UA8626U - A corrosion inhibitor - Google Patents

Abstract

A corrosion inhibitor based on modified vegetable oil contains the sulfitized mustard oil and/or waste of production of sulfitized mustard oil, and in addition it contains benzimidazole derivatives.

Description

Description of the invention

The useful model refers to the field of protection of metal structures and equipment from corrosion in neutral and 2 weakly alkaline environments, from atmospheric corrosion during operation, storage, preservation and transportation.

Known inhibitors of corrosion of steels in neutral environments -1 TU 24-163-04610600-2004 is a mixture of cyclohexylamine salts and synthetic fatty acids of the C40o-S.v fraction Atmospheric corrosion inhibitor FMT TU 24-003-48938796-2003 - a liquid vegetable 70 product based on tall oil fatty acids, modified by chlorophyll derivatives. The disadvantages of these inhibitors are their low solubility and the formation of insoluble soaps in hard water, which requires preliminary treatment of the inhibitors and complicates their use.

The closest to the proposed useful model is the corrosion inhibitor based on modified castor oil SCM-1 (Surfactants: Reference. - L.: Khimiya, 1979. -278 p), which 19 is obtained by sulfating castor oil and is used to protect steel equipment of return and hot water supply systems, cooling systems, as well as for temporary anti-corrosion protection. The disadvantage of this inhibitor is that it is effective only in weakly mineralized water (anion content

SI; 80.7 50-100Omg/l). In addition, the raw material for its production is castor oil, which has a high cost.

The basis of a useful model is the task of creating a corrosion inhibitor with high protective activity by processing ecologically safe raw materials of plant origin, available in many regions of the country.

The objective is achieved by the corrosion inhibitor based on modified vegetable oil, according to a useful model, containing mustard oil that is sulfated and/or mustard oil production waste that is sulfated, and additionally contains benzimidazole derivatives.

The obtained corrosion inhibitor has a high solubility in mineralized water, in monoatomic alcohols - gasoline, mineral oil, due to which it has a wide scope of application. The introduction of benzimidazole derivatives, which are synergists, increases the adsorption properties of the inhibitor, as a result of which its protective effectiveness increases. A significant advantage is also the fact that the inhibitor is made from ecologically clean and available plant raw materials, which are renewed annually.

The claimed utility model is implemented as follows. Benzimidazole derivatives are introduced into sulfated and neutralized to pH 7 with mustard oil or accordingly modified mustard oil production waste in the following proportions:

Composition Mo1 sulfated mustard oil 9095-9990 benzimidazole derivatives 1095-1956 «

Composition Mo2 sulfated mustard oil 7095-8290 - benzimidazole derivatives 1895-3090 composition MoZ with sulfated mustard oil production waste 7095-8290: benzimidazole derivatives 1895-3090

The study of the effect of the claimed inhibitor and the prototype on general corrosion was carried out by the weighing method at a temperature of 2593 °C on cylindrical samples of steel 20 and St Z (which are widely used for the production of metal structures) for 192 hours. The environment selected for research is 195 Masses and reversible circulating (22) waters (VOC) of chemical and biological production of Concern Styrol OJSC, which have the following characteristics: alkalinity t - from 4.2 to b.2 mg-eq/l; pH - from 7.5 to 8.3; permanganate oxidizability - from 194 to 21.bmg O2/l; total hardness - from 17.8 to 26.2 mg-eq/l; salt content (chlorides, sulfates, nitrates) - from 3753 to 4599 mg/l. 4) 50 As it follows from the presented data, circulating waters are much more mineralized than recommended by literary sources | Shabalyn A.F. Reverse drivers of chemical enterprises. M., Stroyizdat, 1972), as a result of which they are highly aggressive. Recycled water after various technological cycles with the lowest and highest degree of aggressiveness was selected for the study: Moi wastewater treatment plant (salinity 3969) and Mo2 water treatment plant (salinity 4599), respectively. Chlorides and sulfates contained in water contribute to the strengthening of general and local corrosion.

The protective effectiveness of inhibitors was assessed by the degree of protection (72, 90): 1009 ' pi 60 de Kt - corrosion rate of steel without inhibitor;

Kt is the corrosion rate of steel with inhibitor additives.

The test results are given in Tables 1, 2. 65 Corrosion rate Kt (g/m2h) and the degree of protection of 295 steel in 195 mass with additives of the prototype and the claimed inhibitor in the amount of 1.5 g/dm З -Д-

Inhibitor t19Umasi

Table 2

The corrosion rate Kp (g/m 2h) and the degree of protection of 795 herds in recirculating circulating waters (VOC Me and VOC Mo2) with additives of the prototype and the claimed inhibitor in the amount of 1.Bg/dm Z

Inhibitor voOtsC Mo10 voOtsC Mo12 that would be on Z

Compared to the prototype, the claimed inhibitor has a higher efficiency of anti-corrosion protection of steel by 20-3095. At 195 Mass, the Mo2 composition (7-96-99,795) has the greatest anti-corrosion activity. The efficiency of protection against general corrosion in recirculating industrial waters is 90-99.9890.

All compositions provide long-term highly effective protection of metal equipment from general He corrosion. with

Claims (4)

The formula of the invention o (ee) Corrosion inhibitor based on modified vegetable oil, which differs in that it contains mustard oil that is sulfated and/or mustard oil production waste that is sulfated, and additionally contains benzimidazole derivatives at the following ratio of components, wt. 9b: "sulfated mustard oil and/or sulfated mustard oil production waste 70-82 - benzimidazole derivatives 18-30. From" Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated microcircuits", 2005, M 8, 15.08.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. (ee) (o) name) 4) So 60 b5