RU2562652C2 - De-icing liquid - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to methods of suppression or reduction of icing, or formation of snow on the surface by means of de-icing compositions. De-icing liquid contains potassium acetate, water and anticorrosive additive, which includes sodium benzoate, and it additionally contains propyleneglycol, with anticorrosive additive additionally containing benzotriazole, sodium dihydrophosphate, sodium tetraborate, diethanolamide based on acids of sunflower-seed oils, diethanolamine, organosilicone SAS of cationic type.

EFFECT: possibility to increase ecological safety and reduce corrosion activity of de-icing liquid is achieved.

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Description

The invention relates to methods for suppressing or reducing icing, or the formation of snow on the surface using anti-icing compositions.

Chemical icing protection is regularly used during the winter season for traffic safety on highways, as well as in residential and commercial areas, including parking lots, pedestrian walkways, driveways, etc. Airports and airbases also use a combination of mechanical devices and anti-icing chemicals to ensure flight safety during the winter months.

Known anti-icing liquid containing an aqueous solution of alkali metal acetate or a mixture of alkali metal acetates, mixed with alkali metal phosphate and with water-soluble compounds of triazole, imidazole or a mixture thereof, in the following ratios of components, wt. %: alkali metal acetate or a mixture of alkali metal acetates - (25-60), alkali metal phosphate - (0.01-0.5), water-soluble compounds of triazole, imidazole or a mixture thereof (0.01-1.0), the rest is water (Patent RU No. 20177785, class C08K 3/18, 1991).

However, this anti-icing liquid is environmentally harmful due to the use of water-soluble triazole compounds (e.g. benzotriazole), imidazole or a mixture thereof as metal corrosion inhibitors, and according to GOST 12.1.005-88, benzotriazole has a third hazard class. In addition, the manufacture of this anti-icing liquid composition in the cold season is associated with high energy consumption, since a temperature of 18-25 ° C is necessary to ensure good solubility of acetic acid salts of alkali metals in water. Thus, to prepare this liquid composition, either specially heated rooms or special means for heating the mixing chamber are necessary. All this limits the scope of use of the known method.

Closest to the invention in technical essence and the achieved result is anti-icing liquid for runways of airfields containing potassium acetate, water and an anti-corrosion additive including sodium benzoate (Patent RU No. 22205854, class C09K 3 / 18.10.06.2003).

However, this anti-icing liquid has insufficient environmental safety, which narrows the scope of its use.

The basis of the invention is the task of ensuring the possibility of obtaining an environmentally safer anti-icing liquid and with a high rate of inhibition of metal corrosion.

The technical result is that it is possible to increase environmental safety and reduce the corrosion activity of anti-icing liquid.

This problem is solved, and the technical result is achieved due to the fact that the anti-icing liquid contains potassium acetate, water and an anti-corrosion additive including sodium benzoate, while it additionally contains propylene glycol, and the anti-corrosion additive additionally contains benzotriazole, sodium dihydrogen phosphate, sodium tetraborate, diethanolamide based on the acids of sunflower oil, diethanolamine, organosilicon surfactants of the cationic type, while the anti-icing liquid has the following composition, wt. %:

potassium acetate 38-42 propylene glycol 5 benzotriazole 0.001-0.01 sodium benzoate 0.1-0.5 sodium dihydrogen phosphate 0.01-0.1 sodium tetraborate 0.2-1 acid-based diethanolamide 0.1-0.5 diethanolamine 0.3-0.7 organosilicon surfactant cationic type 0.01-0.1 water rest,

and the pH of the anti-icing fluid is from 8 to 10.

In the course of the studies, it was found that it is possible through the use of alkali metal and propylene glycol acetates to increase environmental friendliness, since these salts are biodegradable and do not contain hazardous chloride ions, and the presence of corrosion inhibitors reduces the harmful corrosive effects of deicing materials on automobiles, engineering structures on roads and coating surface, which will significantly expand the range of application of these anti-icing fluids, especially where their use is necessary in places associated with the use of equipment for passenger traffic, primarily runways of airfields.

In particular, sodium dihydrogen phosphate, which is a constituent, is an inhibitor of ferrous and some non-ferrous metals and allows pH to be shifted to the alkaline region, sodium benzoate is an inhibitor of metals and, under atmospheric conditions, works well in thin films that disappear from drying, which is typical for aircraft structures, and a cationic surfactant based on organosilicon compounds performs an additional function - it reduces the effect of the reagent on concrete by 1.5 times.

From the examples below it follows that this anti-icing liquid is optimal and provides the required technical result.

Example 1

The main operational properties of liquid deicing reagents are determined by the possible temperature range of their use, melting ability, adhesion properties of the road surface or the runway after applying the reagent, corrosion activity, impact on concrete pavements and environmental impacts on the environment.

An advantage is that reagent which, with an equal content of ice melting compounds, has a minimum crystallization onset temperature and a higher melting capacity. This means that this reagent has a wider temperature range of use and a lower rate of use. Accordingly, the use of such a reagent causes less harm to the environment and its use is economically more profitable.

The tables show the operational properties of the reagent composition corresponding to the claims:

38% potassium acetate (CA), 7% propylene glycol (PG), 0.001% benzotriazole (BTA), 0.5% sodium benzoate (BN), 0.1% sodium dihydrogen phosphate (DHFN), 0.1% acid-based diethanolamide sunflower oil (DEAPM), 0.5% diethanolamine (DEA), 0.05% organosilicon surfactant (surfactant) and 53.75% water. The tables also show the data of analogues of the reagent based on the individual components of the claimed composition.

