CN107866217B - Catalyst suitable for the preparation of 1,4- diacetoxy butane - Google Patents

Catalyst suitable for the preparation of 1,4- diacetoxy butane Download PDF

Info

Publication number
CN107866217B
CN107866217B CN201610851922.2A CN201610851922A CN107866217B CN 107866217 B CN107866217 B CN 107866217B CN 201610851922 A CN201610851922 A CN 201610851922A CN 107866217 B CN107866217 B CN 107866217B
Authority
CN
China
Prior art keywords
catalyst
nitrae
isosorbide
catalyst precarsor
diacetoxy
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
CN201610851922.2A
Other languages
Chinese (zh)
Other versions
CN107866217A (en
Inventor
查晓钟
杨运信
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sinopec Shanghai Research Institute of Petrochemical Technology
China Petrochemical Corp
Original Assignee
Sinopec Shanghai Research Institute of Petrochemical Technology
China Petrochemical Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sinopec Shanghai Research Institute of Petrochemical Technology, China Petrochemical Corp filed Critical Sinopec Shanghai Research Institute of Petrochemical Technology
Priority to CN201610851922.2A priority Critical patent/CN107866217B/en
Publication of CN107866217A publication Critical patent/CN107866217A/en
Application granted granted Critical
Publication of CN107866217B publication Critical patent/CN107866217B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J37/00Processes, in general, for preparing catalysts; Processes, in general, for activation of catalysts
    • B01J37/02Impregnation, coating or precipitation
    • B01J37/0201Impregnation
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J23/00Catalysts comprising metals or metal oxides or hydroxides, not provided for in group B01J21/00
    • B01J23/38Catalysts comprising metals or metal oxides or hydroxides, not provided for in group B01J21/00 of noble metals
    • B01J23/40Catalysts comprising metals or metal oxides or hydroxides, not provided for in group B01J21/00 of noble metals of the platinum group metals
    • B01J23/42Platinum
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J23/00Catalysts comprising metals or metal oxides or hydroxides, not provided for in group B01J21/00
    • B01J23/38Catalysts comprising metals or metal oxides or hydroxides, not provided for in group B01J21/00 of noble metals
    • B01J23/48Silver or gold
    • B01J23/50Silver
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01JCHEMICAL OR PHYSICAL PROCESSES, e.g. CATALYSIS OR COLLOID CHEMISTRY; THEIR RELEVANT APPARATUS
    • B01J23/00Catalysts comprising metals or metal oxides or hydroxides, not provided for in group B01J21/00
    • B01J23/70Catalysts comprising metals or metal oxides or hydroxides, not provided for in group B01J21/00 of the iron group metals or copper
    • B01J23/89Catalysts comprising metals or metal oxides or hydroxides, not provided for in group B01J21/00 of the iron group metals or copper combined with noble metals
    • B01J23/8926Copper and noble metals
    • CCHEMISTRY; METALLURGY
    • C07ORGANIC CHEMISTRY
    • C07CACYCLIC OR CARBOCYCLIC COMPOUNDS
    • C07C67/00Preparation of carboxylic acid esters
    • C07C67/28Preparation of carboxylic acid esters by modifying the hydroxylic moiety of the ester, such modification not being an introduction of an ester group
    • C07C67/283Preparation of carboxylic acid esters by modifying the hydroxylic moiety of the ester, such modification not being an introduction of an ester group by hydrogenation of unsaturated carbon-to-carbon bonds

Landscapes

  • Chemical & Material Sciences (AREA)
  • Organic Chemistry (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Heterocyclic Carbon Compounds Containing A Hetero Ring Having Oxygen Or Sulfur (AREA)
  • Catalysts (AREA)
  • Low-Molecular Organic Synthesis Reactions Using Catalysts (AREA)

Abstract

The present invention relates to be suitable for 1, the catalyst of 4- diacetoxy butane preparation, mainly solve in the prior art 1, the low problem of the yield and selectivity of 4- diacetoxy butane, using suitable for 1, the catalyst of 4- diacetoxy butane preparation, including carrier and active component, the carrier is active carbon, active component includes Pt element and promoter elements, and the promoter elements include the technical solution selected from least one of Group IVB metal metallic element, preferably solves the technical problem, it can be used in Isosorbide-5-Nitrae-diacetoxy butane industrial production.

