CN109647452A - Prepare the hydrogenation catalyst of cyclohexylamine - Google Patents
Prepare the hydrogenation catalyst of cyclohexylamine Download PDFInfo
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- CN109647452A CN109647452A CN201710933983.8A CN201710933983A CN109647452A CN 109647452 A CN109647452 A CN 109647452A CN 201710933983 A CN201710933983 A CN 201710933983A CN 109647452 A CN109647452 A CN 109647452A
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- B01J—CHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
- B01J27/00—Catalysts comprising the elements or compounds of halogens, sulfur, selenium, tellurium, phosphorus or nitrogen; Catalysts comprising carbon compounds
- B01J27/14—Phosphorus; Compounds thereof
- B01J27/185—Phosphorus; Compounds thereof with iron group metals or platinum group metals
- B01J27/1853—Phosphorus; Compounds thereof with iron group metals or platinum group metals with iron, cobalt or nickel
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- B01J37/00—Processes, in general, for preparing catalysts; Processes, in general, for activation of catalysts
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- C07C209/00—Preparation of compounds containing amino groups bound to a carbon skeleton
- C07C209/68—Preparation of compounds containing amino groups bound to a carbon skeleton from amines, by reactions not involving amino groups, e.g. reduction of unsaturated amines, aromatisation, or substitution of the carbon skeleton
- C07C209/70—Preparation of compounds containing amino groups bound to a carbon skeleton from amines, by reactions not involving amino groups, e.g. reduction of unsaturated amines, aromatisation, or substitution of the carbon skeleton by reduction of unsaturated amines
- C07C209/72—Preparation of compounds containing amino groups bound to a carbon skeleton from amines, by reactions not involving amino groups, e.g. reduction of unsaturated amines, aromatisation, or substitution of the carbon skeleton by reduction of unsaturated amines by reduction of six-membered aromatic rings
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Abstract
The present invention relates to the hydrogenation catalysts for preparing cyclohexylamine, mainly solve the problems, such as that the yield of aniline catalytic hydrogenation synthesizing cyclohexane 1 amine in the prior art and selectivity are low.Using the hydrogenation catalyst for preparing cyclohexylamine, including carrier and active component, the carrier is P Modification Al2O3, active component includes Co element and promoter elements;The promoter elements include the technical solution selected from least one of Group IIB metal metallic element, preferably solve the problems, such as this, can be used in the industrial production of cyclohexylamine.
Description
Technical field
The present invention relates to the hydrogenation catalysts for preparing cyclohexylamine.
Background technique
Cyclohexylamine also known as hexahydrophthalic anilide, aminocyclohexane are a kind of colourless transparent liquids, have strong fish to smell as of rotten fish amine taste, energy
It is miscible with water and common organic solvents.It is important Organic Chemicals and fine-chemical intermediate, is mainly used in rubber
In glue auxiliary agent, food additives, anti-corrosion, papermaking, plastic processing and textile industry.
Foreign countries' production is concentrated mainly on western developed country and area with application, and main manufacturer has U.S.'s air products
Company, Celanese Corp., the manufacturer of the scales such as BASF Aktiengesellschaft, Beyer Co., Ltd not etc..But in Europe, due to by
The limitation of hydrogen feed, cyclohexylamine are constantly in non-starving condition.The production capacity of domestic production cyclohexylamine is close to 100,000 tons/year, master
Want producer to have: in Qingdao Jin Tianchang, Hebei Ji, Weifang development, Shandong it is permanent big etc..2010, the consuming capacity of China's cyclohexylamine
At 70,000 tons/year, with the rapid development of food additives honey element and rubber industry, the consumption of cyclohexylamine is all with average annual 10%
Above speed increases.
The process route of the preparation of cyclohexylamine is relatively more, mainly there is aniline catalytic hydrogenation method, nitrocyclohexane reduction method, chlorine
Ammonolysis process is catalyzed for hexamethylene catalysis ammonolysis process, cyclohexanol gas phase ammoniation process and cyclohexanone.
