RU2500708C1 - Anti-icing reagent and method for use thereof - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: reagent contains zeolite and a mixture of chemical reagents. The mixture contains calcium chloride, formats, carbamide and/or potassium chloride and sodium chloride. The modified zeolite contains 0.5-1.5 mm and 2.5-5.0 mm fractions. The reagent is deposited on a road surface in amount of 30-150 g/m².

EFFECT: longer service life of the road surface owing to high capacity of the anti-icing agent to water and chemical pollutants.

4 cl, 2 ex

Description

The invention relates to the chemical industry, in particular to anti-icing compositions, and can be used to remove snow and ice from a hard surface, namely from a hard road surface or runways, in addition, it can be used to protect boats from icing.

All methods of dealing with winter slippery are aimed at removing ice or snow from the road surface using chemical, mechanical, thermal and other methods; preventing the formation of a snow-ice layer or weakening its adhesion to the coating - preventive methods; reduction of the negative impact of the resulting winter slippage.

The need for strict compliance with environmental laws, modern requirements of state and local authorities to significantly reduce the environmental impact on the environment: safe for people and animals, reduce pollution of rivers and ponds, negative effects on soil and green spaces, increased requirements for the protection of buildings and machinery from corrosion lead to the search for more effective and safe for the environment, people and animals means of combating snow and ice on all types of roads, including e on difficult areas, highways, as well as yard areas, sidewalks, parks, bus shelters, in the transitions, in the territories of the gas station and car parks, tramways and diverters.

Anti-icing reagents are used both to prevent the formation and destruction of already formed ice. Inorganic salts such as sodium, calcium and magnesium chlorides are widely known as such reagents. Effective removal of ice requires a high concentration of chlorides, which leads to corrosion of metal structures and car bodies.

The known composition (Instructions for the protection of the environment in the construction of roads. BCN8-89 - Minavtodor, Moscow, 1989, p.14) to prevent ice accumulation on roads, containing a base - river sand and an additive - sodium chloride. The sodium chloride contained in such a sand-salt mixture is corrosive, in addition, at high concentrations, it tends to inhibit plant growth. The method of application of this composition relates to the combined, that is, the melting effect of the salt is complemented by the frictional property of sand.

Friction-chemical method of anti-icing does not allow to completely remove thick layers of ice from the road surface, in addition, the required dosage of the composition is 200-300 g / m2, which leads to excessive sand content on the road, the need for its removal, clogging of storm sewers, dust on the roads.

Known (US Patent 4094805) is an aqueous or dry composition comprising urea, sodium and calcium chlorides and a hydroxyl-containing compound — a homopolymer of ethylene oxide.

Known (US patent 4512907) anti-icing composition containing urea and a mixture of sodium and potassium chlorides, in which sodium chloride is 1-3 parts of potassium chloride.

Known (US patent 5599475) anti-icing composition containing urea, chloride, abrasive and adsorbent.

Also known (GB, patent 1070169) is an anti-icing composition containing 10-45% urea, 55-90% of a mixture of ammonium nitrate, water-soluble phosphates, chromates, carbonates.

The presence of chlorides in the above information sources causes corrosion of metal structures, damage to people's shoes, and also has an adverse effect on the environment.

It is known (US patent 4855071) to use as an anti-icing reagent an aqueous solution of carboxylates of alkaline earth or alkali metals.

It is also known (US Patent 4,448,702) to use a mixture of urea with an alkali metal formate or acetate as an anti-icing reagent.

Both reagents were ineffective in removing ice.

Known (DE, patent 4034217) means for thawing snow and ice containing polycarboxylic acid, water-soluble formates and / or acetates of alkali metals and a system of inhibitors of water-soluble silicates of ammonium or alkali metals and / or carbonates of ammonium and / or alkali metals.

A disadvantage of the known funds can be recognized as insufficient activity at low temperatures.

Also known (US patent 4254166) is a composition for reducing the strength of ice containing 5-90% water-soluble alcohols, diols, polyols, ketones, carboxylic acids or their salts and 1-20% of a mixture of organic or inorganic compounds containing ammonium ion, representing ammonium acetate, nitrate, sulfate, formate, carbonate, ammonium pentaborate or a mixture thereof.

Known (US patent 5064551) anti-icing composition in the form of an aqueous solution containing 45-60%) alkaline carboxylate acetate and / or formate, 0.1-0.4% alkaline phosphate, 0.2-0.6% alkaline nitrite and having a pH of 9.5-11.2.

A disadvantage of the known compositions should be recognized as the nitrite content and lack of effectiveness at temperatures below 20 ° C.

Known (RU, patent 2123022) anti-icing composition based on urea, calcium nitrate, magnesium nitrate and water.

