CN1721390A - Process for preparing 4-amino diphenylamine - Google Patents

Process for preparing 4-amino diphenylamine Download PDF

Info

Publication number
CN1721390A
CN1721390A CN 200410068982 CN200410068982A CN1721390A CN 1721390 A CN1721390 A CN 1721390A CN 200410068982 CN200410068982 CN 200410068982 CN 200410068982 A CN200410068982 A CN 200410068982A CN 1721390 A CN1721390 A CN 1721390A
Authority
CN
China
Prior art keywords
aminodiphenylamine
preparing
hydrogenation
reaction
alkaline catalysts
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.)
Granted
Application number
CN 200410068982
Other languages
Chinese (zh)
Other versions
CN100453525C (en
Inventor
王农跃
余瑞标
茅晓晖
冯晓根
程千文
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.)
Sennics Co ltd
Original Assignee
石光强
王农跃
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 石光强, 王农跃 filed Critical 石光强
Priority to CNB2004100689824A priority Critical patent/CN100453525C/en
Publication of CN1721390A publication Critical patent/CN1721390A/en
Application granted granted Critical
Publication of CN100453525C publication Critical patent/CN100453525C/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Landscapes

  • Organic Low-Molecular-Weight Compounds And Preparation Thereof (AREA)
  • Low-Molecular Organic Synthesis Reactions Using Catalysts (AREA)

Abstract

The present invention discloses production process of 4-amino diphenylamine with nitrobenzene and phenylamine as materials. For the condensation and hydrogenation, corresponding composite alkali catalyst and composite powdered catalyst are adopted separately. The production process includes the successive steps of condensation, separation I, hydrogenation, separation II and refining, and may be completed continuously. The composite alkali catalyst is separated and reused before the hydrogenation step, and this avoids the heat decomposition of the composite alkali catalyst and increases the catalyst selecting range. The production process has 4-amino diphenylamine yield industrial scale over 95 % and 4-amino diphenylamine purity over 99 wt%.

