IL85042A - Method for the treatment of dinitroanilines to reduce their nitrosamine content and/or to stabilise them against the formation of nitrosamines - Google Patents

Description

"A method for the treatment of dinitroanilines to reduce their nitrosamine content and/or to stabilise them against the formation of nitrosamines" The present invention relates to a method for the treatment of nitroanilines to reduce their nitrosiuiiine aniline content and/or to stabilise them against the formation of nitrosamines.

-The method relates in particular to the treatment of 2, 6-dinitro-N, N-di-n-propyl-4 -trifluoromethyl1- — aniline known under the trade name of trifluralin, a compound which is widely used in agriculture as a herbicide.

The presence of a nitrosamine content greater than 0.5 ppm in dinitroaniline compositions used us herbicides is considered undesirable due to the confirmed carcinogenic properties of nitrosamines in animals.

The methods described in the technical literature for the removal of nitrosamines from crude trifluralin obtained by the synthesis method, include the treatment of the trifluralin with a concentrated aqueous solution of hydrochloric acid, or with hydrogen chloride gas (US patent No. 4,226, 789) and H .55142 or with chlorides of inorganic acids (US patent No. 4, 185,035) or with chlorine or bromine (US Patent No. 4,127,610) and IL 55.534.

It haii, however, been found that even after these treatments, the di-n-propyl nitrosamine content increases during prolonged storage of the treated technical trifluralin and during subsequent industrial fusion and formulation operations for the preparation of herbicidal compositions. In particular, th e increase in the nitrosamine content is encouraged by the presence of iron and is thus inevitable when trifluralin is stored in iron containers, even if they are lacquered.

Tests carried out by the Applicant have shown a progressive increase with time in the mtrosamine content of samples of technical trifluralin stored in glass containers and in glass and iron containers, subjected to heating to a temperature of 95°C A further confirmation of the problem of the reformation of nitrosamines following heating of purified trifluralin, is provided by the comparative examples in European patent application No. EP-A-126591 which relates to a method for the stabilization of dinitroaniline compositions by the incorporation in the dinitroaniline of an addition compound of a bisulphite of ammonia or of an alkali metal and an aldehyde or a ketone.

US Patent No. 4, 537, 992 and IL67948 describes a method for the removal of the nitrosamines by subjection of the dinitroanilines to a treatment with acyl chlorides and aminobenzoates.

This method does not, however, provide any guarantee with regard to the stabilization of the treated dinitroanilines against the reformation of nitrosamines.

German patent application No. DE-OS-333 45 157 and IL 73808 describes a method for the production of dinitroanilines substantially free from ritrosamines and their stabilization against the formation of nitrosamines.

The method provides for the treatment of the dinitroanilines with aromatic or aliphatic sulphonic acids, with chlorosulphonic acid or with amidosulphonic acid.

Amongst the compounds indicated, only dodecylbenzene sulphonic acid is used commercially, this, however, being used exclusively for the stabilization of dmitroanilines which have previously been purified of nitrosamines. In fact, since this compound is a surfactant, its presence in the higher concentration required for the purification of crude nitroaniline may give rise to the undesired formation of foams and emulsions when water is present, even in small quantities, in the reactor used for the treatment.

The object of the present invention is to provide a method which constitutes an overall solution both to the problem of the removal of nitrosamines from crude trifluralin and to the problem of stabilizing the purified trifluralin against the formation of nitrosamines.

For this purpose, the subject of the present invention is a method for the treatment of dinitroanilines having herbicidal action to reduce their nitrosamine content and/or to stabihse them against the formation of nitrosamine, characterized in that it comprises the steps of adding to the dinitroanilines an effective quantity of an aliphatic or aromatic sulphonyl hahde, having the general formula (hereinafter referred to as halosulphonic acid.) 0 II X - s - R il 0 in which X is a halogen and R is selected from the group consisting of linear or branched aliphatic radicals having from 1 to 10 carbon atoms, cycloaliphatic C^-C^ radicals, aryl radicals and aryl radicals substituted with lower (C^-C^) alkyl groups. , Although the method is generally effective as regards the stabilisation and/or purification of dinitroanilines having herbicidal action, particular reference will be made to trifluralin in the following part of the present description.

In the method according to the invention, typically the above-mentioned sulphonyl chloride is added to the trifluralin in the fused state, in quantities of from 0.01 to 1% by weight with respect to the weight of the trifluralin . The stabilisation is typically carried out at a temperature higher than the melting point of the trifluralin and generally within the range 70 to 100°C. The sulphonyl chloride is preferably added, in this case, in a ratio of from 0.01 to 0.1% by weight with agitation and the agitation is continued for a period of between 1 and 4 hours. In the case of the purification treatment carried out on crude trifluralin ., the treatment is effected at a temperature of between 95 and 110°C, the sulphonyl chloride being added in a ratio preferably of from 0.3 to 1% by weight. The agitation is continued for a period of between 8 and 10 hours.

The treatment according to the invention is effective even when precursor compounds for nitrosamines , such as, di-n-propylamines , for example, are present in the trifluralin subjected to treatment.

The results obtained by means of the method acccording to the invention will be illustrated by the following examples of experimental tests.

Example 1 (Reference example) The following example illustrates the phenomenon of the formation of nitrosamines in purified trifluralin satisfying the requirements established by the EPA, that is, having a nitrosamine content of less than 0.5ppm following heating in glass containers and in the presence of glass and iron. 120g of trifluralin , having a nitrosamine content (NO-DIPA below) of less than 0.5ppm, obtained by means of a purification treatment carried out in the laboratory with hydrochloric acid, were placed in a 2 glass container into which a 10cm test piece of sheet iron was introduced. The container was then kept at a temperature of 95°C for a period of from 12 to 150 hours. A parallel control test was carried out with the use of the same quantity of trifluralin without the sheet iron test piece.