The table shows that the analogue of the claimed composition with the same temperature at the beginning of crystallization is a 46% solution of potassium acetate. In the inventive composition, this temperature value of the onset of crystallization is achieved with a lower content of melting salts.

All individual components with the same concentrations as in the composition have the worst performance. Only with the indicated combination of components of the composition, the indicator shown in the table is achieved with a lower content of melting salts than in a 46% solution of potassium acetate.

Equilibrium melting ability of liquid reagents of different compositions at -5 ° C

The equilibrium value of the melting ability at -5 ° C of the claimed composition is 3.1 g / g Only 49% solution of potassium acetate has the same value for this indicator, the amount of melting compounds in which is 6% more.

All individual components with the same concentrations as in the composition have the worst indicators of melting ability. From an economic and environmental point of view, the composition is more preferable than a solution of potassium acetate.

Tests for the corrosion activity of the composition in relation to various alloys

The tests were carried out in accordance with the regulatory requirements of the river. 3.2. p. 7 OST 54-0-830.74-99. With the claimed composition of the inhibitor, the corrosion rates of various materials in the reagent medium comply with regulatory requirements.

The tests were carried out in accordance with the “Methodological guidelines for determining the frost resistance of concrete of the surface layer of aerodrome coatings” in an automated installation that provides lowering and maintaining the temperature of the air in the working volume of the chamber equal to -30 ° C. The criterion of frost resistance of concrete was taken as the volume of destruction of the surface layer of the samples, reduced to the area of the tested face, in the amount of 0.04 cm ³ / cm ² , which corresponds to standard (GOST 10060-95) criteria for weight loss in terms of one face. Tests were carried out in comparison with NaCl.

The anti-icing reagent of this composition meets the established requirements of OST 54-0-830.74-99 for corrosive effects on cement concrete.

Example 2

Composition: 40% KA + 5% GH + 0.005% BTA + 0.3% BN + 0.05% DHFN + 0.5% DEAPM + 0.3% DEA + 0.1% CPSA + 53.75% water.

The table shows that the analogue of the claimed composition with the same temperature at the beginning of crystallization is a 47% solution of potassium acetate. All individual components with the same concentrations as in the composition have the worst performance. Only with the indicated combination of components of the composition, the indicator shown in the table is achieved with a lower content of melting salts than in a 47% solution of potassium acetate.

Equilibrium melting ability of liquid reagents of different compositions at -5 ° C

The equilibrium value of the melting ability at -5 ° C of the claimed composition is 3.2 g / g Only 50% solution of potassium acetate has the same value for this indicator, the amount of melting compounds in which is 5% more. All individual components with the same concentrations as in the composition have the worst indicators of melting ability. From an economic and environmental point of view, the composition is more preferable than a solution of potassium acetate.

Tests for the corrosion activity of the composition in relation to various alloys

With the claimed composition of the inhibitor, the corrosion rates of various materials in the reagent medium comply with regulatory requirements.

The anti-icing reagent of this composition meets the established requirements of OST 54-0-830.74-99 for corrosive effects on cement concrete.

Example 3

Composition: 42% KA + 5% GH + 0.01% BTA + 0.1% BN + 0.01% DHFN + 0.3% DEAPM + 0.7%) DEA + 0.01% CPAS + 51.87 % water.

The table shows that the analogue of the claimed composition with the same temperature at the beginning of crystallization is a 48% solution of potassium acetate. All individual components with the same concentrations as in the composition have the worst performance. Only with the indicated combination of components of the composition, the indicator shown in the table is achieved with a lower content of melting salts than in a 48% solution of potassium acetate.

The equilibrium value of the melting ability at -5 ° C of the claimed composition is 3.3 g / g Only 52% solution of potassium acetate has the same value, the amount of melting compounds in which is 5% more. All individual components with the same concentrations as in the composition have the worst indicators of melting ability. From an economic and environmental point of view, the composition is more preferable than a solution of potassium acetate.

With the claimed composition of the inhibitor, the corrosion rates of various materials in the reagent medium comply with regulatory requirements.

The anti-icing reagent of this composition meets the established requirements of OST 54-0-830.74-99 for corrosive effects on cement concrete.

The present invention can be used to suppress or reduce icing, or the formation of snow on various kinds of surfaces, especially the surfaces of runways of airfields using anti-icing liquids.

Claims (1)

Deicing fluid containing potassium acetate, water and an anticorrosive additive including sodium benzoate, characterized in that it further contains propylene glycol, and an anticorrosive additive additionally contains benzotriazole, sodium dihydrogen phosphate, sodium tetraborate, diethanolamide based on sunflower oil, diethyl ethanol , while the anti-icing liquid has the following composition, wt.%:
potassium acetate 38-42 propylene glycol 5 benzotriazole 0.001-0.01 sodium benzoate 0.1-0.5 sodium dihydrogen phosphate 0.01-0.1 sodium tetraborate 0.2-1 acid-based diethanolamide 0.1-0.5 diethanolamine 0.3-0.7 organosilicon surfactant cationic type 0.01-0.1 water rest,
and the pH of the anti-icing fluid is from 8 to 10.