol ratio of oxalic acid and Mo is 0.3, and successive reaction is after 30 days 55.1 53.9
The stable appraisal result of embodiment 6 and comparative example 1 sees Table 2
Table 2
Figure A200710047869D00081

Claims (6)

1, a kind of catalyst of alkane ammoxidation reaction, contain silica supports and comprise the composition of following general formula with atomic ratio measuring:
MoV aNb bTe cD dO x
Wherein, D is selected from least a among Sn, Ti, Fe, Bi, Sb or the W;
The span of a is 0.1~1.0;
The span of b is 0.01~1.0;
The span of c is 0.01~1.0;
The span of d is 0~1.0;
X satisfies the required oxygen atom sum of each element valence in the catalyst;
The consumption of carrier silica is 30~70% of catalytic amount by weight percentage in the catalyst;
This Preparation of catalysts comprises the steps:
1) with aequum Mo and corresponding salt of Te or the oxide solution (I) of making soluble in water;
2) with corresponding salt of aequum V or the oxide solution (II) of making soluble in water;
3) with corresponding salt of aequum Nb or the oxide solution (III) of making soluble in water;
4) aequum is selected from least a reducing agent solution (IV) of making soluble in water in oxalic acid, hydrazine hydrate, tartaric acid or the pyruvic alcohol;
5) solution (II) is joined in the solution (I), successively solution (III) and solution (IV) are joined wherein again, add a certain amount of Ludox at last, make the slurry of catalyst, this slurry stirs evaporation down at 80~180 ℃ and obtains viscous paste always, dry then, temperature be in 400~800 ℃ the inert atmosphere roasting 0.5~8 hour the alkane ammoxidation catalyst.
2, the catalyst of alkane ammoxidation reaction according to claim 1 is characterized in that reducing agent is at least a in oxalic acid or the pyruvic alcohol.
3, the catalyst of alkane ammoxidation reaction according to claim 1, the mol ratio that it is characterized in that reducing agent and Mo is 0.01~0.8.
4, the catalyst of alkane ammoxidation reaction according to claim 1 is characterized in that sintering temperature is 500~700 ℃.
5, the catalyst of alkane ammoxidation reaction according to claim 1 is characterized in that inert atmosphere is a nitrogen.
6, the catalyst of alkane ammoxidation reaction according to claim 1 is characterized in that roasting time is 1~4 hour.
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CN101797510A (en) * 2010-04-02 2010-08-11 华东理工大学 Catalyst containing rare earth for ammoxidation of alkane
CN101992106A (en) * 2009-08-31 2011-03-30 中国石油化工股份有限公司 Alkane ammoxidation catalyst
CN101992107B (en) * 2009-08-31 2012-08-01 中国石油化工股份有限公司 Method for preparing catalyst for alkane ammonia oxidation reaction

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UA57721C2 (en) * 1997-08-11 2003-07-15 Асахі Касеі Кабусікі Кайся A process for producing acrylonitrile or methacrylonitrile from propane or isobutane
EP1407819A3 (en) * 2002-10-01 2004-06-23 Rohm And Haas Company Hydrothermally synthesized Mo-V-M-Nb-X oxide catalysts for the selective oxidation of hydrocarbons
CN1931434A (en) * 2006-09-29 2007-03-21 浙江大学 Prepn process of catalyst for catalytic oxidation of propane to prepare acryl aldehyde

Cited By (5)

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Publication number Priority date Publication date Assignee Title
CN101992106A (en) * 2009-08-31 2011-03-30 中国石油化工股份有限公司 Alkane ammoxidation catalyst
CN101992107B (en) * 2009-08-31 2012-08-01 中国石油化工股份有限公司 Method for preparing catalyst for alkane ammonia oxidation reaction
CN101992106B (en) * 2009-08-31 2012-11-14 中国石油化工股份有限公司 Alkane ammoxidation catalyst
CN101797510A (en) * 2010-04-02 2010-08-11 华东理工大学 Catalyst containing rare earth for ammoxidation of alkane
CN101797510B (en) * 2010-04-02 2012-07-25 华东理工大学 Catalyst containing rare earth for ammoxidation of alkane

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