This composition provides removal of ice and melting snow at a temperature not lower than 22 ° C. In addition, the method of obtaining the specified composition is quite complex, multi-stage and requires high technical equipment in its implementation.

Also known (RU, patent 2130958) is an anti-icing composition based on calcium nitrate, urea, magnesium nitrate, calcium phosphate, urea-formaldehyde polymer and calcium carbonate. The specified composition during use provides low corrosion of metals (up to 0.03 mm / year). The eutectic temperature of the product is only 17 ° C.

Known (RU Patent 2127293) is a composition for preventing frost on roads, including sodium formate and / or sodium acetate, formate and / or calcium acetate, as well as hydroxyethyl cellulose and / or a concentrate of sulphite-yeast mash.

This composition reduces the temperature of ice formation (-18 ° C), which is not always sufficient. In addition, the composition has many components that are not convenient for transportation (mash).

The closest analogue of the developed technical solution can be recognized (RU, patent 2294352), anti-icing reagent containing calcium chloride, triethanolamine, as well as zeolite or natural sand in the following ratio of components, wt.%:

Calcium chloride 22.5-45.0 Zeolite (or sand) 50.0-77.0 Triethanolamine 0.5-5.0

Moreover, the components are not just mixed, as in the case of the preparation of friction-chemical materials, but the zeolite or sand is impregnated with calcium chloride with an introduced corrosion inhibitor and stable lumps are obtained. The introduction of zeolite (sand) and triethanolamine can increase the efficiency of the composition, reduce the degree of corrosion, significantly reduce the consumption of calcium chloride by changing the principle of the reagent.

A disadvantage of the known technical solution should be recognized as insufficient efficiency, due to the not optimal composition of the used zeolites and chemicals.

The technical result achieved by the implementation of the developed technical solution consists in increasing the capacity of the anti-icing reagent to water, as well as to chemical contaminants present on the road surface and roadside strip, which leads to an increase in the service life of the road surface.

To achieve the specified technical result, it is proposed to use an anti-icing reagent of a developed composition. The anti-icing reagent of the developed composition contains a mixture of chemical reagents, including formates, urea and / or potassium chloride, calcium chloride, sodium chloride, and a modified zeolite, using a modified zeolite fraction (0.5-1.5) mm and (2.5-5.0) mm in quantity from 0.1 to 80%, the mixture of chemical reagents contains (in% of the mass, of the total number of reagents):

formates from 0.1 to 25 carbamide and / or potassium chloride from 5 to 15 calcium chloride from 20 to 50 sodium chloride from 20 to 65

Preferably, the ratio of fractions of the modified zeolite is from 15:85 to 20:80.

Mostly used zeolite, modified by heating for up to three hours, depending on the hardware design and volume of the zeolite, 750-850 ° C.

It is proposed to apply the reagent above the given composition in the amount of 30 to 150 g / m ^{2 of} the area to be cleaned on the road surface.

The developed composition contains zeolite and components. The components react with ice and snow, generating the necessary heat, due to which the loosening and melting of ice and snow occurs.

Modified zeolites, in addition to performing the function of the friction component of the anti-icing reagent, are a good sorbent - ion exchanger and effectively bind various contaminants, including heavy metals and radionuclides, hazardous (excess) chemicals.

In preparing the reagent composition, a modified zeolite of two fractions is used - (0.5-1.5) and (2.5-5.0) mm. The use of zeolites of smaller fractions (less than 0.5 mm) does not lead to the achievement of the specified technical result, since the specified fraction is dust. The use of zeolites with a fraction of more than 5.0 mm is identical to the use of crushed stone on roads, in addition, particles of a similar size have weak sorption properties, which impedes the achievement of the specified technical result. A zeolite fraction from 1.5 to 2.5 mm during field trials showed, together with any of the mixtures of the used chemical reagents, corresponding to the ranges of amounts of components indicated in the independent claim, insufficient efficiency both in melting snow and ice, and in sorption of substances polluting the surface and roadside.

The zeolite fractions can be modified by calcination at a temperature of from 80 to 300 ° C, at a temperature of less than 750 ° C, the modification time is excessively increased, which is not economically feasible.

It is preferable, but not necessary, when implementing the developed technical solution to use natural zeolites with clinoptilolite, glauconite, lomontite in a zeolite-containing rock of at least 50-65% for modification with subsequent use in the anti-icing reagent.

