RU2518034C2 - Corrosion inhibitor of prolonged action for protection of oil field and oil-refining equipment (versions) - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: corrosion inhibitor of prolonged action for protection of oil field and oil-refining equipment contains polymer compound - alkyl- and oxyalkylpolyamines, partially quartenised by nitrogen atoms, non-ionogenic suface-active substance and hydrocarbon solvent - monoatomic alcohol C_nH_2n+1OH, where n=1-4, with the following component ratio, wt %: polymer compound 5-30; SAS low-molecular 5-20, solvent - the remaining part. As surface-active substance for protection against hydrogen sulfide corrosion used is low-molecular quarternary ammonium compound, and for protection against carbonic acid corrosion used is ester of unsaturated dicarboxylic acid and alcohol.

EFFECT: reduction of corrosion rate in aggressive media, containing hydrogen sulfide and carbon dioxide.

2 cl, 3 tbl, 2 dwg, 4 ex

Description

The invention relates to the field of oilfield and oil refining industry, in particular, compositions that provide reliable protection in environments containing dissolved hydrogen sulfide or carbon dioxide, and having high sorption activity with respect to metal surfaces.

Known anticorrosive reagent described in US patent (US 4,900,458, IPC C23F 11/04, 1988), which is a mixture of polyalkylene polyamine, carboxylic acid, nonionic surfactants and heavy hydrocarbon solvent.

A known substance has the following general essential features with the claimed: the substance contains a polymeric compound, a nonionic surfactant, and a solvent.

Significant disadvantages of the composition are the complexity of the synthesis of the polymer base, the high toxicity of the heavy aromatic solvent used, and the use of chlorine-containing products as raw materials.

The known polymer described in the application for the grant of a US patent (US 2006/0062753, IPC A61K 31/785, 2004), used as a biodegradable corrosion inhibitor and biocide (antiseptic). The polymer contains a polymeric quaternary ammonium salt obtained in the reaction of polyepihalohydrin with a tertiary amine, where polyepihalohydrin is obtained in the polymerization of epihalohydrin in the presence of monomeric poly alcohol, and the inhibitor is delivered to the corrosion system in dissolved form.

The known substance has the following general essential features with the claimed: it contains a polymer quaternary ammonium salt.

The corrosion inhibitor has the following disadvantages: the complexity of the synthesis and the high cost of the resulting product.

Closest to the proposed inventions in technical essence and the achieved effect is a composition for protecting oilfield equipment from hydrogen sulfide and carbon dioxide corrosion, containing higher fatty acids 5-50 wt.%, The product of the interaction of 1 mole of fatty amine with the number of carbon atoms C ₈ -C ₂₀ , 10-30 moles of ethylene oxide and 2 moles of an organophosphorus compound or a mixture of it with an ethoxylated amine with the number of carbon atoms C ₈ -C ₂₀ and the degree of hydroxyethylation 10-30, 3-20 wt.%, Nonionic surfactant 3 -20 wt.% And the rest is solvent (RF patent No. 2166001, IPC C23F 11/167, 2000).

A known substance has the following general essential features with the claimed: the substance contains a polymeric compound, a nonionic surfactant, and a solvent.

The composition has the following disadvantages: the composition uses organophosphorus compounds, hydrocarbons are used as a solvent, including toxic carcinogenic aromatic compounds.

The objective of the invention is the creation of corrosion inhibitors, devoid of the above disadvantages and having higher protective properties, capable of protecting oilfield equipment from hydrogen sulfide and carbon dioxide corrosion by reducing its speed (corrosion), increasing the life of oilfield equipment in contact with a corrosive environment, reducing working dosages of the inhibitor while maintaining the desired protective effect.

The technical result is to enhance the protective properties of the inventive corrosion inhibitors, reducing the corrosion rate in aggressive environments containing hydrogen sulfide and carbon dioxide.

