Organic compounds -- part of the class 532-570 series – Organic compounds – Amino nitrogen containing
Reexamination Certificate
2003-03-24
2004-11-16
Davis, Brian J. (Department: 1621)
Organic compounds -- part of the class 532-570 series
Organic compounds
Amino nitrogen containing
C564S331000, C564S334000
Reexamination Certificate
active
06818795
ABSTRACT:
The present invention relates to a process for the production of mixtures or methylenedianiline (MDA) and its higher homologous products.
More specifically, the present invention relates to a process for the preparation of MDA or mixtures of MDA and its higher homologous products, wherein said mixtures contain compounds having the following general formula (I):
wherein R represents a hydrogen atom or a C
1
-C
8
alkyl, C
4
-C
10
cycloalkyl or C
6
-C
12
aromatic radical and n is an integer greater than or equal to one, such as to give a functionality ranging from 2 to 6.
Methylenedianiline or mixtures of methylenedianiline are mainly used as intermediates in the preparation of the corresponding methylenediisocyanate (MDI), used in turn in the synthesis of a series of compounds such as for example polyurethanes, thermoplastic polymers and epoxy resins.
Methylenedianiline is normally produced from aniline or one of its derivatives by condensation with formaldehyde in the presence of solutions of strong acids, such as hydrochloric acid, sulfuric acid and phosphoric acid, as described, for example, in U.S. Pat. Nos.2,683,730, 3,277,173, 3,344,162, 3,362,979 or in H. Ulrich, “Chemistry and Technology of Isocyanates” John Wiley and Sons, USA, 1996. The operating conditions necessary for having a product with certain structural characteristics and without the formation of significant quantities of by-products, require the use of a large quantity of strong acid and consequently the use of materials capable of resisting these acids in the plant. Furthermore, once MDA has been synthesized, a corresponding quantity of base (typically sodium hydroxide) is necessary for neutralizing the acid used, causing the formation of large quantities of salts which must be disposed of. All these requirements cause an increase in the production costs and difficulties in running the process.
There are numerous patents which describe improvements in production processes by means of strong acid catalysts, for example by carrying out the synthesis in the presence of hydrophobic solvents in order to totally or partially recycle the acid catalyst in the aqueous phase. Processes of this type are described, for example, in U.S. Pat. Nos. 4,924,028 and 4,914,236. These improvements are not substantial and involve however the introduction of another solvent (generally chlorinated) into the process, different from the starting substrate, thus increasing risks relating to environmental impact.
Various alternative methods to this productive approach have been developed since the seventies'. U.S. Pat. Nos. 4,039,580 and 4,039,581 describe the use of re-usable solid acids, in particular clays, in the synthesis of MDA from aniline and formaldehyde. In particular, the process of U.S. Pat. No. 4,039,581 comprises pre-condensation between aniline and formaldehyde at a low temperature (molar ratio aniline/formaldehyde equal to 10), and the elimination of the water and methanol (coming from the formaldehyde which is normally available in solution at 37% in water, with methanol as stabilizer). Anilineacetals of formaldehyde (aminals) are thus obtained which are put in contact with the solid acid catalyst, at a temperature ranging from 20 to 55° C., until they are 85-100% by weight converted to the corresponding benzylamines. At this point, the temperature is brought first to a range of 55-65° C., so that 75-90% of the benzylamines are converted to end-products, then to 80-100° C. to obtain complete conversion.
U.S. Pat No. 4,071,588 describes an analogous approach by means of catalysis with solid acid catalysts of the Superfiltrol type, in which the distribution of the isomers (in particular 2,4-MDA) is modulated on the basis of the condensation operating conditions selected.
These processes however have the disadvantage that the acid catalysts described require the almost total absence of water in the anilineacetal or in its solution in solvent. This water value must not be higher than 3% by weight, preferably lower than 0.15% by weight, in order to avoid deactivation of the catalyst. Clays, moreover, also have problems as they can be re-used for a limited number of times and, due to their natural and non-synthetic nature, with not completely reproducible performances depending on the specific lots.
Other solid compounds used for catalyzing the synthesis of MDA are various oxides. For example, patents WO 98/37124 and U.S. Pat. Nos. 4,284,816 and 4,287,364 describe the preparation of MDA using oxides of elements of groups IV-VI of the periodic table (for example titanium, zirconium and molybdenum), or borides and sulfides of tungsten or inter-metallic molybdenum-aluminum compounds. Although these catalysts in some cases improve the yields and productivity of the clays, they cause the formation of non-marginal quantities of various kinds of by-products.
The Applicant has now found a new process, for the production of compounds having general formula (I), starting from aniline, or its derivatives, and formaldehyde, or a compound capable of giving formaldehyde, in the presence of regenerable solid acid catalysts, such as for example zeolites, or zeolite-similar materials, and amorphous silico-aluminas. These catalysts, consisting of zeolites with medium and large pores characterized by a spaciousness index ranging from 2.5 to 19 in acid form, partially or totally exchanged, such as beta zeolite, mordenite, ZSM-12, etc. or amorphous silico-aluminas with a varying content of aluminum characterized by a pore diameter ranging from 20 to 500 Å, are capable of catalyzing the synthesis of MDA or the mixture of methylenedianiline having general formula (I) with a high activity and selectivity to the compounds of interest. They are also capable of providing a good catalytic activity in the presence of quantities of water of even 1% approx. by weight. Furthermore, as they are of a synthetic nature, they have an excellent performance reproducibility.
Further advantages of the present process include the high yield of methylenedianiline (MDA) without the use of corrosive acid reagents and the possibility, in the production of isocyanates with phosgene starting from the above mixtures, of effecting a closed chlorine cycle in the industrial site. This lowers the risk of environmental impact on the part of the productive site.
An object of the present invention therefore relates to a process for the production of compounds having general formula (I) which comprises:
(a) reacting aniline or one of its derivatives, and formaldehyde, or one of its precursors, in proportions ranging from 2 to 10 moles of aniline per mole of formaldehyde, at a temperature ranging from 10-60° C. and in the absence of an acid catalyst, so as to form an aminal mixture in aniline (the aniline is generally used in great excess with respect to the formaldehyde);
(b) separating the water from the aminal mixture to a residual concentration of water equal to about 1-2% by weight;
(c) optionally diluting the solution previously formed in step (b), in aniline;
(d) isomerizing the aminal mixture by feeding it into one or more fixed bed reactors containing a solid acid catalyst selected from a zeolite or a silico-alumina, at a temperature ranging from 100 to 250° C., preferably from 150 to 210° C., and at atmospheric pressure or at a value which is such as to maintain the reagent mixture in the liquid state;
(e) removing the aniline from the methylenedianiline, or its higher homologous products, using known purification techniques such as distillation, for example.
According to the present invention, the reagents of step (a) can be fed batchwise, in continuous or semi-continuous, starting from aniline and formaldehyde (or their derivatives or precursors). The precondensate is subsequently fed to a fixed bed reactor containing the solid acid catalyst, after removal of the water.
In order to favour the subsequent separation and recycling, the feeding of the aminal precondensate can be partialized by operating with a vertical reactor equipped with two or more later
Bosetti Aldo
De Angelis Alberto
Perego Carlo
Davis Brian J.
Dow Global Technologies Inc.
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