RU2365584C2 - Zinc 2-propyl-3-ethytl-8-oxuchinoline-chloride complexonate as inhibitor of steel corrosion in mineralised media with high oxygen content - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to zinc 2-propyl-3-ethyl-8-oxyquinoline- chloride complexonate of formula

, which is inhibitor of steel corrosion in mineralised media with high oxygen content.

EFFECT: obtaining of zinc chloride, which possesses higher efficiency as inhibitor of steel corrosion in mineralised media with high oxygen content and can be applied in oil producing industry, in particularly in system of waste waters utilisation, as well as in systems of circulating water supply of industrial enterprises.

1 cl, 1 tbl, 4 ex

Description

The invention relates to new chemical compounds, specifically to the complexonate 2-propyl-3-ethyl-8-hydroxyquinoline - zinc chloride of the formula

as an inhibitor of steel corrosion in mineralized environments with high oxygen content.

It is known to use OEDP-zinc and NTF-zinc complexonates as inhibitors of steel corrosion [1, 2].

The disadvantage of these inhibitors is low efficiency in mineralized environments with a high oxygen content.

The closest analogue in structure and achieved effect is an FM inhibitor, which is a mixture of methyl-, dimethyl-, tetramethylquinolines [3]. However, this inhibitor is not highly effective in mineralized environments with a high oxygen content.

The purpose of the invention is to obtain an effective corrosion inhibitor of steel in mineralized environments with a high oxygen content.

This goal is achieved using the complexonate 2-propyl-3-ethyl-8-hydroxyquinoline - ZnCl _{2 of the} above formula as an inhibitor of steel corrosion. The proposed compound is obtained by condensation of o-aminophenol with butyric aldehyde, followed by interaction with zinc chloride.

EXAMPLE 1

To a solution of 0.4 mmol of FeCl ₃ (0.1 g) and 1.2 mmol of PPh ₃ (0.3 g) in 1 ml of absolute benzene in a stream of argon at 10 ° C, 1.2 mmol of Et ₃ Al was added and stirred 10 minutes. The resulting catalyst solution was introduced into a steel autoclave (V = 17 cm ³ ), where 20 mmol of o-aminophenol, 40 mmol of butyric aldehyde and 6 ml of benzene were pre-charged. The autoclave was heated for 6 hours at 150 ° C with constant stirring, then cooled. The reaction mass was extracted three times with ether (3 × 50 ml), the combined extracts were dried over anhydrous MgSO ₄ . The precipitated crystals were recrystallized from benzene, filtered off and held in a desiccator. 3.6 g (yield 91%) of 2-propyl-3-ethyl-8-hydroxyquinoline are obtained.

The resulting product is an oily liquid with a characteristic odor. T. bale 123 ° C, (1 mm).

PMR spectrum (δ, ppm): 1.03 t (3H, CH ₃ ), 1.23 t (3H, CH ₃ ), 1.8 m (2H, CH ₂ ), 2.7 k (2H , CH ₂ ), 2.9 t (2H, CH ₂ ), 7.3 t (1H), 7.5 t (1H), 7.66 d (1H), 7.72 m (1H), 8, 04 d (1H).

C ¹³ NMR spectrum (δ, ppm): 13.9 k (CH ₃ ), 14.0 k (CH ₃ ), 23.4 t (CH ₂ ), 24.7 t (CH ₂ ), 37 , 2 t (CH ₂ ), 125.1 s, 125.15 d, 126.0 d, 128.1 d, 133.2 d, 134.7 s, 146 s, 161 s.

20 mmol of the obtained product was treated with an equimolar amount of a solution of zinc chloride in phosphoric acid.

Tests of the protective effect of 2-propyl-3-ethyl-8-hydroxyquinoline-ZnCl ₂ complexonate as a steel corrosion inhibitor were carried out under laboratory conditions by the gravimetric method in a U-shaped cell in accordance with GOST 9.506-87 and GOST 9.502-82

As working media, we used a model of mineralized water (IMW) of the composition, g / l: NaCl — 30.2, CaCl ₂ 6H ₂ O — 10.8, MgCl ₂ 6H ₂ O — 6.0, CaSO ₄ 2H ₂ O — 0 , 3 (MMB-1), NaCl - 100.2, CaCl ₂ 6H ₂ O - 34.8, MgCl ₂ 6H ₂ O - 15.0, CaSO ₄ 2H ₂ O - 0.12 (MMB-2), NaCl - 180.2 (MMB-3).

The oxygen content in the MMB was 6 mg / L and was determined by the Winkler method. As witness samples, specially prepared steel 3 of GOST 380-71 was used. The test time was 6 hours.

