RU2140464C1 - Corrosion protection composition for oil field equipment - Google Patents

Abstract

FIELD: corrosion protection. SUBSTANCE: invention, in particular, relates to corrosion protection of metals in hydrogen sulfide-containing media. Composition contains fatty acid (4-20%), surfactant (9-25%), and nitrogen-containing component: N-alkyl-2-methyl-5-ethylpyridinium bromide (3-15%) in solution or product of interaction of mixture of primary and secondary amines with industrial-grade dimethyl phosphite in hydrocarbon solvent. EFFECT: increased degree of protection and reduced congellation point. 1 tbl

Description

 The invention relates to the field of protection of metals from corrosion in hydrogen sulfide-containing environments using inhibitors and can be used in the extraction, preparation, transport and processing of oil.

 Known compositions for the protection of oilfield equipment from corrosion, including amines, pyridines, fatty acids and their derivatives. (U.S. Patent No. 4100099, CL 252/189, Pat. RF N 2061091, C 23 F 11/00). A disadvantage of the known inhibitors is the need to use large doses of reagents to achieve a high protective effect.

 A known composition for protecting oilfield equipment from corrosion, having the trade name IKB-4V, consisting of salts of amines and fatty acids with the addition of surfactants (S. M. Reshetnikov. Inhibitors of acid corrosion of metals, L. "Chemistry", 1986, p . 142).

However, a known inhibitor has the following disadvantages:
- unsatisfactory technological properties, because it is a highly viscous product with a pour point of +50 ^o C, which creates difficulties when using the reagent, as it requires heating and preparation of the working solution of the inhibitor;
- insufficient efficiency of inhibition: at a reagent consumption of 100 mg / dm ^{3, the} degree of protection is 70%.

Known closest in technical essence to the proposed corrosion inhibitor containing the product of the interaction of fatty acids and aminoparaffin, a nonionic surfactant and a solvent (RF patent N 2061091, MKL ⁶ C 23 F 11/00).

The disadvantages of this inhibitor are:
- unsatisfactory technological properties, since the inhibitor is a highly viscous substance at sub-zero temperatures, which creates difficulties in its use, since it requires heating and preparation of the working solution of the inhibitor;
- insufficient efficiency of inhibition: at a reagent consumption of 50 mg / dm ^{3, the} degree of protection is 94%.

 The problem to which this invention is directed, is to create a composition for the protection of oilfield equipment from corrosion, with a high degree of protection, low pour point.

The problem is solved in that the composition for protecting oilfield equipment from corrosion, including fatty acid, a surfactant, a nitrogen-containing component and a solvent, contains as its nitrogen-containing component N-alkyl-2-methyl-5-ethylpyridinium bromide in an aliphatic solvent (APB) or the product of the interaction of a mixture of primary and secondary amines with technical dimethylphosphite in a hydrocarbon solvent (PV) in the following ratio of components, wt.%:
Fatty acid - 4-20
Surfactant - 9-25
Nitrogen-containing component - 3-15
Solvent - Other
Oleic acid is used as a fatty acid according to TU 9145-012-00336444-96, GOST 7580-91; surfactants such as AF 9-10, or AF 9-12, or AFB-10, or AFB-12 are taken according to TU 2483-077-05766801-98; nitrogen containing component; take according to TU 2483-077-05766801-98; nitrogen-containing component: N-alkyl-2-methyl-5-ethylpyridinium bromide in an aliphatic alcohol, for example methyl, or isopropyl, or isobutyl according to TU 39-1192-87 with Notices 1, 2, 3 or the reaction product of a mixture of primary and secondary amines with technical dimethylphosphite in a hydrocarbon solvent, for example, aliphatic alcohol, or nefras, or ethylbenzene fraction, or in a mixture thereof according to TU 39-12966038-001-92 with Notices 1, 2, 3.

 As a solvent, a mixture of an aromatic solvent is used, for example: petroleum solvent (nefras, TU 10214-78); or heavy oil solvent (nefras T, TU 38.101809-90); or super heavy oil solvent (nefras ST, TU 38.1011049-98); or diethylbutylbenzene fraction of isopropylenebenzene production (DEBBF, TU 38.102144-90), or ethylbenzene fraction of isopropylbenzene production during alkylation of benzene with propylene (EBF, TU 6-01-010-37-78); or the butylbenzene fraction of the production of isopropylenebenzene (BBF, TU 38.10297-78), and an aliphatic solvent, for example: aliphatic alcohols — methyl (MS), or ethyl (ES), or isopropyl (IPA), or butyl (BS), or isobutyl (IHD) ) with a ratio of aliphatic and aromatic 1 - 2-5, respectively.

 An analysis of the known technical solutions selected during the search showed that there is no object in science and technology that is similar to the claimed combination of essential features and has high inhibitory properties, which allows us to conclude that the claimed object meets the criteria of "novelty" and "inventive step".

 To prove the compliance of the claimed object with the criterion of "industrial applicability", we describe the method of preparation of the composition, the test method of the inhibitors and their properties.

Obtaining an Inhibitor
A mixture of aromatic and aliphatic solvents is prepared in a predetermined ratio. Fatty acid, a surfactant, a nitrogen-containing component are added to the solvent mixture, stirred at a temperature of 25-35 ^o C to obtain a homogeneous mass.

 By changing the qualitative and quantitative composition of the inhibitor, 20 samples are prepared.

The resulting corrosion inhibitor is a transparent liquid from yellow to brown in color with a pour point from minus 30 to minus 75 ^o C (determined according to GOST 20287-91).

The protective effect is determined by the gravimetric method in the circulation cells in an inhibited (with the addition of a reagent) standard hydrogen sulfide-containing solution according to OST 39-099-79. As an aggressive environment, a reservoir water model with a density of 1.12 g / dm ³ and a hydrogen sulfide concentration of 100 mg / dm ^{3 are used} . The test duration is 6 hours. The research results are presented in the table.

From the data presented in the table it follows that the claimed composition for the protection of oilfield equipment from corrosion has:
- a high degree of corrosion protection - protective effect of 90-93% with a specific consumption of 10 mg / DM ³ ;
- has a low pour point up to minus 75 ^o C;
- has a wide raw material base.

Claims (1)

Composition for protecting oilfield equipment from corrosion, containing fatty acid, a surfactant, a nitrogen-containing component and a solvent, characterized in that as a nitrogen-containing component it contains N-alkyl-2-methyl-5-ethylpyridinium bromide in the solvent or the reaction product of a mixture of primary and secondary amines with technical dimethylphosphite in a hydrocarbon solvent in the following ratio of components, wt.%:
Fatty acid - 4 - 20
SAW - 9 - 25
Nitrogen-containing component - 3 - 15
Solvent - Other

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