Distillation: processes – separatory – Vaporization zone under positive pressure or vacuum
Reexamination Certificate
1999-03-10
2001-06-26
Manoharan, Virginia (Department: 1764)
Distillation: processes, separatory
Vaporization zone under positive pressure or vacuum
C203S100000, C564S437000, C564S499000
Reexamination Certificate
active
06251229
ABSTRACT:
DESCRIPTION
The present invention relates to a process for separating 2-aminomethylcyclopentylamine (AMCPA) from a mixture comprising hexamethylenediamine and AMCPA.
The complete hydrogenation of adiponitrile to hexamethylenediamine and also the partial hydrogenation with coproduction of hexamethylenediamine and 6-aminocapronitrile in the presence of a catalyst based on a metal such as nickel, cobalt, iron, rhodium or ruthenium are generally known, for example from: K. Weissermel, H.-J. Arpe, Industrielle Organische Chemie, 3rd edition, VCH Verlagsgesellschaft mbH, Weinheim, 1988, page 266, U.S. Pat. No. 4,601,859, U.S. Pat. No. 2,762,835, U.S. Pat. No. 2,208,598, DE-A 848 654, DE-A 954 416, DE-A 42 35 466, U.S. Pat. No. 3,696,153, DE-A 19500222, WO 92/21650 and German Application 19548289.1.
Byproducts include hexamethyleneimine (HMI), 1,2-diaminocyclohexane (DACH) and AMCPA.
U.S. Pat. No. 3,696,153 discloses that the hexamethylenediamine obtained by this hydrogenation comprises AMCPA as a byproduct which is very difficult to separate from the mixture.
It is an object of the present invention to provide a process for separating AMCPA from a mixture comprising essentially hexamethylenediamine and AMCPA in a technically simple and economical manner.
We have found that this object is achieved by a process for separating 2-aminomethylcyclopentylamine from a mixture comprising hexamethylenediamine and 2-aminomethylcyclopentylamine, which comprises performing the separation by distilling at a pressure from 1 to 200 mbar.
The partial or complete hydrogenation of adiponitrile can be carried out according to any of the known processes, for example according to one of the aforementioned processes described in U.S. Pat. No. 4,601,859, U.S. Pat. No. 2,762,835, U.S. Pat. No. 2,208,598, DE-A 848 654, DE-A 954 416, DE-A 4 235 466, U.S. Pat. No. 3,696,153, DE-A 9 500 222 or WO 92/21650 by, in general, performing the hydrogenation in the presence of nickel-, cobalt-, iron- or ruthenium-containing catalysts. The catalysts used can be supported or unsupported catalysts. Possible supports include, for example, aluminum oxide, silicon dioxide, titanium dioxide, magnesium oxide, activated carbons and spinels. Examples of unsupported catalysts are Raney nickel and Raney cobalt.
The hydrogenation gives rise to a mixture comprising hexamethylenediamine and AMCPA with or without 6-aminocapronitrile and adiponitrile.
The separation from a mixture comprising hexamethylenediamine and AMCPA can be effected in a conventional manner, preferably by distillation, for example as described in DE-A 195 002 22 or German Application 19 548 289.1, simultaneously or in succession, for example in a distillation column or in a sidestream takeoff column having a dividing wall (Petlyuk column), so that the condensation temperature of the downstream purification column in the AMCPA removal is generally higher and condensation is facilitated. The low boiling DACH, if present, can with advantage be separated off together with AMCPA, but the removal of DACH can also be effected overhead in a separate column.
It is advantageous to precede the purification of the hexamethylenediamine by the process of this invention by complete or partial removal of low boilers, such as HMI, if present.
In the mixture comprising hexamethylenediamine and AMCPA, THE pre-separation weight proportion of AMCPA, based on hexamethylenediamine, is generally within the range from 1 to 10,000 ppm, especially 10 to 10,000, more especially within the range from 100 to 1000 ppm, although the process of the invention is not restricted to these limits.
The separation of AMCPA from the mixture is carried out according to the invention by distillation at pressures from 1 to 300 mbar, preferably from 1 to 200 mbar, which results in bottom temperatures within the range from 40 to 160° C.
The post-separation weight proportion of 2-aminomethylcyclopentylamine, based on the recovered hexamethylenediamine product, is within the range from 0 to 100 ppm.
The distillation can be carried out in customary apparatus as described for example in: Kirk-Othmer, Encyclopedia of Chemical Technology, 3rd Ed., Vol. 7, John Wiley & Sons, New York, 1979, pages 870-881, such as sieve plate columns, bubble cap columns or packed columns.
Preference is given to a distillation apparatus having a pressure drop from bottom to top within the range from 0 to 200 mbar, preferably within the range from 0 to 50 mbar, and the pressure should advantageously be within the range from 3 to 300 mbar, especially within the range from 3 to 200 mbar, at the bottom and within the range from 1 to 300 mbar, especially within the range from 1 to 200 mbar, at the top.
It is particularly advantageous to use distillation columns having a low pressure drop, preferably not more than 1 mbar, especially 0.5 mbar, per theoretical plate.
The use of any conventional distillation apparatus is contemplated such as distillation columns or vessels known in the chemical arts.
Columns which are especially suitable are packed columns, preferably with arranged packing such as metal sheet packing, especially woven wire packing.
The process of the invention affords the AMCPA as overhead product, in general, if present in the mixture comprising essentially hexamethylenediamine and AMCPA, in the mixture with DACH and low boiling components.
The distillation can be carried out in a plurality of columns, such as 2 or 3 columns, but is advantageously carried out in a single column.
Hexamethylenediamine can be processed with dicarboxylic acids such as adipic acid into industrially important polymers.
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Bassler Peter
Fischer Rolf
Luyken Hermann
Merger Martin
Rehfinger Alwin
BASF - Aktiengesellschaft
Keil & Weinkauf
Manoharan Virginia
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