FI68342C - ANALYTICAL ORGANIC FOUNDATION FACILITIES - Google Patents

Description

68342 Use of certain organic compounds in anti-lixan inhibitors

The invention relates to the use of certain organic compounds in a stabilized hydrogen peroxide-based slime inhibitor used in industrial water systems.

Water, which was recently still an abundant cheap natural product, has increasingly - especially for industry - become a valuable and expensive "consumable" that is no longer available in arbitrary quantities. Recently, therefore, efforts have been made to limit the consumption of fresh water as much as possible, both in the municipal sector and in industry, and instead to purify and reuse domestic water, possibly by recirculating one or more regeneration stages. Typical in this respect are cooling water circuits in various industries and spa water recycling facilities.

Examples are closed water circulation systems in paper mills, in which water separated mechanically, e.g. by filtration or compression, is reused. Recyclable domestic water usually accumulates contaminants that are present as nutrients for various microorganisms. It is precisely in paper mills that the cellulose in the separated water by filtration or compression forms a fairly good nutrient base for algae, fungi and other microbes, which, even in a closed domestic water system, hardly have to be prevented. This microbial flora manifests itself as the formation of mucus or the presence of mold cultures, and these can cause considerable inconvenience or disturbance at various points in the water circulation system.

It is known that the presence of microorganisms in all kinds of waters can be largely prevented by adding a suitable antimicrobial agent. It is also known to use for this purpose microbicides which have an effective effect, at least without leaving behind products which have interfering or even toxic or corrosive properties.

One known antimicrobial agent that becomes completely used without any residues is hydrogen peroxide, which decomposes into oxygen and water. Hydrogen peroxide is not only bactericidal, deodorizing, oxidizing and anti-inflammatory, but also fungistatic and fungicidal / compare e.g. Dermatologische Wochenschrift, 152, page 1105 (1966/7 ·

However, hydrogen peroxide is not generally useful as a microbicide, and in particular it is not suitable for the treatment of certain domestic waters because various microorganisms are able to form resistant strains in a relatively short time which are not affected.

German Patent Application No. 2,228,011 discloses a biological treatment method in which hydrogen peroxide is added to wastewater, which produces all the oxygen needed for aerobacterial treatment and at the same time prevents the development of filamentous bacteria. In this case, the selective effect of hydrogen peroxide is specifically exploited, which results in the complete destruction of certain microorganisms, while at the same time the growth conditions of other microorganisms become favorable.

Therefore, in order to make water systems completely microbial-free, it has also been proposed to use hydrogen peroxide in combination with organic compounds as a microbicide. For example, German Offenlegungsschrift No. 2,221,047 discloses a process for preparing a cleaning and sterilizing solution for a soft contact lens, in which hydrogen peroxide or water-soluble non-toxic peroxide is used together with salts of phenylmercuric (II), especially sodium ethyl mercuric thiosalicylate isothiosylate. This known substance is also not generally useful, in particular due to the toxicity of mercury, which prevents its use not only in spas and the like, but also in industry, e.g. the paper industry, if the paper is intended for food packaging, or in the pharmaceutical industry or other fields. , in which materials intended for human consumption or use may come into contact with toxic substances in the event of a possible breakdown in the water circulation system.

Thus, there is still a need for an antimicrobial having a broader spectrum of activity than hydrogen peroxide alone.

The object of the invention is to satisfy this need and to provide a slime inhibitor based on stabilized hydrogen peroxide, which is useful in recyclable industrial hot water and water systems in paper mills, where mills produce packaging material for food packaging.

According to the invention, this object is achieved by using at least one nitrogen heterocyclic aromatic compound having at least one hydroxyl and / or at least one carboxyl group and not decomposing on reaction with hydrogen peroxide, or a salt thereof or an alkyl ester having 1 to 4 carbon atoms, and / or one amidosulfonic acid of the general formula I-NSO 2 H, in which R is hydrogen or an alkyl group having 1 to 6 carbon atoms, or a salt thereof in the form of an aqueous solution in an amount of 0.1 to 5% by weight.