Table I below indicates the nitrosamine contents after 50, 100 and 150 hours under the above conditions, the analyses being effected with a thermal energy analyser (TEA) .

TABLE I The results in Table I confirm that the purification treatment with aqueous hydrochloric acid is not effective in stabilising the trifluralin and that the increase in the nitrosamine content is greater when iron is present in the container.

Example 2 Various series of technical trifluralin samples were prepared containing known quantities of di-n-propyl nitrosamine (NO-DIPA) . Some of the samples prepared also contained a known quantity of di-n-propylamine (DIPA) .

The compositions of the prepared samples subjected to treatment are shown in Table II below.

TABLE II 120g of technical trifluralin were placed in a glass container into which a 10 cm 2 test piece of sheet iron was introduced and to which a known quantity of a chlorosulphonic aliphatic or aromatic acid selected from the above-mentioned group was added. The container was then kept at a temperature of 95°C for a period of from 12 to 160 hours.

A parallel control test was carried out for each sample, with the use of the same quantity of trifluralin but without the addition of the treatment additive. Samples were taken after 12, 48, 96, 150 and 160 hours and, in each case, their NO-DIPA contents were determined by TEA.

The results of the tests are shown in the following tables .

S E R I ES Λ quantity of NO-DIPA (ppm) at various tirres A D D I T I VE j 12 h j 43 h 1 96 h I 150 h METHANE SULPHONYL 0.1 0.05 0.05 005 Λ s. G-TLORIDE OCTANE SULPHONYL 0.1 0.05 0.05 0.05 Abs . CHLORIDE BENZENE SULPHONYL 0.1 0.05 0.05 0 05 Abs. CHLORIDE CONTROL 0.87 1.41 1.23 1.41 S E R I E S D quantity of NO-DIPA Example 3 Destruction of nitrosodipropylamine in crude trifluralin with chlorides of sulphonic acids.

On the basis of the positive results obtained in the stabilisation tests, the possibility of using chlorides of sulphonic acids as nitrosamine destroyers was also checked. For this purpose, a series of tests was carried out with the use of samples of trifluralin having NO-DIPA contents in the range 60 t.o 350ppm and sulphonic acid chlorides in quantities of between 0.3 and 1% with respect to the crude trifluralin , at temperatures of between 95 and 110 C, for periods of 8-10 hours.

Test 1. 500g of crude trifluralin , having an initial NO-DIPA content of 119ppm, were introduced into a 1 litre flask provided with an agitator, and to this were added 2.5g of methane sulphonylchloride, equal to 0.5% by weight of the crude trifluralin ■. The mixture was heated to 95°C for 8 hours with rapid agitation. A sample was then taken and analysed by TEA and a NO-DIPA content of 0.07ppm was found.

The following table summarises the conditions and results of the tests carried out.

BSC1 BENZENE SIILPHOCHTORIDE 0SC1 OCTANE SULPHOCHLORIDE MSC1 METHANE SULPHOCIiLORIDE In all the tests carried out, the term "absent" relates to the NO-DIPA content and should be understood to mean that the nitrosamine content was less than the lower threshold limit of the TEA instrument.

In all the tests carried out the final NO-DIPA content, after treatment for 8-10 hours, was less than the limit of 0.5ppm required by the standards.

Claims (7)

1. A method for the treatment of dinitroanilines to reduce their mtrosamine content and/or to stabilise them against the formation of nitrosamines, characterized in that it comprises the steps of adding to the dinitroaniline compositions quantity of 0.01 to 1% by weight of dinitroaniline of sulphonyl halide having the general formula: 0 ll X - S - R II 0 where X is a halogen and R is selected from the group consisting of aliphatic radicals having from 1 to 10 carbon atoms, cycloaliphatic C5 -C& radicals, aryl radicals and aryl radicals substituted with Ci -C3 alkyl groups, end heating the mixture at a temperature higher than the melting point of the dinitroaniline.

2. A method according to Claim 1, characterized in that a quantity of the sulphonyl halide of between 0.01 and 1% by weight of the dinitroaniline is added to the dinitroaniline in the fused state with agitation.

3. A method according to Claim 1, characterized in that the halosulphonic acid is added to the technical dinitroaniline in quantities of from 0.01 to 0.1% by weight with respect to the dinitroaniline.

4. A method according to Claim 1, particularly for the destruction of nitrosamines in crude dinitroaniline, characterized in that the halosulphonic acid is added to the crude dinitroaniline at a temperature of from 95 to 110°C, in quantities of from 0.3 to 1% by weight with respect to the dinitroaniline.

5. A method according to any one of Claims 1 to 4, characterized in that the halosulphonic acid is selected from the group consisting of methane sulphonyl chloride, ethane sulphonyl chloride, octane sulphonyl chloride, benzene sulphonyl chloride, and toluene sulphonyl chloride.

6. A method according to any one of Claims 1 to 5 characterized in that the dinitroaniline is trifluralin.

7. A method according to Claim 1 for the treatment of dinitroanilines to reduce their nitrosamine content and/or to stabilise them against the formation of nitrosamines, substantially as herein described with reference to Examples 2 and 3. FOR THE APPLICANTS I. DE BOTTON PATENT ATTORNEY