Description

Catalyst suitable for the preparation of 1,4- diacetoxy butane
Technical field
The present invention relates to the catalyst for being suitable for the preparation of 1,4- diacetoxy butane.
Background technique
1,4-butanediol (Isosorbide-5-Nitrae-BDO) is a kind of important organic and fine chemical material, it be widely used in medicine, The fields such as chemical industry, weaving, papermaking, automobile and daily-use chemical industry.It can derive a series of fine chemical product of high added values. For example, tetrahydrofuran (THF), polybutylene terephthalate (PBT) (PBT), γ-fourth lactones (GBL) can be produced by Isosorbide-5-Nitrae-BDO It is ground with polyurethane resin (PU Resin) especially as the base stock of production PBT engineering plastics and PBT fiber Study carefully the extensive concern of mechanism.
The process route of the preparation of 1,4-butanediol is relatively more, and dividing from raw material used has acetylene, ethylene, propylene, fourth The raw material routes such as diene and cis-butenedioic anhydride, identical raw material also have different synthesis technologies.Since technical barrier is higher and raw material sources Limited, global Isosorbide-5-Nitrae-BDO produces Relatively centralized.2011, global Isosorbide-5-Nitrae-BDO production capacity was mainly distributed on Asia, US and European, Wherein Asia 1,4-BDO production capacity accounting is up to 56.6%.Currently, the industrialized preparing process of Isosorbide-5-Nitrae-BDO specifically includes that 1. alkynes aldehyde Method (Reppe method): this method makees catalyst using methanol copper and generates butynediols, butynediols using acetylene and formaldehyde as raw material Two-stage hydrogenation obtains 1,4-BDO again.Its prevailing technology mainly have BASF Corp. of Germany, the U.S. DuPont exploitation Reppe method with And the Reppe method of improvement.2. maleic anhydride process: this method carries out two steps to it and adds hydrogen using cis-butenedioic anhydride as raw material.The first step is urged in Ni-Re Under agent effect, maleic anhydride hydrogenation generates gamma-butyrolacton and tetrahydrofuran;Second step gamma-butyrolacton is in Mo-Cr-K2O catalyst is made 1,4-BDO is hydrogenated under.Its prevailing technology is mainly with the two-stage hydrogenation work of Japanese two water chestnut oilings and Mitsubishi's chemical conversion exploitation Skill.3. propylene method: mainly including allyl acetate method, acryladehyde method and allyl acetate-allyl alcohol method, Kuraray company develops at present Allyl acetate-allyl alcohol method has obtained industrial application, it is under rhodium catalyst, and allyl alcohol liquid-phase hydrogenatin formylated generates 4- hydroxyl fourth Aldehyde, then repeated hydrogenation generates 1,4-butanediol.4. butadiene process: the method that Isosorbide-5-Nitrae-BDO is produced as raw material using butadiene, it is main to wrap Butadiene acetoxylation method and butadiene chloridising are included, the technique of mainstream is by Mitsubishi chemical conversion and Cao Da company in 20 generation It records 80 years and develops, it successfully breaks the technical barrier and obstacle of Reppe method.Especially butadiene acetoxylation method is excellent Gesture and prospect have obtained the favor of domestic and international research institution.
It is well known that butadiene acetoxylation method is a three-steps process, i.e., butadiene and acetic acid, oxygen first is sent out Raw acetylization reaction, generates Isosorbide-5-Nitrae-diacetoxy butylene and by-product 3.4- diacetoxy butylene;Then 1,4- diacetyl Oxygroup butylene catalytic hydrogenation generates Isosorbide-5-Nitrae-diene acetoxyl group butane, and reaction is finally hydrolyzed and obtains Isosorbide-5-Nitrae-BDO.In Isosorbide-5-Nitrae-fourth For diene into 1,4-butanediol process route, Isosorbide-5-Nitrae-diacetoxy butylene catalytic hydrogenation generates Isosorbide-5-Nitrae-diene acetoxyl group butane As one of step, the yield and selectivity of hydrogenation products directly influence 1,4-butanediol relative to Isosorbide-5-Nitrae-butadiene Yield and selectivity.
It teaches in the patents such as patent US4032458 (production of 1,4-butanediol) and is being urged using furans Agent exists, and prepares 1,4-butanediol under the conditions of certain temperature and pressure.Patent CN94108094.3 (the system of 1,4- butanediol Preparation Method) it describes using cis-butenedioic anhydride as raw material, gas phase catalytic hydrogenation reaction preparation is carried out in the presence of the catalyst specifically designed 1,4- butanediol.Patent CN104326871A (a kind of preparation method of butanediol) is described using fixed-bed catalytic technology, will Content greater than 99% 2- butylene mixed with acetic acid, nitrogen, oxygen and water vapour high temperature after be passed through in fixed bed, catalyst with 1,4- butanediol is prepared under the conditions of certain temperature, pressure etc..But there is 1,4- during preparing 1,4-BDO in the above method The problem that BDO yield is low and selectivity is not high.
Summary of the invention
The first technical problem to be solved by the present invention is that the yield of 1,4- diacetoxy butane is asked with selectively low Topic, provides a kind of new catalyst for being suitable for Isosorbide-5-Nitrae-diacetoxy butane and preparing, which has Isosorbide-5-Nitrae-diacetoxy Butane high income and selective high feature.
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 1,4- diacetoxy butane using above-mentioned hydrogenation catalyst Synthetic method.
In order to solve the above-mentioned technical problem, The technical solution adopted by the invention is as follows: being suitable for Isosorbide-5-Nitrae-diacetoxy butane The catalyst of preparation, including carrier and active component, the carrier are active carbon, and active component includes Pt element and co-catalysis Agent element, the promoter elements include selected from least one of Group IVB metal metallic element.
