RU2044118C1 - Method for removing snow-ice cover from pavements and "kama" anti-glaze compound - Google Patents

Abstract

FIELD: removing snow-ice covers from roads. SUBSTANCE: after spilling anti-glaze compound over surface of snow-ice cover it is distributed inside snow-ice cover at the depth of road surface. Cover melting performs on the side of road. Granules produces by pressing and subsequent crushing mixture of sodium and potassium chlorides are used as anti-glaze compound. "Kama" anti-glaze compound is made in the form of granules with following relations between components (by weight per cent): 45 75 potassium chloride, 24 50 sodium chloride, 1 5 crystallization water and inert impurities. Granules are of 0.1 to 10 mm size. Optimum range of pressing pressure is presented. EFFECT: increased efficiency in removing snow- ice cover on roads at the expense of melting the cover on the side of road under conditions of large thickness of snow-ice cover and low temperatures of air, with "Kama" compound in the form of granulated mixture of potassium and sodium chlorides providing realization of the method with concurrent decreased dust generation, improved keeping in non-specialized in-door conditions, decreased influence on shoes and ecology. 5 cl

Description

 The proposal relates to methods and means of winter maintenance of road surfaces and can be used in utilities, in particular for removing snow and ice cover on roads.

 There is a method of increasing adhesion and removal of snow-ice coverings of road surfaces, including the spreading of an anti-icing preparation on the surface of the cover, in which granules obtained by the method of wrapping the products of combustion of treatment plants containing soot with phosphate additives are used. This method uses granules ranging in size from 0.5 to 10 mm, which makes it possible to use them in mechanized plants for scattering material on roadways of streets and roads.

The disadvantage of this method is the low melting efficiency of the snow-ice cover due to the relatively low strength of the pellets, their low specific gravity, which, combined with the low melting ability of the soot, leads to the inefficiency of using the method in conditions of significant thicknesses of snow-ice cover, especially at low temperatures environment from minus 5 ^° C and below. This is due to the fact that pellets distributed mainly on the surface of the snow-ice cover, which are also crushed by a moving conveyor, melt the cover from the outside, which, when the thickness of the snow-ice cover increases, does not allow it to be affected at a depth of the road surface. The melt of the drug in this case intensively affects the upper of the shoe.

Known drug scattered on the streets and roads to increase friction in the conditions of snow and ice cover, which is a granule of expanded clay with the addition of salts of heavy metals with a density of 600 kg / m ³ .

 The specified drug has a relatively low melting ability and is intended mainly to increase the coefficient of adhesion to the road. In addition, the low density of the drug determines its concentration mainly on the surface of the snow-ice cover, which does not completely get rid of the icing of the road and requires the use of additives of heavy metal salts to ensure the penetration of the drug into the cover. Clay is an inert additive that is not involved in melting, and only contributes to increased grip.

 Known preparations for removing snow and ice and preventing dust formation on roads based on alkali and alkaline earth metal chlorides with inhibitory additives in the form of alkaline earth metal hydroorthophosphates containing calcium salts.

 The use in practice in urban conditions of various preparations containing calcium salts, in particular liquid and solid calcium chloride, showed the negative impact of the latter on the ecology of the urban environment, which led to the prohibition of their use in road utilities.

 The greatest melting ability with respect to ice from preparations used on an industrial scale is technical salt, which is used in pure form or in a sand-salt mixture.

 However, sodium chloride, as well as calcium chloride, intensively adsorbs moisture and when in contact with the upper of the shoe causes a sharp decrease in the elasticity of the skin and the appearance of cracks on it. In addition, the high degree of caking of technical table salt does not allow to store a sufficient amount of the drug in urban conditions, ensuring its prompt use in the city's road facilities.

 Known means for combating ice and slippery of the road surface in the form of waste scrap of refractory masonry apparatus titanium-magnesium production, which is fireclay chips on the surface and in the pores of which chloride salts are contained. The presence of chlorides on the surface and in the pores of the silicate base allows for the dissolution of small areas of ice under each of the particles of the mixture, their introduction into the lower layers of ice and its destruction not only on the surface, but throughout the volume to the depth of penetration of the composition particles.

 However, due to the fact that the inert silicate base is from 83 to 97% of the weight of the particles and the corresponding part of their volume, and the content of the most actively melting component of sodium chloride does not exceed 3% of the weight, melting occurs on top of the cover, the particles do not reach the road surface, especially with significant thicknesses of snow and ice, and the entire volume of inert mass of the silicate base causes dust formation and environmental pollution.

 Known preparations for removing snow and ice, including sodium and potassium chlorides and allowing to increase the content of sodium chloride to almost 15 wt. in the composition of the drug with an increase in melting ability with respect to ice. This drug is the closest analogue of the proposed drug.

 However, the use of metallic magnesium and / or magnesium oxide in this preparation with prolonged use can cause irreversible environmental changes in the environment, which at the moment cannot be predicted. In addition, the relatively low content of sodium chloride, as the most active component of ice melting, does not allow to increase the efficiency of the drug in the road sector with an increase in the thickness of the snow-ice cover.

 The aim of the proposed technical solution is to increase the efficiency of the method of removing snow-ice coverings of road surfaces by increasing the melting ability while reducing the caking properties of the preparations used in industrial applications in the urban economy, reducing dust generation and the impact on shoes and the environment.

 This is achieved by the fact that in the method of removing snow-ice cover of the road surface, including the spreading of the anti-icing preparation on the surface of the pavement, after the dispersion of the anti-icing preparation is distributed inside the snow-ice cover at a depth of the surface of the road, from the side of which the coating is melted.