For the manufacture of the developed anti-icing reagent composition, two fractions of natural zeolites are used, the first 0.5-1.5 mm and the second 2.5-5.0 mm. Their modification is preliminarily performed — calcination of each fraction at a temperature of 80 to 300 ° C for 3 hours. After calcining, the fractions of the modified zeolite are mixed in such a way that the volume of the first fraction is 15-20% of the total volume of the modified zeolite, in this case the second fraction is 80-85%) of the total volume of the zeolite. Then, solid chemical components — formates, urea and / or potassium chloride, calcium chloride, sodium chloride — are added to the resulting mixture in a mass ratio: modified zeolites — up to 80%, solid active chemical components — the rest. The ratio of chemical components is:

formates from 0.1 to 25 carbamide and / or potassium chloride from 5 to 15 calcium chloride from 20 to 50 sodium chloride from 20 to 65

The mass ratio of the modified zeolite: the active chemical components depends on the ambient temperature, the thickness of the ice and snow cover, the throughput of the road, courtyards, sidewalks, in parks, at stopping complexes, in crossings, in gas station territories and parking lots, tram tracks and turnouts .

The use of zeolites is due primarily to their high selectivity, as well as chemical, thermal and radiation resistance. They have good sorption and ion exchange ability. A characteristic difference between natural zeolites from other types of sorbents is that they have a highly developed surface framework, the presence of pores of different diameters in it, capable of interacting with metal ions in solution with the formation of complex compounds. Also, the sorption properties of zeolites depend on the nature and physico-chemical properties (hydration energy, charge, ion radius) of sorbed ions, ion concentration in solutions, pH of the medium, time of contact of the sorbent with ions, temperature. In addition, natural zeolite is easily regenerated and can be reused.

It has been experimentally established that the specified technical result is achieved in any case when the anti-icing reagent used contains all the components listed in the independent claim in the quantities indicated therein. With the exclusion of at least one of these components or when the amount of any of the components goes beyond the specified quantitative ratio, the specified technical result is not achieved.

When applying reagent in an amount of less than 30 g / m ² to the snow and / or ice surface, the reagent is not used, the snow / ice coating does not melt and the service life of the roadway does not increase. When applying more than 150 g / m ^{2 of} reagent to the snow and / or ice surface, the reagent is not used, although the snow / ice coating melts, the service life of the roadway does not increase due to the abrasive effect of zeolite particles, as well as excessive action totality of chemicals.

The effectiveness of the developed technical solution, in addition to testing in small experimental areas, was tested on an industrial scale on the territory of the Yekaterinburg radio equipment plant.

1. The composition contains a modified zeolite fraction (0.5-1.5) mm and (2.5-5.0) mm, taken in a ratio of 20:80 and a mixture of chemical reagents, containing in% of the mass, of the total number of reagents:

alkali metal formates twenty carbamide and / or potassium chloride 10 calcium chloride thirty sodium chloride 40

with a ratio of a mixture of fractions of zeolites and a mixture of chemical reagents 80:20.

The resulting anti-icing reagent was scattered over the territory of the plant in an amount of 40 g / m ² on an ice coating of asphalt at an ambient temperature of -17 ° C. The thickness of the ice cover was 8 mm. The coating melted completely without mechanical stress, destroying asphalt, in 5.5 hours.

2. The composition contains a modified zeolite fraction (0.5-1.5) mm and (2.5-5.0) mm, taken in the ratio of 15:85 and a mixture of chemical reagents, containing in% of the mass, of the total number of reagents:

alkali metal formates 5 carbamide and / or potassium chloride 5 calcium chloride 0 sodium chloride 0

when the ratio of the mixture of fractions of zeolites and a mixture of chemical reagents 75:25.

The obtained anti-icing reagent was scattered over the territory of the plant in an amount of 50 g / m ² on an ice coating of asphalt at an ambient temperature of -6 ° C. The thickness of the ice cover was 6 mm. The coating melted completely without mechanical stress, destroying asphalt, in 3.5 hours.

Using the developed technical solution allows you to remove ice and snow crusts from a hard surface without causing mechanical damage to the road surface, and also remove substances that adversely affect the surface and its curb from the surface.

Claims (4)

1. Deicing agent containing zeolite and a mixture of chemical reagents, which includes calcium chloride, characterized in that the mixture of chemical reagents further comprises formates, urea and / or potassium chloride and sodium chloride, using a modified zeolite fraction 0.5-1.5 and 2.5-5.0 mm in an amount of 0.1 to 80%, and the mixture of chemical reagents contains, wt.% Of the total number of reagents:
formates 0.1-25 carbamide and / or potassium chloride 5-15 calcium chloride 20-50 sodium chloride 20-65 2. The reagent according to claim 1, characterized in that the ratio of fractions of the modified zeolite is (15-20) :( 85-80)%. 3. The reagent according to claim 1, characterized in that the zeolite is used, modified by heating at 750-850 ° C for 3 hours 4. The method of processing the pavement, including applying to the pavement the reagent according to claim 1 in an amount of from 30 to 150 g / m ² .