In above-mentioned technical proposal, the active carbon is preferably coal quality column charcoal, cocoanut active charcoal, apricot shell active carbon and bamboo matter At least one of active carbon.
In above-mentioned technical proposal, the specific surface area of the active carbon is preferably 1000~1500cm2/ g, adsorption hole hold preferred For 0.60~1.00cm3/g。
In above-mentioned technical proposal, Group IVB metal preferably is selected from least one of Ti, Zr and Hf in the catalyst.More into One step includes simultaneously Ti and Zr.Ti and Zr is improving 1,4- diethyl acyl-oxygen butane yield and 1,4- diethyl acyl-oxygen butane selectivity side Face has synergistic effect.
In above-mentioned technical proposal, the promoter elements can also include at least one of IB race metal metal member Element is improving Isosorbide-5-Nitrae-diethyl acyl-oxygen butane yield and 1 between metallic element in metallic element and Group IVB metal in IB race at this time, 4- diethyl acyl-oxygen butane selectivity aspect has synergistic effect.As non limiting example, such as, but not limited to titanium is cooperateed with copper, Zirconium cooperates with etc. with copper.
In above-mentioned technical proposal, IB race metal preferably is selected from least one of Cu, Ag and Au in the catalyst, more into one Step preferably includes Cu and Ag simultaneously.Cu and Ag is improving 1,4- diethyl acyl-oxygen butane yield and 1,4- diethyl acyl-oxygen butane selectivity Aspect has synergistic effect.
In above-mentioned technical proposal, the content of Pt is preferably 1.00~8.80g/L in the catalyst, more preferably 1.50~ 5.00g/L。
In above-mentioned technical proposal, promoter elements content is preferably 0.50~10.00g/L in the catalyst, more excellent It is selected as 1.00~6.00g/L.
To solve above-mentioned technical problem two, technical scheme is as follows:
Method for preparing catalyst described in any one of technical solution of one of above-mentioned technical problem, includes the following steps:
1. mixing the solution of platiniferous element with carrier by the composition of catalyst, catalyst precarsor I is obtained;
2. obtaining catalyst precarsor II after catalyst precarsor I is aged;
3. being simple substance platinum by compound state platinum element reduction in catalyst precarsor II, catalyst precarsor III is obtained;
4. being washed, being dried to obtain catalyst precarsor IV;
5. the solution containing promoter elements is supported on catalyst precarsor IV using infusion process by the composition of catalyst, It is dried to obtain the catalyst.
In above-mentioned technical proposal, as non-restrictive, 1. the corresponding particular compound of platinum element preferably is selected from vinegar to step At least one of sour platinum, platinum chloride, ammonium chloroplatinite, dinitroso diammonia platinum, chloroplatinic acid and four ammino platinum chlorides;More preferably Ammonium chloroplatinite.
In above-mentioned technical proposal, as non limiting example, step 5. in the corresponding particular compound of Group IVB metallic element It preferably is selected from least one of titanium tetrachloride, ammonium titanium fluoride, hexafluorotitanic acid, metatitanic acid, zirconium chloride, acetic acid zirconium and oxychloride hafnium;More It is preferred that at least one of metatitanic acid and acetic acid zirconium.
In above-mentioned technical proposal, as non limiting example, when 5. middle promoter elements further include IB race metal to step When element, the corresponding particular compound of IB race metallic element preferably is selected from copper citrate, copper acetate, copper nitrate, copper chloride, sulfuric acid At least one of copper, silver acetate, silver nitrate, actol, silver tetrafluoroborate, gold chloride, gold oxide and tetra chlorauric acid ammonium;It is more excellent Selected from least one of copper acetate and silver nitrate.
In above-mentioned technical proposal, the reducing agent of step 3. does not specially require understanding based on those skilled in the art, also Former agent can be at least one of gas or liquid, the preferred hydrogen of reducing agent, hydrazine hydrate;4. drying temperature is preferably step 30~120 DEG C, drying time is preferably 1~5 hour;5. the drying temperature is preferably 80~120 DEG C to step, more preferably 100~120 DEG C.
To solve above-mentioned technical problem three, technical scheme is as follows:
Isosorbide-5-Nitrae-diacetoxy butane manufacturing method, described in any one of technical solution of one of above-mentioned technical problem In the presence of catalyst, hydrogen and Isosorbide-5-Nitrae-diacetoxy butene reaction obtain Isosorbide-5-Nitrae-diacetoxy butane.
Key of the invention is the selection of hydrogenation catalyst, and skilled person will know how determine according to actual needs Suitable hydrogenation process conditions reaction temperature, reaction time, reaction pressure and proportion of material etc..But:
In above-mentioned technical proposal, the temperature of hydrogenation reaction is preferably 20~120 DEG C.
In above-mentioned technical proposal, the pressure of hydrogenation reaction is preferably 1.0~10.0MPa, more preferable 1.0~6.0MPa.
In above-mentioned technical proposal, the time of hydrogenation reaction is preferably 0.5~5.0h, more preferable 0.5~2.0h.
