RU2202653C2 - Metal corrosion inhibitor - Google Patents

Abstract

FIELD: corrosion protection. SUBSTANCE: invention relates to protection of metals against corrosion in neutral aqueous media by using poly-1,2-dimethyl-vinyl-pyridinium methosulfate as corrosion inhibitor for use in a variety of areas including waste water transportation in pipelines, treatment thereof in apparatuses, and preparation of cooling agents and calcium and magnesium chlorides-containing brines. Utilized reagent has molecular weight (2,5÷4,5)×10⁶ and is depicted by empirical formula (C₁₀H₁₅NO₄S)_n, wherein n=10000- 20000. EFFECT: reduced corrosion rate at low concentration of inhibitor thereby lowering expenses and harmful effect on process characteristics of neutral aqueous media. 1 tbl, 6 ex

Description

The proposed solution relates to the protection of metals from corrosion in neutral aqueous media using poly-1,2-dimethyl-5-vinylpyridinium methyl sulfate as an inhibitor and can be used in chemical, petrochemical, oil refining, metallurgical, engineering and other industries, as well as in ecology when transporting sewage through pipes, treating them in apparatuses and preparing refrigerants and brines using CaCl ₂ and MgCl ₂ salts.

 It is known that poly-1,2-dimethyl-5-vinylpyridinium methyl sulfate is used as a flocculant (Pat. RF 2048479, M CL 6 C 08 F 26/06, 4/40, 1995 B.I. 32). However, this compound is not used as a corrosion inhibitor.

 The known composition of the protection of metals from corrosion in neutral environments based on inorganic borates, sodium nitrite, benzotriazole and sodium aryl carboxylate, 3-nitrophthalate, oleate and phenylanthranilate with the corresponding ratio of components (Ed. St. USSR 644295, C 23 F 11/08 and C 09 K 15/00, 1980, B.I. 11).

 The reasons that impede the achievement of a given technical result include the complexity of the composition and its preparation, as well as significant concentrations of the inhibitor, ranging from 14 to 32 g / l, which leads to the high cost of this method of protection against corrosion and pollution of stored or transported products.

 A known composition for protecting metals from corrosion in a neutral environment based on chromates and phosphates with the introduction of salts of amines and organic acids with the addition of surface-active substances (Auth. St. USSR 280163, C 23 F 11/08, 1972, B. and . 5).

 For reasons that impede the achievement of a given technical result? the complexity of the preparation of the composition with a given proportion of components, as well as the high consumption of salts, reaching 25 g / l, which leads to an increase in the cost of this method of protection against corrosion.

The closest technical solution adopted for the prototype is a method of corrosion protection of oil refining equipment using an inhibitor - organoaminoalkoxysilanes of the general formula
R (CH ₂ ) n Si (OS ₂ H ₅ ) ₃ ,
where R = H ₂ N-, C ₆ H ₅ NH-, (C ₂ H ₂ ) ₂ N-, H ₂ N (CH ₂ ) ₆ NH-, H ₂ NC ₂ H ₄ NHC ₂ H ₄ NH-; n = 1 or 3 (Aut. St. USSR 254307, С 23 F 11/10, 1974, б.и. 6).

 The reasons that impede the achievement of a given technical result include a significant consumption of inhibitor, ranging from 100 mg / l to 2 g / l, which leads to the high cost of this method of protecting metals from corrosion.

 The objective of the technical solution is the use of the known substance poly-1,2-dimethyl-5-vinylpyridinium methyl sulfate as a flocculant for a new purpose as a metal corrosion inhibitor, which reduces the corrosion rate of metals in neutral aqueous solutions of salts that can serve as refrigerants, while providing a high effect protect metals from corrosion at its low concentrations.

 The technical result is to reduce the corrosion rate of metals in neutral aqueous solutions of salts that can serve as refrigerants, at low concentrations of the proposed substance as an inhibitor, which leads to a decrease in its consumption and influence on the technological properties of aqueous solutions.

The technical result is achieved using poly-1,2-dimethyl-5-vinylpyridinium methyl sulfate with a molecular weight of 2.5 • 10 ⁶ -4.5 • 10 ⁶ and the general formula (C ₁₀ H ₁₅ NO ₄ S) _n , where n = 10000 ÷ 20000, as an inhibitor of metal corrosion.

 This substance is a water-soluble polyelectrolyte, where poly-1,2-dimethyl-5-vinylpyridinium acts as a polymer matrix, with a positive charge concentrated on the nitrogen atom, and the methyl sulfate group is the negatively charged counterion.

При контакте указанного полиэлектролита с металлами, обладающими свободными электронами, положительно заряженные диметил-пиридиниевые группы адсорбируются на поверхности металла, образуя комплекс, отрицательно заряженный противоион взаимодействует с катионами металла и удерживает их в комплексе.

