RU2529318C1 - Liquid acidic detergent for cleaning food equipment - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: detergent includes citric acid, methanesulphonic acid, a surfactant mixture, water and methylglycine diacetic acid and/or propylenediamine tetraacetic acid, taken in a synergistic ratio, with the following ratio of components, wt %: citric acid 2.3-4.6; surfactant mixture 1.5-5.2; methylglycine diacetic acid and/or propylenediamine tetraacetic acid 3.2-4.8; methanesulphonic acid 0.5-10.5; water - the balance. The detergent is prepared using methanesulphonic acid obtained by air oxidation using a non-chlorine technique, and the surfactant system is selected from a group consisting of ethoxylated fatty acids: capret-9carboxylic acid, hexet-4carboxylic acid and/or alkylpolyglycoside.

EFFECT: producing an environmentally friendly liquid acidic detergent based on an optimum ratio of biodegradable organic acids with high detergent power.

3 cl, 1 tbl, 4 ex

Description

The invention relates to acidic detergents based on organic acids and can be used to wash external surfaces and remove mineral contaminants of equipment and surfaces in the food industry.

Known means for cleaning equipment of the food and processing industry to remove complex mineral-organic deposits from metal surfaces, as well as ceramics and glass. The product contains phosphoric acid, hydrochloric acid, nonionic surfactant (alkyldimethylamine oxide), cationic surfactant surfactant (Catamine AB-alkyldimethylbenzammonium chloride) and water (RU 2429287, C11D 1/835, C11D 7/25, application. 19.02. .2010, publ. 09/20/2011). To increase the washing ability in relation to a wide range of contaminants, which has inhibitory properties, the product additionally contains citric acid, hydroxyethylene diphosphonic acid sodium salt and urea (urea). The disadvantage of this tool is the presence in the composition of mineral acids and insufficient washing ability in relation to mineral contaminants.

Known non-chlorinated multifunctional acidic liquid detergent for cleaning, sanitizing and removing deposits from a contaminated surface intended for cooking food ((RU 2374313, C11D 7/08, C11D 7/26, declared. 11.08.2004 US, 08.08.2005 RU , published November 27, 2009 - prototype.) The tool contains 0.00003-0.0075 wt.%, (fatty alkyl) -1,3-aminopropane or its salt having the General formula R-NH-CH ₂ CH ₂ CH ₂ NH ₂ , where R is a (C ₄ -C ₂₂ ) -alkyl group. As an acid, these compositions preferably contain (C ₁ -C ₁₆ ) -alkyl sulfonic acid. In addition, the composition may contain an acid-active or acid-resistant enzyme.

The technical result of the prototype is a multifunctional detergent that can clean, disinfect and remove deposits from surfaces, for use on contaminated surfaces, especially surfaces contaminated with milk deposits and deposits of other food products. In addition, this tool ensures the safety of food products supplied to the consumer. This requirement is especially true for the dairy industry, factories for the production and processing of food and beverages, especially in the field associated with the transportation of milk.

The disadvantage of this prototype is the use of mineral acids (phosphoric, hydrochloric) in the composition, as well as thickeners and cationic surfactants, which makes the composition non-ecological. In addition, a drawback is the increase in the concentration of methanesulfonic acid (approximately 0-40 wt.%), Since the corrosive effect increases with increasing concentration. During prolonged use, corrosion may develop.

The objective of the invention is the creation of a liquid acidic agent based on the optimal ratio of biodegradable organic acids, which has a high cleaning ability and at the same time does not damage the treated surfaces and does not have a harmful effect on the environment.

This problem is solved in that the acidic liquid detergent for cleaning food equipment containing citric acid, methanesulfonic acid, a mixture of nonionic surfactants, water, according to the invention additionally contains methyl glycine diacetic acid and / or propylene diamine tetraacetic acid, taken in a synergistic ratio in the following ratio of components, wt .%:

lemon acid 2.3-4.6 a mixture of nonionic surfactants 1,5-5,2 methyl glycine diacetic acid and / or propylene diamine tetraacetic acid 3.2-4.8 methanesulfonic acid 0.5-10.5 water rest

One of the features of the detergent is that methanesulfonic acid, obtained as a result of oxidation by air using chlorine-free technology, is used.

Another feature is that the surfactant system is selected from the group consisting of ethoxylated fatty acids: capret-9 carboxylic acid, hexet-4 carboxylic acid and / or alkyl polyglycoside.

The introduction of a detergent methylglycine diacetic acid and / or propylene diamine tetraacetic acid, taken in a synergistic ratio, allows you to intensify the process of removing mineral contaminants in the absence of mineral acids.

The introduction of a nonionic surfactant mixture into an acidic liquid detergent (a mixture of ethoxylated fatty acids: capret-9 carboxylic acid, hexet-4 carboxylic acid in a certain ratio and / or alkyl polyglycosides) allows you to create a biodegradable acid detergent.

An additional introduction of methanesulfonic acid into the liquid detergent within the specified limits allows you to achieve the required level of values of the hydrogen ion index to remove mineral contaminants without the addition of strong aggressive acids.

Thus, we propose a liquid acid detergent that does not contain aggressive mineral acids, with a reduced content of nonionic surfactants, does not have a harmful effect on the environment and is able to effectively remove mineral pollution, rust, salt and atmospheric pollution of an inorganic nature.

