RU2470978C1 - Deicing agent - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: deicing agent consists of a composition of metal chloride and carboxylate. The composition contains either sodium chloride as the metal chloride or magnesium acetate as the metal carboxylate, with the following ratio of components: NaCl:Mg(CH₃CO₂)₂=(3-1):(1-3) pts.wt. Alternatively, the composition contains a mixture of sodium and magnesium chlorides as the metal chloride and sodium acetate as the metal carboxylate, with the following ratio of components: NaCl:MgCl₂:NaCH₃CO₂=(5.4-0.9):(1.7-3.3):(2.9-5.8) pts.wt.

EFFECT: invention enables to obtain a deicing agent with high ice-melting capacity, low eutectic temperature with ice and improved environmental properties.

2 cl, 2 tbl, 10 ex

Description

The invention relates to the field of development of anti-icing reagents and can be used to combat icy on road surfaces, as well as for thawing soils during earthworks in winter.

The simplest and most affordable anti-icing reagent is sodium chloride [Instructions for the protection of the environment in the construction, repair and maintenance of highways VSN 8-89. M .: Minavtodor, 1989, p.14]. Sodium chloride can reduce the temperature of formation of ice on the roads and remove the formed ice, since the temperature of the eutectic of sodium chloride with ice is minus 21.2 ° C [Reference chemist, t.3. M .: Chemistry, 1964, p.213]. However, sodium chloride is highly corrosive to metals and environmentally hazardous, as it has an adverse effect on plants.

In this regard, deicing reagents with a reduced content of sodium chloride or with its complete absence are being developed. So, anti-icing reagent is known, containing (wt.%): Sodium chloride - 5 ÷ 12, sodium carboxylates - 12 ÷ 21, water - the rest [RU 2283335].

The disadvantage of the known reagent can be attributed to the fact that its use is limited to the mandatory preparation of an aqueous solution.

Closest to the proposed invention is an anti-icing composition [RU 2135540, class. C09K 3/18] (prototype), including, wt.%: Sodium chloride - 5 ÷ 17 and sodium carboxylates, namely sodium formate - 73 ÷ 87, sodium glycolate - 4 ÷ 13. The composition is characterized by low corrosivity and low toxicity.

The disadvantage of the prototype is that this composition, as we established when reproducing the prototype, has anti-icing properties, namely low melting ability with respect to ice (7.3-7.7 g of ice per 1 g of reagent at minus 5 ° С) and insufficiently low eutectic temperature with ice (minus 18 ° C), which limits the temperature range for the use of the prototype reagent, as well as environmental impact does not reach the level of regulatory, technical and environmental requirements for anti-icing agents currently used on roads and highways in central Russia.

The invention is aimed at increasing the efficiency of the anti-icing reagent, namely, increasing the melting ability of the anti-icing reagent with respect to ice, lowering the eutectic temperature with ice, improving its environmental properties and reducing the cost of the reagent.

The technical result is achieved by the fact that the proposed anti-icing reagent, consisting of a composition of a chloride and metal carboxylate, the composition contains either sodium chloride as a metal chloride and magnesium acetate as a metal carboxylate with the following ratios of components: NaCl: Mg (CH ₃ CO ₂ ) ₂ = 3 ÷ 1: 1 ÷ 3 parts by weight (composition 1), or the composition contains a mixture of sodium and magnesium chlorides as a metal chloride and sodium acetate as a metal carboxylate with the following component ratios: NaCl: MgCl ₂ : NaCH ₃ CO ₂ = 5.4 ÷ 0.9: 1.7-3.3: 2.9-5.8 weight parts (composition 2).

It is possible that the deicing reagent additionally contains water in an amount of 70 ÷ 80 wt.%.

The essence of the invention lies in the fact that the interaction of the solid reagent of both composition 1 and composition 2 with ice forms solutions containing acetates and sodium and magnesium chlorides. The composition of the solutions in both cases is the same due to the ongoing exchange reaction:

2NaCl + Mg (CH ₃ COO) ₂ = 2NaCH ₃ COO + MgCl ₂ ,

therefore, the same anti-icing effect, i.e. a certain temperature of the eutectic of the reagent with ice and the value of the melting ability with respect to ice can be achieved both when using the reagent of composition 1 and when using the reagent of composition 2. It should be noted that available and inexpensive natural salts can be used to obtain the proposed anti-icing reagent - halite, NaCl, bischofite, MgCl ₂ · 6H ₂ O or magnesium chloride solutions formed at the last stages of processing of natural brines of the marine type.