1. nitrocyclohexane reduction method: this method generates hexamethylene using nitrocyclohexane and hydrogen as raw material, using reducing agent
Amine, since nitrocyclohexane raw material is difficult to obtain, this method is eliminated substantially.2. chlorocyclohexane be catalyzed ammonolysis process: this method with
Chlorocyclohexane and ammonia are raw material, carry out catalysis reaction to it.Its process route is longer, and the selectivity of cyclohexylamine is poor, and anti-
Product is answered to contain hydrogen chloride, the requirement to equipment is very high.3. cyclohexanol gas phase ammoniation process: it is in nickel/SiO 2 catalyst
Under effect, cyclohexanol and ammonia liquid-phase hydrogenatin generate cyclohexylamine and dicyclohexyl amine, and the yield of product cyclohexylamine and dicyclohexyl amine is 3:
1, the conversion ratio of cyclohexanol is 70% or so, and the country is there is not yet industrialization report.4. aniline catalytic hydrogenation method: raw by raw material of benzene
The method for producing cyclohexylamine mainly includes that benzene one-step method directly produces two processes of aniline and aniline catalytic hydrogenation.Aniline catalysis adds
Hydrogen method has two kinds of process routes of normal pressure and pressurization.Two kinds of techniques all have the advantages of technical maturity, raw material is easy to get, but device is general
Property is small, can only production list one cyclohexylamine, it is impossible to be used in produce other organic amines;And there are aniline conversion per pass for the technique
The defects of low and cyclohexylamine poor selectivity.
But from the point of view of the easy sexual clorminance and prospect in the source from raw material, cost advantage and technique, aniline catalytic hydrogenation is more
With can operating space, therefore this method has obtained the favor of domestic and international research institution.The Mink etc. of Hungarian research institute
In " Hydrogenation of aniline to cyclohexylamine amine on NaOH-promoted or
Lanthana supported Nickel " in describe a variety of methods for preparing Ni catalyst that have studied, discovery is catalyzed in aniline
In the gas phase reaction for adding hydrogen cyclohexylamine, traditional Ni catalyst is added in NaOH auxiliary agent, the cyclohexylamine started choosing can be made
Selecting property improves 5% or so;Patent DE1975457 (Hydrogenation process and hetaroganeous
catalysts for the preparation of mixtures of optionally sustituted
Cyclohexylamine and dicyclo-hexylamine fromthe correrponing anilines) it teaches
It is 100~350 DEG C, available very high by aniline plus the mixture of hydrogen cyclohexylamine and dicyclohexyl amine under conditions of 1~40MPa
Yield and selectivity.The carrier of the heterogeneous catalyst used in the reaction is Al2O3, active component is 0.50%~10%
Ru and Pd.Many research institutions all making an issue of on aniline catalytic hydrogenation catalyst in effort at present, but effect is unobvious, very
The difficult technical barrier and obstacle for successfully breaking aniline catalytic hydrogenation catalyst.I.e. above-mentioned existing method is in synthesizing cyclohexane 1 amine mistake
Cheng Zhongjun has that cyclohexylamine yield is low and selectivity is not high.
Summary of the invention
The first technical problem to be solved by the present invention is the yield of the cyclohexylamine problem low with selectivity, is provided a kind of new
The hydrogenation catalyst for preparing cyclohexylamine, the catalyst have the characteristics that cyclohexylamine high income and selectivity it is high.
The second technical problem to be solved by the present invention is the preparation method of above-mentioned hydrogenation catalyst.
The third technical problem to be solved by the present invention is the application of above-mentioned hydrogenation catalyst.
In order to solve the above-mentioned technical problem one of, The technical solution adopted by the invention is as follows: prepare cyclohexylamine plus hydrogen is urged
Agent, including carrier and active component, the carrier are P Modification Al2O3, active component includes Co element and co-catalyst member
Element;The promoter elements include selected from least one of Group IIB metal metallic element.
In above-mentioned technical proposal, phosphorus element content is preferably 0.10~3.00g/L in the carrier, such as, but not limited to
0.15,0.20,0.30,0.40,0.50,0.60,0.90,1.0,1.30,1.50,1.60,1.70,1.80,1.90,2.0,2.5,
2.9 etc., more preferable 0.80~2.00g/L.