Surprisingly, it has been found that the substance according to the invention has a synergistic effect, i.e. that the combined action of both components, hydrogen peroxide and an aromatic compound and / or amidosulphonic acid, is substantially stronger than the mere additive effect of components of the same composition. In practical applications, one of the essential advantages of the substance according to the invention is that the antimicrobial additive or additives do not impair the stability of the hydrogen peroxide. The shelf life of the antimicrobial and, consequently, the economics of using the substance are also not reduced.

68342

Another essential advantage of the substance according to the invention is that the substances remaining from the water treatment, which, unlike H 2> 2, do not themselves run out in a chemical reaction, do not in fact have any physiologically harmful properties for the human body. This is particularly important when using the substance according to the invention, for example in paper mills which produce wrapping paper for food packaging.

A preferred embodiment of the invention is characterized in that the aqueous solution in which the components of the slime inhibitor according to the invention are present is an aqueous solution of a mineral acid. The addition of a small amount of inorganic acid has the advantage that any active substance with relatively low water solubility which may be present is readily soluble.

The nitrogen heterocyclic aromatic compound preferably contains only one ring nitrogen atom and is preferably hydroxyquinoline or pyridinecarboxylic acid.

Particularly preferred nitrogen heterocyclic aromatic compounds are 8-hydroxyquinoline and dipicolinic acid.

Hydrogen peroxide is in the form of a stabilized, preferably commercial aqueous solution. Conventional N 2 C 2 stabilizers, such as sodium pyrophosphate, do not impair the synergistic effect of the various components contained in the substance according to the invention or their other properties.

The above object is achieved by using the antimicrobial agent according to the invention at a concentration corresponding to 0.01-2 ml of a 35% aqueous solution of L 2 Cl 2 per liter of medium to be treated.

If desired, a corrosion inhibitor such as ammonium nitrate may be added to the antimicrobial of the invention if the conduit system comprises corrosive or sensitive components such as various fittings, pumps and connectors without compromising the synergistic effect between hydrogen peroxide and the organic compound.

The addition of the substance according to the invention to the aqueous medium to be purified from the microbes takes place using conventional devices, for example continuous or intermittent dosing means made of a hydrogen peroxide-resistant material.

The invention will now be further explained by means of examples and a test report.

Examples 1-5 show effective antimicrobials according to the invention. They are prepared by mixing said synergistically active substances in a 35% by weight hydrogen peroxide solution in the proportions indicated in each case, and in this form the mixtures can be freely stored without losing their effect and used at an arbitrary time after preparation.

Example 1: 35% by weight 2% by weight of ammonium amidosulfonate Residue in water 6 68342

Example 2: 35% by weight ^ 2 ° 2 0.5% by weight of dipicolinic acid Residue in water

Example 3: 35% by weight ^ 2 ° 2 2% by weight of ammonium amidosulfonate 0.5 g / l of sodium pyrophosphate Residual water

Example 4: 35% by weight 1 ^ 02 2% by weight of ammonium amidosulfonate 0.25% by weight of dipicolinic acid Residual water

Example 5: 35% by weight of 1 ^ 02 2% by weight of 8-hydroxyquinoline 0.25% by weight of dipicolinic acid

Sulfuric acid until the hydroxyquinoline is completely dissolved Residual water

The antimicrobial efficacy of the substances of the invention shown in Examples 1-5 was determined by the experiment described below.

To enrich the cellulose separator in Dubo saline comprising 0.5 g NaNO 2, 1 g I 2 HPO 2, 0.5 g MgSO 4 -71 2, 0.5 g KCl, 0.01 g FeSO 4 -T 1 O 2 and 1 liter of distilled water, 5 g of cellulose powder, 0.1 g of yeast extract and 5 g of food mold were mixed, and the mixture was aerated for several weeks. Test batches containing Dubo's saline and 10% enriched cellulose dispersant substrate were then prepared. To these experimental batches were added 0.25 ml / l or 0.05 ml / l of the antimicrobials of Examples 1-5, and the experimental batches were incubated at 7,683,42 ° C with gentle aeration. At the beginning of the experiment and after 1, 7 and 14 or 20 days, the total microbial count was determined on PC agar (10 days incubation at 22 ° C). In addition, blank experiments were performed, i.e., without the addition of microbicide, to determine the total number of microbes initially included in the experimental batches. For comparison and to determine the synergistic effect of the substances according to the invention, the same experiments were carried out under the same conditions without hydrogen peroxide, i.e. using only the organic constituents of Examples 1-5 (in addition to Ν32Η2Ρ2θ7 and H2SO4), and finally the antimicrobial effect of a weight percent H 2 O 2 solution, i.e. without the addition of other biologically active substances.

