RU2279897C1 - Method for carrying out chamber disinfection with ozone - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves taking things under disinfection into chamber, sealing the chamber, filling it with ozone and making ozone-air mixture circulate. The chamber is degassed after having finished disinfection and the things are unloaded. The chamber is filled and things are kept in the chamber with normal climatic environment factors being supported in the chamber. When filling the chamber with ozone, air rarefaction is created in the chamber and supported until ozone concentration in the chamber reaches 2g/m³. Then, ozone-air mixture circulation is supported and the things under disinfection are hold under ozone action within 2-6 h when the chamber is loaded with 40 to 120 kg per 10 m³, respectively.

EFFECT: enhanced effectiveness of disinfection.

27 cl, 9 dwg, 2 tbl

Description

The invention relates to medicine, namely to methods for disinfecting materials and objects, and can be used to disinfect shoes, clothes, bedding (mattresses, pillows, blankets, bedding, etc.) and other items.

A known method of disinfection of shoes, clothes and bedding (mattresses, pillows, blankets, bedding, etc.) in steam-formalin chambers. The active agent in the steam-formalin process is a steam-air mixture in combination with formaldehyde gas at a temperature of 49 ° C to 59 ° C, with a relative air humidity of at least 80% ("Disinfection, disinsection, deratization", edited by a corresponding member of the USSR Academy of Medical Sciences. Prof. V.M.Zhdanova, Moscow: Megiz, 1955, p. 173-180).

There is a method of disinfection of shoes, clothes and bedding (mattresses, pillows, blankets, bedding, etc.) in steam chambers with a steam-air mixture (moistened with heated air). The active agent in the steam-air method is a steam-air mixture at a temperature of 58 ° C-80 ° C-90 ° C, with a relative humidity of at least 80% ("Disinfection, disinsection, deratization", edited by Corresponding Member of the Academy of Medical Sciences of the USSR prof. V.M.Zhdanova, Moscow: Medgiz, 1955, p. 173-180).

A disadvantage of the known disinfection methods is that after repeated, and sometimes after a single, disinfection by known methods, the products lose their consumer properties and become unusable, which reduces the quality of disinfection. The need to maintain the required temperature in the disinfection chamber, relative air humidity, the complexity of the steam supply and formalin spraying complicate the known methods. In addition, the use of formalin in the first analogue requires additional processing of disinfected items to neutralize it, which reduces the environmental friendliness of the method and complicates the method.

Closest to the proposed is a method of chamber disinfection with ozone, according to which disinfected items are placed in an airtight chamber. The chamber is filled with ozone to an ozone concentration of from 500 to 800 mg / m ³ , after which the ozone-air mixture is circulated. The air temperature in the chamber is maintained at 20 to 25 ° C, and the relative humidity is from 80 to 90%. After disinfection is complete, the chamber is degassed and things are unloaded ("The method of gas-phase ozone chamber disinfection - a breakthrough in the field of disinfection technologies", Spiridonov Yu.L., Garasko EV, Sidorov NM, Cherenkov SP / firm "Ozone", Ivanovo State Medical Academy / Internet, address: http://odoson.narod.ru/Rus_131.html).

The disadvantage of this method of chamber disinfection with ozone is as follows. It is known that air contains about 79% nitrogen in volume. At high humidity in the disinfection chamber: from 80 to 90%, the ozone produced by the ozonizer intensively reacts with air nitrogen to form gaseous nitrogen oxides: NO, NO ₂ , N ₂ O ₄ , and the final product - nitric acid N ₂ O ₅ , which is in a finely divided state. As a result, the content of free ozone in the chamber decreases markedly, which is exacerbated by its low initial concentration: from 500 to 800 mg / m ³ . This reduces the quality of disinfection. In addition, the presence in the air in a finely divided state of nitric acid N ₂ O ₅ can lead to damage to things when they are deposited on their surface, which also reduces the quality of disinfection. Moreover, since after disinfection on the surface of objects trace traces of nitric acid are possible, the known method of disinfection requires additional processing of disinfected objects to neutralize it, which reduces the environmental friendliness of the method and complicates the method. The need to maintain an air temperature in the disinfection chamber in the range from 20 to 25 ° C and a relative humidity of 80 to 90% also complicates the known method.

Thus, the method of chamber disinfection with ozone detected as a result of a patent search does not ensure the achievement of a technical result consisting in improving the quality of disinfection, in simplifying the method, and in increasing the environmental friendliness of the method.