EXAMPLE 2. The corrosion rate of steel 3 in MMB-1 without inhibitor is 0.54

g / m ² hours, and in the presence of 60 mg / l 2-propyl-3-ethyl-8-hydroxyquinoline-ZnCl ₂ complexonate - 0.033 g / m ² hours. The degree of protection of steel 3 in the presence of 60 mg / l of 2-propyl-3-ethyl-8-hydroxyquinolino-ZnCl ₂ complexonate is 94%.

EXAMPLE 3. The corrosion rate of steel 3 in MMB-2 without inhibitor is 0.64

g / m ² hours, and in the presence of 60 mg / l 2-propyl-3-ethyl-8-hydroxyquinoline-ZnCl ₂ complexonate - 0.044 g / m ² hours. The degree of protection of steel 3 in the presence of 60 mg / L of 2-propyl-3-ethyl-8-hydroxyquinolino-ZnCl ₂ complexonate is 92.8%.

EXAMPLE 4. The corrosion rate of steel 3 in MMB-3 without inhibitor is 0.58

g / m ² hours, and in the presence of 60 mg / l 2-propyl-3-ethyl-8-hydroxyquinoline-ZnCl ₂ complexonate - 0.05 g / m ² hours. The degree of protection of steel 3 in the presence of 60 mg / l of 2-propyl-3-ethyl-8-hydroxyquinoline-ZnCl ₂ complexonate is 93%.

Data illustrating the advantages of 2-propyl-3-ethyl-8-hydroxyquinoline-ZnCl ₂ complexonate as an inhibitor of steel corrosion in aqueous media with a high oxygen content compared to the prototype are shown in the table.

The effectiveness of the complexonate 2-propyl-3-ethyl-8-hydroxyquinoline - ZnCl ₂ as an inhibitor of steel corrosion in mineralized environments with a high oxygen content. №№ Concentrations, mg / l Wednesday The corrosion rate, g / m ² · h Degree of protection, % MMV-1 0.54 - 2 60 2-propyl-3-ethyl-8-hydroxyquinoline complexonate - ZnCl ₂ MMB-1 0,033 94.0 5 thirty 2-propyl-3-ethyl-8-hydroxyquinoline complexonate - ZnCl ₂ MMB-1 0.05 90.0 MMV-2 0.64 - 3 60 2-propyl-3-ethyl-8-hydroxyquinoline complexonate - ZnCl ₂ MMB-2 0,044 92.8 6 thirty complexonate 2-propyl-3-ethyl-8-hydroxyquinoline-ZnCl ₂ MMB-2 0,070 91 MMV-3 0.58 - four 60 2-propyl-3-ethyl-8-hydroxyquinoline complexonate - ZnCl ₂ 0.05 93 MMV-3 7 thirty complexonate 2-propyl-3-ethyl-8-hydroxyquinoline-ZnCl ₂ MMB-3 0.08 90 World Cup Inhibitor 8 60 MMV-1 0.36 33 9 60 MMV-2 0.388 40,2 10 60 MMV-3 0.364 36.0

The advantages of complexonate 2-propyl-3-ethyl-8-hydroxyquinoline - ZnCl ₂ no compared with the prototype:

1. A high degree of protection in aqueous media with a high oxygen content (94%) compared with the prototype (40.2%).

2. The decrease in corrosion rate in the presence of complexonate 2-propyl-3-ethyl-8-hydroxyquinolino-ZnCl ₂ 10-15 times, in the prototype 1.5-1.6 times.

The 2-propyl-3-ethyl-8-hydroxyquinoline-ZnCl ₂ complexonate as a steel corrosion inhibitor suggests the possibility of its use in the oil industry, in particular in the wastewater disposal system, as well as in industrial water recycling systems.

Information sources

1. MU 1-322-03. Guidelines for the stabilization treatment of makeup water of heat supply systems, boilers with OEDF-Zn, NTF-Zn complexonates. SUE RNII AKH: Rostov-on-Don. - 2003. - 20 p.

2. MU 1-321-03. Guidelines for correcting the feedwater of steam boilers, make-up water of heating systems, boilers with OEDF-Zn, NTF-Zn complexonates. SUE RNII AKH: Rostov-on-Don. - 2003.-20 p.

3. A. Altsibeeva, S. Levin. Metal corrosion inhibitors. M .: Chemistry. - 1968.

Claims (1)

Complex 2-propyl-3-ethyl-8-hydroxyquinoline-zinc chloride of the formula

as an inhibitor of steel corrosion in mineralized environments with a high oxygen content.