RU2179998C2 - Detergent composition - Google Patents

Abstract

FIELD: detergents. SUBSTANCE: invention provides detergent composition that can be used at food industry enterprises for washing and disinfecting working areas and equipment all over the production process. Composition contains, wt %: Neonol (surfactant) 2.5-8.0, trisodium phosphate 5.0-10.0, sodium metasilicate 5.0-30.0, sodium hydroxide 10.0-40.0, sodium chloride 1.0-2.5, sodium sulfate 5.0-10.0, urea 0.5-1.0, and water - the balance. EFFECT: increased detergent effect and lowered corrosive activity. 6 ex

Description

 The invention relates to compositions of detergents and can be used in enterprises of the food industry.

 Known detergent containing neonol, sodium metasilicate, trisodium phosphate, sodium hydroxide, sodium carbonate and water (RU 2010844 C1, 1994, MKI C 11 D 1/66). However, the known composition is not effective enough.

 The aim of the invention is to increase the efficiency of the target product by enhancing its washing action while reducing corrosion activity.

The goal is achieved in a detergent composition containing neonol, sodium metasilicate, trisodium phosphate, sodium hydroxide and water, characterized in that the composition additionally contains sodium chloride, sodium sulfate and urea, in the following ratio, wt.%:
Neonol - 2.5 - 8.0
Trisodium phosphate - 5.0-10.0
Sodium metasilicate - 5.0 - 30.0
Sodium hydroxide - 10.0 - 40.0
Sodium chloride - 1.0 - 2.5
Sodium sulfate - 5.0 - 10.0
Urea - 0.5 - 1.0
Water - The rest.

 Oxyethylated alkyl phenols, in particular neonol (TU 38.507-63-300-93), are used in the chemical industry as a detergent.

 In the patent and scientific and technical literature, technical solutions similar to the claimed are not known, which allows us to conclude that the proposal meets the patentability condition - "novelty."

 Only a combination of the claimed components in certain proportions allows to achieve the effect indicated in the purpose of the invention, i.e. the claimed composition meets the condition of patentability - "inventive step", in particular, the additional introduction of sodium chloride and sodium sulfate in certain ratios of components, allowed to obtain an unobvious positive effect.

 The composition is used for washing industrial premises and equipment, it is prepared from substances produced by domestic industry, therefore it meets the condition of patentability - "industrial applicability".

 The invention is illustrated by the following examples.

Example 1. Mix 2.5 g, neonol, 5.0 g trisodium phosphate, 10.0 g sodium metasilicate, 20.0 g sodium hydroxide, 1.5 g sodium chloride, 10.0 g sodium sulfate, 0.5 g urea and water up to 100 g, obtaining composition 1 in the following ratio of components, wt.%:
Nonionic surfactant - 2.5
Trisodium Phosphate - 5.0
Sodium Metasilicate - 10.0
Sodium hydroxide - 20.0
Sodium chloride - 1.5
Sodium sulfate - 10.0
Urea - 0.5
Water - Else
Example 2. Mix 5.0 g of neonol, 10.0 g of trisodium phosphate, 5.0 g of sodium metasilicate, 30.0 g of sodium hydroxide, 1.0 g of sodium chloride, 5.0 g of sodium sulfate, 0.5 g urea and water up to 100 g, obtaining composition 2 in the following ratio of components, wt.%:
Nonionic surfactant - 5.0
Trisodium Phosphate - 10.0
Sodium Metasilicate - 5.0
Sodium hydroxide - 30.0
Sodium chloride - 1.0
Sodium sulfate - 5.0
Urea - 1.0
Water - Else
Example 3. Mix 8.0 g of neonol, 5.0 g of trisodium phosphate, 15.0 g of sodium metasilicate, 40.0 g of sodium hydroxide, 2.5 g of sodium chloride, 10.0 g of sodium sulfate, 0.5 g urea and water up to 100 g, obtaining a composition of 3 in the following ratio of components, wt.%:
Nonionic surfactant - 8.0
Trisodium Phosphate - 5.0
Sodium Metasilicate - 15.0
Sodium hydroxide - 40.0
Sodium chloride - 2.5
Sodium sulfate - 10.0
Urea - 0.5
Water - The rest.

