RU2566152C1 - Ice-melting composition - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to geocryology, particularly to methods of producing ice-melting reagents for various applications, primarily for preventing and removing ice from landing strips and taxiways of aerodromes in different weather conditions. The ice-melting composition consists of potassium acetate, potassium formate and water, and additionally contains urea. Ice melts in the temperature range of -28…-75°C.

EFFECT: ice-melting composition has the following properties: high capacity for melting ice and ice coating in any weather conditions, prolonged action, low cost and good environmental properties.

19 ex, 1 tbl

Description

The invention relates to the field of geocryology, in particular to methods for producing anti-icing reagents that find various applications, the main of which is the use for preventing and removing ice on runways and taxiways of airfields in various weather and climatic conditions.

Known anti-icing composition (patent RU 2285028), which contains potassium acetate, sodium acetate, potassium hydroxide, glycol, as well as urotropine and water. This composition has a sufficiently high viscosity, providing the possibility of applying a large - its amount, high penetrating ability, inhibition of metal corrosion, high stability of technical and operational parameters. The main disadvantage of the composition is the use of environmentally unsafe caustic potassium and glycols, as well as sodium acetate, which has a low melting ability.

Patent RU 2293755 provides an anti-icing composition that contains urea, a head fraction of ethyl alcohol, triethanolamine and water. The technical result is an increase in corrosion resistance while maintaining high melting ability, reducing toxicity. The disadvantage is an increase in the cost of the composition due to the use of ethanol.

The deicer presented by the authors of patent RU 2291888 contains alkali metal acetate or formate, alkyl (poly) glycoside, antifoam agent, corrosion inhibitor and water. Sodium acetates and formates of sodium or potassium are used as salts, polysiloxane is used as antifoaming agent, and phosphate, borate and / or alkali metal silicate are used as corrosion inhibitors. The technical result is a prolonged action of the composition. The disadvantage is the use of alkyl (poly) glycosides and sodium salts of acetic and formic acids, which have a low melting ability.

A similar composition is presented in the invention RU 2277568. The tool contains an alkali metal formate, surfactant, antifoam, corrosion inhibitor and water.

Deicing liquid (patent RU 2219215) includes sodium benzoate, a mixture of trisodium phosphate and disodium phosphate, sodium nitrite, water glass, glycerin, pre-treated with sulfuric acid, an aqueous solution of potassium acetate. EFFECT: obtaining an ecologically safe composition providing low corrosion losses. Disadvantages - the use of liquid glass, since it is coagulated during storage, which leads to unsuitability for subsequent use; the use of combustible glycerin.

Compositions for preventing icing exist, consisting of sodium formate, urea, potassium carbonate. The composition may further comprise river sand and water. The composition has a low eutectic temperature (-35 ° C), provides a long-term prevention of ice formation, reduces the consumption of funds for melting snow and ice, is well transported, has a long shelf life and does not lead to environmental pollution (patent RU 2221002). The disadvantage is the use of river sand. This composition is more suitable for cleaning highways and sidewalks, but not for cleaning runways of airfields.

The closest in technical essence to the claimed anti-icing composition is a composition based on a three-component system: potassium acetate, potassium formate and water (V.P. Danilov et al. Low-temperature anti-icing compositions in water-salt systems, including acetates and formates. VIAM / 2010- 205711). The mass ratio of salts is 1: 1, the concentration of salts in the solution is 50% (mass). It was shown that this composition forms a eutectic with ice at a temperature of -66 ° C and is characterized by a low melting ability with respect to ice in the temperature range of -5 ... -50 ° C.

The technical result of the invention was the creation of an anti-icing composition, which has the following characteristics: high melting ability of ice and ice in any weather and climate conditions, prolonged action, low cost, good environmental characteristics.

The technical result is achieved in that the anti-icing composition, consisting of potassium acetate, potassium formate and water, additionally contains urea in the following ratio of components: potassium acetate (5-30% wt.), Potassium formate (5-30% wt.), Urea (5-25% wt.), Water (the rest), and the concentration of components in the solution is 35-75% wt., And the ice is melted in the range -28 ... -75 ° C.

The proposed anti-icing composition is obtained at room temperature as follows: water is placed in a container, then each component is added with stirring.

The main distinguishing results of the proposed composition are:

1. Decrease in the working temperature of ice melting to -75 ° C.

2. Reducing the consumption of anti-icing composition.

3. The use of available reagents to obtain anti-icing composition.

4. The reagents used to create the composition are soluble in water and biodegradable.

An example of the composition

During the research, acetate and potassium formate of qualification of chemically pure were used. The desired salt qualification indices were achieved by evaporating water on a porcelain bowl and then storing the salts in a vacuum desiccator.

