RU2024608C1 - Detergent "tmok-8p" for metallic surface cleansing - Google Patents

Abstract

FIELD: detergents. SUBSTANCE: detergent for cleansing of metallic surface prepared on the basis of water has, %: polyhydroxyethyleneglycol ester of C₁₀-C₁₆-synthetic fatty acids monoethanolamide 3-5; hydrochloric acid 14-16; sulfuric acid 18-22; sulfamic acid 8-12; triethanolamine 4-6, and urotropin 1-2. EFFECT: enhanced effectiveness of detergent. 4 tbl

Description

 The invention relates to basic technological materials, namely, technical detergents used for elements and heat transfer systems during repair, in household chemicals.

 Known technical detergents (1), which include caustic soda, sodium sulfate, soda ash, borax, acids. Their use creates the need for frequent dumping of waste. Many of them are ineffective, especially for descaling. In shipyards, as a rule, acids are used for such purposes. This dramatically reduces the environmental safety of washing and cleaning operations. In addition, acids are not able to remove oil and grease contamination (2).

Significant progress in improving the quality of washing and cleaning treatment of heat exchangers has provided the basic composition, which is the closest in terms of technical solution detergent TMOK-3P (3). This tool contains, wt.%:
A mixture of polyoxyethylene
glycol ethers
Synthetic fat
alcohols of fraction C ₁₀ -C ₁₃ TU 6-14-1037-74 7-9
Sodium Carboxymethyl
OST 6-05-386-80 1-3 cellulose
Sodium sulfate GOST 21458-75 5-7
Thiourea GOST 6444-73 2-4
Phosphoric acid GOST 10678-76 10-15
Hydrochloric acid GOST 3118-77 10-15
Water condensate TU 38-10711-77 6-8
Natura needles extract -
RAL PCT of the Ukrainian SSR 1603-74 2-4 Water GOST 4979-49 Else
However, TMOK-3P does not fully satisfy the increased environmental safety requirements; a significant drawback of this composition is the low corrosion resistance of the machined steel surfaces, the small universality of use.

 The aim of the invention is to remedy these disadvantages.

 This goal is achieved by the fact that in a known composition containing hydrochloric acid and a surfactant, sulfamic acid, sulfuric acid, threthanolamine and urotropine are additionally introduced.

Studies have established that the addition of sulfuric acid to hydrochloric acid in combination with sulfamic acid can remove pollution not only from steel, but also from a number of non-ferrous metals. Triethanolamine with urotropine is successfully combined with a mixture of synthetic fatty acid monoethanolamide polyethylene glycol ether of fraction C ₁₀ -C _{16 which} makes it possible not only to reduce the mass fraction of acids in the detergent, but also provide the ability to clean oil and fat contaminants simultaneously with an aqueous acidic technical detergent. In addition, this additive is less hazardous to the environment and increases the corrosion resistance of the treated surface in comparison with analog technical detergent.

 PRI me R 1. Technological testing of a new composition was carried out in comparison with the prototype. The experiments were carried out in laboratory and semi-production conditions at the washing complex, where the modes, samples and cleaning methods were similar to production ones. The intensity of removal of pollution was determined by the difference in mass of the sample before and after washing and cleaning treatment. Corrosion resistance and environmental safety according to the methods of the Ministry of Health and others. Compounds made from one batch of chemical ingredients were used as the working medium (Table 1).

 As a result of the experiments, higher technical characteristics of the new detergent were established (Table 2).

As can be seen from table 2, the removal of pollution on steel and copper-nickel samples is intensive in comparison with the known; the corrosion resistance after washing and cleaning treatment with the new composition TMOK-8P is significantly higher in comparison with the known; the danger to humans when working with the new composition is negligible, when analyzing the air in the area of use of working solutions based on the new and known average value of the detected substances in mg / m ³ was 0.3-0.42 - new and 0.4-0, 7 - known compounds. It is on these indicators that the hazard class of the working environment was determined.

 PRI me R 2. To establish favorable standards for the ingredients that are part of TMOK-8P, special experiments were performed. The tests were carried out on samples and by methods that are similar to experiments (example 1). The main difference was only the composition of the washing-cleaning composition TMOK-8P (table 3).

 According to the results of an experimental washing and cleaning treatment, favorable norms of ingredients that form the composition of TMOK-8P were established (Table 4).

An analysis of the data obtained (see Table 4) confirms that the norm of the mixture of polyethylene glycol monoethanolamide synthetic synthetic fatty acids of fraction C ₁₀ -C ₁₆ should be within 3-5 wt.% Of the total amount of technical detergent. This is due to the fact that the new detergent TMOK-8P is used in finished form. In addition, the addition of monoethanolamide to the acid composition in combination with urotropine sharply enhances the washing ability of the new detergent TMOK-8P in comparison with the known TMOK-3P, enhancing the anticorrosive and deodorizing properties of the composition. The addition of sulfamic acid to the composition of TMOK-8P, in the presence of surfactants, urotropine in the mixture, facilitating the chemical, physical and mixtureological dependence of sulfuric and hydrochloric acids in the composition, enhances the potential ability of the new acidic technical detergent for cleaning steel, copper-nickel and other heavy non-ferrous metals.

 Thus, comparing the data obtained, it is possible to establish favorable standards for the ingredients that form the composition of TMOK-8P. The most favorable position is taken by composition 4, which reflects the optimal amount of additive ingredients in the composition of TMOK-8P. The minimum norm of ingredients in a technical detergent is reflected in composition 3, and the maximum in composition 5.

 Therefore, the new composition TMOK-8P has an increased washing ability to clean various steel products from heavy non-ferrous metals, to remove carbon deposits, scale, corrosion in combination with oil-grease and abrasive contaminants, which characterizes the great versatility of the composition. The reduction of acid and triethanolamine to the minimum practicable standards in the composition of TMOK-8P dramatically increases the environmental safety of the washing and cleaning process of metal products. Corrosion resistance of products treated with acidic detergent TMOK-8P is significantly higher.

 The technological process for the preparation of technical detergent wait a minute, and its operation at a repair and engineering enterprise is practically safe for the environment. Does not require large changes to existing technology and equipment.

Claims (1)

Detergent for cleaning a metal surface containing water, a surfactant and hydrochloric acid, characterized in that, in order to increase the corrosion resistance of the surface and improve the environmental safety of the product, it additionally contains sulfamic acid, sulfuric acid, triethanolamine, and urotropine and surfactant - polyoxyethylene glycol monoethanolamide synthetic fatty acids of fraction C ₁₀ - C ₁₆ in the following ratio, wt.%:
Synthetic fatty polyoxyethylene glycol ether monoethanolamide
acid fraction C ₁₀ - C ₁₆ 3.0 - 5.0
Hydrochloric acid 14.0 - 16.0
Sulfuric acid 18.0 - 22.0
Sulfamic acid 8.0 - 12.0
Triethanolamine 4.0 - 6.0
Urotropin 1.0 - 2.0
Water Up to 100

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