Isosorbide-5-Nitrae-diacetoxy butylene can be obtained from commercially available channel, or the synthesis of butadiene Acetoxylation method can be used.Fourth It is butadiene Acetoxylation catalyst that diene Acetoxylation method, which synthesizes and Pd-Te/C can be selected,.Palladium in suitable Pd-Te/C catalyst The content of element preferably 2.50~5.00g/L, more preferable 3.00~4.50g/L;The content of tellurium element preferably 0.50~3.00g/ L, more preferable 1.00~2.50g/L.Suitable Acetoxylation reaction temperature is preferably 40~150 DEG C;Acetoxylation reaction pressure It is preferred that 1.0~10.0MPa;The Acetoxylation reaction time is preferably 0.5~5h;The molar ratio of butadiene and acetic acid preferably 0.010 ~2.0.After the reaction of butadiene Acetoxylation, the mixture that can be reacted butadiene Acetoxylation carries out separation and obtains target production Object Isosorbide-5-Nitrae-diacetoxy butylene carries out hydrogenation reaction of the present invention again, can not also separate and directly carry out hydrogenation reaction.But Cause system complexity convenient on year-on-year basis, specific embodiment of the invention department is all made of pure Isosorbide-5-Nitrae-diacetyl to exclude other impurity Oxygroup butylene is as hydrogenation reaction raw material.
The product mixtures of above-mentioned hydrogenation reaction can obtain target product 1,4- diacetoxy butane through separation.
1,4- diacetoxy butane can be further used for obtaining 1,4- butanediol by method for hydrolysis.Art technology The suitable hydrolyst of the known selection of personnel and determining suitable hydrolysising reacting temperature, time and material proportion.Common water Solution catalyst can be inorganic acid, inorganic base, organic acid and organic base.Such as hydrochloric acid, nitric acid, sulfuric acid, phosphoric acid, sodium hydroxide, Potassium hydroxide, benzene sulfonic acid and ion exchange resin.Suitable hydrolysising reacting temperature is preferably 30~100 DEG C;Hydrolysis pressure Power preferably 0~2.0MPa;The preferred water of solvent.
Product mixtures after hydrogenation reaction of the present invention are analyzed through gas chromatograph-mass spectrometer (GC-MS) (GC-MASS), by following The yield and selectivity of formula calculating 1,4- diacetoxy butane:
Compared with prior art, catalyst of the present invention improves Isosorbide-5-Nitrae-diethyl acyl-oxygen butane yield and selectivity.
The experimental results showed that Isosorbide-5-Nitrae-diacetoxy butane yield selectively reaches up to 82% or more when using the present invention 94% or more, achieve preferable technical effect.It simultaneously include especially platinum, selected from IB race metal in the active component of catalyst At least one of metallic element and when selected from least one of Group IVB metal metallic element, achieve skill more outstanding Art effect, can be used in the industrial production of 1,4-butanediol.Below by embodiment, the present invention is further elaborated.
Specific embodiment
[embodiment 1]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the copper acetate (Cu (OAc) of the Cu containing 1.87g2·H2O aqueous solution 180ml) is immersed in catalyst precarsor IV On, 110 DEG C drying 4 hours, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Cu content 1.87g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 82.37% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 94.16%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
[embodiment 2]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the acetic acid zirconium (Zr (OAc) of the Zr containing 1.87g4·8H2O it is water-soluble) to be completely dissolved in the acetic acid that concentration is 10wt% In liquid, obtain maceration extract 180ml and be immersed on catalyst precarsor IV, 110 DEG C drying 4 hours, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Zr content 1.87g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 82.44% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 94.02%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity 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:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 75.12% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 91.29%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
By the way that, as can be seen that the present invention is using the catalyst for adding hydrogen, active component makes simultaneously compared with Examples 1 to 2 With containing Pt, Cu active component, simultaneously the catalyst performance containing Pt, Zr active component than the performance containing only Pt active constituent catalyst It is more excellent, illustrate activity of hydrocatalyst component while using at least one containing Pt and in IB race metal and Group IVB metal Kind metallic element compound is conducive to the activity and stability that improve hydrogenation catalyst, Isosorbide-5-Nitrae-diacetoxy butane yield It will be high with selectivity.
[comparative example 2]
For the comparative example of [comparative example 1].
The preparation of hydrogenation catalyst:
1. by the ammonium chloropalladite ((NH of the Pd containing 2.05g4)2PdCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain the catalyst.
The Pd content for measuring the catalyst through ICP is 2.05g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 70.04% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 88.06%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
By can be seen that the present invention compared with comparative example 1 using the catalyst for adding hydrogen, contained using the ratio of active component containing Pt The performance of Pd active constituent catalyst is more excellent, illustrates that activity of hydrocatalyst component is conducive to Isosorbide-5-Nitrae-diacetoxy using Pt Butylene adds hydrogen, and Isosorbide-5-Nitrae-diacetoxy butane yield and selectivity will be high.
[embodiment 3]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the metatitanic acid (H of the Ti containing 1.87g4TiO4) be dissolved in the aqueous acetic acid that concentration is 10wt%, it is impregnated Liquid 180ml is immersed on catalyst precarsor IV, 110 DEG C drying 4 hours, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Ti content 1.87g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 82.43% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 94.03%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