The present invention solves the problem of creating a method of chamber disinfection with ozone, the implementation of which ensures the achievement of a technical result, which consists in improving the quality of disinfection, in simplifying the method and improving the environmental friendliness of the method.

The essence of the invention lies in the fact that in the method of chamber disinfection with ozone, according to which disinfected things are placed in the chamber, the chamber is sealed, filled with ozone and the ozone-air mixture is circulated, after the disinfection is complete, the chamber is degassed, then things are unloaded, the new one is the fact that filling the chamber with ozone and holding things in the chamber is performed under normal climatic factors of the external environment in the chamber, while during the filling of the chamber with ozone in the chamber they create a vacuum in zduha which is maintained as long as the ozone concentration in the chamber has reached 2 g / m ^3, thereafter circulate the ozone-air mixture, the disinfected items kept under the influence of ozone from two to six hours when the camera is loaded at 10 m ³ 40 up to 120 kg, respectively.

The technical result is achieved as follows. In the inventive method, during the filling of the chamber with ozone, an air pressure is created. It is known that the molecules of gaseous substances are in a continuous chaotic motion - Brownian motion. Ozone molecules are heavier than air molecules, have greater inertia, and during normal filling of the chamber accumulate in its lower part. Due to the discharge of air, ozone molecules due to Brownian motion and intermolecular gaps of air that have increased as a result of discharge rise into the upper compartments of the chamber, which creates favorable conditions for uniform filling of the chamber with ozone. Using the circulation of the ozone-air mixture finally ensures uniform distribution of ozone molecules within the chamber. In addition, due to the fact that during the filling of the chamber with ozone an air discharge is created in it, this allows the chamber to be filled with ozone to any desired concentration, since when filling the chamber, ozone takes the place of the air displaced as a result of the rarefaction process. This does not tie the execution of the method to a specific volume of the disinfection chamber and simplifies the method. In this case, in this order of filling the chamber with ozone in the chamber, the quantitative content of ozone will always be higher than the quantitative air content, since ozone, when filling the chamber, takes the place of air displaced as a result of the discharge process, which improves the quality of disinfection. At the same time, the creation of air discharge during the filling of the chamber with ozone reduces the time it takes to fill the chamber with ozone, which simplifies the method.

Due to the fact that after filling the chamber with ozone, the chamber is sealed, this allows maintaining the achieved disinfection regime in the chamber: ozone concentration of 2 g / m ³ under normal climatic environmental factors in the chamber: at normal temperature and relative humidity in the chamber.

Significant quantitative excess of ozone molecules over air molecules due to the discharge of air when filling the chamber, as well as due to the fact that the chamber is filled with ozone and soaking things in the chamber, i.e. the entire disinfection method is performed under normal climatic factors of the external environment in the chamber: at normal air temperature and relative humidity in the chamber, the conditions for active chemical interaction of nitrogen with air ozone in the chamber are excluded. As a result, in the claimed method in the disinfection chamber are present the formation of nitrogen oxides at the level of the natural background, which increases the environmental friendliness of the method, does not lead to damage to things, improves the quality of disinfection.

The concentration of ozone in the chamber of 2 g / m ³ used in the claimed method of disinfection was obtained experimentally and is due to the fact that at such a concentration the bactericidal activity of ozone is ensured, in which even bacterial suspensions are destroyed, which improves the quality of disinfection. In addition, a high concentration of ozone - 2 g / m ³ provides an increase in the diffusion capabilities of ozone, and therefore, a deeper penetration of ozone molecules into the material of disinfected objects, which improves the quality of disinfection. This allows you to disinfect even mattresses with a dense internal volume. The increase in the diffusion capabilities of ozone molecules is also facilitated by the provision of an ozone-air mixture in the chamber.

Due to the fact that disinfected items can withstand ozone from two to six hours when loading a chamber on 10 m ³ from 40 to 120 kg, a high-quality disinfection is ensured, respectively. Quantitative parameters of the duration of disinfection and loading conditions of the chamber were obtained experimentally and provide an increase in the quality of disinfection.

Thus, from the foregoing, it follows that the claimed method of chamber disinfection with ozone in the implementation ensures the achievement of a technical result, which consists in improving the quality of disinfection, in simplifying the method and improving the environmental friendliness of the method.

