RU2537553C2 - Universal washing and defatting substance for cleaning surfaces of solid bodies with different structures - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to technological processes, where detergents are applied for washing and defatting of equipment of food industry factories, products of ferrous metals and their alloys, polymer and fluoropolymer materials at enterprises of machine-building industry, chemical, petrochemical and mining industry. Described is washing and defatting substance, which contains (counted per dry residue), wt %: sodium hydroxide 20.0-25.0, sodium metasilicate pentahydrate 27.0-29.0, sodium carbonate 17.0-19.0, sodium citrate dihydrate 5.0-7.0, sodium sulphate 11.0-18.0, anionic SAS 2.0-6.0, non-ionogenic SAS 1.0-5.0, trichloroethylene 0.1-4.0, 1,1-difluoro-1,2,2-trichloroethane (chladone) 0.1-3.0.

EFFECT: increase of washing ability of claimed substance, reduction of its corrosion aggressiveness and load on the environment ecology.

3 cl, 2 tbl, 9 ex

Description

The invention relates to processes where detergents are used for washing and degreasing equipment of food industry enterprises, ferrous metal products and their alloys, polymer and fluoropolymer materials at engineering enterprises, chemical, petrochemical and mining industries.

Known detergent for cleaning metal surfaces [RF patent No. 2062297 from 07.25.94] containing sodium metasilicate, soda ash, a mixture of polyethylene glycol ethers C ₁₀ -C ₁₆ and synthetic alcohols fractions C ₁₀ -C ₁₈ , sodium tetraborate, sodium sulfate and water .

The disadvantage of this invention is the use of temperatures of 60-70 ° C and a long degreasing time. With decreasing temperature and time limits, degreasing quality is lost. In addition, this detergent is intended for cleaning only metal surfaces.

Known detergent [RF patent No. 2134719 from 01/08/98] containing sodium hydroxide, sodium carbonate, sodium metasilicate, ethoxylated mononylphenol based on propylene trimers with 9-12 moles of ethylene oxide, sodium tripolyphosphate and water.

The disadvantage of this detergent is the use of ethoxylated mononylphenols based on trimers of propylene (neonol), which are carcinogens and, when released into the environment, can accumulate in soil, water bodies, adversely affect flora and fauna. A number of Western countries that are members of the World Trade Organization have closed the production of this product. In addition, sodium tripolyphosphate (TPP) used in this detergent, entering water bodies, forms phosphoric salts, reduces the oxygen content in water, causes poisoning of water bodies, death of flora and fauna in them. Therefore, the problem arose of complete or partial replacement of TPF. Some countries (USA, Japan, Belgium, Holland, etc.) switched to phosphate-free fillers, some countries (France, Great Britain, Italy, etc.) brought the TPF content to <2%, replacing TPF to the required content with other fillers [Paronyan V. H., Grin V.T. "Technology of synthetic detergents", M .: "Chemistry", 1984, pp. 46-52].

It is known [ed. testimonial. USSR No. 1786065 dated 03/20/1990] that when cleaning metal surfaces with a galvanic coating of semiconductor and other products from oil and grease contaminants, Freon-113 (CF ₃ CCl ₃ ) mixed with methyl chloroform is used as cleaning agents.

However, the production of Freon-113 is prohibited by the Montreal Protocol, since this product is an ozone-hazardous reagent, has a strong narcotic effect, acts on the metabolism, internal organs, and liver.

Known detergent [RF patent No. 20100844 from 04/02/92], containing,% wt .: sodium carbonate 19-23, trisodium phosphate 14-16, sodium hydroxide 12-14, sodium metasilicate 39-42, nonionic surfactant 2-5, cationic Surfactants (alkylammonium or alkylpyridinium halide) 0.2-0.8 and water.

The disadvantage of this technical solution is the use of trisodium phosphate, which is an environmentally aggressive compound, and tends to accumulate in the environment: getting into water bodies, forms phosphoric salts, reduces the oxygen content in water, causes the disease of water bodies, the death of flora and fauna. Many countries (USA, Japan, Belgium, Holland, etc.) switched to phosphate-free fillers. This detergent is intended for cleaning smoking chambers and chimney pipes, it is not universal.