[embodiment 4]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.60cm3/ g, specific surface area 1000cm2The coconut husk of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the copper nitrate (Cu (NO of the Cu containing 1.87g3)2) aqueous solution 180ml is immersed on catalyst precarsor IV, 100 DEG C It is 4 hours dry, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Cu content 1.87g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 82.36% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 94.14%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
[embodiment 5]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 1.00cm3/ g, specific surface area 1500cm2The apricot shell of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the copper citrate (Cu of the Cu containing 1.87g2C6H4O7·2.5H2O) it is completely dissolved in the acetic acid that concentration is 10wt% In aqueous solution, obtain maceration extract 180ml and be immersed on catalyst precarsor IV, 120 DEG C drying 4 hours, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Cu content 1.87g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 82.35% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 94.15%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
[embodiment 6]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2/ g's is bamboo Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the cupric tartrate (C of the Cu containing 1.87g4H4O6Cu·2H2O) it is completely dissolved in the acetic acid water that concentration is 10wt% In solution, obtain maceration extract 180ml and be immersed on catalyst precarsor IV, 110 DEG C drying 4 hours, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Cu content 1.87g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 82.37% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 94.17%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
[embodiment 7]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the silver nitrate (AgNO of the Ag containing 1.87g3) aqueous solution 180ml, it is immersed on catalyst precarsor IV, 110 DEG C are dry Dry 4 hours, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Ag content 1.87g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 50 DEG C, after sustained response 90min, stops anti- It answers.
It is 82.35% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 94.20%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
[embodiment 8]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 1.50g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the copper acetate (Cu (OAc) of the Cu containing 1.00g2·H2O) aqueous solution 180ml is immersed on catalyst precarsor IV, 110 DEG C drying 4 hours, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 1.50g/L, Cu content 1.00g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 1.0MPa, improves mixing speed first with 0.5MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 20 DEG C, after sustained response 30min, stops anti- It answers.Reaction kettle is down to room temperature, purified removal of impurities obtains Isosorbide-5-Nitrae-diacetoxy butane.
It is 80.58% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 93.87%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
[embodiment 9]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 5.00g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the copper acetate (Cu (OAc) of the Cu containing 6.00g2·H2O) aqueous solution 180ml is immersed on catalyst precarsor IV, 110 DEG C drying 4 hours, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 5.00g/L, Cu content 6.00g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 6.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 120 DEG C, after sustained response 120min, stops Reaction.
It is 82.94% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 93.69%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
[embodiment 10]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the copper acetate (Cu (OAc) of Cu containing the 1.00g and Ag containing 0.87g2·H2) and silver nitrate (AgNO O3) it is water-soluble Liquid 180ml is immersed on catalyst precarsor IV, 110 DEG C drying 4 hours, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Cu content 1.00g/L, Ag content 0.87g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 83.31% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 94.47%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
Found out on year-on-year basis by embodiment 10 and embodiment 1 and embodiment 7, is improving Isosorbide-5-Nitrae-diacetoxy butane yield In the hydrogenation catalyst used with selective aspect, the present invention, metallic element Cu and metal element A g have preferably in IB race metal Synergistic effect.
[embodiment 11]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the acetic acid zirconium (Zr (OAc) of Zr containing the 1.23g and Ti containing 0.64g4·8H2) and metatitanic acid (H O4TiO4) be dissolved in Concentration is to obtain maceration extract 180ml in the aqueous acetic acid of 10wt%, be immersed on catalyst precarsor IV, 110 DEG C of dryings 4 are small When, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Zr content 1.23g/L, Ti content 0.64g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 83.44% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 94.38%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
Found out on year-on-year basis by embodiment 11 and embodiment 2 and embodiment 3, is improving Isosorbide-5-Nitrae-diacetoxy butane yield In the hydrogenation catalyst used with selective aspect, the present invention, metallic element Zr and metal element Ti have preferably in Group IVB metal Synergistic effect.
