RU2587063C1 - Method for aerosol disinfection of closed spaces, including air medium, equipment and building structures - Google Patents

Abstract

FIELD: hygiene.

SUBSTANCE: invention relates to sanitary treatment of premises, equipment, inventory and ambient air objects. Method for aerosol disinfection of closed spaces is carried out by aerosol spraying of disinfectant solution in form of hydrogen peroxide, compressed air at a rate of aerosol particles of not less than 150 m/s, providing for “cold steam generation mode” aerosol disinfectant solution with particle size less than 5.0 mcm. Filling space with aerosol disinfecting solution is performed before beginning of condensation of moisture in air of closed spaces at level of “dew point”, but not changing interface state dew point at appropriate temperature and moisture content of air medium closed space.

EFFECT: invention provides creation of steam "cold" disinfectant solution for efficient and ecologically clean disinfection.

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Description

The invention relates to many areas of human life (health, agricultural / food, food industry, pharmaceutical industry, utilities, transport, etc.) and is intended for the sanitary treatment of premises, equipment, inventory and the surrounding air environment to create a favorable, environmentally friendly a clean environment for the development and existence of biological objects, including humans.

Various physical methods of disinfection and sterilization are known, the disadvantages of which are the high processing temperature and, in other cases, complex hardware and equipment for the disinfection process, requiring highly qualified staff, a narrow range of technological parameters (plasma exposure).

Known radiation methods of exposure (UV rays, β-rays, γ-rays, neutrons directed by electron beams, etc.) require expensive and complex equipment, high radiation protection, limited by the need for directional exposure exposure and well-defined exposure parameters, which significantly limits the range of application of these methods.

For disinfection of a wide range of objects, chemical disinfection methods based on the use of disinfecting chemicals (formaldehyde, glutaraldehyde, peracetic acid, phenolic, cresol, iodoform solutions, etc.) are most suitable. However, their main drawback is that these methods are not environmentally friendly, since they involve the use of chemical agents that are slowly degrading in the environment and are equally harmful to all forms of protein life - from bacteria to humans, since they have a depressing effect on humans, animals, and plants (and depending on their concentration, the effect may be more or less strong). Therefore, cleaning and neutralization measures after the disinfection process are so important to reduce the concentration of harmful toxic substances or neutralize these substances.

Known disinfection methods in which an aqueous saline solution is used as a disinfectant treated in the anode chamber of a diaphragm electrolyzer (anolyte) is AC 1341743, 1437400, 1534772, 1667891. However, the disadvantage of these disinfection methods is the significant disinfectant consumption and insufficient environmental cleanliness after carrying out disinfection process.

A known method of producing aerosol used in the disinfection of premises [A.S. No. 365150]. To obtain an aerosol, the disinfecting effect of which manifests itself at room temperature, chlorine lime is mixed with ammonium nitrate in the presence of water, immediately there is a rapid release of gaseous products: chlorine, hydrogen chloride and ammonium chloride, which, when condensed with water vapor released during heating of the mixture, form highly dispersed spray can. The disadvantage of this method is the contamination of the processed objects with toxic products, the removal of which requires additional measures. At the same time, these methods are not environmentally friendly, since they are associated with the use of chemical agents that are slowly degrading in the external environment and are equally harmful to all forms of protein life - from bacteria to humans, since they have a depressing effect on humans, regardless of their concentration in the body. In addition, after the intended use, biocidal solutions and aerosols of persistent chemicals enter the environment in various ways, polluting it.

The closest in technical essence is the method of aerosol disinfection of enclosed spaces, including the air and objects, as well as animals, birds, plants and humans in these spaces, using electrochemical activated solutions [Patent from No. 2148414], including filling these spaces with aerosol obtained by spraying a disinfectant, which is used as a solution obtained using processing a solution of alkali metal chloride with a concentration of 0.5-5.0 g / l in the anode chamber of the diaphragm electrolyzer, and spraying is carried out in the mode of mass aerosol concentration of not more than 50 mg / m ³ , with a dispersion of 5-50 microns, while the temperature of the sprayed substances should be higher than the temperature of the environment of the enclosed spaces, and the relative humidity of the environment of these spaces should be in the range of 80-90%.

The disadvantage of this method is:

- a relatively large size of aerosol particles of a sprayed disinfectant - 5-50 microns, for a relatively short time deposited on the surface of a confined space;

- sophisticated technology for aerosol disinfecting solution using the anode chamber of a diaphragm electrolyzer;

- mechanical crushing of a neutral anolyte in an aerosol generator with a high-speed disk rotation of at least 20,000 rpm.

The objective of the invention is to develop a method of disinfection of enclosed spaces, including air, equipment and building structures with a "cold steam" disinfecting solution, which is used as a solution of hydrogen peroxide.