The essence of the invention is illustrated by the following attached tabular data:

Table 1 shows the "Characterization of the anti-icing properties of the reagents of composition 1".

Table 2 shows "Characterization of the anti-icing properties of the reagents of composition 2".

The following are examples of the implementation of the claimed invention. The examples illustrate but do not limit the proposed technical solution.

Example 1. 100 g of sodium chloride was mixed with 50.2 g of magnesium acetate tetrahydrate (33.3 g in terms of anhydrous magnesium acetate). Received 150.2 g of solid deicing reagent with a ratio of NaCl: Mg (CH ₃ CO ₂ ) ₂ = 3: 1.

Examples 2-6. Reagents with a different ratio of components were obtained similarly to Example 1.

Achievement of the technical result according to Examples 1-6 are shown in Table 1.

Table 1. No. of examples The ratio of NaCl: Mg (CH ₃ CO ₂ ), parts by weight Eutectic temperature with ice, ° С Melting capacity for ice at t = -5 ° С, g ice / g reagent Note one 3: 1 -22.0 12,2 Solid reagent 2 2: 1 -22.5 11.4 - ”- 3 1: 1 -23.0 10.0 - ”- four 1: 2 -23.5 9.5 - ”- 5 1: 3 -24.0 9.0 - ”- 6 2: 1 -22.5 2.8 25% aqueous solution

Example 7. 100 g of sodium chloride and 68 g of magnesium chloride hexahydrate (32 g in terms of anhydrous magnesium chloride) were mixed with 90.4 g of sodium acetate trihydrate (54.5 g in terms of anhydrous sodium acetate). Received 258.4 g of solid deicing reagent with a ratio of NaCl: MgCl ₂ : NaCH ₃ CO ₂ = 5.4: 1.7: 2.9.

Examples 8-10. Reagents with a different ratio of components were obtained similarly to Example 7.

Achievement of the technical result according to Examples 7-10 are shown in Table 2.

Table 2. No. of examples The ratio of NaCl: MgCl ₂ : NaCH ₃ CO ₂ , parts by weight Eutectic temperature with ice, ° С Melting capacity for ice at t = -5 ° С, g ice / g reagent Note 7 5.4: 1.7: 2.9 -22.0 12,2 Solid reagent 8 3.9: 2.2: 3.8 -22.5 11,4 - "- 9 0.9: 3.3: 5.8 -23.0 10.0 - "- 10 3.9: 2.2: 3.8 -22.5 2,8 25% aqueous solution

The reagents in examples 6 and 10 additionally contain water in an amount of 75%.

When reactants react with ice or when water is added to solid reagents Nos. 1-6 or 7-10, a solution is formed containing chlorides and acetates of magnesium and sodium due to the exchange reaction

2NaCl + Mg (CH ₃ COO) ₂ = 2NaCH ₃ COO + MgCl ₂ ,

reagent No. 7 on anti-icing properties, i.e. according to the eutectic temperature with ice and melting ability to ice, it is identical to reagent No. 1, reagent No. 8 to reagent No. 2, reagent No. 9 to reagent No. 3, reagent No. 10 to reagent No. 6.

Thus, the present invention allows economically sound and environmentally friendly way to obtain anti-icing reagent with increased melting ability in relation to ice and a lower eutectic temperature with ice, which makes it possible to use it at lower temperatures.

Claims (2)

1. Deicing reagent, consisting of a composition of metal chloride and carboxylate, while the composition contains either sodium chloride as a metal chloride and magnesium acetate as a metal carboxylate with the following component ratios: NaCl: Mg (CH ₃ CO ₂ ) ₂ = (3 ÷ 1) :( 1 ÷ 3) parts by weight, or the composition contains a mixture of sodium and magnesium chlorides as a metal chloride and sodium acetate as a metal carboxylate with the following component ratios: NaCl: MgCl ₂ : NaCH ₃ CO ₂ = (5, 4 ÷ 0.9) :( 1.7 ÷ 3.3) :( 2.9 ÷ 5.8) weight.h. 2. The reagent according to claim 1, characterized in that it additionally contains water in an amount of 70 ÷ 80 wt.%.