RU2257228C1 - Method of disinfecting influent ventilation systems - Google Patents

Abstract

FIELD: disinfection methods and facilities.

SUBSTANCE: method comprises bacteriological examination of washouts from inner surfaces of ventilation system. Based on epidemiological investigation data, corresponding solution is prepared, which is then fed into working ventilation system in the form of aerosol and drawn through the system by air flow, after which system is disabled for a period of time long enough for disinfection to be completed. Thereafter, second control of washouts is performed. Disinfection operation is ended when negative data regarding presence of infection in washouts is obtained.

EFFECT: simplified procedure and improved environmental safety jointly with increased disinfection efficiency.

Description

The invention relates to medicine, namely to disinfection using aerosols, and can be used to disinfect supply ventilation systems in order to prevent outbreaks of infectious diseases.

Currently, in residential, hospital, industrial and other types of premises to provide air of the required quality, widespread use of ventilation installations, in particular ventilation. Sanitary and hygienic supervision of the condition of air ducts and elements of the ventilation system is often absent, while the ventilation system can become a source of infection transmitted by airborne droplets. This is due to the fact that during operation, over time, particles of various origin accumulate on the walls of the ventilation device due to their roughness. As a result of fluctuations in the temperature of external air, moisture condenses on the walls of the ducts and elements of the ventilation system, which promotes the formation and growth of bacterial microflora on their surfaces. This necessitates the disinfection of supply ventilation systems in order to prevent outbreaks of infectious diseases.

There is a method of disinfection of air ducts of supply ventilation units, according to which the air supplied by supply ventilation is previously cleaned in bacteriological filters (A.K. Manenko, N.N. Sakhnovskaya “Hygiene of medical institutions”, Kiev: Zdorovya, 1982, c .49 ... 50). Bacteriological filters are located closer to the places of air release into the premises.

The disadvantage of this method is that it allows you to disinfect only air in the duct and does not allow to sanitize the inner surface of the duct.

In addition, the action of the bacterial filter extends to predefined types of bacteria, which reduces the effectiveness of disinfection.

In accordance with the recommendations for use, the filters must be protected from temperature changes, as condensation forms on them, which promotes the formation and growth of bacterial microflora on their surfaces (A.K. Manenko, N.N. Sakhnovskaya “Hygiene of medical institutions”, Kiev: Healthy 'I, 1982, p. 50). As a result, bacterial filters themselves can become a source of bacteria, which reduces not only the effectiveness, but also the environmental friendliness of disinfection.

Thus, the method of disinfection of supply ventilation systems revealed during a patent search, an analogue of the claimed method, does not ensure the achievement of a technical result, which consists in increasing the environmental friendliness of the method while increasing the efficiency of the disinfection.

Closest to the proposed method is the disinfection of supply ventilation systems, according to which disinfection is carried out according to epidemiological indications after sampling the air at the outlet of the duct by drawing air mixture with formaldehyde vapors through the ducts (Instructions for the operation and monitoring of the effectiveness of ventilation devices in healthcare facilities // Ministry of Health USSR, 1977, p.6).

The absence of specific instructions for the implementation of the method: the quantitative content of formaldehyde vapor in the mixture, the duration of disinfection, etc., reduces the effectiveness of the method and makes the known method environmentally hazardous. In addition, the method is difficult to implement. This is explained by the fact that, by definition, steam is a substance in a gaseous state, formed from a liquid when it is heated (S.I.Ozhegov and N.Yu. Shvedova “Explanatory Dictionary of the Russian Language”, M .: AZ, 1995, p. .482). As you might guess, formaldehyde must first be heated to a vapor state, which makes this method environmentally hazardous both during implementation and after the disinfection process. In the latter case, to complete the method requires the complete release of the treated premises from people, animals, birds, etc., as well as the subsequent neutralization of formaldehyde vapor. In addition, in the known method, the presence of epidemiological indications for disinfection are indicators of the degree of bacterial contamination of the air: the total content of microbes in 1 m ^{3 of} air and the content of pathogenic staphylococci in 1 m ^{3 of} air (Guidelines for microbiological monitoring of the sanitary and hygienic condition of hospitals and maternity hospitals ”No. 132/11). In other words, in the known method, the identification of epidemiological indications for disinfection is based on a bacteriological study of air samples in a ventilated room, which does not give a clear answer to involvement in the results of studies of the ventilation system and the need for its disinfection and reduces the effectiveness of the method.

Thus, the method of disinfection of supply ventilation units identified during the patent search process, which is closest to the claimed method, does not ensure the achievement of the technical result, which consists in simplifying and improving the environmental friendliness of the method while increasing the efficiency of the disinfection.

The present invention “Method of disinfection of supply ventilation systems" solves the problem of creating an appropriate method, the implementation of which allows to achieve a technical result, which consists in simplifying and improving the environmental friendliness of the method while increasing the efficiency of the disinfection.