Example 4. Mix 4.0 g of neonol, 6.0 g of trisodium phosphate, 20.0 g of sodium metasilicate, 30.0 g of sodium hydroxide, 2.5 g of sodium chloride, 10.0 g of sodium sulfate, 1.0 g urea and water up to 100 g, obtaining composition 4 in the following ratio of components, wt.%:
Nonionic surfactant 4.0
Trisodium Phosphate 6.0
Sodium Metasilicate - 20.0
Sodium hydroxide - 30.0
Sodium chloride - 2.5
Sodium sulfate - 10.0
Urea - 1.0
Water - Else
Example 5. 7.0 g of neonol are mixed, 10.0 g of trisodium phosphate, 25.0 g of sodium metasilicate, 35.0 g of sodium hydroxide, 2.0 g of sodium chloride, 5.0 g of sodium sulfate, 0.5 g urea and water up to 100 g, obtaining a composition of 5 in the following ratio of components, wt.%:
Nonionic surfactant - 7.0
Trisodium Phosphate - 10.0
Sodium Metasilicate - 25.0
Sodium hydroxide - 35.0
Sodium chloride - 2.0
Sodium sulfate - 5.0
Urea - 0.5
Water - Else
Example 6. The compositions are tested as follows.

The washing ability of the solutions of the obtained compositions 1-5 was determined using a Whittlestone device with artificially contaminated aluminum plates. To do this, Whittlestone device with contaminated plates is pre-connected to a water hose and under the influence of vacuum (380 mm Hg), it is passed through it by suction from a bucket of 10 l of the test solution heated to 50 ^o C at a speed of 10 l / min.

 To obtain reproducible test results, the preparation of test plates and the conditions of the experiment must be standardized. The surface of the test plates should be smooth, free from defects and completely fat free. Before applying the contamination, the plates are thoroughly washed using a hair brush, rinsed under a stream of distilled water and dried. After this, the plates are additionally degreased with acetone (they work with rubber gloves). A mixture of fresh sour cream, beef tallow and gas soot in a ratio of 10: 5: 2 in an amount of 0.25 g is applied in an even layer onto the surface of the plate with a spatula, departing from the edges of the plate by 3-4 mm, followed by drying in air for 2 days.

Before the start of the experiment, check the standard contamination of the plates by passing 10 liters of hot (50 ^o C) tap water through the Whittlestone device.

 The plates are considered suitable for experiment, if after passing the water the pollution is not washed off with more than 50% of their area.

When studying the washing effect of the test substance through the Whittlestone device with contaminated plates (aluminum), 10 l of hot (50 ^o C) solutions are passed in successively increasing concentrations: 0.5; 1.0; 1.5; 2.0, 3.0%, etc. until the result of flushing.

 After passing the solution, the plates are rinsed with tap water and dried in air. In the absence of visible traces of contamination, an indicator liquid is applied to the plate using a spray gun (Sudan-3, Mitlene blue, ethanol, ammonia solution, water in a standard form) and rinsed immediately in a glass with distilled water. The appearance of yellow spots or streaks indicates the presence of fat on the surface of the plate.

 The results are evaluated visually on the following scale.

 Lack of washing effect, poor rating - the plates are as dirty as after passing water.

 The washing effect is weak - the plates are cloudy, the surface is oily; single particles of contamination are allowed.

 Evaluation is “good” - the plates look clean, but after rinsing, the water collects in drops, and when the indicator liquid is applied, yellow spots or streaks of colored fat appear.

 The rating is “excellent” - the plate is completely clean, the wettability with water is uniform, there are no yellow spots and stripes after applying the indicator liquid.

 The experiments showed that 1.0% of the compositions 1-5 (obtained according to examples 1-5) provide a detergent effect on the rating - "excellent", while the known 1.0% composition provides a cleaning effect only on the rating - "good" .

 The corrosive effect was checked by immersion of pre-weighed standard aluminum test objects in 1.0% solutions of the tested preparations. After seven days, the change (decrease) in the mass of test objects is determined. The experiments showed that the use of the proposed composition (1-5) led to a decrease in the mass of test objects by 0.0825-0.1253%, while a 1.0% solution of the known agent by 0.2356%.

 Thus, the proposed composition increases, in comparison with the known agent, the washing action and reduces the corrosion effect by 1.8802-2.855 times.

Claims (1)

A detergent composition containing an ethoxylated alkylphenol derivative — neonol, trisodium phosphate, sodium metasilicate, sodium hydroxide and water, characterized in that the composition additionally contains sodium chloride, sodium sulfate and urea in the following ratio, wt. %:
Neonol - 2.5 - 8.0
Trisodium phosphate - 5.0 - 10.0
Sodium metasilicate - 5.0 - 30.0
Sodium hydroxide - 10.0 - 40.0
Sodium chloride - 1.0 - 2.5
Sodium sulfate - 5.0 - 10.0
Urea - 0.5 - 1.0
Water - Else