RU2793032C1 - Technical water-soluble cleaner that effectively removes solid and liquid hydrocarbon deposits and carbon deposits in cold water - Google Patents

Abstract

FIELD: liquid technical cleaners.

SUBSTANCE: liquid technical cleaners designed to remove hydrocarbon deposits and carbon deposits from alkali-resistant surfaces. Invention is characterized by the fact that it contains a mixture of ethoxylated alcohols and functional additives in the following percentage mass ratios of components: Sintanor AE-7 - 7.0; sodium carbonate - 6.0; polyacrylamide with cationic activity, molecular weight of about 6.0 million - 0.5; monoethanolamine - 3.8; diethanolamine - 8.6; phenylcarbinol - 9.2; distilled water - 64.9.

EFFECT: provision of a water-soluble cleaning agent that enables effective removal of low and high-temperature contaminants, petrol, fat and oil contaminants, preservation lubricants, coolants, deposits, soot in water at a temperature of less than 30°C and activity of hydrogen ions less than 10.5 units to prevent corrosion on the surface to be cleaned.

1 cl, 2 tbl

Description

Technical water-soluble cleaner that effectively removes solid and liquid hydrocarbon deposits and carbon deposits in cold water

The invention is intended to remove complex types of oily operational contaminants at industrial enterprises of the fuel and energy complex. The invention is suitable for cleaning the surfaces of parts, installations and pipelines. The tool is designed to remove oil contaminants (light, dark hydrocarbons), grease, oil contaminants, conservation lubricants, coolants, soot, soot from metal and other alkali-resistant surfaces by various cleaning methods in a cold washing solution. The wash solution may be subjected to a separation step to remove the leached hydrocarbon compound and recycle the cleaning agent.

Currently known and developed a number of detergents for cleaning industrial equipment and surfaces. The developed agents exhibit both universal and specific narrowly targeted effects on various types of pollution. To increase the effectiveness of the developed products, the washing/washing procedure is carried out in warm and hot washing solutions, i.e. at temperatures above 50 °C. In addition, to remove complex types of high-temperature oil deposits (oil deposits), an alkaline medium is used, with a hydrogen activity index above 9.5 units. High temperature and alkaline components included in detergents can cause corrosion phenomena on metal surfaces, which in turn will be a technological barrier to the use of detergents in enterprises.

The relevance of the use of new cleaning agents at the sites of enterprises of the fuel and energy complex is due to the need to remove hydrocarbon contaminants at temperatures of cleaning solutions below 30 ° C without the occurrence of corrosion phenomena.

The traditional components of detergents are non-ionic and anionic surfactants, sodium salts (carbonates, bicarbonates, phosphates, polyphosphates, silicates), alkyl cellosolves, aliphatic alcohols with a carbon chain length from 1 to 5 with a straight and branched chain, aromatic alcohols with a carbon chain length chains from 6 to 9 with a straight and branched chain of the side radical,

The disadvantage of the considered detergent is the introduction of chlorine and oxygen-containing compounds (sodium hypochlorite), which can lead to corrosion phenomena on the treated surface. After the washing process, there is no separation of the washing solution, which does not allow the detergent to be reused.

The main prototypes of the invention are detergent compositions, including organic solvents, such as butyl cellosolve, butyl carbitol, phenyl-containing glycol ethers (RU 2560169 C2 "Cleaning composition for hard surfaces", EN 2445353 C1 "Liquid cleaning composition"), which ensure the removal of low-temperature liquid oil contaminants without formation of a repeated raid. The advantage of these listed cleaning compositions lies in the neutral pH of the environment of the cleaning solution. The disadvantage of these funds is the temperature range of activity of the cleaning solution: 40 - 60°C, which does not allow the cleaning process in cold water.

The main disadvantage of the detergents mentioned above is the low efficiency of the mentioned detergents in relation to high-temperature hydrocarbon contaminants (carbon deposits) when washed in water with a temperature of less than 30 °C.