Description

The method for preparing the 4-aminodiphenylamine
Technical field
The present invention relates to prepare the method for 4-aminodiphenylamine, particularly, relating to oil of mirbane and aniline is raw material, use compound alkaline catalysts as condensation catalyst, use conventional hydrogenation catalyst or composite powder powder catalyzer as hydrogenation catalyst, comprising condensation, hydrogenation, Separation and Recovery and recycle compound alkaline catalysts and if desired, Separation and Recovery and recycle optional partial regeneration at least after composite powder powder catalyzer, Separation and Recovery and recycle aniline and optionally separating and reclaim and recycle hydrogenation solvent, the method for preparing the 4-aminodiphenylamine in five operations of purified continuously.
Background technology
The 4-aminodiphenylamine is the intermediate of important antioxidants and stablizer, is important chemical product in rubber industry and the polymer industry.According to the difference of using raw material, the method for producing the 4-aminodiphenylamine at present has: (1) aniline process is a raw material with p-Nitrophenyl chloride and aniline, and reaction generates 4 nitrodiphenyl amine under catalyst action, is the 4-aminodiphenylamine with sodium sulfide reducing then; (2) formylaniline method is the feedstock production formylaniline with formic acid and aniline, reacts in the presence of acid binding agent (for example salt of wormwood) with p-Nitrophenyl chloride to generate 4 nitrodiphenyl amine again, prepares the 4-aminodiphenylamine with sodium sulfide reducing then; (3) pentanoic method, it promptly is raw material with the pentanoic, in organic solvent, carry out nitrosification with nitrite, obtain N nitrosodiphenyl amine, again with anhydrous hydrogen chloride reset 4-nitrosodiphenylamine hydrochloride, with in the alkali and generate the 4-nitrosodiphenylamine, get the 4-aminodiphenylamine with sodium sulfide reducing at last.Although these method raw material differences are all used traditional Sodium Sulphide to make reductive agent and are produced the 4-aminodiphenylamine.The shortcoming of these reactions is severe reaction conditions, complicated operation, and the energy consumption height, yield is low, cost height and the contaminate environment etc. with " three wastes " produce.
Also have a route to be to use oil of mirbane or oil of mirbane and aniline or nitrosobenzene to carry out condensation reaction in the route of preparation 4-aminodiphenylamine, prepare the method for 4-aminodiphenylamine then with hydrogen hydrogenation as raw material.In fact, under the effect of alkali, oil of mirbane and aniline reaction generated the 4-nitrosodiphenylamine and 4 nitrodiphenyl amine has all had report (Wohl, ChemischeBerichte, 34 at 1901 and 1903, p.2442 (1901) and Wohl, Chemische Berichte, 36, p.4135 (1903)), just yield is relatively low, so never obtain paying attention to and development.Entered since the nineties, in the world this route is researched and developed again, obtained that some are progressive (referring to DE19734055.5, DE19810929.6, DE 19709124.5).There are some common shortcomings in these methods: the one, and selected catalyzer costs an arm and a leg, and is applied to industrial-scale production and can causes production cost too high, and comparing with present production technique does not have advantage.For example, price costlinesses such as the precious metal palladium that tetraalkylammonium hydroxide that condensation reaction is used and fluorochemical and hydrogenation adopt, platinum, rhodium, because the unstable of tetraalkylammonium hydroxide, to recovery set with having brought certain degree of difficulty, noble metal hydrogenation catalyst select for use then requirement to raw material and equipment all than higher; The 2nd, yield is lower, only is the way of testing laboratory, and this also is to be difficult to an industrialized major reason; The 3rd, operate more loaded down with trivial detailsly, be unfavorable for continuous operation, make industrial scale be restricted; The 4th, separation difficulty, product purity are not high.
At US 6,395, in 933, disclose at a certain temperature with oil of mirbane and substituted aniline, in the presence of highly basic and phase-transfer catalyst, synthesize the method for 4-aminodiphenylamine.The yield of this method is undesirable, and side reaction is a lot; In the 4 nitrodiphenyl amine and 4-nitrosodiphenylamine mixture that produces in synthetic, the ratio of 4 nitrodiphenyl amine is excessive, causes in the hydrogenation hydrogen consumption excessive, has increased production cost; And need oxygenant, therefore be difficult to be fit to industrialized production.
In WO9300324, oil of mirbane and aniline are disclosed in suitable solvent, under the effect of alkali, the content of control proton material in solution, the method for 4-aminodiphenylamine is produced in reaction under suitable temperature.Solvent and the content of control proton material in solution must be arranged in this patent, the introducing of solvent has brought energy consumption to increase and has brought separating difficulty, control proton material is controlled to reaction and has been brought difficulty, especially in later stage of condensation reaction, the content (mainly be meant and be dewatered to a relatively little content) of the proton material in the control solution can prolong the time of reaction, take away the aniline of a part, more to the difficult more proton material of sloughing of later stage, control proton material is big to certain range operation difficulty, is unfavorable for industrial production; Control proton material can make expensive tetraalkyl quaternary amine alkali catalyzer decompose fast in the scope of 0.5-4% the time, causes production cost to increase.
Summary of the invention
The objective of the invention is to select to be used for catalyzer and a technical process that is suitable for industrial-scale production condensation and hydrogenation, inexpensive and superior performance, prepare the 4-aminodiphenylamine continuously.
The present invention uses compound alkaline catalysts as condensation catalyst, use conventional hydrogenation catalyst or composite powder powder catalyzer as hydrogenation catalyst, comprising condensation, separating I (Separation and Recovery and recycle compound alkaline catalysts), hydrogenation, separating II (Separation and Recovery and recycle aniline and optionally separating recovery and recycle hydrogenation solvent and if desired, Separation and Recovery and recycle the optional hydrogenation catalyst of partial regeneration at least), in refining five operations, prepare the 4-aminodiphenylamine with continuous processing.
In one embodiment of the invention, a kind of method of the 4-of preparation aminodiphenylamine is provided, this method is a raw material with oil of mirbane and aniline, comprise condensation, separate I that to be Separation and Recovery be Separation and Recovery and recycle aniline and optionally separating reclaims and recycle hydrogenation solvent and if desired with recycling compound alkaline catalysts, hydrogenation, separating II, Separation and Recovery and the hydrogenation catalyst that recycles optional partial regeneration at least, refining five operations wherein use compound alkaline catalysts as condensation catalyst.
In the technical process of the present invention, " separate I " and be meant Separation and Recovery and recycle compound alkaline catalysts, " separate II " is meant Separation and Recovery and recycles aniline and optionally separating reclaims and recycle hydrogenation solvent and if desired, the optional hydrogenation catalyst of partial regeneration at least of Separation and Recovery and circulation.Term in this article " optionally separating reclaims and recycle hydrogenation solvent " is meant, when making water as hydrogenation solvent, choose wantonly and reclaim and recycle described water, and when using hereinafter described alcoholic solvent, should separate, reclaim and recycle described alcohols hydrogenation solvent as hydrogenation solvent.
With reference to the accompanying drawings 1, according to a preferred embodiment of the present invention, the method of the 4-of preparation aminodiphenylamine of the present invention comprises: with oil of mirbane, aniline and compound alkaline catalysts in proportion, to the condensation operation, reaction generates the condensated liquid (7) that contains 4 nitrodiphenyl amine and 4-nitrosodiphenylamine and/or their salt by the volume pump continuously feeding; Condensated liquid (7) continuously feeding to separating the I operation, is adopted to add in the acidic substance and separated with condensated liquid (7), and the method with alkali alkalization water reclaims compound alkaline catalysts again, and the compound alkaline catalysts (1) that reclaims is looped back the condensation operation; To separate condensated liquid (8) that the I feed liquid promptly separated composite catalyst, hydrogenation solvent (hydrogenation solvent (5) that comprises additional hydrogenation solvent (3) and optional recovery) continuously feeding by a certain percentage to hydrogenation process, under the katalysis of (comprising additional composite powder powder catalyzer (2) and the optional composite powder powder catalyzer (4) of partial regeneration at least that recycles) of composite powder powder catalyzer and hydrogen reaction, obtain containing the hydride (9) of 4-aminodiphenylamine; Hydride (9) is fed to separation II operation, obtain (a) composite powder powder catalyzer (4) in this separation, it directly loops back hydrogenation process or loops back hydrogenation process behind the partial regeneration at least, (b) aniline (6), it loops back the condensation operation, (c) hydrogenation solvent (5) randomly, it loops back hydrogenation process; Be fed to refining step with the 4-aminodiphenylamine crude product (10) that will separate most of aniline, isolate (a) part aniline (6) at this, it loops back condensation operation and (b) 4-aminodiphenylamine finished product.Whole process flow is carried out continuously.
In condensation reaction, the mol ratio of oil of mirbane and aniline is 1: 1-1: 15; Temperature of reaction be 20-150 (℃), preferred 50-90 (℃), control reaction temperature is not higher than 90 ℃ can be so that the rate of decomposition of compound alkaline catalysts be less than 0.5% in the condensation course; Reaction pressure is absolute pressure 0.005-0.1 (MPa); The residence time of material in whole condensation reaction system is 3.5-6 hour.
The compound alkaline catalysts that condensation reaction is used contains tetraalkylammonium hydroxide, alkali metal hydroxide, three kinds of components of tetraalkylammonium salt, the optional water that also contains, wherein tetraalkylammonium hydroxide, alkali metal hydroxide and tetraalkylammonium salt three concentration expressed in percentage by weight summation are 10%-100%, be preferably 25%-38%, and the mol ratio of tetraalkylammonium hydroxide, alkali metal hydroxide and tetraalkylammonium salt is (0-9): (0.5-3): (0.5-3).Be used in combination the tetraalkylammonium hydroxide and cheap alkali metal hydroxide or oxide compound and tetraalkylammonium salt of a part, reached and used highly purified tetraalkylammonium hydroxide in the prior art as the same purpose of catalyzer.In the condensation reaction mixture, the mol ratio of hydroxide ion and oil of mirbane is 1 in the compound alkaline catalysts: 4-4: 1.
The compound alkaline catalysts that condensation reaction is adopted can prepare by the following method: controlled temperature 0-90 (℃), tetraalkylammonium hydroxide, alkali metal hydroxide or oxide compound, tetraalkylammonium salt are pressed (0-9): (0.5-3): molar ratio (0.5-3) stirs in water, promptly gets aqueous compound alkaline catalysts.After obtaining aqueous compound alkaline catalysts, optional add benzene azeotropic and slough moisture fully, obtain not having water combined alkaline catalysts.Described raw material tetraalkylammonium hydroxide, alkali metal hydroxide or oxide compound, tetraalkylammonium salt all can be solid form or aqueous solution form.
Can be used for tetraalkylammonium salt of the present invention and have following general formula:
[(R1)(R2)(R3)(R4)N] + nX n-
Wherein R1, R2, R3, R4 are identical or inequality, for having the alkyl of 1-4 carbon atom, Xn-is selected from halogen root, sulfate radical, carbonate, phosphate radical, bicarbonate radical, bisulfate ion, alkyl (C1-C2) carbonate, alkyl (C1-C2) sulfate radical etc., n=1-2.
The R1 of described tetraalkylammonium salt, R2, R3, R4 any one can be for having the alkyl of hydrophilic substituent group, this hydrophilic substituent group is selected from hydroxyl, methoxyl group, polyethers, cationic polyamide, polyester, the many ammoniums of many ethene, strong water-soluble and contains group of quaternary ammonium salt etc., X N-Be selected from halogen root, sulfate radical, carbonate, phosphate radical, bicarbonate radical, bisulfate ion, alkyl (C1-C2) carbonate, alkyl (C1-C2) sulfate radical etc., n=1-2.The limiting examples of tetraalkylammonium salt comprises: many methylated triethylene tetramines vitriol, the diethylenetriamine that methylates carbonate, N more, N-dimethyl-N, N-dimethoxy ethyl ammonium carbonate, N-methyl-N, N, N-trimethoxy ethyl ammonium carbonate, N, N, N-trimethylammonium-N-hydroxyethyl ammonium carbonate, chlorination trimethylammonium hydroxyethyl ammonium, N, N, N-trimethylammonium-N-ethoxylation (1-4 mole E0) ethyl ammonium carbonate, N, N, N-trimethylammonium-N-ethoxylation (1-4 mole EO) propyl ammonium carbonate, N, N, N-trimethylammonium-N-ethoxylation (1-4 mole EO) propyl ammonium hydrochloride, N, N-dimethyl-N, N-two (ethoxylation (1-4 mole EO) propyl group) ammonium carbonate.
