RU2123068C1 - Corrosion inhibitor for oil-field equipment - Google Patents

Abstract

FIELD: corrosion protection. SUBSTANCE: invention relates to oil-field equipment operated in hydrogen sulfide-containing media and may be applied in oil production, oil treatment, and oil transportation areas. Inhibitor contains fatty acid-amine interaction product, nonionic surfactant, and solvent. In particular, utilized is product of interaction of 1 wt.pt of tall oil or oleic acid with 0.1-0.5 wt.pts of mono- or diethanolamine, or ethylenediamine; or 8-55 wt.pts of morpholine or morpholine production vat residue. This product is combined with 6-10 wt.pts of surfactant and with solvent. EFFECT: increased protective effect. 2 tbl, 33 ex

Description

 The invention relates to the field of inhibitory corrosion protection of oilfield equipment operated in hydrogen sulfide-containing environments, and can be used in the production, preparation and transportation of oil.

A known inhibitor of hydrogen sulfide corrosion, including the hydrochloride of aminoparaffins ANP-2 (ed. St. N 652315, MKI E 21 B 43/00, 1979). The disadvantage of this inhibitor is the low protective effect in oilfield environments with a sufficiently large specific consumption (more than 100 g / m ^{3 of} waste water).

 A known metal corrosion inhibitor in water-oil sulfide-containing environments, including a salt of a high molecular weight low-solid carboxylic acid with an amidoamine of this acid and a salt of a high molecular weight low-solid carboxylic acid with dimethylaminopropylamide of this acid (ed. St. N 1202291, MKI C 23 F 11/00, 1995). However, the inhibitor is not effective enough.

 The closest to the proposed is a corrosion inhibitor for hydrogen sulfide-containing environments, including the product of the interaction of fatty acids and aminoparaffin, nonionic surfactant (nonionic surfactant) and solvent (ed. St. N 2061091, MKI C 23 F 11/00, 1996). The disadvantage of this inhibitor is the low protective properties in oil-water environments.

 The objective of the present invention is to provide a corrosion inhibitor for hydrogen sulfide-containing water-oil environments and wastewater, providing a higher protective effect by reducing the corrosion rate of equipment, improving its technological properties by increasing dispersibility and lowering pour point.

The problem is achieved by creating a corrosion inhibitor, including the product of the interaction of fatty acids and amines, nonionic surfactants and solvent. Moreover, the product of the interaction is the product of the interaction of 1 part by weight of tall oil or oleic acid and 0.1 ^o C0.5 parts by weight of mono- or diethanolamine, or ethylenediamine, or morpholine, or bottoms from the production of morpholine in the following ratio of starting components,% wt .:
The reaction product of 1 part by weight of tall oil or oleic acid and 0.1 ^o C0.5 parts by weight of mono- or diethanolamine, or ethylenediamine, or morpholine, or bottoms from the production of morpholine - 8 ^o C 55
Nonionic surfactant - 6 ^o C 10
Solvent - rest
Tall oil (TM) is a mixture of fatty and resin carboxylic acids according to TU 13-02810-78-119-89. Used oleic acid (OK) complies with GOST 7580-91.

 As the amine used: either monoethanolamine (MEA) according to TU 6-02-915-84, or diethanolamine (DEA) according to TU 6-09-2652-91, or ethylenediamine (EDA) according to TU 6-02-622-86, or morpholine (M) according to TU 6-14-366-80, or still bottoms of morpholine production (high-boiling fractions M-2) (KOPM) according to TU 6-14-10-210-87.

 As nonionic surfactants use monoalkyl ether of polyethylene glycol based on higher fatty alcohols - syntanol - (ALM-10) according to TU 6-14-864-88.

 As a solvent, the inhibitor contains bottoms from the production of butyl alcohols (COBBS) according to TU 38.102.167-85 and aromatic hydrocarbons: heavy oil solvent (nefras Ar 120/200) according to TU 39-101809-90 or ethylbenzene fraction (EBF) according to TU 6 -01-10-37-78, or methanol according to GOST 2222-78, or their binary mixture.

 An analysis of the known technical solutions selected during the search showed that in science and technology there are no objects that are identical in terms of the claimed combination of features and the presence of the above properties and advantages, which allows us to conclude that the invention meets the criteria of "novelty" and "inventive step".

 The proposed corrosion inhibitor of oilfield equipment is obtained by simple mixing of the starting components in the indicated proportions.

 Example 1 is a prototype.

 Example 2 - the proposed inhibitor.

To 20 g of tall oil, heated to 40 ^o C, add 5 grams of diethanolamine and mix the mixture. Then add 6 grams of syntanol ALM-10 and 69 grams of solvent, thoroughly mix the resulting mixture until smooth.

 Examples NN 3-33 are carried out analogously to example 2, the compositions are presented in table. one.

The resulting inhibitor is a dark brown liquid with a pour point of from -40 ^o C to -70 ^o C.

The protective effect of the proposed corrosion inhibitor of oilfield equipment in oil and water environments is determined in accordance with GOST 9.506-87, in the model of wastewater containing 100 mg / dm ^{3 of} hydrogen sulfide, according to OST 39-099-79 "Corrosion inhibitors. Methods for assessing the protective effect of corrosion inhibitors in oil waste environments. " The test results are presented in table. 2.

 As can be seen from the table. 2, the claimed corrosion inhibitor compared with the prototype is a more effective reagent for the protection of oilfield equipment in hydrogen sulfide-containing oil-water environments and wastewater.

Claims (1)

Corrosion inhibitor of oilfield equipment, including the product of the interaction of fatty acids and amines, nonionic surfactants and solvents, characterized in that as the interaction product use the interaction product 1 wt.h. tall oil or oleic acid and (0.1 - 0.5) parts by weight mono- or diethanolamine, or ethylenediamine, or morpholine, or still bottoms from the production of morpholine in the following ratio of starting components, wt.%:
The product of the interaction of 1 wt.h. tall oil or oleic acid and 0.1 to 0.5 wt.h. mono- or diethanolamine, or ethylenediamine, or morpholine, or bottoms from the production of morpholine - 8 - 55
Nonionic Surfactant - 6 - 10
Solvent - Other

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