Determination of crystallization temperature

The method consists in cooling the test liquid and recording the temperature at which blurring can be seen with the naked eye as a sign of the onset of crystallization.

For testing, salt and urea are initially ground in a mortar in a predetermined mass ratio, then the resulting mixture is diluted with water in a volume ratio of 1: 1. The studies were carried out in a special device made of heat-resistant glass, equipped with a thermometer and a stirrer, with vigorous stirring. Liquid nitrogen was used as a cooling agent. The device is placed in a dewar vessel filled with refrigerant. The temperature of the cooling mixture is maintained at a predetermined level throughout the test. When the temperature of the test liquid approaches the expected temperature of crystallization onset (over 5-10 ° C), the device of the cooling mixture is periodically (every 3-5 minutes) removed and the transmitted liquid is observed in transmitted light. The duration of observation of the turbidity of the test liquid from the beginning of the extraction of the device from the cooling mixture to its immersion back into the mixture should be no more than 12 seconds. The temperature at which turbidity appears in the form of a light cloud formed near the stirrer is recorded as the temperature at which crystallization begins.

Example 1. 5% of the mass. potassium acetate, 5% wt., potassium formate, 25% wt. urea, water.

Example 2. 10% of the mass. potassium acetate, 10% of the mass. potassium formate, 10% of the mass. urea, water.

Example 3. 10% of the mass. potassium acetate. 10% of the mass. potassium formate, 20% of the mass. urea, water.

Example 4. 10% of the mass. potassium acetate, 10% of the mass. potassium formate, 25% of the mass. urea, water.

Example 5. 15% of the mass. potassium acetate, 15% of the mass. potassium formate. 5% of the mass. urea, water.

Example 6. 15% of the mass. potassium acetate, 15% of the mass. potassium formate, 10% of the mass. urea, water.

Example 7. 15% of the mass. potassium acetate, 15% of the mass. potassium formate, 20% of the mass. urea, water.

Example 8. 15% of the mass. potassium acetate, 15% of the mass. potassium formate, 25% of the mass. urea, water.

Example 9. 20% of the mass. potassium acetate, 20% of the mass. potassium formate, 5% of the mass. urea, water.

Example 10. 20% of the mass. potassium acetate, 20% of the mass. potassium formate, 10% of the mass. urea, water.

Example 11. 20% of the mass. potassium acetate, 20% of the mass. potassium formate, 15% of the mass. urea, water.

Example 12. 20% of the mass. potassium acetate, 20% of the mass. potassium formate, 20% of the mass. urea, water.

Example 13. 20% of the mass. potassium acetate, 20% of the mass. potassium formate, 25% of the mass. urea, water.

Example 14. 25% of the mass. potassium acetate, 25% of the mass. potassium formate, 5% of the mass. urea, water.

Example 15. 25% of the mass. potassium acetate, 25% of the mass. potassium formate, 10% of the mass. urea, water.

Example 16. 25% of the mass. potassium acetate, 25% of the mass. potassium formate, 25% of the mass. urea, water.

Example 17. 30% of the mass. potassium acetate, 30% of the mass. potassium formate, 5% of the mass. urea, water.

Example 18. 30% of the mass. potassium acetate, 30% of the mass. potassium formate. 10% of the mass. urea, water.

Example 19. 30% of the mass. potassium acetate, 30% of the mass. potassium formate, 15% of the mass. urea, water.

The test results are shown in table 1.

Table 1 Test results anti-icing composition. Anti-icing composition Ice melting point, ° C Example 1 -28 Example 2 -34 Example 3 -39 Example 4 -37 Example 5 -44 Example 6 -48 Example 7 -55 Example 8 -60 Example 9 -56 Example 10 -63 Example 11 -67 Example 12 -71 Example 13 -75 Example 14 -62 Example 15 -65 Example 16 -74 Example 17 -54 Example 18 -56 Example 19 -58

Class of compounds: for application to a surface in order to prevent or reduce the sticking of ice, fog or water to it; for applying materials to surfaces to prevent icing or for thawing.

Claims (1)

Anti-ice composition for melting ice in the range of -28 ... -75 ° C, consisting of potassium acetate, potassium formate and water, characterized in that the composition further comprises urea, in the following ratio, wt.%:
potassium acetate 5-30 potassium formate 5-30 urea 5-25 water rest,
moreover, the concentration of components in the solution is 35-75 wt.%.