The R1 of described tetraalkylammonium salt, R2, R3, R4 can be for containing the alkyl that non-hydrophilic substituent is rolled into a ball, then tetraalkylammonium salt is selected from tetramethyl-ammonium carbonate, the methyl carbonic acid tetramethyl-ammonium, tetraethyl ammonium carbonate, the ethyl carbonate tetraethyl ammonium, tetramethyl-ammonium vitriol, methylsulfuric acid tetramethyl-ammonium, tetraethyl ammonium vitriol and ethylsulfuric acid tetraethyl ammonium.
The structural formula of the tetraalkylammonium hydroxide of using in the above-mentioned compound alkaline catalysts is R ' 1N +OH -, wherein R ' represents to contain the alkyl of 1-2 carbon atom independently.Can adopt corresponding tetraalkylammonium salt and alkali to react in polar solvent prepares.
Alkali metal hydroxide or oxide compound comprise the oxyhydroxide or the oxide compound of lithium, sodium, potassium or rubidium, for example sodium hydroxide, potassium hydroxide, lithium hydroxide, sodium oxide or potassium oxide.
Alkyl carbonic acid tetra-allkylammonium that adopts among the present invention or alkylsurfuric acid tetra-allkylammonium are to be reacted in polar solvent by trialkylamine and dialkyl carbonate (C1-C2) ester or sulfuric acid dialkyl group (C1-C2) ester to make.
The temperature of reaction of preparation alkyl carbonic acid tetra-allkylammonium of the present invention or alkylsurfuric acid tetra-allkylammonium be 50-200 (℃), preferred temperature be 60-150 (℃), the pressure of reaction is 0.1-3 (MPa) (gauge pressure).In general, pressure and selected temperature, solvent types and consumption have substantial connection, and promptly the solvent consumption is few more, and system pressure is high more; Temperature is high more, and pressure is big more.The pressure of the present invention's reaction preferably is controlled at 0.4-2 (MPa), can obtain the product of higher yields.
The proportioning of raw material trialkylamine that the reaction of preparation alkyl carbonic acid tetra-allkylammonium of the present invention or alkylsurfuric acid tetra-allkylammonium is selected and dialkyl carbonate (C1-C2) ester or sulfuric acid dialkyl group (C1-C2) ester is 2: 1-1: 2 (moles).If the ratio of trialkylamine is excessive, then superfluous in reaction system, thus bring difficulty for the operation of subsequent technique, and contaminate environment; If the ratio of trialkylamine is too small, then dialkyl carbonate (C1-C2) ester or sulfuric acid dialkyl group (C1-C2) ester surplus cause the loss of dialkyl carbonate (C1-C2) ester or sulfuric acid dialkyl group (C1-C2) ester when next step reacts, and increase production cost.
The trialkylamine that the reaction of preparation alkyl carbonic acid tetra-allkylammonium of the present invention or alkylsurfuric acid tetra-allkylammonium is adopted and the reaction times of dialkyl carbonate (C1-C2) acid esters or sulfuric acid dialkyl group (C1-C2) ester are 1.5-6 hour.Initial reaction stage speed is fast, and exothermic phenomenon is obvious, and along with the consumption gradually of raw material, reaction slows down, and heat release reduces gradually.In reaction, can control certain reaction temperature, pressure by the consumption of constantly regulating water coolant.
The selected polar solvent of reaction of preparation alkyl carbonic acid tetra-allkylammonium of the present invention or alkylsurfuric acid tetra-allkylammonium comprises methyl alcohol or ethanol or Virahol, and solvent load is 1-10 a times of trialkylamine weight.
The method for preparing the 4-aminodiphenylamine of the present invention, condensation reaction is carried out under oxygen free condition.
The method for preparing the 4-aminodiphenylamine of the present invention in the condensation reaction, need not add or control the proton material in addition.
The method for preparing the 4-aminodiphenylamine of the present invention, solvent-free in the condensation reaction.
In industrial process, reactant inevitably will with the air in the external world in, the carbonic acid gas that is mingled with in the hydrogen contacts with carbon monoxide, causes the amount of tetraalkylammonium hydroxide to reduce, and changes into the tetraalkyl ammonium carbonate salts.Only be in the reaction of catalyzer, to change into the minimizing that ammonium salt has caused catalytic amount with the tetraalkylammonium hydroxide, must increasing the amount of catalyzer, getting rid of ammonium salt.Adopt the technology that compound alkaline catalysts of the present invention then need not be complicated, only need to improve the alkali metal hydroxide in the compound alkaline catalysts or the ratio of oxide compound and get final product.
The present invention adopts described compound alkaline catalysts under certain conditions, and oil of mirbane and aniline condensation are generated 4 nitrodiphenyl amine and 4-nitrosodiphenylamine and/or their salt.In the condensation reaction of the present invention, can use the compound alkaline catalysts of anhydrous type to make oil of mirbane and aniline change into 4 nitrodiphenyl amine and 4-nitrosodiphenylamine and/or their salt, under the anhydrous environment of system, the selectivity of reaction and transformation efficiency have reached desirable requirement.
If adopt compound alkaline catalysts also can proton materials such as water, methyl alcohol not to be controlled harshly, avoid the loss of the compound alkaline catalysts that causes because of the control of proton material and the operational trouble that causes as far as possible.Though do not wish to be confined to any specific theory, believe that the comprehensive action of tetraalkylammonium hydroxide in the compound just alkaline catalysts, alkali metal hydroxide, three kinds of materials of tetraalkylammonium salt has caused this phenomenon, reduced the difficulty of controlling of reaction like this.The compound alkaline catalysts that employing is made up of tetraalkylammonium hydroxide, alkali metal hydroxide, three kinds of materials of tetraalkylammonium salt, restriction to the proton materials such as water in the reaction system has receded into the background, that is to say proton materials such as in reaction, not having moisture or in solution system the content of proton material such as moisture content than in higher, condensation reaction can be carried out as usual, transformation efficiency and selectivity are unaffected, so just reduced the difficulty of controlling of reaction, and reduced the aniline amount of taking out of, made the production of suitability for industrialized more of described method because of dehydration and azeotropic.
No matter anhydrous proton material such as moisture has not become the factor of conditioned response in the present invention, or the proton material of water etc. is arranged, and can both reach desired selectivity and transformation efficiency.And use its rate of decomposition of compound alkaline catalysts to reduce than single tetraalkylammonium hydroxide.
In a preferred embodiment of the invention, condensation reaction is following carries out: by volume pump with oil of mirbane, aniline and compound alkaline catalysts in proportion continuously feeding to falling film reactor heat to carry out condensation reaction; Condensated liquid in the falling film reactor is discharged from the falling film reactor bottom and is entered A reactor, to proceed condensation reaction; The condensated liquid of part A reactor bottom returns falling film reactor again by recycle pump, constitutes the local circulation system of condensation reaction of the present invention like this.This recycle system mainly is made of falling film reactor and A reactor, and material constantly circulates in this system by the condensation recycle pump.Keep the amount of condensated liquid can in falling film reactor, form uniform film in the working cycle.
The falling film reactor heating agent adopts alcohol vapor or hot water or steam or methanol vapor, and the preferably ethanol steam makes that temperature is very even in the system, has avoided the local superheating phenomenon.Reaction solution does not almost have back-mixing in the falling film reactor, greatly reduces the touch opportunity of product and raw material thing, makes side reaction drop to bottom line.By a local circulation system that has falling film reactor, accelerated the speed of response of condensation reaction, reduced the reaction times, make the reaction times that reaches more than ten hour originally shorten to 3.5-6 hour.
In the method for preparing the 4-aminodiphenylamine of the present invention, adopt continuous film type reaction than complete mix reaction preference and yield all high.In reaction of the present invention, oil of mirbane and aniline reaction have generated the 4-nitrosodiphenylamine, and oil of mirbane can also generate 4 nitrodiphenyl amine with the reaction of 4-nitrosodiphenylamine, and oil of mirbane self is reduced into nitrosobenzene simultaneously.Nitrosobenzene energy and aniline reaction generate nitrogen benzide, and this reaction pair main reaction is disadvantageous, have reduced the selectivity of reaction.The amount that oil of mirbane is relative at first is bigger reacting, and along with the carrying out of reaction, oil of mirbane is gradually transformed into the 4-nitrosodiphenylamine, and the amount of oil of mirbane reduces gradually.Owing to adopt continuous film reactor, reduced add fashionable oil of mirbane with after the 4-nitrosodiphenylamine that generates contact that (concentration of oil of mirbane is relative higher but 4-nitrosodiphenylamine concentration is relatively low when entering reactor and beginning to react with the chance of reaction, 4-nitrosodiphenylamine concentration was higher relatively but nitro phenenyl concentration is relatively low when reaction finished), reduced oil of mirbane and be reduced into the chance of nitrosobenzene, also just reduced the reaction that oil of mirbane and aniline reaction generate nitrogen benzide by the 4-nitrosodiphenylamine.
In the condensation reaction that oil of mirbane and aniline carry out in the presence of compound alkaline catalysts, main side reaction is to generate such byproducts as azobenzene and azophenlyene.The amount of aniline is big more, and the side reaction that oil of mirbane is converted into azophenlyene is just few more.Another one by product in this reaction is a nitrogen benzide, and nitrogen benzide is easy to be converted into aniline, recycled in process of production at hydrogenation process.So the mol ratio of oil of mirbane and aniline is chosen as 1 among the present invention: 1-1: 15.
In the methods of the invention simultaneously, in system, can not introduce solvent, just under suitable oil of mirbane and aniline conditions of mixture ratios, carry out condensation reaction, obtain good yield.
The present invention utilizes aforesaid method to improve the yield of condensation reaction, and reaction is carried out to the direction of needs.
It may occur to persons skilled in the art that condensation reaction of the present invention can be adopted more multistage tandem reactor.
In the condensation operation, along with the carrying out of reaction, the compound alkaline catalysts that the condensation operation is used will lose a part inevitably.Can only add alkali metal hydroxide and two components of tetraalkylammonium salt in the compound alkaline catalysts when adding catalyzer, both mol ratios are 4: 1-1: 4.Can adopt alkalimetal oxide to replace alkali metal hydroxide, its consumption can convert by corresponding oxyhydroxide and get.
In separating the I operation, contain 4 nitrodiphenyl amine and 4-nitrosodiphenylamine and the pH value of solution value is remained on about 8 or/and the condensated liquid of their salt after filtering, adds acidic substance in filtrate.After the solution layering, organic phase is the mixture of 4 nitrodiphenyl amine and 4-nitrosodiphenylamine.Then, add alkaline matter to water layer, described alkaline matter is 1 with the equivalence ratio of the acidic substance that add above: 1-3: 1, obtain compound alkaline catalysts, and if desired that it is concentrated, loop back the condensation operation then.
Separate in the I operation employing interpolation acidic substance and separate with condensated liquid, reclaim compound alkaline catalysts with alkali alkalization water again, the compound alkaline catalysts of recovery loops back the condensation operation.
Separate the acidic substance that adopt in the I operation and can be selected from mineral acid, its oxide compound and water and other inorganic acid salt, example hydrochloric acid, sulfuric acid, nitric acid, carbonic acid, sodium bicarbonate, carbonic acid gas and water, sulphur trioxide and water etc., the alkali that adopts can be selected from the oxyhydroxide or the oxide compound of basic metal and alkaline-earth metal, need select corresponding acidic substance and alkaline matter according to tetraalkylammonium salt and alkali in the compound alkaline catalysts.The method of selecting is generally to be engaged in person skilled in art's method in common knowledge, if for example alkylammonium salt is chlorate then selects for use hydrochloric acid as acidic substance, thereby avoid other impurity to bring into, if alkylammonium salt is carbonate then selects carbonic acid gas for use and water neutralizes, alkalizes with calcium hydroxide.