The results are given in the following Tables 1 and 2. The number of live microbes in 1 ml of the test batch is given in each case ("<C10 ^" means that no live microbes were detected in the 1 ml batch). The antimicrobials according to Examples 1'-5 'are those reference substances which did not contain hydrogen peroxide but whose composition otherwise corresponded to those of Examples 1-5.

Table 1 (Concentration of antimicrobial: 0.25 ml per liter of test batch)

Microbial- _Number of live microbes_ destroyer Initially 1 day 7 days 14 days _after_after_of_ 7 x 104 6 x 105 5 x 106 2 x 106

Ex. 1 2 x 104 4 101 <1 101 4 101 "1 '2 x 105 4 x 105 3 x 107 5 x 105” 2 2 x ΙΟ5 £ ΙΟ1 4. 101 4 101 "2' 2 x 105 2 x 106 5 x ΙΟ5 105 "3 5 x 105 4 101 4 101 4 101" 3 '2 x 106 3 x 105 4 x 105 5 x 105 35% HO- 5 x 104 2 x 102 5 x 101 5 x 102 (comparison) ^ 8 68342

Table 2 (Concentration of antimicrobial: 0.05 ml per liter of test batch)

Antimicrobial _Number of live microbes_,

At the beginning 1 day 7 days 20 days __after_after_to_ 3 x 108 3 x 108 8 x ΙΟ6 107

Eg 4 3 x 108 2 x 103 <. ΙΟ1 <101 "4 '3 x ΙΟ8 1 x 108 8 x 106 3 x 106" 5 3 x 108 6 x ΙΟ2 <ΙΟ1 <101 "5' 3 x ΙΟ8 1 x ΙΟ8 ΙΟ6 106 35% H202 3 x ΙΟ8 ΙΟ6 103 2 x 104 (comparison;

The results in Tables 1 and 2 show that when the antimicrobials according to the invention were used at a concentration of 0.25 ml / l after only one day, no live microbes were detectable in any of the 0.1 ml experiments of the test solutions, whereas when the 35% H_00 solution was used, * After 2 den it was possible to detect another 2 x 10, after 14 days up to 5 x 10 live microbes and organic active substances without the addition of H „0» using after another 3 x 10 - 2 x 10 and after 14 days iO1 - 5 x 101 live microbes. It follows that the effect of the substances according to the invention is not, as would be expected, additively combined with the effects of hydrogen peroxide and the biologically active substance used in each case, but that the substances according to the invention have a real synergistic effect. The results further show that the presence of a conventional H 2 O 2 stabilizer (Example 3) and the presence of small amounts of inorganic acids (Example 5) cannot impair the synergistic effect and efficacy of the substances according to the invention.

The substances according to the invention are thus generally very suitable for use in the sterilization and / or disinfection of aqueous systems in industrial recyclable domestic waters.

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Claims (4)

68342 A nitrogen heterocyclic aromatic compound having at least one hydroxyl and / or at least one carboxyl group and which does not decompose on reaction with hydrogen peroxide, or a salt thereof or an alkyl ester having 1 to 4 carbon atoms and / or an amidosulfonic acid of the general formula R NSO 2 H, wherein R is hydrogen or an alkyl group having 1 to 6 carbon atoms, or the use of a salt thereof in the form of an aqueous solution in an amount of 0.1 to 5% by weight in a stabilized hydrogen peroxide-based slime inhibitor for use in recyclable industrial water and paper mill water systems factories produce packaging material for food packaging. Use according to Claim 1, characterized in that the nitrogen heterocyclic aromatic compound is 8-hydroxyquinoline or dipicolinic acid. Use according to Claim 1 or 2, characterized in that the aqueous solution is an aqueous solution of a mineral acid. Use according to one of Claims 1 to 3, characterized in that the slime inhibitor additionally contains a corrosion inhibitor. Use according to one of Claims 1 to 4, characterized in that the hydrogen peroxide is in the form of a commercially stabilized aqueous solution.