In above-mentioned technical proposal, Group IIB metal preferably is selected from least one of Zn, Cd and Hg in the hydrogenation catalyst,
It still more preferably simultaneously include Zn and Cd.Zn and Cd in terms of improving cyclohexylamine yield and cyclohexylamine selectivity there is collaboration to make
With.The ratio of Zn and Cd is not particularly limited, and the weight ratio of such as, but not limited to Zn and Cd are 0.10~10.00, in this range
The non-limitative example of interior more specific weight ratio can be 0.20,0.40,0.50,0.60,0.80,1.00,1.20,1.40,
1.60,1.80,2.00,2.50,3.00,3.50,4.00,4.50,5.00,5.50,6.00,6.50,7.00,7.50,8.00 etc.
Deng.
In above-mentioned technical proposal, the promoter elements be can further include in alkali metal element at least
One kind improving cyclohexylamine yield and cyclohexylamine between metallic element in the metallic element and Group IIB metal in alkali metal at this time
Selectivity aspect has synergistic effect.As non limiting example, such as, but not limited to lithium is cooperateed with cadmium, and lithium is cooperateed with zinc
Deng.The ratio of alkali metal element and Group IIB metal element is not particularly limited at this time, such as, but not limited to alkali metal element and IIB
The weight ratio of race's metallic element is 0.10~10.00, and the non-limitative example of more specific weight ratio can be within this range
0.20、0.40、0.50、0.60、0.80、1.00、1.20、1.40、1.60、1.80、2.00、2.50、3.00、3.50、4.00、
4.50,5.00,5.50,6.00,6.50,7.00,7.50,8.00 etc..
In above-mentioned technical proposal, alkali metal preferably is selected from least one in Li, Na, K, Rb and Cs in the hydrogenation catalyst
Kind, it still more preferably simultaneously include Na and Li.Na and Li has association in terms of improving cyclohexylamine yield and cyclohexylamine selectivity
Same-action.The ratio of Na and Li is not particularly limited, and the weight ratio of such as, but not limited to Na and Li are 0.10~10.00, herein
In range the non-limitative example of more specific weight ratio can be 0.20,0.40,0.50,0.60,0.80,1.00,1.20,
1.40、1.60、1.80、2.00、2.50、3.00、3.50、4.00、4.50、5.00、5.50、6.00、6.50、7.00、7.50、
8.00 etc..
In above-mentioned technical proposal, the content of Co is preferably 1.00~8.00g/L in the hydrogenation catalyst, such as but unlimited
In, 1.50g/L, 2.00g/L, 2.50g/L, 3.00g/L, 3.50g/L, 4.00g/L, 4.50g/L, 5.00g/L, 5.50g/L,
6.00g/L, 6.50g/L, 7.00g/L, 7.50g/L etc., more preferably 1.50~5.00g/L.
In above-mentioned technical proposal, promoter elements content is preferably 0.50~10.00g/L in the hydrogenation catalyst,
Such as, but not limited to, 0.70g/L, 0.80g/L, 1.00g/L, 1.50g/L, 2.00g/L, 2.50g/L, 3.00g/L, 3.50g/L,
4.00g/L、4.50g/L、5.00g/L、5.50g/L、6.00g/L、6.50g/L、7.00g/L、7.50g/L、8.00g/L、
8.50g/L, 9.00g/L, 9.50g/L etc.;More preferably 1.00~6.00g/L.
In above-mentioned technical proposal, the carrier is preferably obtained using the method included the following steps:
(1) phosphorous compound is configured to aqueous solution dipping Al2O3, it is dried to obtain the precursor carrier I;
(2) above-mentioned precursor carrier I is roasted under reduction and/or inert atmosphere, obtains the modified support.
In above-mentioned technical proposal, the phosphorous compound preferably is selected from phosphoric acid, ammonium phosphate ((NH4)3PO4), diammonium hydrogen phosphate
((NH4)2HPO4And at least one of phosphorus pentoxide.Wherein the phosphoric acid preferably be selected from hypophosphorous acid, phosphorous acid, orthophosphoric acid,
At least one of at least one of pyrophosphoric acid, polyphosphoric acids, preferably orthophosphoric acid, pyrophosphoric acid, polyphosphoric acids.