[embodiment 12]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the copper acetate (Cu (OAc) of Cu containing the 1.10g and Zr containing 0.77g2·H2) and acetic acid zirconium (Zr (OAc) O4· 8H2O 180ml in aqueous solution) is immersed on catalyst precarsor IV, 110 DEG C drying 4 hours, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Cu content 1.10g/L, Zr content 0.77g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 84.40% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 95.07%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
Found out on year-on-year basis by embodiment 12 and embodiment 1 and embodiment 2, is improving Isosorbide-5-Nitrae-diacetoxy butane yield In the hydrogenation catalyst used with selective aspect, the present invention, metallic element Cu and metal member in Group IVB metal in IB race metal Plain Zr has preferable synergistic effect.
[embodiment 13]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the copper acetate (Cu (OAc) of Cu containing the 1.10g and Ti containing 0.77g2·H2) and metatitanic acid (H O4TiO4) be dissolved in Concentration is to obtain maceration extract 180ml in the aqueous acetic acid of 10wt%, be immersed on catalyst precarsor IV, 110 DEG C of dryings 4 are small When, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Cu content 1.10g/L, Ti content 0.77g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 84.33% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 95.18%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
Found out on year-on-year basis by embodiment 13 and embodiment 1 and embodiment 3, is improving Isosorbide-5-Nitrae-diacetoxy butane yield In the hydrogenation catalyst used with selective aspect, the present invention, metallic element Cu and metal member in Group IVB metal in IB race metal Plain Ti has preferable synergistic effect.
[embodiment 14]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the copper acetate (Cu (OAc) of Cu containing 1.10g, Zr containing 0.51g and the Ti containing 0.26g2·H2O), acetic acid zirconium (Zr (OAc)4·8H2) and metatitanic acid (H O4TiO4) be completely dissolved in the aqueous acetic acid that concentration is 10wt%, obtain maceration extract 180ml is immersed on catalyst precarsor IV, 110 DEG C drying 4 hours, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Cu content 1.10g/L, Zr content 0.51g/L, Ti content 0.26g/L。
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 85.23% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 95.40%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
Found out on year-on-year basis by embodiment 14 and embodiment 12 and embodiment 13, is improving Isosorbide-5-Nitrae-diacetoxy butane receipts Rate and selectivity aspect, in the hydrogenation catalyst that the present invention uses, metal in metallic element Cu and Group IVB metal in IB race metal Element Zr, Ti have preferable synergistic effect.
[embodiment 15]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the silver nitrate (AgNO of Ag containing 1.10g, Zr containing 0.51g and the Ti containing 0.26g3), acetic acid zirconium (Zr (OAc)4· 8H2) and metatitanic acid (H O4TiO4) be completely dissolved in the aqueous acetic acid that concentration is 10wt%, maceration extract 180ml is obtained, is immersed in On catalyst precarsor IV, 110 DEG C drying 4 hours, obtain the catalyst.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Ag content 1.10g/L, Zr content 0.51g/L, Ti content 0.26g/L。
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 85.19% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 95.51%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
[embodiment 16]
The preparation of hydrogenation catalyst:
1. by the ammonium chloroplatinite ((NH of the Pt containing 2.05g4)2PtCl4) it is dissolved in the aqueous hydrochloric acid solution that concentration is 8wt% In, maceration extract 200ml is obtained, by 1L diameter 3mm, long 2cm, Kong Rongwei 0.80cm3/ g, specific surface area 1200cm2The coal quality of/g Cylindrical activated carbon carrier impregnation obtains catalyst precarsor I in above-mentioned maceration extract;
2. it is still aging for 24 hours, obtain catalyst precarsor II;
3. being 8% (with N with concentration2H4·H2O weight ratio meter) 500ml hydrazine hydrate catalyst precarsor II is restored 3h obtains catalyst precarsor III;
4. be washed to no chloride ion, 50 DEG C drying 4 hours, obtain catalyst precarsor IV;
5. by the copper acetate (Cu (OAc) of Cu containing 0.60g, Ag containing 0.50g, Zr containing 0.51g and the Ti containing 0.26g2· H2O), silver nitrate (AgNO3), acetic acid zirconium (Zr (OAc)4·8H2) and metatitanic acid (H O4TiO4) concentration is completely dissolved in as 10wt%'s In aqueous acetic acid, obtain maceration extract 180ml, be immersed on catalyst precarsor IV, 110 DEG C drying 4 hours, obtain the catalysis Agent.
The Pt content for measuring the catalyst through ICP is 2.05g/L, Cu content 0.60g/L, Ag content 0.50g/L, Zr content 0.51g/L, Ti content 0.26g/L.
1,4- diacetoxy butylene hydrogenation reaction:
The reaction of 100ml titanium is added in 1,4- diacetoxy butylene 15ml, toluene 30ml, 0.01mol hydrogenation catalyst Kettle then passes to hydrogen until pressure 3.0MPa, improves mixing speed first with 1.0MPa is pressurized to after air in argon gas discharge kettle To 600rpm, while agitating and heating is warming up to reaction temperature, and control reaction temperature is 60 DEG C, after sustained response 90min, stops anti- It answers.
It is 86.41% through analytical calculation Isosorbide-5-Nitrae-diacetoxy butane yield, selectivity is 95.67%, for the ease of Illustrate and compare, by the preparation of hydrogenation catalyst, reaction condition, material inlet amount, Isosorbide-5-Nitrae-diacetoxy butane yield and Selectivity is listed in Tables 1 and 2 respectively.
Found out on year-on-year basis by embodiment 16 and embodiment 14 and embodiment 15, is improving Isosorbide-5-Nitrae-diacetoxy butane receipts In terms of rate and selectivity, in the hydrogenation catalyst that the present invention uses, in IB race metal in metallic element Cu, Ag and Group IVB metal Metallic element Zr, Ti have preferable synergistic effect.
Table 1
Table 2

