RU2293157C2 - Method for pavement slipperiness prevention, method for deicing agent obtaining and deicing agent to prevent pavement slipperiness - Google Patents

Abstract

FIELD: road usage, particularly methods or arrangements for preventing slipperiness of motor roads, bridges, overpasses, aerodromes, as well as deicing agents.

SUBSTANCE: method for pavement slipperiness prevention involves applying deicing agent on pavement. Deicing agent comprises mixture of sodium acetate and magnesium acetate taken in mass ratio of 3:1-1:3 correspondingly. The mixture is obtained by stirring of gaseous chlorine production by-product at 20-80°C temperature. The by-product contains aqueous solution of sodium hydroxide, acetic acid and brucite. Method for deicing reagent production involves mixing aqueous solution of sodium hydroxide, acetic acid and alkaline earth metal compound. The aqueous solution of sodium hydroxide is gaseous chlorine production by-product including aqueous solution of sodium hydroxide. The alkaline earth metal compound is brucite. The mixing operation is carried out at 20-80°C. Deicing agent obtained by above method contains mixture of sodium acetate and magnesium acetate taken in 3:1-1:3 mass ratio correspondingly. The deicing agent may be obtained at first by separately mixing of gaseous chlorine production by-product with acetic acid and then by mixing of obtained sodium acetate and magnesium acetate or gaseous chlorine production by-product is simultaneously mixed with acetic acid and brucite taken in stoichiometric ratio. The deicing composition comprises magnesium acetate as the alkaline earth metal acetate, wherein sodium acetate and magnesium acetate are taken in mass ratio of 3:1-1:3 correspondingly.

EFFECT: increased deicing properties, ecological safety and economy.

5 cl, 3 ex, 1 tbl

Description

A method of preventing slippage of the road surface, a method of producing anti-icing reagent to prevent slipping of the road surface and anti-icing reagent to prevent slipping of the road surface

The invention relates to road maintenance production, in particular to methods of dealing with icy conditions on roads, bridges, overpasses, airfields, and to methods for producing anti-icing reagent.

A known method of preventing slippage of road surfaces, in which aggregates of a mixture of sodium acetate with calcium oxide, or magnesium oxide, or magnesium hydroxide are applied to the road surface. The mixture becomes active when water is introduced (see US 4425251 A, publ. 10.01.2004) .

Closest to the proposed method is a method of preventing slippage of the road surface by applying a deicing agent to the coating, a by-product of the production of polytetramethylene ether glycol based on sodium acetate, this substance can be used both in solid form and in the form of a solution. The consumption of both forms is 12-15 kg per 1000 m ² in terms of anhydrous sodium acetate (see RU 2178035 C1, IPC E 01 11/24, publ. 10.01.2002).

Known anti-icing reagent - sodium acetate in anhydrous form, which is used in the form of smooth particles with a diameter of 0.3-10 mm (EP 0579014, publ. 19.01.1994).

The closest analogue to the proposed reagent and the method of its preparation is a method for producing anti-icing reagent, according to which lime containing 89.3% CaO is added to 99.5% acetic acid with stirring for 20-25 minutes, the mixture is stirred for another 90 minutes then 50% sodium hydroxide is added to it and stirring is continued for 120 minutes. The resulting reagent contains sodium, calcium and magnesium acetates in amounts: 4-7% Na ⁺ , 0-1% Mg ⁺⁺ , 18-22% Ca ⁺⁺ , 66-75% CH ₃ COO ^- , 0-7% water and 0-2 insoluble impurities (see US 5387358 A, publ. 07.02.1995).

The objective of the invention is to increase the anti-icing effect, increase environmental safety when using and preparing the reagent, reducing the cost of the reagent and eliminating the formation of acetic acid.

The problem is solved in that in the method of preventing slippage of the road surface by applying an anti-icing reagent containing sodium acetate to it, a mixture of sodium acetate and magnesium acetate in a ratio in parts by weight of anti-icing reagent is used. 3: 1-1: 3, respectively, obtained by mixing a by-product of the production of gaseous chlorine containing an aqueous solution of sodium hydroxide, acetic acid and brucite at a temperature of 20-80 ° C.

Moreover, in the method for producing a deicing reagent to prevent slippage of the road surface, including mixing an aqueous solution of sodium hydroxide, acetic acid, an alkaline earth metal compound, a by-product of the production of gaseous chlorine containing an aqueous solution of sodium hydroxide is used as an aqueous solution of sodium hydroxide, and as a hydroxide alkaline earth metal is used brucite, mixing is carried out at 20-80 ° C, while the resulting anti-icing reagent soda laughs a mixture of sodium acetate and magnesium acetate with a ratio in parts by weight of 3: 1-1: 3 respectively.