 In addition, granules obtained by pressing and subsequent crushing of a mixture of sodium and potassium chlorides are used as a deicing preparation.

 In addition, granules are obtained by pressing a mixture of sodium and potassium chlorides at a pressure of 100-200 MPa and subsequent crushing to a granule size of 1 to 5 mm.

The most effective implementation of the drug for the implementation of the above method is the anti-icing drug "Kama", including sodium and potassium chlorides, to achieve the above goals, made in the form of granules in the following ratio of components, wt. Potassium chloride 45-75 Sodium chloride 24-50 Crystallization water and inert impurities 1-5
In addition, the granules can be made with a size of from 0.1 to 10 mm.

The implementation of the proposed method consists in scattering manually or scattering the machine granules of the drug on the surface of the snow-ice cover. Thus extruded pellets having a sufficiently high density (1500 kg / m ³ or more) and high melting capability relative to the ice due to the presence of active potassium chlorides, melted unit volume at a temperature of minus 10 ^{° C} up to five volumes of ice and, features of sodium, melting under the same conditions, up to seven volumes of ice, melt the ice first in a small area of the surface of the cover surrounding the granule, and then, reaching asphalt or other road surface, they continue to actively melt the snow-ice cover near This surface is on the side of the road. The relatively lower melting ability of potassium chloride allows you to maintain the shape of the granules before contact with solid
surface and use the high melting ability of sodium chloride in the thickness of the snow-ice cover, providing effective peeling and destruction of the snow-ice cover of significant thickness and at low ambient temperatures. Due to the fact that the main process of melting of the snow-ice phase occurs in the thickness of the cover from the side of the road surface, the contact of pedestrian shoes and tires of automobile tires with the bulk of the adsorbing component of sodium chloride does not occur, which ensures their higher safety.

 The higher strength of the pellets obtained by pressing, compared with rolling in the prototype, reduces the likelihood of crushing of the granules on the surface of the snow-ice. Due to the low content of inert impurities in the granules (up to 5% by weight) there is no dust formation and corresponding environmental pollution.

Deicing preparation "Kama" is prepared as follows. A mixture is prepared from potassium and sodium chlorides, using, for example, potassium chloride of the second grade, grade F, produced according to GOST 4568-74 and ordinary technical table salt, continuously compressing (rolling) the initial mixture of potassium and sodium chlorides with a moisture content of 1- 5% specific pressing pressure within 100-200 MPa, while obtaining a pressed tile with a density of 1500-2100 kg / m ³ and a fracture strength of 1.9-4.2 MPa. Granules of the required size are obtained by fine crushing of the obtained tile into fractions with a size of 1-5 mm.

PRI me R 1. Prepare the initial mixture in an amount of 100 kg containing wt. KCl 47; NaCl 53 with the initial moisture content of the mixture 5% after granulation receive a solid preparation of the following composition, wt. Potassium chloride 45 Sodium chloride 50 Crystalline water and inert impurities 5
The fracture strength of the preparation is 1.9 MPa, the density is 1900 kg / m ³ .

PRI me R 2. Of 100 kg of a mixture containing, by weight. KCl 75.5; NaCl 24.5, with the initial moisture content of the mixture 1 after granulation, a solid preparation of the following composition is obtained, wt. Potassium Chloride 75 Sodium Chloride 24
Crystallization water and inert impurities 1
The strength of the drug on the fracture of 2.4 MPa, a density of 1 970 kg / m ³ .

PRI me R 3. Of 100 kg of a mixture containing, by weight. K Cl 61; Na Cl 39 with the initial moisture content of the mixture 2 after granulation receive a solid apparatus of the following composition, wt. Potassium Chloride 60 Sodium Chloride 38
Crystallization
water and inert impurities 2
The fracture strength of the preparation is 4.2 MPa, the density is 2100 kg / m ³ .

 Mass fraction of potassium chloride is determined according to GOST 208513-75, sect. 4.

 The mass fraction of sodium chloride is determined by calculation.

 The mass fraction of crystallization water is determined according to GOST 20851.1-75, section 1, 2, 6.

 The particle size distribution is determined according to GOST 21560.1-82.

 Thus, the proposed technical solution improves the removal efficiency of snow-ice cover of road surfaces by increasing the melting ability due to the melting of the cover from the side of the road surface under conditions of significant thickness of snow-ice cover and low air temperatures, moreover, the used Kama anti-icing preparation in the form a granular mixture of potassium and sodium chlorides provides the implementation of a method of removing snow and ice cover while reducing dust formation, both securing the possibility of storage in urban conditions with non-specialized equipment of warehouses, reducing the impact on shoes and the environment. The stable size of the granules allows you to establish a stable operation of the dispensing machines and turn the process of distribution of the drug into a safe one for pedestrians and vehicles moving near.

Claims (4)

 1. A method of removing snow and ice coverings of road surfaces, including the spreading of an anti-icing preparation over the surface of a snow-ice cover, characterized in that after the dispersion of an anti-icing preparation is distributed inside the snow-ice cover at a level of the road surface for melting the cover.  2. The method according to claim 1, characterized in that the granules of a mixture of sodium and potassium chlorides are used as deicing preparation.  3. The method according to claim 2, characterized in that the granules obtained by pressing a mixture of sodium and potassium chlorides at a pressure of 100 to 200 MPa are used, followed by crushing to a granule size of 1 to 5 mm.  4. Deicing preparation, including sodium and potassium chlorides, characterized in that it is made in the form of granules in the following ratio of components, wt. Potassium chloride 45 75
Sodium Chloride 24 50
Crystallization water and inert impurities 1 5
5. The drug according to claim 4, characterized in that the granules are made with a size of from 0.1 to 10 mm