It needs to be noted, the present invention utilizes acidic substance in separation I operation compound alkaline catalysts to be separated with the 4-nitrosodiphenylamine with 4 nitrodiphenyl amine, avoid the thermo-sensitivity resolution problem of compound alkaline catalysts in the hydrogenation operation, therefore increased the range of choice of hydrogenation catalyst greatly.The hydrogenation catalyst that can be used in the hydrogenation of the present invention can be group VIII element or copper on the periodic table of elements, chromium, zinc, manganese etc. as activeconstituents or/help any conventional hydrogenation catalyst or the composite powder powder catalyzer of catalyst component.The hydrogenation temperature can for 50-150 (℃), hydrogenation reactor can be one or more levels thermopnore, also can be one or more levels fixed bed tandem reactor.If adopt the catalyzer formulation that is fit to fixed bed, pellet type catalyst for example, then can according to the chemical field technician many corresponding technologies of knowing of project setting, do not need to filter hydrogenation catalyst among for example described below separation II, in hydrogenation process, do not need to adopt yet the magnetic withdrawer back and forth contracture from hydrogenation catalyst or the like.These technical schemes also within the scope of the invention.
The hydrogenation of adopting composite powder powder catalyzer of the present invention and the inventive method of thermopnore hydrogenation process is described below and separates II.
In the hydrogenation of this scheme of the present invention, can adopt hydrogen is reductive agent, temperature of reaction be 50-150 (℃), pressure is absolute pressure 0.2-6.0 (MPa), reaction times be 2-7 (hour), gas-liquid volume ratio is 10: 1-1500: 1, the solid-liquid weight ratio is 0.5: 100-16: 100.Gas promptly refers to hydrogen, and liquid comprises hydrogenation solvent and separate I liquid that solid is meant composite powder powder catalyzer.
Among the present invention, hydrogenation can adopt alcohols and/or water to make hydrogenation solvent.Alcohols particular methanol, ethanol or Virahol.The consumption of hydrogenation solvent should make hydrogenation solvent: separate I liquid=1: 10-5: 10 (weight).
The composite powder powder catalyst pack of using in the hydrogenation of the present invention is nickeliferous, aluminium and elements A, described A is selected from least a among Fe, Cu, Co, Mn, Cr, Mo, B, the P, wherein the content of nickel is 25-99.9 weight %, and the total content of aluminium, elements A is 0.1-75 weight %.The particle diameter of catalyzer can be the 40-300 order.
Above-mentioned be selected from modulation auxiliary agent A at least a among Fe, Cu, Cr, Co, Mn, Mo, B and the P and can modify nickel-aluminium alloy crystalline state, reach and improve the hydrogenation selectivity, improve the purpose of catalyst activity.
Composite powder powder catalyzer of the present invention can prepare by the following method: with nickel powder, aluminium powder and elements A are by after the required mixed, and 40-300 purpose powder is pulverized in fusion under the condition of high temperature behind the discharging quenching, handle with hydroxide aqueous solution then.Hydroxide concentration can be 5%-50% (weight), and temperature of reaction can be 50-90 ℃.
In order to improve the effect that the magnetic separator that adopts reclaims hydrogenation catalyst in follow-up technology, preferably adopt iron as the modulation auxiliary agent at least, to increase the ferromegnetism of composite powder powder catalyzer.Therefore, in a preferred embodiment of the invention, composite powder powder catalyzer of the present invention can be prepared as follows: ratio is as required got nickel powder, aluminium powder, iron powder, and optional other modulation auxiliary agent A that is selected from Cu, Cr, Co, Mn, Mo, B and P, in electric induction furnace, be melt into the alloy shape, lean on the pressure of gas to be sprayed onto by nozzle on the bronze drum of high speed rotating the alloy of fusing, rapid quenching, refrigerative speed can reach 10 5-10 6K/S.Cooled alloy is rolled into the 40-300 order with ball mill, preferred 100-200 purpose powder, and the hydroxide aqueous solution of using 5%-50% (weight) then is 50-90 ℃ of processing.
According to a preferred embodiment of the present invention, hydrogenation can carry out in the following manner: separate I liquid, the composite powder powder catalyzer of hydrogenation solvent and recovery and the fresh composite powder powder catalyzer that replenishes are as required delivered into one-level by the solid-liquid e Foerderanlage, secondary and optional more senior hydrogenation reactor, hydrogen enters reactor with the form of bubbling from each reactor bottom by the hydrogen recycle machine, under above-mentioned hydrogenation condition, carry out hydrogenation, generation contains the thick hydride of 4-aminodiphenylamine, to be separated with magnetic separator through settling vessel by the composite powder powder catalyzer that thick hydride is carried secretly, with the isolating composite powder powder catalyzer solid-liquid that contains high density very of hydride mutually, recycle to reenter A reactor by a solid-liquid mix conveying appliance, obtain containing the hydride of 4-aminodiphenylamine simultaneously.
In hydrogenation process, composite powder powder catalyzer of the present invention is a solid matter.Hydrogenation catalyst circulates at industrial general employing pump, but often damages pump chamber easily with the catalyzer that pump circulation contains the high density powdery metal, carries the effect neither be very desirable.Design a kind of solid-liquid e Foerderanlage of similar Venturi-type, and the no pump circulation that the power of pump carries out when using separation I liquid into, realized the circulation of composite powder powder catalyzer in hydro genation system, increase the concentration of catalyzer in hydrogenation mixture greatly, significantly reduced the loss of catalyzer.
According to a kind of embodiment preferred, in the continuous hydrogenation process, the composite powder powder catalyzer in the thick hydride reclaims by sedimentation and magnetic separator, circulates by Venturi-type solid-liquid e Foerderanlage, and circulating hydrogen adopts the form of bubbling to enter reactor.Whole hydriding process takes continuously feeding, the placed in-line complete mixing flow mode of staged reactor to carry out.Hydrogenation solvent can recycle.
The hydride that has reclaimed part composite powder powder catalyzer through sedimentation and magnetic separator enters and separates the II operation, pass through remaining minute quantity composite powder powder catalyzer in the filtered and recycled hydride at this, and directly loop back hydrogenation process or looping back hydrogenation process behind the partial regeneration at least.
In the hydrogenation of the present invention, carry out continuously when a small amount of hydrogenation catalyst upgrades, can remain the high density of reactive system inner catalyst optional.The method that such catalyst recirculation is used remains in the higher scope gross activity all-the-time stable ground of system inner catalyst, has avoided the problem that catalyst activity lowers gradually in the method for employing fixed bed catalyst.The user of magnetic separator the recovery of catalyzer, the design of solid-liquid mix conveying appliance is used and composite powder powder catalyzer has been formed circulate in hydrogenation process.
In the present invention, the inactivation of catalyzer generally all is because inorganics or organism carbon distribution blocking catalyst hole cause the catalyst activity position to be capped, and causes the reduction of catalyst activity.Therefore, the present invention adopts the alkaline solution washing of higher concentration to take regenerated catalyst in conjunction with ultrasonic oscillation, and described alkaline solution is the alkali metal hydroxide aqueous solution of 5%-50% weight.Ultrasonic oscillation helps to remove inorganics settling or organism carbon distribution, does not have dissolved aluminium and the alkaline solution of high density can catalyst-solvent when the first time, alkali was molten, forms new loose shape pore structure, thereby increases catalyst activity.
The present invention reclaims the hydrogenation catalyst that contains magnetic by sedimentation and magnetic withdrawer, and adopt a kind of solid-liquid mix conveying appliance of Venturi-type, use reinforced power and send catalyzer back to hydrogenation reactor, realized composite powder powder catalyst recirculation, take out to regenerate after simultaneously catalyzer being filtered and recover original activity, greatly reduce the consumption of catalyzer, increased active lifetime of catalyst.
In separating the II operation, if the hydrogenation solvent that hydrogenation uses is a water, then after with the hydride layering behind the composite powder powder catalyzer of filtering separation remnants, the organic phase continuously feeding is to the aniline tower, cat head obtains aniline, it loops back the condensation operation, and tower bottoms is the crude product that contains the 4-aminodiphenylamine; If the hydrogenation solvent that hydrogenation uses is alcohol/water mixture, then after with the hydride layering behind the composite powder powder catalyzer of filtering separation remnants, water layer and organic layer rectifying respectively obtain alcoholic solvent and aniline and recovery set and use; If the hydrogenation solvent that hydrogenation uses is an alcohols, then the hydride behind the composite powder powder catalyzer of filtering separation remnants is fed to rectifying tower, cat head is isolated hydrogenation solvent, it loops back hydrogenation process, tower still feed liquid enters the aniline tower, obtain aniline at this from cat head, it loops back the condensation operation, and tower bottoms is the crude product that contains the 4-aminodiphenylamine.The working pressure of aniline tower can be 0.005-0.1MPa (absolute pressure), and tower still temperature is 120-320 ℃, and gas phase temperature is 60-190 ℃.
In separating the II operation, separated in the organic phase of most of aniline, contained 4-aminodiphenylamine, aniline, nitrogen benzide and azophenlyene etc.In one embodiment of the present invention, refining step adopts three tower continuous rectifications and batch fractionating to carry out, the wherein said purified organic phase for the treatment of is gone in No. 1 rectifying tower by pump delivery, takes overhead out aniline, azophenlyene and nitrogen benzide, and the discharging of tower still is a crude product 4-aminodiphenylamine; The cat head discharging of No. 1 rectifying tower enters rectifying tower No. 3, and No. 3 the rectifying tower cat head steams aniline, and its content is about 99%, can directly loop back the condensation operation, remaining azophenlyene of tower still and nitrogen benzide; No. 1 rectifying tower tower bottoms is by pump delivery to 2 tower, No. 2 the rectifying tower cat head distills out finished product 4-aminodiphenylamine, tower still feed liquid runs up to a certain amount of, enter the batch still distillation, distill out a small amount of 4-aminodiphenylamine remaining in the feed liquid, and it is returned rectifying tower No. 2, other material slag is emitted at the bottom of by still.
In above-mentioned process for refining of the present invention, the vacuum tightness of No. 1 rectifying tower is 0.09-0.098MPa, and reflux ratio is 2: 1-10: 1, and tower top temperature is 80-130 ℃, tower still temperature is 260-290 ℃; The vacuum tightness of No. 2 rectifying tower is 0.09-0.098MPa, and reflux ratio is 1: 0.5-1: 4, and tower top temperature is 140-190 ℃, tower still temperature is 260-300 ℃; The vacuum tightness of No. 3 rectifying tower is 0.09-0.098MPa, and reflux ratio is 1: 0.5-1: 2, and tower top temperature is 80-120 ℃, tower still temperature is 120-170 ℃; The tower still vacuum tightness of batch fractionating is 0.09-0.098MPa, and tower top temperature is 235-250 ℃, and tower still temperature is 280-330 ℃.The tower still temperature of No. 2 rectifying tower is relatively low, can reduce the coking degree of 4-aminodiphenylamine like this, and account for total amount reach 96% or higher 4-aminodiphenylamine can separate at the cat head of No. 2 rectifying tower of relatively low tower still temperature, thereby the amount of carrying out 4-aminodiphenylamine in the feed liquid of batch distillation significantly reduces.
