RU2729238C1 - Anti-icing composition - Google Patents

Abstract

FIELD: municipal engineering.

SUBSTANCE: invention relates to municipal services for winter maintenance of pedestrian areas in order to prevent frost formation and can be used in cities and settlements for treatment of adjacent territories, parking lots, steps, and so forth. Anti-icing composition contains zeolites with size of fractions of 0.2–1.2 mm and components which lower the freezing point of water. Working composition is absorbed by natural zeolite with content of SiO₂ 65–70 % 32 % solution of natural bischofite of Volgograd deposit with density of 1300 kg/m³ to composition moisture content of 10–20 %. Weight ratio of components per 1000 g: 32 % solution of natural bishofit of Volgogradsky deposit with density 1300 kg/m³ - 300 g, with a natural zeolite containing SiO₂ at least 65 % - 700, the flow of composition is 0.5–1.5 kg per square meter of surface to be treated with ice thickness of 1–5 mm, respectively.

EFFECT: invention allows to produce an anti-icing anti-ecologically safe facility for treatment of pre-wet and pedestrian ice sheets with thickness of 1–5 mm and ensures duration of action of the composition and reduction of adhesion activity between the ice coating and the treated surface.

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Description

The invention relates to public utilities for the winter maintenance of pedestrian zones in order to prevent the formation of ice and can be used in cities and towns for the treatment of adjoining territories, parking lots, steps, etc.

The known composition of an anti-icing aqueous solution for surface treatment of roads, including calcium chloride and urea, characterized in that it additionally contains a corrosion inhibitor of metal surfaces from a number of quaternary ammonium compounds, such as polybenzylammonium or polybenzylpyridinium chlorides or mixtures thereof, with the following ratio of components, wt. %:

Calcium chloride 20-30 Urea 2-5 Corrosion inhibitor 0.02 - 0.04 Water Rest

(RF patent No. 2169751, publ. 27.06.2001)

Known anti-icing material "Zeolite" based on natural zeolite of the Kamennoyarsk deposit in the Astrakhan region. (http: // aquaplast.rf/protivogololrdnyj-material).

Known composition for preventing ice on roads, containing an inorganic salt, characterized in that as an inorganic salt it contains a salt-magnesium chloride (MgCl ₂ ) and / or carnallite (KCl ⋅ MgCl ₂ ) and additionally it contains a salt of organic low-molecular acid alkaline and / or alkaline earth metal. Additionally contains an additive - diethanolamine. Additionally contains river sand. It contains sodium and / or calcium formate and / or acetate as an organic low molecular weight acid of an alkali and / or alkaline earth metal. As sodium formate, it contains waste products from the production of pentaerythritol. As sodium acetate, it contains a product of the neutralization of acetic acid production waste. As calcium acetate, it contains a waste of wood chemical production - calcium acetate powder. (RF patent No. 2141500, publ. 20.11.1999)

Known anti-icing agent comprising an inorganic salt, superphosphate and sand, characterized in that it contains a nitrate-sulfate salt as an inorganic salt in the following ratio of components, wt. %:

(RF Patent No. 2027731, publ. 27.01.1995)

The prototype is a sorption-active composition containing zeolites and components that lower the freezing point of water, which contains natural zeolite with a fraction of 0.2-1.2 mm and sodium chloride and / or potassium and / or calcium and / or magnesium with a mass ratio of chloride: zeolite (1-5): 1. (RF patent No. 2170242, publ. 10.07.2001).

The general disadvantages of the known compositions include low retention on the road surface and short duration of effective action.

The task is to create an effective environmentally friendly deicing composition.

The technical result is an anti-icing effective environmentally friendly agent for the treatment of ice pre-ice and footpaths with a thickness of 1-5 mm, characterized by the duration of effective action and a decrease in adhesion activity between the ice cover and the treated surface.

The technical result is achieved by an anti-icing composition containing zeolites with a fraction size of 0.2-1.2 mm and components that lower the freezing point of water, while 32% brine of natural bischofite of the Volgograd field with a density of 1300 kg / m is used as a component of lowering the freezing point of water ³ , and a natural zeolite with a SiO ₂ content _of at least 65% is used as a zeolite, while the moisture content of the composition is 10-20%, the mass ratio of the components per 1000 g:

32% solution of natural bischofite of the Volgograd deposit with a density of 1300 kg / m ³ , g 300 natural zeolite with SiO ₂ content not less than 65%, g 700

at a composition consumption of 0.5-1.5 kg per square meter of the treated surface with an ice layer thickness of 1-5 mm, respectively.

The use of natural zeolite in the composition with a SiO ₂ content _of at least 65% characterizes the mineral as high-siliceous with a diameter of 0.4 nm inlet windows in the cavity. This mineral has high rates of metabolic reactions.