The main objective of this invention is to create a water-soluble cleaning agent that provides effective removal of low- and high-temperature contaminants such as oil contaminants (light, dark hydrocarbons), fat, oil contaminants, conservation lubricants, coolants, deposits, soot in water with a temperature of less than 30 ° C and an indicator of the activity of hydrogen ions of the medium is less than 10.5 units. with prevention of corrosion on the cleaned surface of the part, equipment and pipeline.

The solution to the problem was found as a result of experimental activities by the authors of the invention. The authors found that organic amines - monoethanolamine and diethanolamine, organic alcohol - phenylcarbinol - used as a cosmetic and food additive (E1519), and cationic polyacrylamide can form a synergistic effect only at certain mass ratios. The revealed effect of synergy, which manifests itself in the ability to destroy high-temperature hydrocarbon deposits at a temperature of the washing solution of less than 30 ° C, is explained by the improvement in the hydrolysis and emulsifying functions of the active components. During the experiments, it was found that the combined use of an organic alcohol, a high molecular weight compound and organic amines (at certain mass ratios) leads to an increase in the surface tension of a detergent solution by at least 5% compared to a solution of a pure nonionic surfactant (a mixture of ethoxylated alcohols) in similar concentrations. Increasing the value of the surface energy for the cleaning solution promotes the hydrolytic process caused by the action of sodium carbonate, and helps to remove high-temperature hydrocarbon deposits on metal surfaces. The additional chelating and emulsifying action of the high molecular weight compound contributes to the shielding of the surface to be cleaned.

For testing, samples of the Cleansing agent of the following composition (wt.%) Sintanor AE-7 - 7.0, sodium carbonate - 6.0, polyacrylamide with cationic activity with a molecular weight of about 6.0 million - 0.5, distilled water - the rest is an active additive. The active additive had the following compositions.

Composition 1. Active additive

Phenylcarbinol - 8.1

Monoethanolamine - 3.8

Diethanolamine - 8.6

Composition 2. Active additive

Phenylcarbinol - 9.2

Monoethanolamine - 3.8

Diethanolamine - 8.6

Composition 3. Active additive

Phenylcarbinol - 8.1

Monoethanolamine - 4.3

Diethanolamine - 9.2

Composition 4. Active additive

Phenylcarbinol - 9.2

Monoethanolamine - 4.3

Diethanolamine - 9.2

Washing capacity (%) is determined by the weight method by counting the amount of remote contamination by the tested Means from the surface of the AD-1 aluminum plate.

For testing, aluminum plates of the AD-1 brand with low- and high-temperature pollution are used. Obtaining low-temperature hydrocarbon pollution consists in applying a mixture of 5 g of quartz sand, 5 g of flour, 10 g of mineral automobile oil, 1 g of molten asphalt, resin and paraffin deposits to the surface of an aluminum plate of the AD-1 brand. The AD-1 aluminum plate is dried at room temperature for 2 hours. The resulting sample of a contaminated metal plate is placed in a muffle furnace at a temperature of 300 °C for 3 hours. After cooling, the aluminum plate sample is cleaned by immersing it in cleaning solutions. The results of testing the washing ability and the characteristics of the cleaning solutions are presented in Table 1. In Table 1, the following components of the composition in the indicated concentrations (wt.%): sintanor AE-7 - 7.0, sodium carbonate - 6.0, polyacrylamide with cationic activity, molecular weight about 6.0 million - 0.5 - the main components are indicated. Their total concentration is 13.5 wt. %.

