RU2596250C1 - Composition for cleaning and protecting surface of water supply pipelines - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention can be used in cleaning equipment for production and transportation of liquid products, for producing, transporting and packaging drinking water. Composition contains orthophosphoric, amidosulfonic and hydrochloric acid, as well as aqueous solution of orthophosphoric acid salts.

EFFECT: high efficiency of cleaning surface of pipelines, faster removal of contaminants and providing protection of inner surface of pipelines from deposits.

6 cl

Description

The invention relates to the field of food industry, and in particular to the field of cleaning equipment for the production and transportation of liquid products, and can be used to clean the inner surface of the equipment used for the receipt, transportation and packaging of drinking water.

It is known that during the operation of drinking water pipelines, a pollution layer is formed on their inner surface, consisting of salts and oxides of magnesium, calcium, iron, as well as silt compounds. These contaminants can serve as the basis for the development of pathogenic microflora and are undoubtedly subject to periodic removal.

Known (patent RU 1829967, publ. 23.07.1993) composition for the chemical cleaning of metal surfaces, containing at least phosphoric acid, organic phosphonic acid and water.

A disadvantage of the known composition should be recognized as its inapplicability for cleaning surfaces in contact with food due to the presence of toxic compounds in the composition.

Known (copyright certificate SU 283772, publ. 01.01.1970), a solution for chemical cleaning of water treatment equipment and transporting water from scale, rust, scale, containing Trilon B (complexon), citric acid, hydrazine hydrate, ammonia to pH 7-9 and water.

This composition is quite effective, but due to the presence of ammonia in it, it is quite toxic, and, in addition, when using it, a high dissolution rate of steel and especially copper alloys is also observed during the period of removal of deposits.

It is known (patent US 4264463, publ. 04/28/1981) also a means for removing deposits on the surface of pipelines, which is an aqueous solution of at least one salt of nitric and some organic acids. The aqueous solution contains ions from the group of aluminum, iron (II) ions and mixtures thereof; and anions of acids from the group of nitric, sulfamic, formic, acetic, propionic, lactic, tartaric, citric acids and mixtures thereof.

The known composition is quite effective, but does not remove all contaminants.

The closest analogue of the developed composition can be recognized (patent KR 100808373, publ. February 27, 2008) a composition for cleaning pipelines containing citric, oxalic, malic, phosphoric, hydrochloric, ascorbic acids, and hydrogen peroxide.

However, this solution is a complex composition, unstable, not effective enough to remove carbonate deposits and does not protect the surface of the pipeline.

The technical problem, solved by using the developed composition, is to optimize the cleaning processes and protect the surface of the pipeline.

The technical result achieved by using the developed composition is to increase the efficiency of cleaning the surface of the pipeline, expressed in accelerating the removal of contaminants, while simplifying the composition and protecting the inner surface of the pipeline.

To achieve the specified technical result, it is proposed to use the developed composition for cleaning and protecting the surface of drinking water supply pipelines, containing phosphoric, hydrochloric, amidosulfonic acid, as well as an aqueous solution of phosphoric acid salts.

Orthophosphoric and hydrochloric acids perform the function of removing metal oxides of the iron group, amidosulfonic acid, in addition to affecting these oxides, removes carbonate impurities, and salts of orthophosphoric acid remove organic impurities from the surface, mainly fats and together with orthophosphoric acid form a protective film on the surface to be cleaned.

Preferred are alkaline and alkaline earth salts of phosphoric acid, including mono- and disubstituted.

The quantitative content of the components in the developed composition varies depending on the application, as well as the degree of contamination of the inner surface of the pipeline. Typically, the salt content of orthophosphoric acid is from 4 to 16%, hydrochloric acid is from 4 to 16%, orthophosphoric acid is from 4 to 16%, and amidosulfonic acid is from 0.1 to 6%.

It was experimentally established that the exclusion of at least one of these components from the composition does not allow to obtain the specified technical result.

The presence of a synergistic effect from the joint use of these components of the solution was also experimentally established. When using the components separately, the specified technical result is not achieved.

The composition is prepared in the usual way, mixing previously measured components with water. The order in which the components are mixed does not matter.

Not very dirty surfaces are treated by passing the prepared solution over the surface to be cleaned.

In case of severe surface contamination, they are kept in contact with the solution.

In any case, after cleaning, the surface is washed with water.

In the future, the features and advantages of the developed composition will be disclosed using implementation examples.

The quality control of removing contaminants from the inner surface of the pipelines was carried out using segments of an inch water pipe cut along the axis as test samples. Previously, the pipe was used to supply drinking water for 2 years. The effectiveness of the developed composition was determined by measuring the residual pollution content on the inner surface of the pipe.

The presence and composition of pollution of inorganic pollution was determined using spectral analysis, the presence of organic pollution was determined using UV spectroscopy. The analyzes were carried out on standard analytical equipment using standard methods.

Initially, the composition of the contaminants on the inner surface of the sample was determined. It was established that the composition of the pollution includes oxides and hydroxides of elements of the iron group, as well as calcium, magnesium and iron carbonates. The presence of organic contaminants was also determined.

After the sample was kept at room temperature in a solution containing 16% orthophosphoric acid, 16% hydrochloric acid, 6% amidosulfonic acid, 16% disubstituted sodium orthophosphate, the sample was washed in running demineralized water for 10 minutes and wiped dry with filter paper. The analysis showed the absence of mineral and organic contaminants, as well as the presence of a protective phosphate film on the surface of the sample.

After keeping a similar sample at room temperature in a solution containing 4% orthophosphoric acid, 4% hydrochloric acid, 0.1% amidosulfonic acid, 4% monosubstituted sodium orthophosphate, the sample was washed in running demineralized water for 80 minutes and wiped dry with filter paper. The analysis showed the absence of mineral and organic contaminants, as well as the presence of a protective phosphate film on the surface of the sample.

After keeping the sample at room temperature in a solution containing 10% orthophosphoric acid, 10% hydrochloric acid, 3% amidosulfonic acid, 10% disubstituted magnesium orthophosphate, the sample was washed in running demineralized water for 30 minutes and wiped dry with filter paper. The analysis showed the absence of mineral and organic contaminants, as well as the presence of a protective phosphate film on the surface of the sample.

The contact time of contaminants with the developed solution depends on the density of the deposits of contaminants on the sample, as well as the concentration of the solution.

When using a solution containing hydrochloric acid, amidosulfonic acid, as well as monosubstituted sodium orthophosphate for 80 minutes, in a similar experiment, the analysis showed the presence of metal oxides of the iron group.

A similar result was obtained using a composition in which hydrochloric acid was absent.

In the absence of amidosulfonic acid in the solution, analysis showed the presence of carbonate contaminants.

The absence of salts of phosphoric acid led to the absence of a protective film on the surface of the sample, as well as the presence of organic contaminants.

Claims (6)

1. A composition for cleaning and protecting the surface of pipelines for supplying drinking water containing phosphoric and hydrochloric acids, characterized in that it further comprises an aqueous solution of salts of phosphoric acid, as well as amidosulfonic acid. 2. The composition according to p. 1, characterized in that it contains alkaline and alkaline earth salts of phosphoric acid. 3. The composition according to p. 1, characterized in that the content of salts of phosphoric acid is from 4 to 16%. 4. The composition according to p. 1, characterized in that the content of hydrochloric acid is from 4 to 16%. 5. The composition according to p. 1, characterized in that the content of phosphoric acid is from 4 to 16%. 6. The composition according to p. 1, characterized in that the content of amidosulfonic acid is from 0.1 to 6%.