The use of a mineral with a fraction size of 0.2-1.2 mm provides a high bulk area, because there are practically no voids between the particles, which affects the decrease in the adhesive activity of ice and the surface to be treated.

Sufficient technical strength, resistance to aggressive media and ionizing rays, absorption capacity and sieve effect - all this makes it possible to obtain an anti-icing composition with a long-term effect, high sorption capacity with high bulk density.

Bischofite is a complex of natural minerals. The brine of the natural Volgograd deposit is obtained by the dissolution method. Injection of water to the deposits of the field leads to the dissolution of salt, which is a fairly concentrated brine with a density of 1.3-1.38 g / cm ³ , transparent or yellowish, oily to the touch, odorless, non-combustible, hygroscopic, non-toxic.

Natural bischofite brine from the Volgograd deposit consists of:

MgCl ₂ 32% KCl 0.3% NaCl 0.4% MgSO ₄ 0.3% H ₂ O 67%

Consumption of the claimed anti-icing composition in the amount of 0.5-1.5 kg per m2 provides an optimal bulk density depending on the thickness of the ice cover on the treated surface with an ice thickness of 1-3 mm, respectively.

The moisture content of the composition of 10-20% is optimal, because the composition is not sticky, it crumbles well, i.e. is a "worker". An underestimation of the percentage of moisture will lead to an increase in time costs, because the composition is used in the winter period, when the air humidity is characterized by increased, and the percentage increase in humidity will not provide the composition with a "working state", i.e. it will become stuck together, making it difficult to spread it onto the work surface.

Examples of specific implementation.

Example 1

To obtain 1000 g of an anti-icing composition, 700 g of natural zeolite of the Yushansk deposit with a SiO ₂ content _of 65% and a fraction size of 0.2 mm and 300 g of 32% brine of natural bischofite of the Volgograd deposit with a density of 1300 kg / m ^{3 were used} . The components were mixed until the natural zeolite was completely absorbed by 32% bischofite brine and until a homogeneous mass was obtained. The composition was ready for use when moisture reached 10-15%.

The processing was carried out on a pre-house territory with an area of 27 m ² .

On ice with a thickness of 1.0-2.5 mm, the claimed composition was applied in an amount of 0.5 kg per 1 m ² . The claimed composition instantly reacted with ice. The ice was destroyed, its adhesion to the coating decreased, i.e. there was a destruction of the intermolecular interaction of the surface layers of ice and the treated surface.

The passage through the treated area was carried out without slipping and danger. The next day, under the same weather conditions, ice did not form on the treated area near the house.

Example 2

To obtain 1000 g of an anti-icing composition, 700 g of natural zeolite of the Yushansk deposit with a SiO ₂ content _of 70% and a fraction size of 0.8-1.0 mm and 300 g of 32% brine of natural bischofite of the Volgograd deposit with a density of 1300 kg / m ^{3 were used} . The components were mixed until the natural zeolite was completely absorbed by 32% bischofite brine and until a homogeneous composition was obtained. The composition was ready for use when moisture reached 15-20%.

The processing was carried out on a pedestrian zone with an area of 34 m ² .

The declared anti-ice composition was applied to the ice with a thickness of 2.5-5.0 mm in an amount of 1.5 kg per 1 m ² . The claimed composition instantly reacted with ice. The ice was destroyed, its adhesion to the coating decreased, i.e. there was a destruction of the intermolecular interaction of the surface layers of ice and the treated surface. The next day, under the same weather conditions, no ice formation occurred on the treated pedestrian zone.

Walking through the treated pedestrian zone for pedestrians was carried out without slipping and danger.

Thus, the claimed anti-icing composition is an effective environmentally friendly agent for anti-icing treatment of pre-house and footpaths, characterized by the duration of effective action and a decrease in adhesive activity between the ice coating and the surface to be treated.

Claims (3)

An anti-icing composition containing zeolites with a fraction size of 0.2-1.2 mm and components that lower the freezing point of water, characterized in that a 32% solution of natural bischofite of the Volgograd field with a density of 1300 kg / m ³ as zeolite is used natural zeolite with a content of 65-70% SiO _2, wherein in use as a working composition absorbed natural zeolite with a content of 65-70% SiO ₂ 32% ethyl natural bishofit Volgogradsky field solution at a density of 1300 kg / m ³ to a moisture content of the working composition of 10-20% at a mass ratio of components per 1000 g: 32% solution of natural bischofite of the Volgograd deposit with a density of 1300 kg / m ³ , g 300 natural zeolite with SiO ₂ content not less than 65%, g 700 at a composition consumption of 0.5-1.5 kg per square meter of the treated surface with an ice layer thickness of 1-5 mm, respectively.