The technical result is achieved by the fact that long-acting corrosion inhibitors for protecting oilfield and oil refining equipment from hydrogen sulfide and carbon dioxide corrosion include a polymer compound, a nonionic surfactant, an alcohol solvent, while the polymer compound contains alkyl and hydroxyalkyl polyamines, partially quaternized by nitrogen atoms, as a solvent, a monohydric alcohol C _n H _{2n + 1} OH, where n = 1-4, and as a surfactant a low molecular weight quaternary ammonium base for protection against hydrogen sulfide corrosion (option 1), and for protection against carbon dioxide corrosion, an ester of unsaturated dicarboxylic acid and alcohol (option 2) in the following ratio of components, wt.%: polymer compound 5-30, nonionic surfactant 5- 20, solvent rest.

As a polymer compound, a carbon dioxide corrosion inhibitor, like a hydrogen sulfide corrosion inhibitor, contains alkyl and hydroxyalkyl polyamines partially quaternized by nitrogen atoms:

R ₄ , R ₅ , R ₆ , R ₇ = C _n H _{2n + 1} , where n = 1-20

M = C _n H _2n , C _n H _2n O, where n = 1-5

m, x, y = 10-10000

In the case of protection against carbon dioxide corrosion, the inhibitor contains a low molecular weight surfactant, an ester of unsaturated dicarboxylic acid and alcohol, as a nonionic surfactant:

Q = C _n H _2n-1 , where n = 6-10

M = C _n H _{2n + 1} , C _n H _2n O, where n = 3-10

z = 1-3

In the case of protection against hydrogen sulfide corrosion, the inhibitor contains a low molecular weight surfactant, a quaternary ammonium base, as a nonionic surfactant:

R, R ₁ = C _n H _{2n + 1} , where n = 1-5

R ₂ = C _n H _2n-1 , where n = 6-10

R ₃ C _n H _{2n + 1} , where n = 6-20 or (CH ₂ O) _n CH ₃ , where n = 1-6

X - Cl, Br, OH

The organic solvent is a monohydric alcohol C _n H _{2n + 1} OH, where n = 1-4.

The invention is illustrated by drawings.

Figure 1 schematically shows the process of forming a protective film in the process of inhibiting carbon dioxide corrosion.

Figure 2 schematically shows the process of forming a protective film in the process of inhibiting hydrogen sulfide corrosion.

Polymer macromolecules due to the presence of many amino groups interact with adsorption centers on the metal surface, forming a film that impedes the occurrence of corrosion processes. Molecules of a low molecular weight surfactant, interacting with the free, on the surface amino groups of the adsorbed polymer molecules, form an additional layer, thus increasing the strength of the resulting protective film (Fig. 1).

In the process of inhibition of hydrogen sulfide corrosion processes, these advantages are also achieved as a result of the combined action of the components: polymer macromolecules form a film due to the interaction of quaternized amino groups with the metal surface, the strength of which increases with the addition of a low molecular weight surface-active compound, in this case, a quaternary ammonium base, whose function is to interact with the remaining free areas of the metal surface (figure 2).

As a result, the strength of the protective film increases.

In both cases, due to its high penetrating ability, a low molecular weight surfactant migrates to the most inaccessible areas of the metal surface (metal defects, cracks, craters), in which the likelihood of pitting corrosion is greatest, and forms a protective film due to its high affinity for the surface.

The advantage of the claimed compositions of the corrosion inhibitor lies in the combined action of the inhibitor components: a high value of the protective effect at standard dosages of the reagent, increased sorption activity with respect to metal surfaces, prolonged action of the inhibitor, the synergistic anticorrosive effect of the inhibitor components, and high penetrating ability of the inhibitor.

A method of obtaining an inhibitor composition.

A method of obtaining a corrosion inhibitor is to mechanically mix the components to obtain a homogeneous solution.

Carbon Dioxide Inhibitor:

Example 1

5 g of a low molecular weight surfactant containing ester, unsaturated dicarboxylic acid and alcohol fragments in the structure are added to 5 g of the polymer compound of alkyl- and hydroxyalkylpolyamine partially quaternized by nitrogen atoms, then 90 g of a solvent of monohydric alcohol С _n Н _{2n + 1} ОН are added where n = 1-4.

Example 2

To 30 g of the polymer compound of alkyl- and oxyalkylpolyamine, partially quaternized by nitrogen atoms, 20 g of a low molecular weight surfactant containing fragments of ester, unsaturated dicarboxylic acid and alcohol in the structure are added, then 50 g of a solvent - monohydric alcohol C _n H _{2n + 1} OH where n = 1-4.

