CS273853B1 - Method of enzymatic components stabilization in liquid or pasty-like detergents - Google Patents

Abstract

The invention concerns a method of enzymatic components stabilization in liquid or paste-like detergents. The essence of good stability when storing is use of stabilisers formed from 0.1 to 5 % by weight sodium salt of monoalkyl amides of ethylenediaminetetraacetic acid or 3 to 20 % saccharose or mixture of these substances. The main advantage of the invention is that it ensures adequately high enzymatic effect of the liquid and paste-like detergents over a long period of storage with economic dosing of costly enzyme.

Description

The present invention relates to a process for stabilizing enzymes in liquid and pasty detergents, and to provide a high efficiency during storage.

While the content of alkaline prostheses or amylases in detergent powders has become a very common phenomenon in technically developed countries, liquid and pasty successful commercially active biologically active detergents have been a recent issue. Their complex development resulted almost in parallel with leading world companies in a number of similar products. It was the application of enzymes that brought the efficiency of the liquid form of detergents closer to traditional powder formulations, over which it has clear advantages in low energy consumption during production and in higher bulk density.

The relatively late application of liquid enzymatic detergents was due to the problems of achieving sufficient storage stability. Experience in the production of powdered enzymatic products has not been fully utilized, as the situation of liquid and pasty forms is complicated by a significantly higher water content. In particular, the choice of complexing agents is severely limited for consistency and stabilization reasons, and in practice only low amounts of alkylphosphone compounds are employed. Also, the alkalinity of liquid detergents is lower than that of powdered products. As a result, the liquid form is considerably disadvantaged and is effective for the types of soils that break up the enzymes. The negative influence of raw materials and water on the stability of the enzyme is weakened by careful selection of raw materials and especially by the application of special stabilizers such as calcium chloride, sodium and calcium formates, phosphates, borax and others. Lower alkalinity also contributes to increased stability, but on the other hand it does not allow the full application of the enzymatic activity, which is shifted to pH 9 to 10 in commercial detergent protease types. detergents.

A more stable product type can be provided by a method of stabilizing the enzymatic components in liquid and pasty detergents, characterized in that 0.1 to 5 wt. % sodium salt of ethylenediaminetetraacetic acid mono-octyl to octadecylamide or 3 to 20 wt. % sucrose or 3.1 or 25 wt. mixtures of these substances.

The main advantages of the invention are to provide a sufficiently high enzymatic efficiency of liquid and pasty detergents after long storage times while economically dosing the expensive enzyme, in an expanded variety of raw materials, especially complexing additives, useful for the formulation.

The beneficial effect is due to the emulsifying properties of sucrose and the protective properties of the micelles of alkylamides.

Examples

Example 1

In a conventional liquid detergent preparation process, the following composition is prepared: (wt.%) _: 34% water, 15% monoethanolamine, 10% nitrilotriacetic acid, 5% sodium cumene sulfonate, 5% dodecylbenzenesulfonic acid, 15% coconut acid, 3% ethoxylated fatty alcohol 6% sucrose, 1% monododecylamide, ethylenediaminetetraacetic acid monododecylamide, 5% propylene glycol, 0.2% optically brighteners, 0.2% perfume, 0.005% dye, and 0.595% alkaline protease having 400,000 Dj / g activity.

A liquid enzymatic composition with high storage stability is obtained.

Example 2

By means of the technological process for the production of pasty preparations, an enzymatic pasty detergent is prepared having a composition (in% by weight): 10% sodium dodecylbenzenesulfonate, 7% potassium soap, 20% sodium triphosphates, 5% oxyethylated fatty alcohol, 2% ethylenediaminetetraacetic acid monooctylamide. % aluminosilicate, 0.2%

CS 273853 B1 perfume, 0.15% optically brightener, 0.6% amylase and 0.6% protease with 330,000 Dj / g activity and 34.45% water.

A pasty detergent is obtained with high detergency efficiency and increased enzyme stability.

Example 3

In a kettle equipped with a stirrer, add (in wt.%): 8¾ propylene glycol, 26.8 ¾ water, 6 ¾ diethanolamine, 7% triethanolamine and add 5 ¾ nitrilotriacetic acid, 25% coconut acid, 6% oxyethylated fatty alcohol with stirring , 15% sucrose, 0.2 ¾ perfume, 0.2 ¾ optically brighteners, 0.8 ¾ protease with 400,000 Oj / g activity.

A liquid laundry detergent having a stable high enzymatic activity is obtained.

Example 4

A pasty detergent is prepared having a composition (% by weight): 6% sodium dodecylsulfonate, 5% monoethanolamine soap, 30% zeolite, 5% sodium polyacrylate, 0.2% perfume,

0.25% optically brighteners, 0.5% protease having 400,000 Dj / g activity, 5 ¾ oxyethylenated fatty alcohol, 0.1 ¾ wt. trisodium salts of mono-hexadebylamide · ethylenediaminetetraacetic acid, 20 ¾ wt. sucrose, 1.45 ¾ carboxymethylcellulose and 26.5 ¾ water.

The product obtained has high enzymatic stability.

The effect of the invention is illustrated in the following table, which compares proteolytic storage stability according to the State Examination Method No. 240:

a) top foreign commercial detergents

b) detergents according to the invention

c) detergents according to the invention without protected stabilizers when conventional stabilizers are applied.

Storage conditions: glass container, temperature 20 ° C, no light

Table

Shelf life (months) Proteolytic storage stability (¾) 1 5 '' 9 12 Liquid foreign detergent (NSR) 95 89 75 55 Pasty foreign detergent (USSR) 90 78 60 20 May Detergent according to Example 1 95 ⁹⁰ 83 68 Detergent according to Example 2 92 85 74 55 Detergent according to example 3 94 91 80 65 Detergent according to Example 4 96 93 87 71 Detergent according to Example 1 - without sucrose and alkyl amide, with 10% borax 94 86 77 52

CS 273853 Bl

Table - continued

Shelf life (months) Proteolytic storage stability (%) 1 5 9 12 Detergent according to example 2 - without sucrose, with 2% CaCl ₂ Detergent according to example 3 - without sucrose, with 2% sodium formate Detergent according to example 4 - without stabilizers, with an aliquot increased content of individual components 92 91 89 75 85 75 55 71 48 21 53 35

Claims (1)

SUBJECT OF THE INVENTION A process for stabilizing the enzymatic components in liquid and paste formulations, wherein 0.1 to 5 wt. % sodium octadecylamide of ethylenediaminetetraacetic acid or 3 to 20 wt. up to 25 wt. mixtures of these substances. detergents, mono-octyl- to sucrose, or 3.1