RU2242249C1 - Method for preparing disinfecting agent and disinfecting agent prepared by this method - Google Patents

Abstract

FIELD: disinfecting agents.

SUBSTANCE: invention relates to methods for preparing disinfecting agent that can be used in public health, agriculture, veterinary science, microbiological, food, meat and dairy, preserving, brewing and pharmaceutical industry. Method for preparing the disinfecting composition involves preliminary mixing 30-40% hydrogen peroxide concentrate with sodium polyphosphate in the ratio hydrogen peroxide to sodium polyphosphate from 1:0.07 to 1:1.7. Then mechanical activation of 30-40% hydrogen peroxide concentrate with sodium polyphosphate is carried out by combined grinding and stirring at room temperature for 0.5-2 h. Surface-active substance as 30-70% concentrate is added to the prepared polyphosphate-peroxide complex compound and prepared mixture is dissolved in solvent in the following ratio of components, wt.-%: hydrogen peroxide, 30-70; sodium polyphosphate, 5-50; surface-active substance, 1-30, and solvent, the balance. Invention provides preparing the disinfecting agent with enhanced antibacterial activity and reduced ecological danger.

EFFECT: improved preparing method, improved and valuable properties of agent.

3 cl, 2 ex

Description

The invention relates to disinfectants and methods for their preparation and can be used in various sectors of the national economy, in particular, in health care, agriculture, veterinary medicine, microbiological, food, meat and dairy, canning, brewing and pharmaceutical industries.

A known method of producing a disinfectant by reacting hexamethylene diamine and guanidine hydrochloride by heating and uniformly adding a melt of hexamethylene diamine to a melt of guanidine hydrochloride at 180 ° C for 2.5 hours, followed by a temperature increase to 240 ° C and heating at this temperature for 5 hours (a. 1616898, IPC C 07 C 279/00, 12/30/1987) The disadvantage of this method is its high energy intensity, multi-stage. The disinfectant obtained by this method is toxic, explosive and fire hazard, with corrosive activity.

In turn, relatively environmentally friendly disinfectants, characterized by a low level of toxicity, explosion and fire hazard, corrosion activity, storage stability, ease of preparation, combine one or more of these properties with a relatively low level of disinfecting efficiency. These disinfectants are typically derived from hydrogen peroxide.

Known disinfectant composition containing a peroxide compound, a modifier and a solvent (patent RU 2061498 C 1.10.06.96). The disadvantage of this composition is its lack of disinfecting ability against resistant bacteria (for example, pathogens of nosocomial infections).

The closest analogue of the claimed invention is a method for producing a disinfectant preparation based on hydrogen peroxide, comprising mixing a stabilized 50% hydrogen peroxide with a mixture of acetic anhydride and sulfuric acid for 5-6 hours. The solution is left to stand for 10-12 hours and water and a stabilizer are added , which is used as a mixture of dipicolinic acid and sodium pyrophosphate. The disadvantage of this method is the multi-stage process, requiring the development and establishment of a technological line for industrial production. The disadvantage of the obtained disinfectant composition is its high toxicity, corrosiveness, explosion and fire hazard, low stability during storage. The environmental hazard of superperoxides derived from acetic acid or its anhydrides is due to their direct effect on the environment. Direct action is determined by the pollution of air, water and soil by organic acids and their derivatives.

The problem to which the claimed proposal is directed is to develop a method for producing a disinfectant with increased antimicrobial activity, as well as reducing its environmental hazard and reducing the toxicity of the disinfectant, corrosion activity with respect to ferrous and non-ferrous metals, destructive effect with respect to polymeric materials and coatings .

The problem is solved in that the method of obtaining a disinfectant includes pre-mixing 30-40% of a hydrogen peroxide concentrate with sodium polyphosphate with a ratio of hydrogen peroxide: sodium polyphosphate in the range 1: 0.07-1: 1.7. Then, a mechanical activation of a 30-40% hydrogen peroxide concentrate with polyphosphate is carried out by co-grinding and stirring in a reactor at room temperature for 0.5-2 hours. A surfactant is added to the obtained polyphosphate-peroxide complex compound in the form of 30- 70% of the concentrate, then the resulting mixture is dissolved in a solvent in the following ratio of components, wt.%:

Hydrogen Peroxide 30-70

Sodium Polyphosphate 5-50

Surfactant 1-30

Solvent rest

The disinfectant obtained by the present method includes hydrogen peroxide, sodium polyphosphate, surfactant, solvent in the following ratio, wt.%:

Hydrogen Peroxide 30-70

Sodium Polyphosphate 5-50

Surfactant 1-30

The solvent is the rest.