Inhibitor for hydrogen sulfide corrosion:

Example 1

5 g of a low molecular weight surfactant, a quaternary ammonium base, are added to 5 g of the polymer compound of alkyl- and hydroxyalkylpolyamine partially quaternized with nitrogen atoms, then 90 g of a solvent of monohydric alcohol С _n Н _{2n + 1} ОН, where n = 1-4, are added.

Example 2

To 30 g of the polymer compound of alkyl- and oxyalkylpolyamine, partially quaternized by nitrogen atoms, 20 g of a low molecular weight surfactant-quaternary ammonium base are added, then 50 g of a solvent - monohydric alcohol C _n H _{2n + 1} OH, where n = 1-4, are added.

The anticorrosive activity of the obtained compositions is evaluated on the model of wastewater, which is close in its content of H ₂ S and CO ₂ to natural conditions and in real oilfield environments by the gravimetric method.

Tests of the protective properties of corrosion inhibitors were performed in accordance with GOST 9.506.87 "Metal corrosion inhibitors in oil-water environments" by the electrochemical (for carbon dioxide corrosion) and gravimetric (for hydrogen sulfide corrosion) methods.

Carbon dioxide corrosion can be evaluated in two modes: only in an aqueous solution of salts and in the form of an emulsion “aqueous solution of salts-oil”, and for hydrogen sulfide corrosion there is only one assessment method (condition).

The protective effect of Z,% is calculated by the formula:

Z = ((P ₁ -P ₂ ) / P ₁ ) × 100, where P ₁ is the weight loss of the sample in a non-inhibited medium; P ₂ - weight loss of the sample in an inhibited medium.

The test results of the proposed compositions are presented in tables 1, 2, 3.

The tests were carried out in a wastewater model and in a sludge of an oil-water emulsion (i.e., in vivo).

Electrochemical tests of anticorrosion properties under conditions of carbon dioxide corrosion at room temperature (100% water cut, 3% NaCl solution):

Electrochemical tests of anticorrosion properties under conditions of carbon dioxide corrosion in the oil-water system with constant purging of CO ₂ (80% water content of the medium, temperature 40 ° C, dosing of the reagent was carried out in the oil phase):

Gravimetric tests of anticorrosion properties under conditions of hydrogen sulfide corrosion at room temperature (100% water content of the medium, hydrogen sulfide concentration of 100 ppm):

The analysis of the data presented in tables 1, 2, 3, shows that the proposed compositions are effective for protecting oilfield equipment from hydrogen sulfide and carbon dioxide corrosion.

At a dosage of 20 g per ton, the inventive corrosion inhibitors have a higher protective effect.

The closest analogue has a dosage of 30 g per ton or higher.

The claimed technical solution meets the criteria of "novelty" and "inventive step", since no similar solutions have been identified in the art, and it is not explicitly obvious to a specialist.

The claimed technical solution meets the criterion of "industrial applicability", since the claimed corrosion inhibitor can be obtained from known means and by known methods.

Claims (2)

1. Prolonged corrosion inhibitor for the protection of oilfield and oil refining equipment, comprising a polymer compound, a nonionic surfactant and a hydrocarbon solvent, characterized in that it contains alkyl and hydroxyalkyl polyamines partially quaternized by nitrogen atoms as a polymer compound, as a surface -active substance - a low molecular weight quaternary ammonium base, as well as solvent - monohydric alcohol C _n H _{2n + 1} OH, wherein n = 1-4, under the following present component ratio, wt.%:
polymer compound 5-30 low molecular weight surfactant 5-20 solvent rest 2. Prolonged corrosion inhibitor for protecting oilfield and oil refining equipment, including a polymer compound, a nonionic surfactant and a hydrocarbon solvent, characterized in that it contains alkyl and hydroxyalkyl polyamines partially quaternized with nitrogen atoms as a polymer compound -active substance is an ester of unsaturated dicarboxylic acid and alcohol, and as a solvent is a monohydric alcohol C _n H _{2n + 1} OH, where n = 1-4, when the ratio of components, wt.%:
polymer compound 5-30 low molecular weight surfactant 5-20 solvent rest

Images