In above-mentioned technical proposal, step (1) drying temperature is preferably 100~120 DEG C, such as, but not limited to 105 DEG C, 110
℃,115℃;Step (1) drying time preferably 3~10 hours, such as, but not limited to 4 hours, 5 hours, 6 hours, 7 hours, it is 8 small
When, 9 hours etc..
In above-mentioned technical proposal, the gas of step (2) is not specially required, and inert atmosphere can be 0 in the periodic table of elements
The inert gas (at least one of helium, neon and argon) and/or nitrogen, the reducibility gas of race can be hydrogen.
In above-mentioned technical proposal, step (2) maturing temperature is preferably 500~700 DEG C, such as, but not limited to 550 DEG C, 600
DEG C, 650 DEG C etc..The time of roasting preferably 3~10 hours, such as, but not limited to 4 hours, 5 hours, 6 hours, 7 hours, it is 8 small
When, 9 hours etc..
To solve above-mentioned technical problem two, technical scheme is as follows:
The preparation method of hydrogenation catalyst described in any one of technical solution of one of above-mentioned technical problem, including it is as follows
Step:
(i) solution containing cobalt element and promoter elements is mixed by the composition of catalyst with carrier, obtains catalyst
Precursor;
(ii) it is dried to obtain the catalyst.
In above-mentioned technical proposal, as non-restrictive, the corresponding particular compound of step (i) cobalt element preferably is selected from vinegar
At least one of sour cobalt, ammonium cobaltous sulfate, cobalt chloride, cobalt nitrate, cobalt oxalate, cobaltous sulfate, cobalt carbonate and cobalt phosphate;More preferable sulphur
Sour cobalt ammonium.
The corresponding materialization of Group IIB metal element in above-mentioned technical proposal, as non limiting example, in step (i)
It closes object and preferably is selected from zinc citrate, zinc gluconate, zinc acetate, zinc nitrate, cadmium acetate, caddy, cadmium nitrate, mercuric acetate, nitric acid
At least one of mercurous and mercuric sulfate;More preferably from least one of zinc citrate and cadmium acetate.
In above-mentioned technical proposal, as non limiting example, when the co-catalyst in step (i) still further comprises alkali gold
When category, the corresponding particular compound of alkali metal element preferably is selected from alkali metal oxide, alkali metal hydroxide, alkali metal chlorine at this time
At least one of compound, alkali metal sulfates, alkali family metal nitrate and alkali metal acetate;More preferable alkali metal acetate
At least one of;Most preferably from least one of sodium acetate and lithium acetate.
In above-mentioned technical proposal, step (ii) drying temperature is preferably 30~120 DEG C, such as, but not limited to 60 DEG C, 70 DEG C,
80 DEG C, 90 DEG C, 100 DEG C, 110 DEG C, more select 80~120 DEG C;Step (ii) drying time is preferably 1~5 hour, such as but not
It is limited to 1.5 hours, 2.0 hours, 2.5 hours, 3.0 hours, 3.5 hours, 4.0 hours, 4.5 hours etc..
To solve above-mentioned technical problem three, technical scheme is as follows:
Application of the catalyst described in any one of technical solution of one of above-mentioned technical problem in cyclohexylamine synthesis.
Key of the invention is the selection of catalyst, and concrete technology condition those skilled in the art of application can be closed
Reason determine and without involving an inventive effort.
Such as concrete application method may is that
The synthetic method of cyclohexylamine, the hydrogenation catalyst described in any one of technical solution of one of above-mentioned technical problem are deposited
Under, hydrogen and aniline reaction obtain cyclohexylamine.
In above-mentioned technical proposal, raw material is than preferred are as follows: hydrogen/aniline=(20.0~40.0)/1.0 (molar ratio), it is optimal
Selecting raw material ratio is hydrogen/aniline=(25.0~35.0)/1.0.
In above-mentioned technical proposal, the temperature of hydrogenation reaction is preferably 120~300 DEG C, and more preferable 185~220 DEG C.
In above-mentioned technical proposal, the volume space velocity of hydrogenation reaction is preferably 1800~3000h-1, more preferable 2100~
2800h-1。
In above-mentioned technical proposal, the pressure of hydrogenation reaction is preferably 0.05~0.50MPa.