The method for preparing the 4-aminodiphenylamine of the present invention, with oil of mirbane and aniline is raw material, successively through condensation, separate compound alkaline catalysts, hydrogenation, separation hydrogenation solvent and powder catalyst and aniline, operation such as refining, whole process of preparation can be carried out continuously, is suitable for industrial-scale production; In the condensation operation, adopted compound alkaline catalysts, greatly reduced the difficulty of controlling of reaction, made the moisture in the reaction system no longer become the factor that reaction restricts; Compound alkaline catalysts decomposition is significantly less than single tetraalkylammonium hydroxide catalyzer; The selection of the proportioning of falling film reactor and reaction raw materials improves the selectivity of reaction; Need not solvent; By selecting compound alkaline catalysts catalyzing and condensing reaction for use and before hydrogenation, it being separated and recovery set usefulness, avoided the thermo-sensitivity resolution problem of compound alkaline catalysts in the hydrogenation operation, increased the range of choice of hydrogenation catalyst greatly, thereby can select more cheap hydrogenation catalyst, reduced cost, increased the hydrogenation temperature range, can select fixed-bed reactor, reduced the industrialization technology difficulty of hydrogenation with loaded particles shape catalyzer; Equally also omitted extraction step after the hydrogenation (with extraction agent with help extraction agent that compound alkaline catalysts is separated with organic liquor); If hydrogenation catalyst adopts composite powder powder catalyzer, then the catalyzer toxin immunity is good, and the by product of reaction is few, transformation efficiency and selectivity height, the composite powder powder catalyzer that can adopt the magnetic withdrawer to reclaim during hydrogenation to contain magnetic; By a kind of solid-liquid mix conveying appliance of Venturi-type, and use reinforced power and send hydrogenation catalyst back to hydrogenation reactor; Carry out the regeneration of catalyzer with the method for chemistry and/or physics, reduced the consumption of catalyzer; In the whole process of preparation, the reaction conditions gentleness, by product is few, transformation efficiency and selectivity height, labour intensity is low, does not produce corrosive liquid, alleviated the pollution to environment, the content of 4-aminodiphenylamine is higher than 99 (weight %), and the industrial-scale production yield of this technological process is greater than 95%.
Description of drawings
Fig. 1 is the process flow sheet for preparing the method for 4-aminodiphenylamine of the present invention.
Fig. 2 is the process flow sheet of refining step of the present invention
Reference numeral
1---the compound alkaline catalysts that recycles
2---conventional hydrogenation catalyst or composite powder powder catalyzer
3---hydrogenation solvent
4---the composite powder powder catalyzer behind the optional partial regeneration at least that recycles
5---the hydrogenation solvent that recycles
6---the aniline that recycles
7---condensated liquid
8---separate I feed liquid (condensated liquid that has separated compound alkaline catalysts)
Embodiment
Embodiment given below is in order to further specify the mode of the present invention of implementing, and not in officely where is construed as limiting in the face of the present invention.
Embodiment 1
The preparation of compound alkaline catalysts:
In being furnished with 1000 milliliters of three-necked flasks of condenser and agitator, the tetramethyl ammonium hydroxide aqueous solution (0.50 mole), 10 gram sodium hydroxide (0.25 mole), the 346 gram 30% tetramethyl-ammonium carbonate aqueous solutions (0.5 mole) that add 227.5 grams, 20% (weight) with random order, under 72-77 ℃, stir, promptly make compound alkaline catalysts, concentration 27.3% (weight).
Embodiment 2
Composite powder powder Preparation of catalysts:
Get nickel powder 46 and restrain, aluminium powder 51 grams, iron powder 3 grams mix the back and be melt into the alloy shape in electric induction furnaces, lean on the pressure of gas to be sprayed onto by nozzle on the copper wheel of high speed rotating the alloy that melts, and (refrigerative speed can reach 10 to quenching rapidly 5-10 6K/S).Cooled alloy is rolled into Powdered with ball mill, sieve to obtain 40-300 purpose powder 99.7 grams.In capacity is 500 milliliters the there-necked flask that thermometer and agitator are housed, the 375 gram concentration of packing into are the NaOH aqueous solution of 20% (weight), slowly add the above-mentioned powder that makes, 60 ℃ of stir process 4 hours, use the deionized water wash solid to neutral then, promptly obtain composite powder powder catalyzer.
Embodiment 3
A. condensation
Under vacuum, open described compound alkaline catalysts, aniline and oil of mirbane transferpump simultaneously, regulate flow to 150 kilograms/hour of aniline, 30 kilograms/hour in oil of mirbane, 200 kilograms/hour of compound alkaline catalystss, said components oil of mirbane, aniline and compound alkaline catalysts continuously feeding to falling film reactor are heated to carry out condensation reaction; Condensated liquid in the falling film reactor is discharged from the bottom and is entered A reactor, to proceed condensation reaction; The condensated liquid of part A reactor bottom returns falling film reactor again by recycle pump, forms the local circulation system.The heating agent of falling film reactor adopts 78-90 ℃ of alcohol vapor.Control reaction temperature is 75 ℃, and pressure is 0.008MPa (absolute pressure), 1 meter of circulating fluid flow rate 3/ hour.The material overflow of A reactor is to second reactor.The service temperature of second reactor is identical with A reactor with processing condition such as pressure.The total residence time of control material in falling film reactor, A reactor and second reactor is 5 hours.After condensation reaction is stable, can use the compound alkaline catalysts that reclaims by following described method, only add the fresh compound alkaline catalysts of small part by embodiment 1 preparation, the mol ratio of hydroxide radical and oil of mirbane is not less than 1: 1 in the control reaction system.The material that second reactor is discharged by analysis, oil of mirbane≤0.1%, moisture are 24.9%, 4-nitrosodiphenylamine and 4 nitrodiphenyl amine content are 16.1% (weight).
B. separate I
The condensated liquid that so obtains enters continuously and separates the I operation.At this, feeding carbon dioxide and water to pH value of solution value are about 8 in the condensated liquid after filtering.Behind the system layering, with the speed adding aqueous phase of calcium hydroxide with 25 kilograms/hour, filter, the concentrated compound alkaline catalysts that obtains is to original catalyst concn, then it is turned back to condensation operation recycled, organic phase contains 4 nitrodiphenyl amine and 4-nitrosodiphenylamine.
C. hydrogenation
The resulting organic phase that contains 4 nitrodiphenyl amine and 4-nitrosodiphenylamine in filtration back is fed to the one-level hydrogenation reactor among the I with separating, and this reactor has the magnetic stirrer of sealing, cooling and heating system.Use hydrogen exchange, and pressurising is to 1.3MPa.Start the hydrogen recycle machine, the flow that keeps recycle hydrogen 1 standard cubic meter/hour, and circulating hydrogen enters hydrogenation reactor with the form of bubbling, the gas-liquid mass transfer effect when improving reaction.The flow that control contains the organic phase of 4 nitrodiphenyl amine and 4-nitrosodiphenylamine is 180 kilograms/hour, and the flow of methyl alcohol is 48Kg/ hour.Add the above-mentioned composite powder powder catalyzer that makes simultaneously in reactor, making solid-to-liquid ratio is 6: 100 (weight ratio).Hydro-reduction liquid overflows to the second order reaction still from the first order reaction still, overflows to the third order reaction still again, overflows to subsider then, and temperature of reaction 75-80 ℃, pressure 1.3MPa, total residence time is 5 hours.Under the effect of magnetic separator, can reclaim described composite powder powder catalyzer most possibly.The solidliquid mixture that contains big concentration solid catalyst of subsider bottom is used reinforced power through the solid-liquid e Foerderanlage of Venturi-type and is turned back to the one-level hydrogenation reactor again, can judge activity of such catalysts in the hydrogenation by monitoring reduction reaction terminal point situation, thereby whether decision needs to add composite powder powder hydrogenation catalyst.Hydro-reduction liquid detects through high performance liquid chromatography, does not contain 4 nitrodiphenyl amine and 4-nitrosodiphenylamine.
D. separate II
Above-mentioned hydride is sent into separation II operation,, apply mechanically back hydrogenation process behind this composite powder powder catalyst regeneration by the minute quantity composite powder powder catalyzer of carrying secretly in the filtered and recycled hydride.Filter gained filtrate and enter methanol column with 228 kilograms/hour, cat head is isolated methyl alcohol, applies mechanically back hydrogenation process, and tower still feed liquid enters the aniline tower, and cat head obtains aniline, applies mechanically retraction and closes operation, and tower bottoms is the crude product that contains the 4-aminodiphenylamine.The working pressure of aniline tower is 0.005MPa (absolute pressure), and tower still temperature is 150-160 ℃, and gas phase temperature is 115-125 ℃.
E. refining
Many covers separate the crude product that contains the 4-aminodiphenylamine of II device output, enter a cover refining plant.With the crude product (containing 4-aminodiphenylamine 78.1%, aniline 21.75%, nitrogen benzide 0.05%, azophenlyene 0.1%) of 4-aminodiphenylamine, send into rectifying tower continuously No. 1 by toothed gear pump with 120 kilograms of/hour flows.270 ℃ of control tower still temperature, 110 ℃ of tower top temperatures, vacuum tightness be at 0.094MPa, reflux ratio 5: 1.Light constituent aniline, nitrogen benzide, three kinds of materials of azophenlyene are from the cat head extraction, and flow is about 26.2 kilograms/hour, and send into rectifying tower No. 3.150 ℃ of No. 3 rectifying Tata still temperature, 90 ℃ of tower top temperatures, vacuum tightness 0.094MPa, reflux ratio 1: 1, cat head distills out aniline with 24 kilograms/hour flow, and what the tower still was remaining is nitrogen benzide, azophenlyene.No. 1 the rectifying tower tower bottoms is sent into rectifying tower No. 2.280 ℃ of No. 2 rectifying Tata still temperature, tower top temperature is controlled at 170 ℃, and vacuum tightness is 0.097MPa, reflux ratio 1: 1.It is finished product 4-aminodiphenylamine that the cat head of No. 2 rectifying tower obtains.No. 2 the rectifying tower tower bottoms is sent into batch still.The still temperature of batch still is 285-320 ℃, vacuum tightness 0.094MPa, and the top temperature remains on 235-250 ℃, steams remaining 4-aminodiphenylamine, and loops back No. 2 rectifying tower and distill again.Whole 4-aminodiphenylamine process for refining carries out continuously.The finished product 4-aminodiphenylamine purity that obtains is 99.1%, 72 ℃ of fusing points, 72.4 ℃ at zero pour.The industrial-scale production yield of this technological process is 95.1%.
Embodiment 4
According to preparing the 4-aminodiphenylamine with embodiment 3 described identical methods, just the condensation operation is following carries out.
Under vacuum, open described compound alkaline catalysts, aniline and oil of mirbane transferpump simultaneously, regulate flow to 150 kilograms/hour of aniline, 30 kilograms/hour in oil of mirbane, 200 kilograms/hour of compound alkaline catalystss, with said components oil of mirbane, aniline and compound alkaline catalysts in proportion continuously feeding to falling film reactor heat to carry out condensation reaction; Condensated liquid in the falling film reactor is discharged from the bottom and is entered A reactor, to proceed condensation reaction; The condensated liquid of part A reactor bottom returns falling film reactor again by recycle pump, forms the local circulation system.The heating agent of falling film reactor adopts 78-90 ℃ of alcohol vapor.75 ℃ of control reaction temperature, pressure 0.008MPa (absolute pressure), 1 meter of circulating fluid flow rate 3/ hour.The material overflow of A reactor is to second reactor.The service temperature of second reactor is identical with A reactor with processing condition such as pressure.The total residence time of control material in falling film reactor, A reactor and second reactor is 5 hours.After condensation reaction is stable, use the compound alkaline catalysts that reclaims.According to sodium hydroxide: the ratio of tetraalkylammonium salt (is the tetramethyl-volatile salt according to embodiment 1) 1: 1 (mole) is added alkaline catalysts, and the concentration of hydroxide ion and the mol ratio of oil of mirbane are not less than 1: 1 in the control reaction system.The material that second reactor is discharged by analysis, oil of mirbane≤0.1%, moisture 15.6%, 4-nitrosodiphenylamine and 4 nitrodiphenyl amine content are 17.6% (weight).
Embodiment 5
The renovation process of catalyzer
Get by filtering composite powder powder catalyzer 20 grams that hydride reclaims, add and be equipped with in 100 milliliters of there-necked flasks of whipping appts and thermometer, add 20 milliliters 40% sodium hydroxide solution again.This mixture under agitation is warming up to 90 ℃, maintains under this temperature and reacted 1 hour.After reaction finishes, catalyzer is put into ultrasonic cleaner cleaned 30 minutes, water repeatedly washs up to the pH of washing water value and is 7-8, and the solid of gained is the compound powder catalyst after the regeneration.
