RU2570081C1 - Anti-icing composition and method for preparation thereof - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: anti-icing composition includes calcium chloride, water and a reaction product of 1 mol fatty amine, 10-30 mol ethylene oxide and 2 mol phosphorus-containing compound or composition, containing the following, wt %: 5-50% higher fatty acids; 3-20% reaction product or mixture of reaction product with C₈-C₂₀ oxyethylated amine with and degree of oxyethylation of 10-30; 3-20% non-ionic surfactant; the balance - solvent.

EFFECT: anti-icing composition has high melting capacity, low corrosion activity and has a chilling point of up to minus 60 degrees, and the method of preparing the composition is characterised by simplicity and low cost.

3 cl, 31 ex, 3 tbl

Description

The invention relates to applied chemistry, namely to anti-icing composition, which is used to remove ice on the runways of airfields, on highways, sidewalks, as well as in other areas of the national economy.

A known composition of deicing aqueous solution for surface treatment of roads containing calcium chloride, ethyl alcohol, a corrosion inhibitor and water (patent RU 2264429, C09K 3/18, 2005), and sodium nitrite is used as a corrosion inhibitor, which is not environmentally safe.

Known anti-icing composition for treating road, asphalt, concrete and other coatings for the elimination of ice formations, containing sodium chloride, calcium chloride, paraform, ammonium chloride, sodium hydroxide or calcium oxide, or magnesium oxide (patent RU 2521381, C09K 3/18, 2013 ) This reagent contains a large amount of sodium chloride (up to 70%), which leads to an increase in the environmental load on the environment.

The closest in technical essence and the achieved result is an anti-icing composition, including calcium chloride, magnesium and potassium, urea, a corrosion inhibitor - VPK-2, water (patent RU 2318853, C09K 3/18, 2008). However, the known composition has insufficient melting ability, high corrosion rate and does not allow to reach operating temperatures below minus 22 ° C.

The objective of the present invention is to provide an effective anti-icing composition with high melting ability, low corrosion activity and low pour point, as well as a method for its preparation.

The problem is solved so that the anti-icing composition, including calcium chloride, a corrosion inhibitor and water, as a corrosion inhibitor contains the reaction product (PV) of 1 mole of a fatty amine, 10-30 moles of ethylene oxide and 2 moles of a phosphorus-containing compound or a composition consisting of .% of: 5-50% higher fatty acids, 3-20%) PV or a mixture of PV with an ethoxylated amine with the number of carbon atoms C ₈ -C ₂₀ and the degree of hydroxyethylation 10-30, 3-20% of nonionic surfactant ( Nonionic surfactants); the rest is a solvent in the following ratio of components, wt.%:

calcium chloride 20-40 PV or composition described above 1-3 water rest

and also the fact that in the method for producing an anti-icing composition according to claim 1, comprising sequentially mixing calcium chloride with water and a corrosion inhibitor, glycol or ethoxylated methanol (OEM) is introduced into the resulting composition in the following ratio, wt%:

calcium chloride - 20-40 PV or composition described above 1-3 glycol or OEM 1-5 water rest

In an embodiment, ethanolamine is additionally added to the anti-icing composition according to claim 1 and claim 2.

Calcium chloride is taken according to GOST 450 (liquid or solid) or according to TU 6-09-5351-87 (liquid).

The reaction product of 1 mole of a fatty amine, 10-30 moles of ethylene oxide and 2 moles of a phosphorus-containing compound is obtained by the known method of sequential addition of ethylene oxide to an amine, followed by phosphorylation of the resulting product.

As the fatty amine, synthetic fatty amines of the fractions C ₈ -C ₁₂ , C ₁₀ -C ₁₆ according to TU 113-03-0203796-018-92, or C ₁₇ -C ₂₀ according to TU 6-02-740-79 or TU 6 are used -02-795-87.

Ethylene oxide is taken in accordance with GOST 7568-88.

As a phosphorus-containing compound, for example, dimethyl phosphite (DMF) according to TU 6-36-5763445-6-88, or P ₂ O ₅ - phosphorus (Y) oxide (2: 5) (phosphoric anhydride) technical according to TU 113 can be used -08-614-87, or phosphorous acid (ortho) according to TU 6-09-4023-75, or phosphoric acid (ortho) according to GOST 6552-80, or extraction phosphoric acid according to TU 6-08-342-76.

To obtain the reaction product, 243 g of primary distilled amines C ₁₀ -C ₁₆ are loaded into the reactor in the presence of a catalyst (sodium hydroxide 46% ~ 1 g), at a temperature of 110-125 ° C and 754 g of ethylene oxide are added with continuous stirring. constant pressure in the reactor, which is a sign of the end of the reaction, the mass is cooled to 70-80 ° C, analyze the sample to determine the mass fraction of polyethylene glycol derivatives in terms of nitrogen. With constant stirring, 163.2 g of dimethyl phosphite are charged into the reactor, the temperature rises to 130 ° C. The reaction is 3 hours.

Another 10 PV are obtained in the same way as described (see table 1).

The PV obtained is a brown viscous liquid with a density of 0.930-1.050 g / cm ³ .