First, the by-product of the production of gaseous chlorine with acetic acid is separately mixed and brucite with acetic acid in a stoichiometric ratio, and then the resulting sodium acetate and magnesium acetate are mixed.

Also, mixing of a by-product of the production of gaseous chlorine, acetic acid and brucite, taken in a stoichiometric ratio, is carried out simultaneously.

In addition, the anti-icing reagent containing a mixture of sodium acetate and alkaline earth metal acetate contains magnesium acetate in the ratio of sodium acetate to magnesium acetate as 3: 1-1: 3, respectively, as the alkaline earth metal acetate.

The invention is as follows. First, a deicing agent is prepared. For its preparation, the following components are used.

Brucite is a natural mineral containing 96% magnesium hydroxide, the rest is impurities.

Glacial acetic acid, satisfying the following requirements for the content of components according to GOST 61-75, in wt.%:

acetic acid is not less than 99.8, acetic anhydride is not more than 0.03, sulfates are not more than 0.0001, chlorides are not more than 0.0001, heavy metals are not more than 0.00003.

A by-product of the production of gaseous chlorine is an aqueous solution of sodium hydroxide of 30-48% concentration, which is formed during the electrolysis of an aqueous solution of sodium chloride.

Example 1

The crushed brucite is mixed in a reactor with glacial acetic acid in a stoichiometric ratio at a temperature of 20 ° C. Mixing time 100 minutes. Magnesium acetate is obtained in the form of a suspension. In another reactor, a by-product of chlorine gas production is mixed with a sodium hydroxide content of 30% with acetic acid for 30 minutes. The process temperature is 80 ° C. The resulting solution of sodium acetate is mixed with a suspension of magnesium acetate in a ratio of 3: 1 and subjected to evaporation to obtain a solid mixture of acetates.

Example 2

The sequence of the method according to example 1, but the mixing temperature of brucite with glacial acetic acid is 80 ° C, the mixing time is 80 minutes.

Example 3

Chilled brucite, a by-product of the production of chlorine gas with a sodium hydroxide content of 48% and acetic acid in a stoichiometric ratio, is loaded into the reactor with constant stirring, the components are mixed for 80 minutes at a temperature of 50 ° C. Each component is taken in an amount that ensures a mixture of sodium acetate and magnesium acetate in a ratio in parts by weight 2: 1. The following examples demonstrating the effect of the ratio of sodium acetate and magnesium acetate, as well as the properties of the reagent, are given in the table.

The resulting reagent in the form of a powder or granules is scattered along the roadway to prevent slippage of the road surface and the removal of ice and snow. You can also use an aqueous solution of the reagent, which is applied to the road surface using watering machines. The consumption of both forms of 20-60 g per meter ² in terms of anhydrous reagent.

As can be seen from the above data, the described method, in which the described reagent was used, provides an increase in the anti-icing effect at lower temperatures, does not have a harmful effect on the environment by preventing the formation of free acetic acid, and is economical due to the use of production waste. In addition, the described reagent is non-toxic, non-combustible, not aggressive to concrete and metals and alloys such as aluminum and duralumin, which makes it possible to use it to prevent slippage at aerodromes.

Claims (5)

1. A method of preventing slippage of the road surface by applying an anti-icing reagent containing sodium acetate, characterized in that as the specified anti-icing reagent, a mixture of sodium acetate and magnesium acetate in a ratio in parts by weight of 3: 1-1: 3, respectively, obtained by mixing a by-product of the production of gaseous chlorine containing an aqueous solution of sodium hydroxide, acetic acid and brucite, at a temperature of 20-80 ° C. 2. A method of producing an anti-icing reagent to prevent slippage of the road surface, comprising mixing an aqueous solution of sodium hydroxide, acetic acid and an alkaline earth metal compound, characterized in that a by-product of the production of gaseous chlorine containing an aqueous solution of sodium hydroxide is used as an aqueous solution of sodium hydroxide, and brucite is used as an alkaline earth metal hydroxide, mixing is carried out at 20-80 ° C, while the resulting anti-icing the reagent contains a mixture of sodium acetate and magnesium acetate in a ratio in parts by weight 3: 1-1: 3 respectively. 3. The method of producing the anti-icing reagent according to claim 2, characterized in that the by-product of the production of chlorine gas with acetic acid is separately mixed and brucite with acetic acid in a stoichiometric ratio, and then the sodium acetate and magnesium acetate are mixed. 4. The method of obtaining the anti-icing reagent according to claim 2, characterized in that the mixing of a by-product of the production of gaseous chlorine, acetic acid and brucite, taken in a stoichiometric ratio, is carried out simultaneously. 5. Deicing agent containing a mixture of sodium acetate and alkaline earth metal acetate, characterized in that it contains magnesium acetate as a alkaline earth metal acetate in a ratio in parts by weight of sodium acetate to magnesium acetate as 3: 1-1: 3, respectively.