If not specializing, pressure of the present invention is in terms of gauge pressure.
Aniline can be obtained from commercially available channel, or the synthesis of phenylamino oxidizing process can be used.The side of synthesizing cyclohexane 1 amine of the present invention
In method, the suitable phenylamino oxidation catalyst of the known selection of those skilled in the art and determine suitable reaction temperature, when
Between and material proportion.For the such as, but not limited to active constituent of catalyst based on Ni or Cu, it is auxiliary ingredients that Ti, Cr etc., which is added,.
Carrier used can be active carbon, aluminium glue, silica gel or molecular sieve.
Preferred Ni-Ti/SiO in the present invention2For the catalyst of the direct ammoxidation reaction of benzene one-step method.Suitable Ni-Ti/
SiO2The content of nickel element preferably 2.50~5.00g/L in catalyst, more preferable 3.00~4.50g/L;The content of titanium elements is excellent
Select 0.50~3.00g/L, more preferable 1.00~2.00g/L.Suitable ammoxidation reaction temperature is preferably 80~350 DEG C;Ammonia
Oxidation pressure preferably 8.0~50.0MPa;The ammoxidation reaction time is preferably 0.5~5h;Benzene and hydroxylamine hydrochloride rub
That ratio preferably 0.5~3.0.After benzene ammoxidation, can the mixture to phenylamino oxidation carry out separation obtain mesh
Mark product aniline carries out catalytic hydrogenation again, can also be added with not separating directly to carry out being catalyzed after benzene ammoxidation generation aniline
Hydrogen.But cause system complexity convenient on year-on-year basis, the specific embodiment of the invention is all made of the progress of purified petroleum benzin amine to exclude other impurity
Catalytic hydrogenation.
The product mixtures of above-mentioned hydrogenation reaction can obtain target product cyclohexylamine through separation.
Product after hydrogenation reaction of the present invention is analyzed through gas chromatograph-mass spectrometer (GC-MS) (GC-MASS), based on following equation
Calculate the yield and selectivity of cyclohexylamine:
Compared with prior art, hydrogenation catalyst of the invention improves the yield and selectivity of cyclohexylamine.
The experimental results showed that cyclohexylamine yield selectively reaches 91.56% up to 81.55% when using the present invention, obtain
Preferable technical effect.Especially in catalyst carrier for hydrgenating P Modification, the active component of hydrogenation catalyst includes simultaneously
Cobalt selected from least one of alkali metal metallic element and when being selected from least one of Group IIB metal metallic element, achieves
Technical effect more outstanding.Below by embodiment, the present invention is further elaborated.
Specific embodiment
[embodiment 1]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of the Co containing 2.18g4)2Co(SO4)2·6H2) and the lithium acetate of the Li containing 1.88g O
(LiOAc) aqueous solution 200ml is immersed in P/Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, Li content 1.88g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 81.55%, and selectivity is 91.56%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
[embodiment 2]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of the Co containing 2.18g4)2Co(SO4)2·6H2) and the zinc citrate of the Zn containing 1.88g O
(Zn3(C6H5O7)2·2H2O aqueous solution 200ml) is immersed in P/Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, Zn content 1.88g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 81.32%, and selectivity is 91.74%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
[comparative example 1]
For the comparative example of [embodiment 1] and [embodiment 2].
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of the Co containing 2.18g4)2Co(SO4)2·6H2O) aqueous solution 200ml is immersed in 1L diameter
6mm, Kong Rongwei 0.92cm3/ g, specific surface area 200cm2The Al of/g2O3On, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 70.18%, and selectivity is 83.21%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
By can be seen that the present invention compared with Examples 1 to 2 using phosphorous compound to support modification, and add hydrogen
Catalyst, active component simultaneously using containing Co, Li active component, simultaneously the catalyst performance ratio containing Co, Zn active component
It is more excellent containing only the performance of Co active constituent catalyst, illustrate activity of hydrocatalyst component while including using containing Co and being selected from
At least one of alkali metal and Group IIB metal metallic element are conducive to the activity and stability that improve hydrogenation catalyst, hexamethylene
The yield and selectivity of amine will be high.
[comparative example 2]
For the comparative example of [comparative example 1].