The solution to this problem lies in the fact that the disinfection of enclosed spaces, including the air, building structures, equipment, barrier systems, etc., is carried out by the “cold steam” of the disinfectant solution, while the best result of disinfection is achieved at a relative humidity of the closed air spaces φ = 100%. Spraying of the disinfectant solution aerosol in confined spaces is carried out with compressed air at a speed of aerosol particles of the disinfectant solution of at least 150 m / s, providing a mode of formation of the disinfectant solution aerosol with a dispersion of less than 5.0 microns in order to obtain the Brownian motion effect, filling the disinfectant solution with aerosol is performed up to the moment of the beginning of moisture condensation in the air of these enclosed spaces (φ = 100%), but not crossing the boundary state of the “point p wasps ”at the appropriate temperature and moisture content of the air of a given enclosed space, the amount of moisture of the steam of the disinfectant solution necessary to achieve 100% humidity of 1 m ³ of the enclosed space’s air as close as possible to the“ dew point ”is calculated by the formula:

,

,

Where

Δd - the amount of moisture needed to reach a moisture content of 100% 1 m ³ of air, depending on its temperature and its moisture content, g / m ^3;

d _tr - moisture content in 1 kg of air at 100% relative humidity, depending on its temperature, g / kg;

d _{real w / s} - the actual moisture content of 1 kg of air, depending on its relative humidity and temperature, g / kg;

- коэффициент удельного веса воздуха в зависимости от его температуры.

- coefficient of specific gravity of air depending on its temperature.

In the process of formation of the aforementioned air environment, a decrease in the concentration of the disinfecting solution vapor occurs due to its mixing with the vapor of moisture contained in the air of the treated enclosed space.

The calculation of the required initial percentage concentration of the sprayed disinfectant solution before the start of the spraying process, depending on the moisture contained in the air in the enclosed space before the start of the decontamination process, is determined by the formula:

,

,

Where

- расчетное процентное содержание дезинфицирующего раствора, подлежащего распылению, %;

- estimated percentage of disinfectant to be sprayed,%;

d _t.p. - moisture content of the air in the enclosed space, depending on its temperature at a relative humidity of 100% (dew point), g / kg;

- нормативное процентное содержание дезинфицирующего раствора, %;

- standard percentage of disinfectant solution,%;

Δd is the amount of moisture required to achieve 100% relative humidity (dew point) in 1 m ^{3 of} air, depending on its temperature and moisture content, g / m ³ .

The technical result of the invention is the creation of "cold steam" disinfectant solution, as close as possible to the moment of formation of its condensate (φ = 100%).

The functionality of the aerosol method of disinfection with a “cold steam” disinfecting solution in the form of hydrogen peroxide has been expanded, which allows disinfection of microelectronic circuits, optical devices, etc., without disrupting their performance.

The proposed method of aerosol disinfection allows disinfection of virtually any type of equipment and structures without causing corrosion of their surface.

This method of aerosol disinfection significantly reduces the consumption of a disinfectant solution of 10-30 ml / m ³ air volume of enclosed spaces.

In addition, the inventive environmentally friendly method of decontamination significantly reduces its cost due to low energy and labor costs.

Practical testing of the method of the present invention was carried out using a disinfecting solution of hydrogen peroxide (H ₂ O ₂ ).

In the claimed method of aerosol disinfection with “cold steam”, other disinfectants can be used, but, as a rule, after such disinfection, decontamination of the treated confined space will be required, and the used hydrogen peroxide solution decomposes into oxygen and water after 24 hours under the influence of light and the surrounding air.

An example of the use of the invention.

A culture of Staphylococcus aureus (Staphylococcus aureus) with an initial concentration of 1.2 × 10 ⁷ CFU / ml was used as a test microbiological culture applied to the surface of equipment, building structures, and barrier systems.

The total microbial contamination of the air of the treated enclosed space prior to the beginning of the disinfecting treatment, including the spore and vegetative forms of microorganisms, was 4.9 × 10 ³ CFU / m ³ .

The actual concentration in the air of the enclosed space of the aerosol of the disinfectant solution of H ₂ O ₂ was 6%.

The volume of the enclosed space of the equipped room of the microbiological laboratory is 50.1 m ³ (overall dimensions - w. 3.2 m; gl. 5.4 m; in. 2.89 m)

The air temperature of the microbiological laboratory premises is + 26 ° C. The relative humidity of the air in the room of the microbiological laboratory is φ = 19.5%.

- The volume of the sprayed solution of N ₂ About ₂ , 1002 ml;

- The initial concentration of the sprayed solution of N ₂ About ₂ 7.88%;

- The speed of the aerosol particles of the sprayed disinfectant solution, 150 m / s .;

- Time disinfectant spraying H ₂ O ₂ solution to φ = 100%, 31 min.

The exposure time after disinfection of the enclosed space of the microbiological laboratory is two hours.

Microbiological control of the results of the proposed method for aerosol disinfection of a solution of H ₂ O ₂ air, building structures and equipment located in a confined space of a microbiological laboratory, showed a complete absence of viable microorganisms, both in the laboratory air and on the surfaces of thermostats seeded with a test microbiological culture Staphylococcus aureus , refrigerators, tables, filter material of the exhaust filter of a laminar cabinet-box of the second class biologically security.

Claims (1)

The method of aerosol disinfection of enclosed spaces, including air, equipment and building structures, characterized in that the disinfection is carried out by aerosol spraying a disinfectant solution, which is used as hydrogen peroxide, compressed air at a speed of aerosol particles of at least 150 m / s, providing the formation mode " cold steam "aerosol disinfectant solution with a dispersion of less than 5.0 microns, while filling with an aerosol disinfectant solution is performed until ndensatsii moisture in the air of enclosed spaces at the "dew point", but not rolling borderline "dew point" at the appropriate temperature and moisture content of the air of the enclosed space.