A composition comprising in wt.%, 5-50% higher fatty acids, 3-20% PV or a mixture of PV with an ethoxylated amine (OEA) with the number of carbon atoms C ₈ -C ₂₀ and the degree of hydroxyethylation 10-30; 3-20% nonionic surfactant (nonionic surfactant); the rest of the solvent is obtained by mixing the higher fatty acid in the solvent by heating, followed by the introduction of PV or a mixture of PV with OEA and nonionic surfactants.

As higher fatty acids, the composition contains, for example, oleic acid according to GOST 7580-91 or a mixture of higher fatty acids - tall oil according to TU 13-0281078-119-89.

As a nonionic surfactant (NSAID), the proposed composition may contain, for example, ethoxylated alkyl phenol AF _9-12 according to TU 2483-077-05766801-98 (neonol AF _9-12 ), or monoalkyl ether of polyethylene glycol based on primary fatty alcohols common of the formula C _n H _2n-1 O (C ₂ H ₄ O) _m H, where n = 10-18, m = 8-10 according to TU 6-14-864-88 - Syntanol ALM-10, or a mixture of polyoxyethylene glycol oleic esters Oleox-5 acids according to TU 6-14-314-85, or Oleox-7 according to TU 6-14-286-78.

As a solvent, the composition contains, for example, methyl alcohol (MS) according to GOST 2222-78, or ethyl alcohol according to GOST 18300-87, or butyl alcohol according to GOST 5208-81, or isopropyl alcohol (IPA) according to GOST 9805-84, or bottoms of the production of butyl alcohols by the method of oxosynthesis (COBBS) according to TU 38.102167-86, or aromatic hydrocarbons Nefras AR-120/220 according to TU 38.101809-90, or Nefras AR-150/330 according to TU 38.1011049-98, or ethylbenzene fraction (EBF) according to TU 6-01-10-37-78, or the butylbenzene fraction (BBP) according to TU 38.10297-76, or mixtures thereof.

Get 22 composition (see table 2).

The proposed composition is a homogeneous mobile liquid of dark brown color with a density of d = 0.900 g / cm ³ , kinematic viscosity at 20 ° C of not more than 80 mm ² / s, pour point t _stas = -50 ° C.

The anti-icing composition is obtained by sequentially dissolving calcium chloride in water with stirring, followed by the addition of PV or composition. In embodiment 1, the anti-icing composition according to claim 1 further comprises glycol or OEM, and in embodiment 2 according to claim 1 or 2, ethanolamine is additionally added.

As glycol, for example, ethylene glycol according to GOST 19710-83, or diethylene glycol according to GOST 10136-77, or triethylene glycol according to GOST 601-5-88 is used.

As ethanolamine use, for example, monoethanolamine according to TU 2423-065-05807977-2004, or triethanolamine according to TU 2423-061-05807977-2002.

We give specific examples of obtaining anti-icing composition.

Example 1. 391 g of a 32% calcium chloride solution was placed in a 1-liter wide-necked glass, 49 ml of water was added, and 60 g of the composition was added with stirring. The resulting product has a freezing point of 45 ° C (see table. 3).

Examples 2-29 are carried out analogously to example 1, changing the qualitative and quantitative composition of the components.

Example 30. In a 1-liter wide-necked glass, 286 g of a 32% solution of calcium chloride are placed, then 144 g of solid two-water technical calcium chloride are added in portions with stirring, and after complete dissolution, 50 g of triethanolamine, 15 g of triethylene glycol and 5 are added with stirring. g PV. The resulting product has a freezing point of -60 ° C.

Example 31 (prototype).

The resulting compositions were tested for melting ability and corrosion rate (in accordance with GOST Ρ 9.905 - 2007). The test results and properties are summarized in table 3.

From the data presented in table 3, it can be seen that the claimed anti-icing composition has a high melting ability, low corrosion activity and has a pour point of up to -60 ° C, and the method for its preparation is characterized by simplicity and economy.

Claims (3)

1. An anti-icing composition comprising calcium chloride, a corrosion inhibitor and water, characterized in that as an inhibitor it contains an interaction product (PV) of 1 mole of a fatty amine, 10-30 moles of ethylene oxide and 2 moles of a phosphorus-containing compound or a composition containing in wt. .%: 5-50% of higher fatty acids; 3-20% PV or a mixture of PV with an ethoxylated amine (OEA) with the number of carbon atoms C ₈ -C ₂₀ and the degree of hydroxyethylation 10-30; 3-20% nonionic surfactant (nonionic surfactant); the rest is a solvent in the following ratio of components, wt.%:
calcium chloride 20-40 PV or composition described above 1-10 water rest 2. A method of obtaining an anti-icing composition according to claim 1, comprising sequentially mixing (dissolving) calcium chloride with water and a corrosion inhibitor, characterized in that glycol or ethoxylated methanol (OEM) is additionally introduced into the resulting composition in the following ratio, wt.%:
calcium chloride 20-40 PV or composition described above 1-10 glycol or OEM 1-5 water rest 3. A method of obtaining an anti-icing composition according to claim 1 or 2, characterized in that ethanolamine is introduced into the resulting composition in the following ratio of components, wt.%:
calcium chloride 20-40 PV or composition described above 1-10 glycol or OEM 1-5 ethanolamine 2-10 water rest