To achieve optimal results when cleaning from mineral contaminants, it is recommended to use water with a temperature of 20-80 ° C and a detergent concentration of 0.5-5%. The washing ability is determined by a known method by the gravimetric method, which is based on determining the solubility of mineral deposits in aqueous solutions of the claimed composition and prototype. A sample consisting of a mixture of calcium stearate and a pigment mixture weighing 1 g was placed in a heat-resistant glass, 500 ml of an aqueous solution of detergents in appropriate concentrations were added, kept at room temperature for 20 minutes. Then the contents of the glass were filtered through dried and suspended filters, washed with distilled water and dried again, then weighed. The degree of dissolution of the sample in acid solutions was determined by the difference in the weighing results before drying and after drying the filters with residual deposits.

The invention is illustrated by examples of the obtained acidic liquid detergents with different content of components.

Example 1. Received a detergent containing 2.5 g of citric acid (2.5%), 1.5 g of alkylpolyglycoside (1.5%), 3.5 g of methylglycine diacetic acid (3.5%), 3.5 mg methanesulfonic acid (3.5%) and water up to 100 g.

Example 2. Analogously to example 1, a detergent containing 3.0 g of citric acid (3.0%), 2.2 g of alkylpolyglycoside (2.2%), 4.0 g of propylene diamine tetraacetic acid (4.0%), 7 was obtained. 5 mg of methanesulfonic acid (7.5%) and water up to 100 g.

Example 3. Analogously to example 1, a detergent containing 3.8 g of citric acid (3.8%), 3.2 g of alkylpolyglycoside (3.2%), 4.3 g of propylene diamine tetraacetic acid (4.3%), 9 was obtained. , 0 mg methanesulfonic acid (9.0%) and water up to 100 g.

Example 4. Analogously to example 1, a detergent containing 4.6 g of citric acid (4.6%), 5.2 g of a mixture of ethoxylated fatty acids (5.2%), 4.8 g of methylglycine diacetic and propylene diamine tetraacetic acid was obtained (4, 8%), 10.5 mg of methanesulfonic acid (10.5%) and water up to 100 g.

The results are listed in the table.

Table Example 1 Example 2 Example 3 Example 4 Prototype Washing 96 97.8 98.7 98.7 94 ability,% Speed 0.01 ± 0.0003 0.01 ± 0.0003 0.01 ± 0.0003 0.01 ± 0.0003 0.02 ± 0.0003 corrosion stainless steel, mm / year Indicator 1,0 0.95 0.74 0.7 0.84 hydrogen ions, units

The experiment showed that aqueous solutions at a concentration of 0.5-5% quite effectively dissolve calcium deposits. The detergent composition contains compatible acids (strong and weak) in a concentration sufficient to obtain working solutions having a pH in the range of about 0.2-3.

Thus, the introduction of a strong organic acid in the proposed tool allowed to increase the washing effect, significantly facilitate the removal of mineral contaminants and at the same time increase the biodegradability of the wash water. The low concentration of surfactants and the absence of mineral acids gives an additional effect of reducing the environmental load on water bodies.

There are no data in the literature on the use of formulations containing only organic acids in the composition, intended to remove mineral contaminants from equipment and surfaces at food industry enterprises. Organic acids were previously used in mixtures with mineral acids, in particular with phosphoric, sulfamic, and hydrochloric. The invention is industrially applicable, so it can be used for manual and automatic (when using any foaming equipment) washing and removing mineral contaminants of equipment and surfaces at food industry enterprises, while further normalizing the operation of local treatment facilities. Additionally, the composition may include other known components that enhance the action of funds, in particular dispersing agents, acid-resistant enzymes, foam regulators.

The resulting detergent was used for a week, while the tool completely eliminated mineral deposits, rust on the floors, walls and external surfaces of technological equipment.

Biodegradability was determined according to the well-known method for determining the chemical and biological oxygen consumption (Yu.V. Novikov, K.O. Lastochkina, Z. N. Boldina. Methods for studying the quality of water in water bodies. M: Medicine, 1990, p. 400). In the spent solution after the use of the detergent in the tested concentration, the BOD index (biological oxygen absorption) and COD (chemical oxygen absorption) were measured, the use of the developed agent led to a decrease in the BOD index compared to the spent prototype solution.

Thus, the use of methanesulfonic acid, obtained as a result of oxidation by air using a chlorine-free technology, in a synergistic relationship with methylglycine diacetic acid and / or propylene diamine tetraacetic acid, made it possible to increase the washing ability with respect to mineral pollution, rust, salt and atmospheric pollution of an inorganic nature, while maintaining high biodegradability of the claimed funds; and also reduce the amount of methanesulfonic acid introduced (from 0-40 wt.% in the prototype to 3.5 wt.% in example 1) while maintaining a high cleaning ability.

Claims (3)

1. An acidic liquid detergent for cleaning food equipment, including citric acid, methanesulfonic acid, a mixture of nonionic surfactants, water, characterized in that it contains methylglycine diacetic acid and / or propylene diamine tetraacetic acid, taken in a synergistic ratio in the following ratio, wt.%. :
lemon acid 2.3-4.6 a mixture of nonionic surfactants 1,5-5,2 methyl glycine diacetic acid and / or propylene diamine tetraacetic acid 3.2-4.8 methanesulfonic acid 0.5-10.5 water rest 2. The detergent according to claim 1, characterized in that methanesulfonic acid obtained by oxidation with air using chlorine-free technology is used. 3. The detergent according to claim 1, characterized in that the surfactant system is selected from the group consisting of ethoxylated fatty acids: capret-9 carboxylic acid, hexet-4 carboxylic acid and / or alkyl polyglycoside.