Claims (7)

1. being suitable for Isosorbide-5-Nitrae-diacetoxy butane preparation catalyst, including carrier and active component, the carrier are activity Charcoal, active component include Pt element and promoter elements, and the promoter elements include Group IVB metallic element and IB race gold Belong to element, Pt constituent content is 1~8.8g/L in the catalyst, and the promoter elements content is 0.5~10g/L;
Wherein, IB race metallic element is Cu, and the Group IVB metallic element is Hf, or is in Ti, Zr and Hf at least two Combination;Alternatively,
IB race metallic element is Ag or Au, or is in Ag, Au and Cu at least two combination, the Group IVB metal choosing From at least one of Ti, Zr and Hf.
2. catalyst according to claim 1, it is characterised in that the active carbon be coal quality column charcoal, cocoanut active charcoal, At least one of apricot shell active carbon and activated carbon from bamboo.
3. catalyst according to claim 1, it is characterised in that the specific surface area of the active carbon is 1000~1500m2/ G, it is 0.60~1.00cm that adsorption hole, which holds,3/g。
4. the preparation method of catalyst described in any one of claims 1 to 3, includes the following steps:
1. mixing the solution of platiniferous element with carrier by the composition of catalyst, catalyst precarsor I is obtained;
2. obtaining catalyst precarsor II after catalyst precarsor I is aged;
3. being simple substance platinum by compound state platinum element reduction in catalyst precarsor II, catalyst precarsor III is obtained;
4. being washed, being dried to obtain catalyst precarsor IV;
5. the solution containing promoter elements is supported on catalyst precarsor IV using infusion process by the composition of catalyst, it is dry Obtain the catalyst.
5. a kind of produce Isosorbide-5-Nitrae-diacetoxy butane method, this method, which is included in described in any one of claims 1 to 3, is urged In the presence of agent, hydrogen and Isosorbide-5-Nitrae-diacetoxy butene reaction obtain Isosorbide-5-Nitrae-diacetoxy butane.
6. according to the method described in claim 5, it is characterized in that the temperature of hydrogenation reaction is 20~120 DEG C.
7. according to the method described in claim 5, it is characterized in that the pressure of hydrogenation reaction is 1.0~10.0MPa.
CN201610851922.2A 2016-09-26 2016-09-26 Catalyst suitable for the preparation of 1,4- diacetoxy butane Active CN107866217B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201610851922.2A CN107866217B (en) 2016-09-26 2016-09-26 Catalyst suitable for the preparation of 1,4- diacetoxy butane