The technical result of the invention is to increase the disinfecting properties of the disinfectant and improve the range of operational properties, which makes it practically universal for solving a wide range of disinfection problems in various fields of application. The inventive method allows to obtain a disinfectant that has 2-10 times more pronounced antimicrobial activity compared to the closest analogue with equal proportions of peroxide. This allows you to reduce the concentration of basic substances in working solutions, which proportionally reduces their side effects on disinfected objects, the environment and the cost of disinfection.

The technical result is achieved by the fact that due to the mechanical activation of 30-40% of a hydrogen peroxide concentrate with sodium polyphosphate, a polyphosphate-peroxide complex compound is formed, which has an affinity for the components of the cell wall and membrane (phospholipids) due to the formation of a structured polyphosphate-peroxide complex, which allows transporting peroxide hydrogen through the cell wall and membrane into the cell and thereby increase the disinfecting activity of the disinfectant obtained by the claimed way.

The use of surfactants in the form of a 30-70% concentrate allows to reduce foaming, which as a result reduces labor costs due to the simplification of packaging, and also eliminates dusting. As a result, there is no need for personal protective equipment and special ventilation. Moreover, it is the claimed ratio of 30-40% of the hydrogen peroxide concentrate and sodium polyphosphate from 1: 0.07 to 1: 1.7, as well as the use of 30-70% surfactant concentrate and the claimed ratio of the components allows to achieve the specified technical result.

The invention is illustrated by the following examples, which, however, do not cover, and even more so do not limit the entire scope of the claims of this invention.

Example 1

The inventive disinfectant composition was prepared as follows. In the reactor, 40 kg of 40% hydrogen peroxide concentrate are mixed with 30 kg of sodium polyphosphate, then the mixture is activated by thoroughly grinding and stirring at room temperature for 1.5 hours, after which 15 kg of 40% sulfonol concentrate are added to the resulting polyphosphate-peroxide complex. Then the resulting mixture is dissolved in 15 l of water.

Example 2

The inventive disinfectant composition was prepared as follows. In the reactor, 50 kg of 40% hydrogen peroxide concentrate are mixed with 20 kg of sodium polyphosphate, then the mixture is thoroughly ground and stirred at room temperature for 1 hour, after which 10 kg of 30% Sf-2u concentrate are added to the resulting polyphosphate-peroxide complex. Then the resulting mixture was dissolved in 20 l of ethyl alcohol.

A working disinfecting solution is obtained by diluting the concentrate with water to a hydrogen peroxide content of 1-10%, depending on the disinfection conditions. The composition is used for routine disinfection of the laboratory premises and inanimate objects when working with pathogens of bacterial and viral nature as follows.

The disinfectant is applied by thermal spraying to the surface of premises, laboratory equipment, furniture, and also the protective clothing used in the work. The disinfectant consumption is 20-50 ml / m ² . The effectiveness of disinfection was evaluated by the results of seeding samples (swabs from the surface of disinfected objects) on a solid nutrient medium. As a result, it was found that the time of inactivation of bacteria and spores on the surfaces of the above disinfection objects at the initial level of contamination (0.5-2.0) (10 ⁷ cells / cm ² and positive temperatures of 18-25 ° C varies in the following ranges: surface rooms painted with oil paint, as well as ceramic, plastic, glass, polyethylene, porcelain surfaces for 5-10 minutes; rubber, stainless steel, St3 steel surfaces that do not contain corrosion products, aluminum, cotton 5-15 minutes.

Thus, the invention allows to obtain a disinfectant with increased antimicrobial activity and reduced environmental hazard.

Claims (2)

1. A method of obtaining a disinfectant, comprising mixing the components, characterized in that pre-mixed 30-40% concentrate of hydrogen peroxide with sodium polyphosphate at a ratio of hydrogen peroxide and sodium polyphosphate 1: 0.07-1: 1.7 and carry out mechanical activation the resulting mixture by co-grinding and stirring at room temperature for 0.5-2 hours, then a surfactant is added to the resulting product, the surfactant being taken as a 30-70% concentrate, after which the resulting product create in a solvent in the following ratio of components, wt.%: Hydrogen Peroxide 30-70 Sodium Polyphosphate 5-50 Surfactant 1-30 Solvent Else 2. The disinfectant obtained according to claim 1, characterized in that it contains hydrogen peroxide, polyphosphate, a surfactant, a solvent in the following ratio, wt.%: Hydrogen Peroxide 30-70 Sodium Polyphosphate 5-50 Surfactant 1-30 Solvent Else