Embodiment 6
The preparation of compound alkaline catalysts
In being furnished with 500 milliliters of three-necked flasks of condenser and agitator, add entry 230 grams, random order adds five hydronium(ion) oxidation tetramethyl-ammoniums, 91 grams (containing 0.50 mole of tetramethyl ammonium hydroxide), sodium hydroxide 20 grams (0.5 mole), chlorination trimethylammonium hydroxyethyl ammonium 70 grams (0.5 mole), 75 ± 2 ℃ of controlled temperature, stir, make compound alkaline catalysts, concentration is 32.85 (weight %).
Embodiment 7
The preparation of compound alkaline catalysts
In being furnished with 500 milliliters of three-necked flasks of condenser and agitator, add entry 230 grams, be not sequentially added into five hydronium(ion) oxidation tetramethyl-ammoniums, 91 grams (containing 0.50 mole of tetramethyl ammonium hydroxide), sodium hydroxide 20 gram (0.5 mole), methyl carbonic acid tetramethyl-ammonium [(CH 3) 4N] +[CO 3CH 3] -74.5 gram (0.5 mole), 75 ± 2 ℃ of control mixing temperatures stir, and make compound alkaline catalysts, concentration 33.7 (weight %).
Embodiment 8
In being furnished with 500 milliliters of four-hole boiling flasks of condenser, agitator and water trap, add entry 150 grams, be not sequentially added into five hydronium(ion) oxidation tetramethyl-ammoniums, 91 grams (containing 0.50 mole of tetramethyl ammonium hydroxide 50%), sodium hydroxide 20 gram (0.5 mole), methyl carbonic acid tetramethyl-ammonium [(CH 3) 4N] +[CO 3CH 3] -74.5 gram (0.5 mole) adds 25 gram benzene, temperature rising reflux has water and oil reservoir in water trap, and oil reservoir comes back to four-hole boiling flask, and water layer is told, and till the liquid that steams does not have water, obtains not having water combined alkaline catalysts.
Embodiment 9
Methyl carbonic acid tetramethyl-ammonium [(CH 3) 4N] +[CO 3CH 3] -Preparation
Have whipping appts at one, in 1.5 liters the autoclave of heating unit, add methylcarbonate 90 grams (1.0 moles), Trimethylamine 99 59 grams (1.0 moles), methyl alcohol 510 grams (15 moles).Start stirring after airtight, be warmed up to 140 ℃, pressure is 1.5MPa, maintains 4 hours this following reaction times of temperature.Cool to 50 ℃ then, discharging to 1 rises in the there-necked flask, obtain the methanol solution of methyl carbonic acid tetramethyl-ammonium, a part of methyl alcohol, cool to room temperature are sloughed in decompression, the adularescent crystal is separated out, filter, oven dry is made recrystallization with methyl alcohol again, obtains methyl carbonic acid tetramethyl-ammonium 119.5 grams, stratographic analysis purity is 99.2%, and yield is 80.2%.
Embodiment 10
With 1-chloro-2,3-propylene oxide 92.5 grams (1 mole) and N methyldiethanol amine 3 grams (1 mole), with 2 gram sodium hydroxide, add 700 gram water again, add one and have stirring, heating in the reactor of temperature measuring equipment, is started stirring, be warmed up to 120 ℃ gradually, feed ethylene oxide gas, keep reactor pressure 0.3Mpa to reactor, logical again oxyethane after reaction pressure reduces, amount up to the oxyethane that feeds reaches 150 grams, continues to react 2 hours the ClCH that obtains under this condition 2[CH 2CH 2O] 2-5H feeds Trimethylamine 99 gas 60 grams again, is warmed up to 140 ℃, and pressure is 1.5MPa, maintains 4 hours this following reaction times of temperature.Cool to room temperature then, dehydrate, obtain N, N, N-trimethylammonium-N-ethoxylation (1-4 mole EO) propyl ammonium hydrochloride 105 grams according to ordinary method.
Embodiment 11
The preparation of tetramethyl ammonium hydroxide:
Have whipping appts at one, in 1.5 liters the autoclave of heating unit, add methylcarbonate 90 grams (1.0 moles), Trimethylamine 99 59 grams (1.0 moles), methyl alcohol 510 grams (15 moles).Start stirring after airtight, be warmed up to 140 ℃, pressure is 1.5MPa, maintains 4 hours this following reaction times of temperature.Cool to room temperature then, discharging to 1 rises in the there-necked flask, adds the soup compound that 148 gram (2.0 moles) calcium hydroxides and 350 gram water are mixed with.Stir down and steam methyl alcohol, filter and obtain 355 gram tetramethyl ammonium hydroxide solutions with heating in 8 hours.Analysis knows that tetramethyl ammonium hydroxide content is 24.4%, and the entire reaction yield is 95.2%.
Embodiment 12
The preparation of tetraethyl ammonium hydroxide
Have whipping appts at one, in 1.5 liters the autoclave of heating unit, add ethyl sulfate 154 grams (1.0 moles), triethylamine 101 grams (1.0 moles), ethanol 690 gram (15 moles) starts stirring after airtight, is warmed up to 140 ℃ and keeps, pressure is 1.0MPa, maintains 4 hours this following reaction times of temperature.Cool to room temperature then, discharging to 1 rises there-necked flask, adds sodium hydroxide 80 grams (2.0 moles), heating under agitation, and control reaction temperature is 45 ℃, reacts 4 hours.Filter, filtrate steams part ethanol earlier, adds 500 gram water, steams ethanol (wherein having portion water to be pulled away) when adding entry, obtains 604 gram tetraethyl ammonium hydroxide solution.Analysis knows that tetraethyl ammonium hydroxide content is 23.3% (weight), and the entire reaction yield is 95.7%.
Embodiment 13
The amount of aniline and oil of mirbane is to the influence of reaction
Mini-reactor and film reactor and recycle pump are formed the local circulation system, and cumulative volume is 1 liter, and this system is equipped with vacuum system and temperature controlling system.Fill aniline earlier, the flow set of recycle pump is 2 liters/hour.With oil of mirbane: aniline: OH in the compound alkaline catalysts -Mol ratio be that the mixed solution of 1: 1: 1.8 the compound alkaline catalysts that contains among oil of mirbane, aniline and the embodiment 1 preparation is fed to reactor with 200 milliliters/hour, the residence time is 5 hours, keeping system temperature is 75 ℃, and pressure is 0.008MPa (absolute pressure).Displace aniline Deng reaction solution, after the reaction solution composition is stable, sampling analysis, the basic existence that detects less than oil of mirbane.Calculate the selectivity of reaction according to the 4-nitrosodiphenylamine of reaction generation and the total mole number of 4 nitrodiphenyl amine.
Adopt same condition, just change the proportioning of oil of mirbane and aniline, obtain the results are shown in Table 1.
The amount of table 1 aniline and oil of mirbane is to the influence of reaction
Numbering Oil of mirbane: aniline (mole) Reaction preference (%)
1 1∶1 90.2
2 1∶3 96.1
3 1∶5 99.1
4 1∶10 99.3
From table data as can be seen, the mol ratio that increases aniline and oil of mirbane can improve the selectivity of reaction, increases target product, reduces by product.But in actual applications, if the amount of aniline is excessive, the consumption of the consumption that can increase aniline when separating energy when separating.
Embodiment 14
Water is to the influence of condensation reaction:
Mini-reactor and film reactor and recycle pump are formed the local circulation system, and cumulative volume is 1 liter, and this system is equipped with vacuum system and temperature controlling system.Fill aniline in reactive system earlier, the flow of recycle pump is 2 liters/hour, will contain oil of mirbane, aniline, the mixed solution of compound alkaline catalysts enters reactor with certain speed, keeps oil of mirbane: aniline: molar ratio be 1: 7, oil of mirbane: compound alkaline catalysts OH -Molar ratio is 1: 1.15, keeping system temperature is 75 ℃, pressure is 0.008MPa (absolute pressure), displace aniline Deng reaction solution, after the reaction solution composition is stable, adjust reaction time by regulating feed rate, up to detecting oil of mirbane≤0.1%, when the yield that 4-nitrosodiphenylamine that generates according to reaction and 4 nitrodiphenyl amine calculate reaches 97%, measure the moisture content in reaction solution exit, the result who obtains is as follows:
Sequence number Compound alkaline catalysts three component ratios (mol ratio) Product water content (%)
Tetramethyl ammonium hydroxide: N, N-dimethyl-N, N-two (ethoxylation (1-4 mole EO) propyl group) ammonium carbonate: sodium hydroxide
1 5∶2∶2 5.1
2 3∶2∶2 10.2
3 2∶2∶2 15.4
4 1∶2∶1 17.5
5 0.5∶2∶0.5 19.8
6 Make catalyzer with tetramethyl ammonium hydroxide 1.2
Can see, along with N in the compound alkaline catalysts, N-dimethyl-N, the raising of N-two (ethoxylation (1-4 mole EO) propyl group) ammonium carbonate ratio, the water content during reaction end is improving.Adopt compound alkaline catalysts of the present invention, the wide ranges of the moisture content that allows in the reaction mixture when reaction finishes a lot, when in system, containing, also can obtain satisfied yield than higher water-content.Because few more at reaction later stage moisture, the efficient of dehydration is low more, and the inventive method has reduced the difficulty of reaction.And if only adopt tetramethyl ammonium hydroxide as catalyzer, then system must be dewatered to 1.2%, 97% yield is just arranged, this has brought difficulty for control of reaction, has also increased energy consumption.
Embodiment 15
With embodiment 8 prepared anhydrous composite catalysts, pack into aniline 651 gram and one to have whipping appts, in the four-hole boiling flask of thermometer, start stirring, keeping temperature is 75 ℃, pressure is 0.008MPa (absolute pressure), aniline comes back in the four-hole boiling flask after aniline that distills out and the layering of water azeotrope, water content drips oil of mirbane 123 grams less than 0.5% in system, and the dropping time is 2 hours, kept 4 hours, continue dehydration when keeping, the yield of chromatographically 4-nitrosodiphenylamine and 4 nitrodiphenyl amine is 97.4%, and water content is less than 0.5% in the detection architecture.
Embodiment 16
Film type reaction and the full comparison that mixes reaction result continuously
OH in control aniline, oil of mirbane and the compound alkaline catalysts -Ratio be 7.5: 1: 1.5 (mol/mol), temperature of reaction is 75 ℃, the reaction times is 5 hours, pressure is 0.005MPa (absolute pressure), more continuous film type reaction and complete mix reaction the results are shown in Table 2 and table 3.
Table 2: the full result who mixes reaction
Sequence number Oil of mirbane transformation efficiency % Yield %
1 98.1 94.6
2 98.3 95.1
3 98.1 94.8
Table 3: continuous film type reaction
Sequence number Oil of mirbane transformation efficiency % Yield %
1 99.2 97.6
2 99.9 98.1
3 99.5 97.8
Embodiment 17
Fixed-bed catalytic hydrogenation
The cylinder shape copper catalyst is housed in the reactor of 400ml, huddles and form, diameter is 5mm, and the cylinder height is 5mm.Catalyzer contains cupric oxide 42%, zinc oxide 42%, and aluminium sesquioxide 6%, all the other are mechanical water.Under hydrogen stream, 110 ℃ of-240 ℃ of deactivated catalyst beds 24 hours.After the little heating and melting of organic phase that contains 4 nitrodiphenyl amine and 4-nitrosodiphenylamine that obtains in the embodiment 3 separation I steps, with the methanol mixed that is equivalent to its 30% volume.This mixture enters above-mentioned hydrogenation reactor with after the flow of 100ml/h and the hydrogen mixing preheating, and at 5.0MPa pressure, vapour-liquid ratio is 1000: 1, and temperature is to carry out hydrogenation under 135 ℃ the condition.Hydro-reduction liquid detects through high performance liquid chromatography, does not contain 4 nitrodiphenyl amine and 4-nitrosodiphenylamine.This device has moved 500 hours under these conditions continuously.
Embodiment 18
Hydrogenation at intermittence embodiment
In having 1 liter autoclave of whipping appts, temperature regulating device, what add that 500 grams contain 17.5 weight %4-nitrosodiphenylamines and 3.0 weight %4-nitrodiphenylamines separates I liquid.Composite powder powder catalyzer 5 grams that add preparation in the 150 gram ethanol and the embodiment of the invention 2.Behind hydrogen exchange three times, pressurising is to 0.8MPa.Under agitation, reaction mixture is warmed up to 100 ℃, and maintains under this temperature reaction 4 hours.Reaction finishes postcooling, pressure release discharging.Use the efficient liquid phase chromatographic analysis reaction solution, find not contain 4-nitrosodiphenylamine and 4 nitrodiphenyl amine in the reaction solution, the content of 4-aminodiphenylamine is 14.6% (chromatogram content).
The comparison of composite powder powder catalyzer and noble metal catalyst
Compare with Pd/C catalyzer that contains palladium 5% (weight) and composite powder powder catalyzer of the present invention.Test is carried out under the described processing condition of above-mentioned hydrogenation at intermittence embodiment, add the amount unanimity of catalyzer, two kinds of equal recovery sets of catalyzer were used after reaction finished.Apply mechanically within 21 times two kinds of catalyst recovery, all detect less than 4-nitrosodiphenylamine in both reaction solutions, the 21st cover time spent, with containing 0.1% 4 nitrodiphenyl amine in the Pd/C catalyzer gained reaction solution, and with detecting less than 4 nitrodiphenyl amine in the reaction solution of composite powder powder catalyzer gained of the present invention.The toxin immunity that shows catalyzer of the present invention is better than noble metal catalyst.