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201610851922.2A CN107866217B (en) 2016-09-26 2016-09-26 Catalyst suitable for the preparation of 1,4- diacetoxy butane

Publications (2)

Publication Number Publication Date
CN107866217A CN107866217A (en) 2018-04-03
CN107866217B true CN107866217B (en) 2019-10-11

Family

ID=61751984

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201610851922.2A Active CN107866217B (en) 2016-09-26 2016-09-26 Catalyst suitable for the preparation of 1,4- diacetoxy butane

Country Status (1)

Country Link
CN (1) CN107866217B (en)

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1394683A (en) * 2002-06-28 2003-02-05 中国科学院兰州化学物理研究所 Catalyst for preparing 3-chloropropene by means of catalytic oxidation of 1,2-dichloropropane

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1394683A (en) * 2002-06-28 2003-02-05 中国科学院兰州化学物理研究所 Catalyst for preparing 3-chloropropene by means of catalytic oxidation of 1,2-dichloropropane

Also Published As

Publication number Publication date
CN107866217A (en) 2018-04-03

Similar Documents

Publication Publication Date Title
CN108017509B (en) The method of butadiene production 1,4- butanediol
CN107915579A (en) The method that butadiene synthesizes 1,4 butanediols
CN108002978B (en) The method that butadiene prepares 1,4- butanediol
CN107778135B (en) The method for producing 1,4- butanediol
CN107867972B (en) The production method of 1,4-butanediol
CN107866217B (en) Catalyst suitable for the preparation of 1,4- diacetoxy butane
CN108002979B (en) The method that butadiene Acetoxylation prepares 1,4- butanediol
CN107774253B (en) For synthesizing the hydrogenation catalyst of 1,4- diacetoxy butane
CN107774336B (en) Catalyst for 1,4- diacetoxy butylene hydrogenation process
CN108014794B (en) Synthesize hydrogenation catalyst used in 1,4- diacetoxy butane
CN107774250B (en) Catalyst for 1,4- diacetoxy butylene hydrogenation technique
CN107867971B (en) The preparation method of 1,4-butanediol
CN107774255B (en) 1,4- diacetoxy butylene hydroprocessing catalysts
CN107778134B (en) The synthetic method of 1,4- butanediol
CN107790182B (en) 1,4- diacetoxy butylene hydrogenation process catalyst
CN107778144B (en) The method for synthesizing 1,4- butanediol
CN107866232A (en) Catalyst suitable for the production of 1,4 diacetoxy butane
CN107999064B (en) The catalyst of butadiene synthesis 1,4- diacetoxy butane course
CN107778136B (en) The method for preparing 1,4- butanediol
CN107866233A (en) Catalyst suitable for the synthesis of 1,4 diacetoxy butane
CN108014817A (en) Butadiene synthesizes the catalyst of 1,4- diacetoxy butane processes
CN107774251A (en) Manufacture the hydrogenation catalyst of 1,4 diacetoxy butane
CN107790125A (en) Synthesize the hydrogenation catalyst of 1,4 diacetoxy butane
CN107999069A (en) Butadiene prepares the catalyst of 1,4- diacetoxy butane processes
CN107999068A (en) The catalyst of butadiene production 1,4- diacetoxy butane processes

Legal Events

Date Code Title Description
PB01 Publication
PB01 Publication
SE01 Entry into force of request for substantive examination
SE01 Entry into force of request for substantive examination
GR01 Patent grant
GR01 Patent grant