RU2198961C1 - Metal corrosion inhibitor in aqueous hydrogen sulfide media - Google Patents

Abstract

FIELD: corrosion protection. SUBSTANCE: metal corrosion inhibitor suitable for protection of oil-field equipment contains 8-55% of product of interaction of 1 wt part of tallow oil or oleic acid with 0.1-0.5 wt parts of an amine, 6-10% of nonionic surfactant, and solvent, said amine being mixture of primary amines C10-C14 or amines of coconut oil fatty acids and an ethanolamine selected from mono-, di-, and triethanolamines taken at ratio between 5: 1 and 1:5. EFFECT: considerably reduced metal degradation velocity. 1 tbl, 4 ex

Description

 The invention relates to the oil industry and can be used to protect oilfield equipment from corrosion.

A known corrosion inhibitor for hydrogen sulfide-containing environments, including the product of the interaction of fatty acids and aminoparaffin, non-inogenic surface-active substance (nonionic surfactant) and a solvent (US Pat. 2061091 RF, MKI ⁶ 23 F - 11/00, 1996). However, this inhibitor is effective only in neutral hydrogen sulfide-containing environments.

Known corrosion inhibitor for protection in acidic and hydrogen sulfide-containing environments, including the product of the interaction of carboxylic acids With ₁₀ -C ₂₀ and polyethylene polyamines, nonionic surfactant, kerosene and solvent. For stable operation under various temperature conditions, a well-known technique is used - adding to the inhibitor up to 20% of primary alkylamines C ₁₀ -C ₂₀ (patent 2147627, RF, MKI ⁷ C 23 F 11/14).

However, this inhibitor is not effective enough in acidic and neutral hydrogen sulfide-containing environments, as evidenced by the large specific consumption. The experiments showed that at a specific consumption of 50 mg / dm ^{3 the} protective effect of the reagent is 75 and 80%, respectively. An increase in the efficiency of the reagent is possible with an increase in its specific consumption to 100-150 mg / dm ³ . This leads to a rise in the cost of oil production and, in the future, to the complication of oil refining.

Closest to the proposed is a corrosion inhibitor of oilfield equipment, which is a mixture of the product of the interaction of 1 wt.h. tall oil or oleic acid and 0.1-0.5 wt.h. mono- or diethanolamine, or ethylenediamine, or morpholine, or bottoms from the production of morpholine, a nonionic surfactant and solvent (US Pat. 2123068, RF, MKI ⁶ C 23 F 11/14, 1998).

 The disadvantage of this inhibitor is its relatively low efficiency in acidic hydrogen sulfide-containing aqueous media.

 An object of the present invention is to provide a corrosion inhibitor for acidic and neutral hydrogen sulfide-containing aqueous media, which can significantly reduce the rate of corrosion failure of the metal and thereby provide a higher protective effect.

 The problem is solved by the development of a corrosion inhibitor, including the interaction product of 1 wt.h. tall oil or oleic acid and 0.1-0.5 wt. including amine, nonionic surfactant and solvent. Moreover, as an amine, a mixture of a fatty amine and ethanolamine selected from the group of mono-, di- and triethanolamine is used in a ratio of 5: 1-1: 5 in the following ratio of starting components, wt.%: Product of the interaction of tall oil or oleic acid and a mixture 5: 1-1: 5, respectively, of a fatty amine with ethanolamine selected from the group of mono-, di- or triethanolamine, 8-55, nonionic surfactant 6-10, the rest is the solvent.

 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.

 Monoethanolamine (MEA) according to TU 6-02-915-84, or diethanolamine (DEA) according to TU 6-09-2652-91, or triethanolamine (TEA) according to TU 6-02-916-79 are used as ethanolamine.

As fatty amines, primary distilled C ₁₀ -C ₁₄ amines are used according to TU 113-00203795-018-94 amended. from 02.11.94 or amines of fatty acids of coconut oil.

 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 or aromatic hydrocarbons (heavy oil nephras solvent A 120/200 according to TU 39-101809-90 or EBF ethylbenzene fraction 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.

An example of obtaining an inhibitor. To 20 g of tall oil heated to 40 ^{° C.} , 4.17 g of ethanolamine and 0.83 g of an amine of coconut fatty acids are added, the mixture is stirred. Then add 6 g of syntanol ALM-10 and 68 g of solvent, mix the resulting mixture thoroughly until smooth.

 Other examples of obtaining with different ratios of the starting components in accordance with the claims were carried out similarly to that described above (see table).

 In the table, example 1 is analogue 1, example 2 is analogue 2, example 3 is a prototype, examples 4-41 are the proposed inhibitor.

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

The protective effect of the proposed corrosion inhibitor of oilfield equipment is determined in the model of wastewater containing 100 mg / dm ^{3 of} hydrogen sulfide at pH 6.5, and in the model of wastewater containing 100 mg / dm ^{3 of} hydrogen sulfide, acidified with CO ₂ to pH 3.5 -4, according to OST 39-099-79 "Corrosion inhibitors. Method for assessing the protective effect of corrosion inhibitors in oilfield wastewater". The test results are presented in the table.

 As can be seen from the table, the claimed corrosion inhibitor in comparison with analogues and prototype is a more effective reagent for the protection of oilfield equipment in acidic and neutral hydrogen sulfide-containing aqueous environments.

Claims (1)

Inhibitor of metal corrosion in aqueous hydrogen sulfide-containing environments, including the interaction product 1 wt.h. tall oil or oleic acid and 0.1-0.5 wt.h. amine, nonionic surfactant and solvent in the following ratio, wt.%:
The product of the interaction of tall oil or oleic acid and amine - 8-55
Nonionic Surfactant - 6-10
Solvent - Other
characterized in that as the amine a mixture of primary amines C ₁₀ -C ₁₄ or fatty acid amines of coconut oil and ethanolamine selected from the group of mono-, di- or triethanolamine, taken in a ratio of 5: 1-1: 5, respectively, is used.

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