Claims (31)

1. method for preparing the 4-aminodiphenylamine, this method is a raw material with oil of mirbane and aniline, comprise condensation, separate I that to be Separation and Recovery be Separation and Recovery and recycle aniline and optionally separating reclaims and recycle hydrogenation solvent, refining five operations with recycling compound alkaline catalysts, hydrogenation, separating II, wherein use compound alkaline catalysts as condensation catalyst.
2. the method for preparing the 4-aminodiphenylamine according to claim 1 it is characterized in that compound alkaline catalysts that condensation reaction adopts by tetraalkylammonium hydroxide, alkali metal hydroxide, and three kinds of components of tetraalkylammonium salt is formed.
3. the method for preparing the 4-aminodiphenylamine according to claim 2, the mol ratio that it is characterized in that tetraalkylammonium hydroxide, alkali metal hydroxide, tetraalkylammonium salt in the compound alkaline catalysts is (0-9): (0.5-3): (0.5-3), tetraalkylammonium hydroxide, alkali metal hydroxide, tetraalkylammonium salt three weight percent concentration summation are 10%-100%.
4. according to the method for preparing the 4-aminodiphenylamine of claim 1 or 2, it is characterized in that the compound alkaline catalysts that is adopted prepares by the following method: controlled temperature 0-90 (℃), tetraalkylammonium hydroxide, alkali metal hydroxide or oxide compound, tetraalkylammonium salt are stirred in water, promptly get aqueous compound alkaline catalysts, wherein said raw material tetraalkylammonium hydroxide, alkali metal hydroxide or oxide compound, tetraalkylammonium salt are solid form or aqueous solution form.
5. according to the method for preparing the 4-aminodiphenylamine of claim 1 or 2, it is characterized in that the compound alkaline catalysts that is adopted prepares by the following method: controlled temperature 0-90 (℃), tetraalkylammonium hydroxide, alkali metal hydroxide or oxide compound, tetraalkylammonium salt are stirred in water, add benzene azeotropic then and slough moisture fully, obtain not having water combined alkaline catalysts, wherein said raw material tetraalkylammonium hydroxide, alkali metal hydroxide or oxide compound, tetraalkylammonium salt are solid form or aqueous solution form.
6. according to the method for preparing the 4-aminodiphenylamine of claim 2, it is characterized in that described tetraalkylammonium salt has following general formula:
[(R1)(R2)(R3)(R4)N] + nX n-
Wherein R1, R2, R3, R4 are identical or inequality, and for having the alkyl of 1-4 carbon atom, described alkyl has hydrophilic substituent group or non-hydrophilic substituent group, X N-Be selected from halogen root, sulfate radical, carbonate, phosphate radical, bicarbonate radical, bisulfate ion, alkyl (C1-C2) carbonate, alkyl (C1-C2) sulfate radical etc., n=1-2.
7. according to the method for preparing the 4-aminodiphenylamine of claim 6, it is characterized in that described alkyl has that at least one has hydrophilic substituent group among R1, R2 in the tetraalkylammonium salt general formula of hydrophilic substituent group, R3, the R4, this hydrophilic substituent group is selected from the group that hydroxyl, methoxyl group, polyethers, cationic polyamide, polyester, the many ammoniums of many ethene, strong water-soluble contain quaternary ammonium salt.
8. according to the method for preparing the 4-aminodiphenylamine of claim 7, it is characterized in that described alkyl has the tetraalkylammonium salt of hydrophilic substituent group for being selected from many methylated triethylene tetramines vitriol, the diethylenetriamine that methylates carbonate more, N, N-dimethyl-N, N-dimethoxy ethyl ammonium carbonate, N-methyl-N, N, N-trimethoxy ethyl ammonium carbonate, N, N, N-trimethylammonium-N-hydroxyethyl ammonium carbonate, chlorination trimethylammonium hydroxyethyl ammonium, N, N, N-trimethylammonium-N-ethoxylation (1-4 mole EO) ethyl ammonium carbonate, N, N, N-trimethylammonium-N-ethoxylation (1-4 mole EO) propyl ammonium carbonate, N, N, N-trimethylammonium-N-ethoxylation (1-4 mole EO) propyl ammonium muriate, N, N-dimethyl-N, the tetraalkylammonium salt of N-two (ethoxylation (1-4 mole EO) propyl group) ammonium carbonate.
9. the method for preparing the 4-aminodiphenylamine according to Claim 8 is characterized in that the tetraalkylammonium salt that described alkyl has a non-hydrophilic radical is selected from tetramethyl-ammonium carbonate, methyl carbonic acid tetramethyl-ammonium, tetraethyl ammonium carbonate, ethyl carbonate tetraethyl ammonium, tetramethyl-ammonium vitriol, methylsulfuric acid tetramethyl-ammonium, tetraethyl ammonium vitriol and ethylsulfuric acid tetraethyl ammonium.
10. according to each the method for preparing the 4-aminodiphenylamine among the claim 6-9, it is characterized in that described tetraalkylammonium salt, react in polar solvent by trialkylamine and dialkyl carbonate (C1-C2) ester or sulfuric acid dialkyl group (C1-C2) ester and make.
11. the method for preparing the 4-aminodiphenylamine according to claim 10 is characterized in that preparing in the reaction of described tetraalkylammonium salt, reaction pressure is 0.1-3 (MPa); Temperature of reaction be 50-200 (℃); Reaction times is 1.5-6 hour; The ratio of trialkylamine and dialkyl carbonate (C1-C2) ester or sulfuric acid dialkyl group (C1-C2) ester is 2: 1-1: 2 (moles); Selected polar solvent is methyl alcohol, ethanol or Virahol; The consumption of polar solvent be trialkylamine weight 1-10 doubly.
12. the method for preparing the 4-aminodiphenylamine according to claim 1, it is characterized in that described separation I operation, adopt to add in the acidic substance and separate with condensated liquid, reclaim compound alkaline catalysts with alkali alkalization water again, the compound alkaline catalysts of recovery loops back the condensation operation.
13. the method for preparing the 4-aminodiphenylamine according to claim 12, it is characterized in that in separating I, described acidic substance are selected from the combination of mineral acid, its oxide compound and water and other inorganic acid salt, the combination of preferred hydrochloric acid, sulfuric acid, nitric acid, carbonic acid, sodium bicarbonate, carbonic acid gas and water, the combination of sulphur trioxide and water; The alkali that adopts is selected from the oxyhydroxide or the oxide compound of basic metal and alkaline-earth metal, need select corresponding acidic substance and alkali according to tetraalkylammonium salt and alkali in the compound alkaline catalysts.
14, the method for preparing the 4-aminodiphenylamine according to claim 1, it is characterized in that hydrogenation catalyst that described hydrogenation process adopts is for being selected from group VIII element or copper on the periodic table of elements, chromium, zinc, manganese is as activeconstituents and/or help the conventional hydrogenation catalyst or the composite powder powder catalyzer of catalyst component.
15, the method for preparing the 4-aminodiphenylamine according to claim 14, it is characterized in that composite powder powder catalyst pack is nickeliferous, aluminium and elements A, described A is selected from least a among Fe, Cu, Co, Mn, Cr, Mo, B and the P, wherein the weight percentage of nickel is 25%-99.9%, and the gross weight percentage composition of aluminium and elements A is 0.1%-75%.
16. the method for preparing the 4-aminodiphenylamine according to claim 15, it is characterized in that the composite powder powder catalyzer that hydrogenation adopts prepares by the following method: with nickel powder, after aluminium powder and elements A are mixed, fusion at high temperature, pulverize powdered after the quenching discharging, handle with hydroxide aqueous solution then.
17. the method for preparing the 4-aminodiphenylamine according to claim 1, it is characterized in that solvent that hydrogenation uses as alcohols or/and water.
18, according to claim 1 or the 14 or 17 described methods that prepare the 4-aminodiphenylamine, it is characterized in that described hydrogenation process is to have separated the condensated liquid of compound alkaline catalysts and hydrogenation solvent under the effect of hydrogenation catalyst and hydrogen reaction, obtain the hydride of 4-aminodiphenylamine, hydrogenation solvent comprises additional hydrogenation solvent (3) and the optional hydrogenation solvent (5) that reclaims, and hydrogenation catalyst comprises that additional composite powder powder catalyzer separates the optional composite powder powder catalyzer (4) of partial regeneration at least that II operation partitioning cycle is used with process.
19. the method for preparing the 4-aminodiphenylamine according to claim 1, the condition that it is characterized in that condensation reaction is, the mol ratio of oil of mirbane and aniline is 1: 1-1: 15, temperature of reaction be 20-150 (℃), reaction pressure is absolute pressure 0.005-0.1 (MPa), the reaction times be 3.5-6 (hour).
20. the method for preparing the 4-aminodiphenylamine according to claim 1 and 2 is characterized in that the mol ratio of hydroxide ion and oil of mirbane is 1 in the compound alkaline catalysts: 4-4: 1.
21. the method for preparing the 4-aminodiphenylamine according to claim 1 is characterized in that condensation reaction carries out under oxygen free condition.
22. the method for preparing the 4-aminodiphenylamine according to claim 1 is characterized in that in the condensation reaction, need not add or control the proton material in addition.
23. the method for preparing the 4-aminodiphenylamine according to claim 1 is characterized in that in the condensation reaction solvent-free.
24. the method for preparing the 4-aminodiphenylamine according to claim 1, it is characterized in that only needing in the condensation reaction to add the compound alkaline catalysts of part, only replenish tetraalkylammonium salt component and/or alkali metal hydroxide or alkalimetal oxide component in the compound alkaline catalysts in the reaction process at the initial stage of reaction.
25. the method for preparing the 4-aminodiphenylamine according to claim 1 is characterized in that the condensation operation is to reach in the optional subsequent reactor in the recycle system that is formed by condensation recycle pump, falling film reactor and A reactor to carry out.
26. the method for preparing the 4-aminodiphenylamine according to claim 25 is characterized in that the heating agent of described falling film reactor adopts alcohol vapor, hot water, steam or methanol vapor.
27. the method for preparing the 4-aminodiphenylamine according to claim 1, the condition that it is characterized in that hydrogenation is, employing hydrogen is reductive agent, gas-liquid volume ratio is 10: 1-1500: 1, the solid-liquid weight ratio is 0.5 when adopting on-fixed bed hydrogenation process: 100-16: 100, solvent is 1 with the weight of separating the condensated liquid that the I feed liquid promptly separated compound alkaline catalysts: 10-5: 10, gas refers to hydrogen, liquid comprises solvent and separates I liquid, solid refers to hydrogenation catalyst, the temperature of hydrogenation be 50-150 (℃), the pressure of reactor is absolute pressure 0.2-6.0 (MPa), the reaction times be 2-7 (hour).
28. the method for preparing the 4-aminodiphenylamine according to claim 18 is characterized in that utilizing magnetic separator to reclaim the composite powder powder catalyzer of magnetic behind the hydrogenation.
29. the method for preparing the 4-aminodiphenylamine according to claim 18 is characterized in that by Venturi-type solid-liquid mix conveying appliance, sends the composite powder powder catalyzer that magnetic separator reclaims back to hydrogenation reactor by reinforced power.
30. the method for preparing the 4-aminodiphenylamine according to claim 18 is characterized in that the composite powder powder catalyzer of inactivation is regenerated by vibration of ultrasonic wave and/or with the highly basic processing.
31. the method for preparing the 4-aminodiphenylamine according to claim 1, it is characterized in that the 4-aminodiphenylamine crude product (10) that will separate most of aniline is fed to refining step, at this cutting out partial aniline (6) and 4-aminodiphenylamine finished product, isolating aniline loops back the condensation operation, refining three tower continuous rectifications that adopt add batch fractionating technology, wherein 1,2, the vacuum tightness of No. 3 rectifying tower is 0.09-0.098MPa independently of one another, tower still temperature is respectively 260-290 ℃, 260-300 ℃ and 120-170 ℃, reflux ratio is respectively 2: 1-10: 1,1: 0.5-1: 4 and 1: 0.5-1: 2, the vacuum tightness of batch fractionating is 0.09-0.098MPa, and tower still temperature is 280-330 ℃.
CNB2004100689824A 2004-07-15 2004-07-15 Process for preparing 4-amino diphenylamine Expired - Lifetime CN100453525C (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CNB2004100689824A CN100453525C (en) 2004-07-15 2004-07-15 Process for preparing 4-amino diphenylamine