Table 1
The results of determining the surface tension and the efficiency of removing high-temperature contaminants for cleaning solutions of the Cleaning Agent Cleanser Compositions (wt%) σ, mN/m Average washing power when removed
deposits (%) at the temperature of the washing solution 10°С 20°С 75°С Main components - 13.5
Water dist. - 86.5 31.4±0.01 64.8 67.6 84.2 Main components - 13.5
Water dist. - 66.0
Phenylcarbinol - 8.1
Monoethanolamine - 3.8
Diethanolamine - 8.6 31.6±0.01 71.3 72.2 88.9 Main components - 13.5
Water dist. - 64.9
Phenylcarbinol - 9.2
Monoethanolamine - 3.8
Diethanolamine - 8.6 33.3±0.03 91.2 93.1 97.6 Main components - 13.5
Water dist. - 64.9
Phenylcarbinol - 8.1
Monoethanolamine - 4.3
Diethanolamine - 9.2 31.3±0.01 83.2 85.6 93.6 Main components - 13.5
Water dist. - 63.8
Phenylcarbinol - 9.2
Monoethanolamine - 4.3
Diethanolamine - 9.2 32.6±0.03 74.4 81.9 90.2

The best detergent properties have a cleanser of the following composition (wt.%): Main components - 13.5, Dist. - 64.9, Phenylcarbinol - 9.2, Monoethanolamine - 3.8, Diethanolamine - 8.6. As part of this Means, the content of organic alcohol corresponds to the upper limit of the investigated range, and the content of organic amines corresponds to the lower limit. The advantages of this Means are explained by the greatest increase in the surface tension, the formation of a balance between the content of surfactant and solvent.

In other washing solutions, a number of shortcomings were noted related to the ratio of components in the composition of the Means. So in the Product, which includes the minimum limits of the components of the active additive (Main components - 13.5, distilled water - 66.0, phenylcarbinol - 8.1%, monoethanolamine - 3.8%, diethanolamine - 8.6%), do not leak active diffusion and emulsifying processes leading to the destruction of dense oil deposits. In products where monoethanolamine and diethanolamine are contained in extreme concentrations, excessive foaming occurs, preventing the removal of dissolved oil contaminants. The authors found that the excessive emulsifying effect of amines suppresses the diffusion effect of organic alcohol, which is confirmed by the values of the average detergency when removing carbon deposits for products with compositions (wt.%): “main components - 13.5, dist. - 64.9, phenylcarbinol - 8.1, monoethanolamine - 4.3, diethanolamine - 9.2" and "main components - 13.5, dist. - 63.8, phenylcarbinol - 9.2, monoethanolamine - 4.3, diethanolamine - 9.2 "

Detergent efficiency comparison

Cleaning agent (main components - 13.5, dist. water - 64.9, phenylcarbinol - 9.2, monoethanolamine - 3.8, diethanolamine - 8.6) with similar detergents (Table 2) shows the advantage of the invention when removing oil contamination, especially when removing high temperature hydrocarbon deposits at low temperatures. The main components are represented by the following substances and in the following concentrations (wt.%): syntanor AE-7 - 7.0, sodium carbonate - 6.0, polyacrylamide with cationic activity with a molecular weight of about 6.0 million - 0.5

table 2
Comparison of the effectiveness of the Cleanser and similar detergent compositions Cleaning solutions Medium detergent
ability at low temperature oil pollution (%) at the temperature of the washing solution Average washing power at
carbon removal (%) at the temperature of the washing solution 10°С 50°С 10°С 50°С Main components - 13.5
Water dist. - 64.9
Phenylcarbinol - 9.2
Monoethanolamine - 3.8
Diethanolamine - 8.6 98.3 99.7 83.2 90.9 EN 2357811 C1 79.4 91.7 57.4 81.7 EN 2132367 C1 82.4 96.2 64.3 84.9 EN 2445353 C1 44.3 78.5 22.3 49.8

Claims (2)

Cleaning agent for removing hydrocarbon deposits and deposits from alkali-resistant surfaces in water at a temperature of less than 30 ° C, including a mixture of ethoxylated alcohols and functional additives in the following mass ratios of components (%): Sintanor AE-7 7.0 sodium carbonate 6.0 polyacrylamide with cationic activity, molecular weight about 6.0 million 0.5 monoethanolamine 3.8 diethanolamine 8.6 phenylcarbinol 9.2 distilled water 64.9