The closest in technical essence and the achieved result is a detergent [RF patent No. 2190011 from 11.10.2000], which includes polyoxyethylated monoalkylphenol based on sawed trimers (neonol) 0.01-4.0; sodium salt of polyacrylic acid 0.01-2.0; sodium carbonate 0.1-4.0; sodium silicate 0.01-5.0; fluorine-containing surfactant 0.001-0.4, the rest is water.

The disadvantage of this detergent is the use of neonol, which is a strong carcinogen. Detergent is not universal.

The aim of the present invention is to increase the washing ability of the proposed tool, reducing its corrosiveness, as well as reducing the load on the environment.

This object is achieved in that the proposed universal detergent and degreaser for cleaning surfaces of solids of various structures contains (calculated on the dry residue),% wt .:

Sodium hydroxide 20.0-25.0 Sodium pentas metasilicate 27.0-29.0 Sodium carbonate 17.0-19.0 Sodium citrate dihydrate 5.0-7.0 Sodium sulfate 18.0-11.0 Anionic surfactant 2.0-6.0 Nonionic surfactant 5.0-1.0 Trichlorethylene 0.1-4.0 1,1-difluoro-1,2,2-trichloroethane (freon-122) 0.1-3.0

The exclusion of neonol from the detergent composition reduces the environmental load. The nonionic surfactant included in the detergent composition, namely, the alkyl polyglucoside of the C ₈ -C ₁₀ fraction (octyl, nonyl, decyl glucosides), is stable in sodium hydroxide solution and has a synergistic effect on the anionic surfactant in terms of foaming ability and foam stability, which, as a result, , leads to an increase in the washing ability of the proposed product. As an anionic surfactant (instead of neonol), sodium alkyl sulfate of the C ₁₂ -C ₁₄ fraction is used. In order to switch to phosphate-free fillers in a detergent, sodium citrate dihydrate is proposed in an amount of 5.0-7.0% by weight. and sodium sulfate in an amount of 18.0-11.0% wt. Preparation of detergent is carried out by mixing the raw materials loaded into the SVP-900 vortex mixer, in a certain sequence, with stirring until a gel-like mass is obtained. The proposed ranges of values for the components of the detergent are optimal in terms of the washing ability of the agent, its environmental friendliness and economy.

The following examples illustrate the invention, but do not limit it.

Determination of the washing ability, foam stability and corrosiveness of the new detergent composition was carried out in comparison with the similar parameters of the detergent in the prototype ("RIC"). Determination of the washing ability was carried out according to a technique that models the washing of parts and assemblies in washing machines with a stationary flow, the washing ability of the solution was determined by the method of determining the washing ability according to OST-6-15-15-1574-87. Determination of the concentration of hydrogen ions (pH) was carried out using a pH meter OR-211/1. The degree of purification was determined by the formula:

N = (m ₁ -m ₂ / m ₂ -m ₀ ) 100%,

where m ₀ is the weight of the clean plate,

m ₁ - the weight of the plate with contamination before washing;

m ₂ - the weight of the plate with contamination after washing.

Determination of the washing ability of the proposed composition of the new detergent in relation to heavy oil pollution was carried out on the installation, which is a heated chemical glass with a capacity of 1 liter, equipped with a magnetic stirrer for stirring the washing solution, a contact thermometer with a scale of 0-100 ° C and an arm for strengthening the samples. Samples of 40-60 mm in size from steel-3, purified from iron oxide deposits, were washed with acetone, alcohol, and weighed to the nearest 0.001 g.

Example 1. The detergent contains (% wt.) Sodium hydroxide 25.0; sodium pentas metasilicate - 27.0; sodium carbonate - 17.0; sodium citrate dihydrate - 5.8; sodium sulfate - 18.0; anionic surfactant (sodium alkyl sulfate fraction C ₁₂ -C ₁₄ ) - 2.0; nonionic surfactant (alkylpolyglucoside fraction C ₈ -C ₁₀ - ARG0810) - 5.0; trichlorethylene - 0.1; Freon-122 - 0.1.

The degree of purification (washing ability) is 91% for oil mixed residues and 84% for bitumen.

Examples 2-9. The compositions of the proposed detergent are shown in table 1.