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CNB2004100689824A CN100453525C (en) 2004-07-15 2004-07-15 Process for preparing 4-amino diphenylamine

Publications (2)

Publication Number Publication Date
CN1721390A true CN1721390A (en) 2006-01-18
CN100453525C CN100453525C (en) 2009-01-21

Family

ID=35912053

Family Applications (1)

Application Number Title Priority Date Filing Date
CNB2004100689824A Expired - Lifetime CN100453525C (en) 2004-07-15 2004-07-15 Process for preparing 4-amino diphenylamine

Country Status (1)

Country Link
CN (1) CN100453525C (en)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101863778A (en) * 2010-06-25 2010-10-20 天津市有机化工一厂 Production method of 4-aminodiphenylamine
CN101381315B (en) * 2008-10-17 2010-12-08 山西翔宇化工有限公司 Preparation method of p-aminodiphenylamine
CN102372639A (en) * 2010-08-20 2012-03-14 中国石油化工集团公司 Method for preparing 4-aminodiphenyamine
CN102796008A (en) * 2012-07-05 2012-11-28 河南颖泰化工有限责任公司 Technique for recycling and reutilizing effluent gas in MEA (monoethanolamine) production
CN107118108A (en) * 2017-06-06 2017-09-01 青岛科技大学 A kind of catalytic hydrogenation method of aniline nitrobenzene condensation liquid
CN108558675A (en) * 2018-04-25 2018-09-21 南通理工学院 Synthesis method of 4-aminodiphenylamine
CN108623475A (en) * 2017-03-20 2018-10-09 中国石油化工股份有限公司 A kind of method that quaternary ammonium alkali collection puts recycling in order
CN108997140A (en) * 2017-06-06 2018-12-14 中国石油化工股份有限公司 A method of the separation of recycling quaternary ammonium base, desalination recycle
CN110818569A (en) * 2018-08-13 2020-02-21 中国石油化工股份有限公司 Treatment method of RT base production waste gas

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN1187316C (en) * 2003-07-04 2005-02-02 冯晓根 Method for preparing 4-amino diphenylamine
CN1186124C (en) * 2003-07-04 2005-01-26 郭长玉 Composite base catalyst and its preparing method
CN1228310C (en) * 2003-07-04 2005-11-23 兰溪市钱塘合成新材料有限公司 Method for preparing tetraalkylammonium hydroxide

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101381315B (en) * 2008-10-17 2010-12-08 山西翔宇化工有限公司 Preparation method of p-aminodiphenylamine
CN101863778A (en) * 2010-06-25 2010-10-20 天津市有机化工一厂 Production method of 4-aminodiphenylamine
CN101863778B (en) * 2010-06-25 2013-05-15 天津一化化工有限公司 Production method of 4-aminodiphenylamine
CN102372639A (en) * 2010-08-20 2012-03-14 中国石油化工集团公司 Method for preparing 4-aminodiphenyamine
CN102796008A (en) * 2012-07-05 2012-11-28 河南颖泰化工有限责任公司 Technique for recycling and reutilizing effluent gas in MEA (monoethanolamine) production
CN108623475A (en) * 2017-03-20 2018-10-09 中国石油化工股份有限公司 A kind of method that quaternary ammonium alkali collection puts recycling in order
CN107118108A (en) * 2017-06-06 2017-09-01 青岛科技大学 A kind of catalytic hydrogenation method of aniline nitrobenzene condensation liquid
CN107118108B (en) * 2017-06-06 2018-07-20 青岛科技大学 A kind of catalytic hydrogenation method of aniline-nitrobenzene condensation liquid
CN108997140A (en) * 2017-06-06 2018-12-14 中国石油化工股份有限公司 A method of the separation of recycling quaternary ammonium base, desalination recycle
CN108558675A (en) * 2018-04-25 2018-09-21 南通理工学院 Synthesis method of 4-aminodiphenylamine
CN110818569A (en) * 2018-08-13 2020-02-21 中国石油化工股份有限公司 Treatment method of RT base production waste gas
CN110818569B (en) * 2018-08-13 2022-08-16 中国石油化工股份有限公司 Treatment method of RT base production waste gas

Also Published As

Publication number Publication date
CN100453525C (en) 2009-01-21

Similar Documents

Publication Publication Date Title
US9029603B2 (en) Process for preparing alkylated p-phenylenediamines
EP1645555B1 (en) A method for producing 4-aminodiphenylamine
CN1084226C (en) Novel metallic compounds useful as catalysts
CN1191229C (en) Method of preparation of 4-aminodiphenylamine
CN1721390A (en) Process for preparing 4-amino diphenylamine
CN113620813A (en) Preparation method of N, N-dimethyl-1, 3-propane diamine
JP4453798B2 (en) Method for producing aromatic carboxylic acid hydride
CN100336796C (en) Process for preparing 4-amino diphenylamine
CN114605225A (en) Method for continuously synthesizing 1,1,1,3, 3-pentachloropropane
CN111170829A (en) Preparation method of hexamethyl indanol
US8686188B2 (en) Process for preparing 4-aminodiphenylamine
CN111269142B (en) Method for catalyzing benzylidene malononitrile compound by SBA-15 supported ionic liquid
CN104496939B (en) A kind of catalytic hydrogenation prepares the method for piperazine or alkyl piperazine
CN1187316C (en) Method for preparing 4-amino diphenylamine
CN108727203B (en) Method for continuously producing N-alkyl m-aminophenol by fixed bed
JPH062718B2 (en) Continuous production of tolylenediamine
CN118619847B (en) Preparation method of malononitrile
CN118724748A (en) Method for synthesizing succinonitrile
CN117088782A (en) Continuous synthesis method of amino aromatic compound

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
ASS Succession or assignment of patent right

Owner name: SHANDONG SHENG AO CHEMICAL CO., LTD.

Free format text: FORMER OWNER: SHI GUANGQIANG; APPLICANT

Effective date: 20080125

C41 Transfer of patent application or patent right or utility model
TA01 Transfer of patent application right

Effective date of registration: 20080125

Address after: 1#, Bei Huan Lu, Shandong, Caoxian: 274400

Applicant after: Shandong Sinorgchem chemical Limited by Share Ltd.

Address before: 1#, Bei Huan Lu, Shandong, Caoxian: 274400

Applicant before: Shi Guangqiang

Co-applicant before: Wang Nongyue

ASS Succession or assignment of patent right

Owner name: SHANDONG CARLYLE SHENG AO CHEMICAL CO., LTD.

Free format text: FORMER OWNER: SHANDONG SHENG AO CHEMICAL CO., LTD.

Effective date: 20080418

C41 Transfer of patent application or patent right or utility model
TA01 Transfer of patent application right

Effective date of registration: 20080418

Address after: South West Road, Caoxian Jinsha River, Heze City, Shandong Province, China: 274400

Applicant after: Shandong Sinorgchem International Chemical Co.,Ltd.

Address before: 1#, Bei Huan Lu, Shandong, Caoxian: 274400

Applicant before: Shandong Sinorgchem chemical Limited by Share Ltd.

ASS Succession or assignment of patent right

Owner name: SHANDONG SHENG AO CHEMICAL CO., LTD.

Free format text: FORMER OWNER: SHANDONG CARLYLE SHENG AO CHEMICAL CO., LTD.

Effective date: 20080704

C41 Transfer of patent application or patent right or utility model
TA01 Transfer of patent application right

Effective date of registration: 20080704

Address after: 1 Bei Huan Road, Shandong, Caoxian, China: 274400

Applicant after: Shandong Sinorgchem chemical Limited by Share Ltd.

Address before: South West Road, Caoxian Jinsha River, Heze City, Shandong Province, China: 274400

Applicant before: Shandong Sinorgchem International Chemical Co.,Ltd.

ASS Succession or assignment of patent right

Owner name: JIANGSU SHENG AO CHEMICAL TECHNOLOGY CO., LTD.

Free format text: FORMER OWNER: SHANDONG SHENG AO CHEMICAL CO., LTD.

Effective date: 20080822

C41 Transfer of patent application or patent right or utility model
TA01 Transfer of patent application right

Effective date of registration: 20080822

Address after: Room 1, 212 drug City Avenue, Jiangsu, Taizhou Province, China: 225300

Applicant after: Jiangsu Sinorgchem Technology Co.,Ltd.

Address before: 1 Bei Huan Road, Shandong, Caoxian Province, China: 274400

Applicant before: Shandong Sinorgchem chemical Limited by Share Ltd.

C14 Grant of patent or utility model
GR01 Patent grant
C56 Change in the name or address of the patentee
CP03 Change of name, title or address

Address after: Room 1, building 606, medicine City Avenue, Jiangsu, Taizhou, China, 225316

Patentee after: SENNICS Co.,Ltd.

Address before: 225300 Jiangsu City, Taizhou Province medicine city road, room 1, No. 212

Patentee before: Jiangsu Sinorgchem Technology Co.,Ltd.

CP02 Change in the address of a patent holder
CP02 Change in the address of a patent holder

Address after: 200120 China (Shanghai) free trade pilot area, Pudong Avenue, room 1200, 2304.

Patentee after: SENNICS Co.,Ltd.

Address before: 225316 Room 606, medicine City Avenue, Taizhou, Taizhou, Jiangsu

Patentee before: SENNICS Co.,Ltd.

CX01 Expiry of patent term

Granted publication date: 20090121

CX01 Expiry of patent term