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of the Co containing 2.18g4)2Co(SO4)2·6H2O) aqueous solution 200ml is immersed in P/
Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 72.69%, and selectivity is 85.34%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
The Al containing P Modification is used by can be seen that the present invention compared with comparative example 12O3Preparation plus hydrogen catalyst,
Than directly using Al2O3Preparation plus hydrogen catalyst, the performance of catalyst is more excellent, illustrates to use P/Al2O3Be conducive to aniline
Catalytic hydrogenation, the yield and selectivity of cyclohexylamine will be high.
[embodiment 3]
Modified support P/Al2O3Preparation:
(1) ammonium phosphate (NH of the P containing 0.80g4)3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei
0.92cm3/ g, specific surface area 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier
I。
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 0.80g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of the Co containing 2.18g4)2Co(SO4)2·6H2) and the potassium acetate of the K containing 1.88g O
(KOAc) aqueous solution 200ml is immersed in P/Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, K content 1.88g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 81.45%, and selectivity is 91.48%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
[embodiment 4]
Modified support P/Al2O3Preparation:
(1) the diammonium hydrogen phosphate ((NH of the P containing 2.00g4)2HPO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rong
For 0.92cm3/ g, specific surface area 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, before obtaining the carrier
Body I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 2.00g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of the Co containing 2.18g4)2Co(SO4)2·6H2) and the acetic acid rubidium of the Rb containing 1.88g O
(RbOAc) aqueous solution 200ml is immersed in P/Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, Rb content 1.88g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 81.46%, and selectivity is 91.47%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
[embodiment 5]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of the Co containing 2.18g4)2Co(SO4)2·6H2) and the acetic acid rubidium of the Cs containing 1.88g O
(CsOAc) aqueous solution 200ml is immersed in P/Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, Cs content 1.88g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 81.40%, and selectivity is 91.50%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
[embodiment 6]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of the Co containing 2.18g4)2Co(SO4)2·6H2) and the acetic acid rubidium of the Na containing 1.88g O
(NaOAc) aqueous solution 200ml is immersed in P/Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, Na content 1.88g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 81.43%, and selectivity is 91.59%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
[embodiment 7]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of the Co containing 2.18g4)2Co(SO4)2·6H2) and the cadmium acetate (Cd of the Cd containing 1.88g O
(OAC)2·2H2O it) is dissolved in the aqueous acetic acid that concentration is 10wt%, obtains maceration extract 200ml and be immersed in P/Al2O3, urged
Agent precursor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, Cd content 1.88g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 81.35%, and selectivity is 91.69%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
[embodiment 8]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of the Co containing 1.50g4)2Co(SO4)2·6H2) and the mercuric acetate (Hg of the Hg containing 1.00g O
(OAC)2·2H2O it) is dissolved in cold water, obtains maceration extract 200ml and be immersed in P/Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 1.50g/L, Hg content 1.00g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 79.95%, and selectivity is 90.89%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
[embodiment 9]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of the Co containing 5.00g4)2Co(SO4)2·6H2) and the zinc acetate (Zn of the Zn containing 6.00g O
(OAC)2·2H2O aqueous solution 200ml) is immersed in P/Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 3.00g/L, Zn content 6.00g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 81.17%, and selectivity is 90.20%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
[embodiment 10]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of Co containing 2.18g, Zn containing 0.98g and the Cd containing 0.90g4)2Co(SO4)2·6H2O)、
Zinc citrate (Zn3(C6H5O7)2·2H2) and cadmium acetate (Cd (OA OC)2·2H2O) it is dissolved in the aqueous acetic acid that concentration is 10wt%
In, it obtains maceration extract 200ml and is immersed in P/Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, Zn content 0.98g/L, Cd content 0.90g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 82.28%, and selectivity is 92.39%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
Found out on year-on-year basis by embodiment 10 and embodiment 2 and embodiment 7, in yield and the selectivity side for improving cyclohexylamine
Face, metallic element Zn has with metallic element Cd in the hydrogenation catalyst that the present invention uses, in Group IIB metal preferably cooperates with work
With.