The claimed method of disinfection is as follows. Disinfected items are placed in a sealed chamber, which is filled with ozone. Filling the chamber with ozone and holding things in the chamber is performed under normal climatic factors of the external environment in the chamber: at normal air temperature and relative humidity in the chamber. In accordance with SANPiN 2.2.4.548-96 for rooms of category 1A for the cold season, optimal microclimate conditions: air temperature from 22 to 24 ° C, relative humidity from 60 to 40%; for the warm season, air temperature is from 23 to 25 ° C, relative humidity is from 60 to 40%.

To fill the chamber with ozone, it is recommended to use ozonizers with high productivity, for example: "Hoarfrost" - 50 g / hour; "Fog" - 25 g / h, etc. During the filling with ozone in the chamber create a vacuum of air, which is maintained until the concentration of ozone in the chamber reaches 2 g / m ³ . After that, the chamber is tight and the ozone-air mixture is circulated. Disinfectable things can withstand under the influence of ozone from two to six hours when loading the camera on 10 m ³ from 40 to 120 kg, respectively. After disinfection is complete, the chamber is degassed, then things are unloaded.

To organize the ozone disinfection department, the following premises are needed: a loading compartment, a chamber disinfection room, an unloading compartment, a gateway with a shower through which the loading and unloading compartments, a pantry of equipment and disinfectants, a bathroom, a staff room are connected. The chamber disinfection room should have two doors connecting respectively to the loading and unloading compartments. To ensure tightness and ease of disinfection, the chamber disinfection room should have a ceiling and walls finished with easily washable material and preventing the formation of cracks; the doors are equipped with sealing rubber and blocking locks.

The disinfection chamber is equipped with an ozone generator, supply and exhaust ventilation, a fan for the circulation of the ozone-air mixture. An ozone generator is installed in the upper part of the chamber, which provides a more uniform distribution of ozone inside the chamber. Outdoor air heating must be provided to maintain normal climatic conditions in the chamber during the cold season. On the side of the discharge compartment, a psychrometer, a thermometer, a gas analyzer for monitoring ozone concentration, and a viewing window are installed in the wall. The control panels for the ozone generator, fan, and supply and exhaust ventilation system are also located on the side of the discharge compartment.

Before performing the method, wet cleaning and disinfection of the ozone compartment is carried out. Then, mattresses, pillows, blankets, clothes, shoes, etc. are placed and hung in the cell. given the possibility of free circulation of the ozone-air mixture around and inside things. After that, the chamber is sealed. By turning on the exhaust fan in the chamber create a vacuum of air. At the same time, they include an ozone generator and a fan for circulating the ozone-air mixture. When the ozone concentration in the chamber reaches 2 g / m ^{3, the} exhaust fan is turned off. From now on, the chamber is completely sealed. Disinfectable things can withstand under the influence of ozone from two to six hours when loading the camera on 10 m ³ from 40 to 120 kg, respectively. Degassing of the chamber after disinfection is completed by turning on the supply and exhaust ventilation. Ventilation is performed before drawing out at least twice the air volume of the disinfection chamber. After which things are unloaded.

Example. The claimed method of chamber disinfection with ozone was checked during the disinfection of shoes, clothes, bedding (mattresses, pillows, blankets, bedding) in the disinfection unit of the Central City Hospital No. 24 of Yekaterinburg.

The room of the disinfection chamber 25 m ³ . In the chamber, an ozone generator "Hoarfrost" with a capacity of 50 g / hour was installed. Before loading things into the camera, selective control flushes were made. Things were loaded into the chamber and kept in it in accordance with the method: disinfected things were kept under the influence of ozone from two to six hours when loading the chamber on 10 m ³ from 40 to 120 kg, respectively.

After disinfection and degassing of the chamber were completed, things were unloaded and selectively control flushes were made.

During the disinfection of four control batches of things, 33 control washes were performed before disinfection, 9 of which were with sowing. After disinfection, 33 repeated flushes were made from the same things. Disinfection results showed the absence of pathogenic microflora.

Claims (1)

The method of chamber disinfection with ozone, according to which disinfectable things are placed in the chamber, ensure the tightness of the chamber, fill with ozone and circulate the ozone-air mixture, after the disinfection is complete, the chamber is degassed, then things are unloaded, characterized in that the chamber is filled with ozone and the things are kept in the chamber, they perform under normal climatic factors of the external environment in the chamber, while during the filling of the chamber with ozone in the chamber, a vacuum is created, which is maintained until and the ozone concentration in the chamber does not reach 2 g / m ³ , after which the ozone-air mixture is circulated, disinfected items are kept under the influence of ozone for two to six hours when the chamber is loaded into 10 m ³ from 40 to 120 kg, respectively.