Upon contact of the specified polyelectrolyte with metals having free electrons, positively charged dimethyl-pyridinium groups adsorb on the metal surface, forming a complex, a negatively charged counterion interacts with metal cations and keeps them in the complex.

 For experimental verification of the proposed method of protection against corrosion using the proposed inhibitor in comparison with the method selected for the prototype, a series of experiments was conducted.

Assessment of the corrosion resistance of metals of iron, aluminum and copper in the presence of the indicated polyelectrolyte was carried out in neutral aqueous solutions of calcium chloride (32% by mass) and magnesium chloride - bischofite (45% by mass) on a ten-point scale under normal conditions: pressure 1 atm and temperature 20 ^o С .

 Preliminary studies have determined the optimal concentration of the proposed inhibitor, providing the greatest protection against corrosion, which amounted to 30-40 mg / L.

 The decrease in the concentration of the proposed corrosion inhibitor below 30 mg / l does not allow the formation of a continuous thin protective film on the metal surface, which in the places of rupture of this film leads to a decrease in the inhibition of the corrosion rate.

 An increase in the concentration of the proposed corrosion inhibitor above 40 mg / L leads to the chemical interaction of the polyelectrolyte with the metal and its chemical corrosion due to the detachment of surface metal ions by the molecules of the excess inhibitor and the transfer of cations into a neutral aqueous salt solution.

 The proposed water-soluble polyelectrolyte is obtained by polymerization of the quaternary ammonium salt of 1,2-dimethyl-5-vinylpyridinium methyl sulfate in an aqueous medium in the presence of a redox initiator of β-hydroxypropyl-tert-butyl peroxide. The inhibitory effect of the proposed polyelectrolyte is that, adsorbing on the metal surface, it forms a thin protective film (metal-polyelectrolyte complex), which prevents the occurrence of redox processes.

 The experiments were carried out according to the method in accordance with GOST 9.506-87 (ST SEV 5733-86).

Example 1
500 ml of a 32% aqueous CaCl ₂ solution are poured into a glass bath and 3 mg of the proposed inhibitor (poly-1,2-dimethyl-5-vinylpyridinium methyl sulfate) is added as an inhibitor, and then a fat-free steel sample is placed in this solution - a plate with a known surface and mass. After 90 days, the sample is weighed on an analytical balance and according to the formula
V = (M - m) / (F • 90 • 24),
where M is the mass of the metal sample before the start of the experiment, g; m is the mass of the metal sample at the end of the experiment; F is the surface of the metal sample, m ² ; 90 • 24 - time of the experiment, hour.

Example 2
In the example of paragraph 1, the substance organoaminoalkoxysilane selected as the prototype is used as an inhibitor.

Example 3
In the example of paragraph 1, experiments are carried out without the use of a corrosion inhibitor.

Example 4
In the example of paragraph 1, studies were conducted with a 45% aqueous solution of MgCl ₂ and a concentration of the proposed inhibitor of 40 mg / L.

Example 5
In the example of paragraph 4, experiments are performed with an inhibitor selected for the prototype.

Example 6
In the example of paragraph 4, the experiments were carried out without an inhibitor.

 The table shows the results of the experiments described in examples 1-6 on the protective effect of corrosion inhibitors on iron (line 1).

 The results of experiments with samples of other metals - aluminum and copper, carried out similarly to the experiments described above with samples of iron, are shown in the same table, lines 2 and 3.

 As can be seen from the table, at concentrations of 30-40 mg / l, the inhibitor selected for the prototype, practically reduces the corrosion rate by 4.5-8%, and the proposed inhibitor by 15-28%. Additional experiments show that in order to achieve the same degree of corrosion protection, the concentration of the inhibitor in the prototype should be 170-2000 mg / l, that is, increased 5.7-50 times compared with the concentration of the inhibitor according to the proposed method of corrosion protection.

 This allows you to reduce the effect of the inhibitor on the technological properties of neutral aqueous solutions and brines used as refrigerants in heat exchange equipment and to reduce additional pollution of wastewater sent through pipelines for treatment, and most importantly to reduce the cost of the purchase, preparation and operation of the inhibitor according to the proposed method of protection from corrosion.

Claims (1)

The use of poly-1,2-dimethyl-5-vinylpyridinium methyl sulfate with a molecular weight (2.5 • 10 ⁶ - 4.5 • 10 ⁶ ) and the general formula
(C ₁₀ H ₁₅ NO ₄ S) _n ,
where n = 10000 ÷ 20000,
as an inhibitor of metal corrosion in neutral aqueous solutions.

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