[embodiment 11]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of Co containing 2.18g, Li containing 1.02g and the Na containing 0.86g4)2Co(SO4)2·6H2O)、
The aqueous solution 200ml of lithium acetate (LiOAc) and sodium acetate (NaOAc) is immersed in P/Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, Li content 1.02g/L, Na content 0.86g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 82.48%, and selectivity is 92.16%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
Found out on year-on-year basis by embodiment 11 and embodiment 1 and embodiment 6, in yield and the selectivity side for improving cyclohexylamine
Face, in the hydrogenation catalyst that the present invention uses, metallic element Li and metallic element Na have preferable synergistic effect in alkali metal.
[embodiment 12]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of Co containing 2.18g, Li containing 0.92g and the Zn containing 0.96g4)2Co(SO4)2·6H2O)、
Lithium acetate (LiOAc) and zinc citrate (Zn3(C6H5O7)2·2H2O aqueous solution 200ml) is immersed in P/Al2O3, obtain catalyst
Precursor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, Li content 0.92g/L, Zn content 0.96g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 83.11%, and selectivity is 92.79%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
Found out on year-on-year basis by embodiment 12 and embodiment 1 and embodiment 2, in yield and the selectivity side for improving cyclohexylamine
Face, in the hydrogenation catalyst that the present invention uses, metallic element Li has preferably in metallic element Zn and alkali metal in Group IIB metal
Synergistic effect.
[embodiment 13]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of Co containing 2.18g, Li containing 0.92g and the Cd containing 0.96g4)2Co(SO4)2·6H2O)、
Lithium acetate (LiOAc) and cadmium acetate (Cd (OAC)2·2H2O it) is dissolved in the aqueous acetic acid that concentration is 10wt%, obtains maceration extract
200ml is immersed in P/Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, Li content 0.92g/L, Cd content 0.96g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 83.21%, and selectivity is 92.67%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
Found out on year-on-year basis by embodiment 13 and embodiment 1 and embodiment 7, in yield and the selectivity side for improving cyclohexylamine
Face, in the hydrogenation catalyst that the present invention uses, metallic element Li has preferably in metallic element Cd and alkali metal in Group IIB metal
Synergistic effect.
[embodiment 14]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of Co containing 2.18g, Li containing 0.92g, Zn containing 0.54g and the Cd containing 0.42g4)2Co
(SO4)2·6H2O), lithium acetate (LiOAc), zinc citrate (Zn3(C6H5O7)2·2H2) and cadmium acetate (Cd (OA OC)2·2H2O)
It is dissolved in the aqueous acetic acid that concentration is 10wt%, obtains maceration extract 200ml and be immersed in P/Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, Li content 0.92g/L, Zn content 0.54g/L, Cd content
0.42g/L。
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 84.45%, and selectivity is 93.76%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
Found out on year-on-year basis by embodiment 14 and embodiment 12 and embodiment 13, in yield and the selectivity side for improving cyclohexylamine
Face, in the hydrogenation catalyst that the present invention uses, in Group IIB metal in metallic element Zn, Cd and alkali metal metallic element Li have compared with
Good synergistic effect.
[embodiment 15]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the ammonium cobaltous sulfate ((NH of Co containing 2.18g, Na containing 0.92g, Zn containing 0.54g and the Cd containing 0.42g4)2Co
(SO4)2·6H2O), sodium acetate (NaOAc), zinc citrate (Zn3(C6H5O7)2·2H2) and cadmium acetate (Cd (OA OC)2·2H2O)
It is dissolved in the aqueous acetic acid that concentration is 10wt%, obtains maceration extract 200ml and be immersed in P/Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, Na content 0.92g/L, Zn content 0.54g/L, Cd content
0.42g/L。
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 84.54%, and selectivity is 93.54%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
[embodiment 16]
Modified support P/Al2O3Preparation:
(1) phosphoric acid (H of the P containing 1.48g3PO4) aqueous solution 180ml be immersed in 1L diameter 6mm, Kong Rongwei 0.92cm3/g、
Specific surface area is 200cm2The Al of/g2O3On, stand for 24 hours, 110 DEG C drying 4 hours, obtain the precursor carrier I.
(2) by precursor carrier I under nitrogen gas atmosphere 630 DEG C of roasting 5h, obtain the modified support P/Al2O3。
Measuring the P content in the carrier through ICP is 1.48g/L.
