RU2090655C1 - Inhibitor of corrosion of metals - Google Patents

Abstract

FIELD: protection of metals against corrosion, particularly, inhibitors of steel corrosion; petroleum recovery and petrochemical industry. SUBSTANCE: inhibitor comprises, mas.%: mixed tallow oil, 30-60; cyanoethylated ethylene diamine, polyethylene polyamine or diethylene triamine, 5-10; hydrocarbon solvent, the balance. EFFECT: improved protection action. 1 tbl

Description

 The present invention relates to the field of protection of metals from corrosion, specifically to corrosion inhibitors of steel, and can be used in oilfield and petrochemical industries.

Known metal corrosion inhibitor pitch tall oil [1]
A disadvantage of the known inhibitor is the low protective properties under conditions of general corrosion.

The closest in technical essence and the achieved effect to the proposed one is a metal corrosion inhibitor, which is a mixture of tall oil fatty acid salts (ethylene diamine salts) and PEPA polyethylene polyamine [2]
However, the action of such an inhibitor is limited to neutral aqueous media and the protective effect is 80 90%
The aim of the invention is to increase the time of the effect (protective effect) of the inhibitor and expand its functionality by maintaining high protective properties in aqueous media containing mineral salts, oxygen and hydrogen sulfide. The goal is achieved by the described metal corrosion inhibitor containing the product of the interaction of fatty acids of tall oil and amine.

 New is that the composition additionally contains a hydrocarbon oil solvent "Nefras" brand AR 120/200.

 In addition, mixed tall oil is used as a mixture of tall oil fatty acids, and cyanethylated ethylene diamine, polyethylene diamine or diethylene triamine as the amine in the following ratio, wt.

mixed tall oil 30 60
cyanethylated ethylene diamine, polyethylene polyamine or diethylene triamine - 5 10
oil solvent "Nephras" AR 120/200 rest
Laboratory tests of the proposed composition showed that it has a long time consequences, retains these properties in environments containing mineral salts, oxygen and hydrogen sulfide.

In preparing the compositions, the following materials were used:
N, N-di (β-cyanoethyl) -ethylenediamine manufactured by Kalushsky Production Association “Chlorovinyl” (TU 88 of the Ukrainian SSR 227-05-89);
polyethylene polyamines (PEPA) technical grade B (TU 6-02-594-85) manufactured by Kalushsky Production Center “Chlorvinil” (a by-product in the production of ethylene diamine);
technical diethylenetriamine (DEDA) (TU6-02- 914-86) manufactured by Sterlitamak Production Association "Orgsintez";
mixed tall oil is produced from a mixture of softwood (50 - 90%) and deciduous (10 50) species and from coniferous wood in the presence of larch more than 50% (OST 13-184-83) produced by the Kotlas, Svetogorsk pulp and paper enterprises;
Nefras (GOST 8505 80), which is produced by oil refineries. Brand Nefras AR 120/200.

 Example 1 (known composition).

In a glass reactor equipped with a stirrer, a thermometer, a Dean-Stark nozzle and a reflux condenser, 75 g of light tall oil and 35 g of N, N-di (b-cyanethyl) ethylenediamine are charged. The reagents are heated to 130 ^o C and stirred for 3 hours, while driving away the water released during the reaction.

97.5 g of a dark brown liquid are obtained. Found, 9.2. In the IR spectrum (cm ^-1 ) there are: 1650 (CON =), 1675 (C = C), 3340 3310 (NH).

 The resulting product is tested as an inhibitor of hydrogen sulfide corrosion of metals. Corrosion inhibitor tests are carried out by the gravimetric method in accordance with OST 39 199 79, based on the determination of the mass loss of steel samples aged in inhibited and non-inhibited environments.

 A 3% aqueous NaCl solution saturated with hydrogen sulfide is used as a corrosive medium.

Grinded flat samples with dimensions of 20 x 25 x 0.5 or 10 x 40 x 0.5 mm, made of steel St 3 (GOST 1050 74), are immersed in a corrosive medium containing a certain concentration of corrosion inhibitor and kept for 6 hours at a temperature 30 ^o C. After that, the samples are removed, washed, dried and weighed.

где П₁ потеря массы металлического образца после испытания в неингибированной среде, г;
П₂ потеря массы металлического образца после испытания в ингибированной среде, г.The protective effect of the corrosion inhibitor is expressed in and calculated by the formula

where P _{1 the} mass loss of the metal sample after testing in an uninhibited medium, g;
P ₂ weight loss of a metal sample after testing in an inhibited medium, g

 The protective effect of the inhibitor in a corrosive environment is calculated as the arithmetic average of the results of at least three parallel determinations of the mass loss of metal samples.

Полученные данные представлены в таблице.The aftereffect time is estimated by measuring the instantaneous corrosion rate by the method of polarization resistance of a two-electrode sensor operating on the principle of a rotating disk electrode. Studies are carried out in a 3% solution of NaCl, a temperature of 20 ^o C, corrosion inhibitors are used in the form of 25% solutions in kerosene. The measuring device is a potentiostat, a rotating electrode is a corrosion sensor. The aftereffect time of the inhibitors τ _m (min), determined at a sensor speed of 3000 m / min, is recounted according to the empirical formula for a time corresponding to a linear speed of 1 m / s τ _vn min):

The data obtained are presented in the table.

 Examples 2 to 16 (the claimed composition).

In a glass reactor equipped with a stirrer, a thermometer, a Dean-Stark nozzle and a reflux condenser, mixed tall oil and CEDA or PEPA, or DETA in quantities are charged in accordance with the table. The reagents are heated to 130 ^o C and stirred for 3 hours, then add the hydrocarbon solvent (nefras) in quantities in accordance with the table.

 Tests of the inhibitor are carried out in accordance with example 1.

 The test data are presented in the table. In accordance with the results, the proposed composition within the claimed limits (examples 3 5, 8 10, 13 15) allows to increase the after-effect of the inhibitor by 5 7 times and maintain the high protective properties of the inhibitor in oxygen and hydrogen sulfide-containing media.

Claims (1)

 A metal corrosion inhibitor, which is a product of the interaction of tall oil fatty acids with an amine, characterized in that it additionally contains Nefras hydrocarbon oil solvent, mixed tall oil as a tall oil fatty acid, and cyanethylated ethylene diamine, polyethylene polyamine or diethylene triamine as the amine in the following the ratio of components, wt. Mixed tall oil 30 60
Cyanoethylated ethylene diamine, polyethylene polyamine or diethylene triamine - 5 10
Hydrocarbon solvent Nefras Else2

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