Table 1 Reagent Name The amount of reagent,% wt. Example Number one 2 3 four 5 6 7 8 (prototype) Sodium pentas metasilicate 27 29th 29th 27 29th 28 27.5 36 Sodium hydroxide 25 24 23 21 24 23 thirty eighteen Sodium carbonate 17 19 19 eighteen 19 17 twenty fourteen Sodium sulfate eighteen eleven 13 15,5 eleven fifteen 9 6 Sodium citrate dihydrate 5.8 6 7 6 5 5 3 12TPF Sodium Alkyl Sulfate C12-C14 2 3 2 four four four one Neonol 20 ARG0810 alkyl C8-C10 5 one 2 3 one 3 0.5 out Trichlorethylene 0.1 four 3 3 four 3 5 out Freon-122 0.1 3 2 2,5 3 2 four out

Mixed oil residues with OJSC Polaznaneft, Perm Territory, and also bitumen were used as model pollution. The results of the washing ability, expressed in degree of cleaning, the proposed detergent are shown in table 2.

table 2 Detergent for example Oil mixed residues Bitumen Washing time, min The degree of purification,% Washing time, min The degree of purification,% one 5 91 twenty 84 2 5 97 twenty 90 3 5 94 twenty 85 four 5 95 twenty 87 5 5 98.6 twenty 91 6 5 98.8 twenty 92 7 5 twenty 8 (prototype) 5 90 twenty 83

As can be seen from table 2, the washing ability of the proposed tool is higher than that of the means of the prototype (composition "RIC"), for both types of pollution. The detergent according to example 6 has the highest detergency values, however, the use of the maximum values of the amount of alkyl sulfate and sodium citrate is considered economically impractical, therefore, further tests were carried out on the compositions according to examples 2 and 5.

Tests of foaming ability were carried out according to the following procedure: a 2% solution of detergent (50 ml) was shaken in a copper cylinder for 1 minute (~ 60 times). After that, the foam volume was determined, which amounted to 48 and 49 ml, respectively, for examples 2 and 5 and 41 ml for example 8 (prototype).

Determination of the corrosiveness of detergents was carried out by taking potentiometric curves on a P582M potentiometer on a working electrode made of ShKh-4 steel, mounted in a special tube made of epoxy resin and glass. The polarizable area was 1 cm ² . Studies have shown that the corrosion activity of the proposed detergent is 30% lower than that of the prototype.

Thus, the proposed detergent has a high washing and foaming ability, reduced corrosion activity. Additional work was carried out on the washing of depulsators with fluoroplate-4 inserts from liquid fluoride hydrogen supply pumps by immersing the solution with nitrogen gas using a bubbler while stirring the solution. The results show that at a detergent concentration of 20 g / l, the washing ability of the proposed agent according to example 2 and the prototype is 99.6 and 90%, respectively. Comparative work was carried out on cleaning clothing from cloth material with oil, grease and grease stains: soaking in a 2% solution of detergent for 150 minutes, 3 times rinsing in hot water and drying. When using the proposed detergent, there are basically no spots, when using the prototype product, yellow spots remained on the workwear.

Thus, the proposed detergent is universal and can be used to clean the surfaces of solids of various structures.

Claims (3)

1. A universal detergent and degreaser for cleaning surfaces of solids of various structures, containing sodium hydroxide, sodium carbonate, sodium metasilicate, nonionic surfactant, characterized in that the detergent further comprises sodium citrate dihydrate, sodium sulfate, trichlorethylene, anionic and nonionic surfactant and Freon-122 in the following ratio of components (calculated on the dry residue),% wt .:
Sodium hydroxide 20.0-25.0 Sodium pentas metasilicate 27.0-29.0 Sodium carbonate 17.0-19.0 Sodium citrate dihydrate 5.0-7.0 Sodium sulfate 11.0-18.0 Anionic surfactant 2.0-6.0 Nonionic surfactant 1.0-5.0 Trichlorethylene 0.1-4.0 1,1-Difluoro-1,2,2-trichloroethane (Freon-122) 0.1-3.0 2. The detergent according to claim 1, characterized in that an alkyl polyglucoside of the C8-C10 fraction (octyl, nonyl, decyl glucosides) is used as a nonionic surfactant. 3. The detergent according to claim 1, characterized in that as the anionic surfactant use sodium alkyl sulfate fraction C12-C14.