The preparation of hydrogenation catalyst:
(i) by the cobaltous sulfate of Co containing 2.18g, Li containing 0.48g, Na containing 0.44g, Zn containing 0.54g and the Cd containing 0.42g
Ammonium ((NH4)2Co(SO4)2·6H2O), lithium acetate (LiOAc), sodium acetate (NaOAc), zinc citrate (Zn3(C6H5O7)2·2H2O)
With cadmium acetate (Cd (OAC)2·2H2O it) is dissolved in the aqueous acetic acid that concentration is 10wt%, obtains maceration extract 200ml and be immersed in P/
Al2O3, obtain catalyst precarsor I;
(ii) 110 DEG C drying 4 hours, obtain the catalyst.
The Co content for measuring the catalyst through ICP is 2.18g/L, Li content 0.48g/L, Na content 0.44g/L, Zn content
0.54g/L, Cd content 0.42g/L.
The synthesis of cyclohexylamine:
35ml catalyst is packed into microreactor, using nitrogen leak test, it is ensured that after system is without leak source, aniline is through measuring
Pump, which enters in vaporizer, to be vaporized, and controls 190 DEG C of vapourizing temperature of vaporizer, hydrogen along with aniline flow to vertical direction into
Enter vaporizer, unstripped gas is obtained after vaporizer mixes, hydrogen/aniline=30.0/1.0 (molar ratio) in unstripped gas.Then, former
Expect gas with 2400h-1Volume space velocity enter reactor, 187 DEG C of reaction temperature, reaction pressure (gauge pressure) 0.28MPa.After reaction
Mixed gas enters condenser from reactor bottom and is condensed, and analyzes product.
Yield through analytical calculation cyclohexylamine is 85.18%, and selectivity is 94.33%, for ease of description and is compared, will
Preparation, reaction condition, material inlet amount, cyclohexylamine yield and the selectivity of the support modification, hydrogenation catalyst of hydrogenation catalyst
It is listed in Tables 1 and 2 respectively.
Found out on year-on-year basis by embodiment 16 and embodiment 14 and embodiment 15, in yield and the selectivity side for improving cyclohexylamine
Face, in the hydrogenation catalyst that the present invention uses, metallic element Li, Na have in metallic element Zn, Cd and alkali metal in Group IIB metal
Preferable synergistic effect.
Table 1
Table 2
Claims (9)
1. preparing the hydrogenation catalyst of cyclohexylamine, including carrier and active component, the carrier is P Modification Al2O3, active component
Including Co element and promoter elements;The promoter elements include selected from least one of Group IIB metal metal member
Element.
2. hydrogenation catalyst according to claim 1, it is characterised in that in the carrier phosphorus element content be 0.10~
3.00g/L。
3. hydrogenation catalyst according to claim 1, it is characterised in that Group IIB metal is selected from the hydrogenation catalyst
At least one of Zn, Cd and Hg.
4. hydrogenation catalyst according to claim 1, it is characterised in that Co constituent content is in the hydrogenation catalyst
1.00~8.00g/L.
5. hydrogenation catalyst according to claim 1, it is characterised in that promoter elements content is in hydrogenation catalyst
0.50~10.00g/L.
6. hydrogenation catalyst according to claim 1, it is characterised in that the carrier is using the method included the following steps
It obtains:
(1) phosphorous compound is configured to aqueous solution dipping Al2O3, it is dried to obtain the precursor carrier I;
(2) above-mentioned precursor carrier I is roasted under reduction and/or inert atmosphere, obtains the modified support.
7. hydrogenation catalyst according to claim 6, it is characterised in that the phosphorous compound is selected from phosphoric acid, phosphoric acid
At least one of ammonium, diammonium hydrogen phosphate and phosphorus pentoxide.
8. the preparation method of hydrogenation catalyst described in claim 1, includes the following steps:
(i) solution containing cobalt element and promoter elements is mixed by the composition of catalyst with carrier, obtains catalyst precarsor;
(ii) it is dried to obtain the catalyst.
9. application of the catalyst described in any one of claim 1~8 in cyclohexylamine synthesis.
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