Distillation: processes – separatory – With measuring – testing or inspecting – Of temperature or pressure
Reexamination Certificate
1999-01-07
2004-03-16
Manoharan, Virginia (Department: 1764)
Distillation: processes, separatory
With measuring, testing or inspecting
Of temperature or pressure
C203S079000, C203S080000, C203S029000, C540S540000, C564S267000
Reexamination Certificate
active
06706153
ABSTRACT:
This invention relates to a process for the separation of a ketoxime or aldoxime from a ketoxime- or aldoxime-containing amide mixture, for instance such a mixture obtained from a Beckman rearrangement reaction.
BACKGROUND OF THE INVENTION
Such a process has been disclosed in GB-A-1286427, which describes a process in which an oxime-containing lactam mixture is treated with sulphur dioxide. For this process, at least 1 mol of sulphur dioxide is added per mol of oxime. The excess sulphur dioxide is subsequently removed and, through distillation, of caprolactam the latter is obtained in pure form.
The disadvantage of such a process lies in the introduction of a foreign substance into the process, which must ultimately be removed from the process at a later stage.
Moreover, oximes, such as ketoxime or aldoxime, function as chain terminators in the polymerization of amides, for instance in the polymerization of caprolactam to nylon-6, which is disadvantageous. It is therefore important to seek to obtain the desired amide product in the purest form possible.
GENERAL DESCRIPTION OF THE INVENTION
The object of this invention is to separate the ketoxime or aldoxime from the amide in a simple and direct process technique.
This object is accomplished by this invention by separation of the ketoxime or aldoxime by means of distillation.
This is an extremely surprising result, since GB-A-1286427 states that separation of an oxime from a lactam is either impossible or much too expensive to be realized by means of simple, straightforward physical separation techniques. It is also surprising since the ketoxime or aldoxime is not stable thermally. Undesired by products are exptected to be formed upon distillation, for example octahydrophenaxine (OHP). OHP is disadvantageous to the ultimate quality of the caprolactam.
It is generally known that amides, in particular lactams (for instance, ,-caprolactam), may be produced by means of a Beckmann rearrangement of ketoximes or aldoximes, for instance cyclohexanone oxime. This rearrangement takes place with the aid of a solid acid or neutral catalyst. Such a rearrangement may be conducted in either the gas phase or in the liquid phase.
As examples of a solid acid or neutral catalyst, use may be made of boric acid on a support, such as for instance silica or alumina and crystalline silicas, for instance silicalite I (a silicon-rich MFI) and silicalite II (a silicon-rich MEL); alternatively, an acid ion exchanger or (mixed) metal oxides can be used.
An advantage of this catalysis approach to the process is that no ammonium sulphate is formed as byproduct, as is the typical case in a Beckmann rearrangement through treatment of the ketoxime or aldoxime with the aid of strong acids such as sulfuric acid. The desired amide must then be recovered via neutralization of the reaction mixture, usually by use of ammonia water. However, this gives rise to the formation of a large amount of ammonium sulphate as byproduct.
However, in Beckmann rearrangements conducted in either the liquid phase or in the gas phase, only incomplete conversion of the ketoxime or aldoxime may take place, so that along with the desired amide, a certain amount of unreacted ketoxime or aldoxime leaves the reactor. On the other hand, it is most desirable that the ketoxime or aldoxime be fully removed from the oxime-containing mixture in view of disruptions in the further downstream processing of the amide. Therefore, it is of importance to obtain a high purity of the desired amide.
Examples of ketoximes or aldoximes in ketoxime- or aldoxime-containing amide mixtures that can be obtained from a Beckmann rearrangement include unsaturated and saturated, substituted or unsubstituted aliphatic ketoximes or aldoximes or cyclic ketoximes with 2-12 carbon atoms, for instance acetone oxime, acetaldoxime, benzaldoxime, propanaldoxime, butanaldoxime, butanone oxime, 1-butene oxime, cyclopropanone oxime, cyclohexanone oxime, cyclooctanone oxime, cyclododecanone oxime, cyclopentenone oxime, cyclododecenone oxime, 2-phenyl cyclohexanone oxime, cyclohexenone oxime.
The distillation techniques employed in the practice of this invention include both steam distillation and distillation under reduced pressure. The temperature at which the distillation can be effected is between 80° C. and 180° C. Preferably, the temperature is between 100° C. and 160° C.
The distillate containing the ketoxime or aldoxime can then be returned to the reactor for another or continuing rearrangement operation.
The distillation can be carried out in two stages, which stages may in turn be subdivided into theoretical trays, the pressure drop being less than 200 Pa per theoretical tray. Said pressure drop of less than 200 Pa relates to a measurement under standard conditions, namely the reaction of a cis-trans decalin mixture (50% cis and 50% trans) under total reflux at a pressure of 50 mbar and a vapour rate of 5.2 m/s.
In the distillation according to the invention various evaporators can be used, for instance a falling-film evaporator. As packing material for the distillation column any packing is suitable which gives a pressure drop of less than 200 Pa per theoretical tray. Such a packing materials are generally commercially available, for instance Intalox
R
metal packing (described in Chemical Engineering Progress, March 1979, pp. 86-91), Sulzer BX
R
(see Chemie Ingenieur Technik, volume 37, page 322, 1965) and Sulzer Mellapak
R
(see Chemical Engineering Progress, November 1977, pp. 71-77). Preferably, a packing material is used with which the said pressure drop is less than 100 Pa per theoretical tray, for instance the above-mentioned Mellapak
R
of Sulzer. The required number of theoretical trays in the rectification column is usually from 1-15, preferably between 5-12, and more preferably between 8-12. The caprolactam-oxime mixture to be purified can be fed to the top of the column or to the column itself. As a rule, a reflux ratio between 3 and 8 is used. The purity of the bottom product obtained according to the invention is usually >99%.
The rectification column is preferably operated at a bottom pressure of 500-3000 Pa and preferably at a bottom temperature of between 120 and 160° C.
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Database WPI Section ch, week 8350 derwent Publications Ltd., London GB; AN 83-842561 XP002024708 & SU 225 885 A (Nitrogen Organ Inte), 7 Jul. 11969 see abstract.
Frentzen Yvonne H.
Haasen Nicolaas F.
Wolters Henricus F. W.
DSM N.V.
Manoharan Virginia
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