The essence of the invention lies in the fact that in the method of disinfection of the supply ventilation systems, according to which the disinfection is carried out according to epidemiological indications, for which bacteriological examination of the swabs from the internal surfaces of the ventilation system is carried out, if an epidemiological indication is revealed, an appropriate disinfectant solution is prepared for disinfection, the ventilation system is turned on fed into it a disinfectant solution in the form of an aerosol, which is pulled by an air stream through the ventilation system, after fixing the drug at the exits of the air ducts, the ventilation system is turned off, the time required for disinfection is maintained, then a bacteriological examination of the swabs from the same internal surfaces of the ventilation system is carried out and the control results are compared with the primary ones, with negative control results the disinfection is completed, with positive the results of disinfection and control of rinses are repeated, and when negative control results are achieved, disinfection is completed.

The technical result is as follows. Conducting disinfection according to epidemiological indications reveals the need for disinfection of the ventilation system. Due to the fact that in order to identify epidemiological indications for disinfection, a bacteriological study of swabs from the internal surfaces of the ventilation system is carried out, the reliability of information on the bacterial state of the ventilation system is ensured, and therefore the reliability of the conclusion on the availability of epidemiological indications for disinfection of the ventilation system, which increases the efficiency of its disinfection, unlike prototype in which epidemiological indications for disinfection of the ventilation system they are determined by the degree of bacterial contamination of the air sample in the ventilated room, which does not give a direct answer about the involvement in the results of monitoring the sample of the ventilation system.

Due to the fact that the disinfectant is used in the form of a solution (a disinfectant solution is prepared), the environmental friendliness of the method is increased, since in this case the disinfectant is in a liquid state and does not spontaneously enter the environment, unlike the prototype, in which the disinfectant is used in the form of vapors. The disinfectant solution in the form of an aerosol supplied to the included ventilation system allows the air flow pumped into the system to be used to pump a disinfectant solution into the ventilation system, pulling it through the ventilation system with an air stream. At the same time, it is possible to distribute the disinfectant over the internal volume of the ventilation system, due to which the disinfectant aerosol particles moving in the air flow inside the ventilation system gradually fill all its elements, which increases the disinfection efficiency. Moving in the air stream, the disinfectant aerosol particles come into contact with the internal surfaces of the elements of the ventilation system: partially - hitting oncoming obstacles, partially - clinging to the roughness of the internal surfaces, and settle on them. As a result, the internal surfaces of the elements of the ventilation system are irrigated with a disinfectant solution.

At the same time, since the ventilation system is turned off after fixing the drug at the exits of the air ducts, this ensures that the disinfectant gets on all surfaces in all elements of the system, since it encounters obstacles and flows down them.

Due to the fact that in the proposed method, the appearance of a disinfectant is recorded at the exits of the ducts, it is possible to control the filling of the ventilation system with a disinfectant, which increases the disinfection efficiency. Turning off the ventilation system after fixing the disinfectant at the exits of the ducts minimizes its exit to the premises, which increases the environmental friendliness of the method. In addition, due to the fact that after the disinfectant is fixed at the exits of the air ducts, the ventilation system is turned off, the air flow inside the ventilation system stops and the disinfectant aerosol particles remaining in the stream settle under their own weight on the internal surfaces of the ventilation system, which also prevents them from leaving the system and increases both environmental friendliness and disinfection efficiency.

Due to the fact that the ventilation system filled with a disinfectant is maintained for the time necessary for disinfection, optimal conditions are created for the disinfectant used, which also increases the efficiency of the method.

The supply of a disinfectant in the form of an aerosol into the duct simplifies the method compared to the prototype, because instead of the complex operation of evaporating the disinfectant in the proposed method, the disinfectant is actually sprayed. In addition, the proposed method allows the use of disinfectants that do not require subsequent neutralization in contrast to formaldehyde, which not only simplifies the method compared to the prototype, but also increases its environmental friendliness.

Repeated bacteriological examination of washes from the same internal surfaces of the elements of the ventilation system and comparison of the control results with the primary ones makes it possible to evaluate the quality of disinfection and decide on its completion, if negative control results are achieved, or if the control results are positive, on repeated disinfection, which improves the quality of disinfection , and therefore its effectiveness.

Thus, from the foregoing, it follows that the proposed method of disinfection of supply ventilation systems in the implementation ensures the achievement of a technical result, which consists in simplifying and improving the environmental friendliness of the method while increasing the efficiency of the disinfection.

Example. In accordance with the method was carried out disinfection of 29 ventilation systems.

To identify epidemiological indications for disinfection of the ventilation system, a bacteriological study of flushing from the internal surfaces of the ventilation system was performed. If epidemiological indications were identified, an appropriate disinfectant solution was prepared for disinfection.

For disinfection used disinfectants approved for use by the Ministry of Health of the Russian Federation: drugs from the group of Quaternary-ammonium and aldehyde-containing. In particular, a 0.2-0.4% solution of Septodor-Forte and a 1% solution of Nika-Dez were used.

To exclude the overspending of the disinfectant composition, its amount was calculated based on the sizes of the surface area to be treated and the disinfectant consumption rates to obtain positive results. The necessary initial data was taken from the passport to the ventilation unit.

A disinfecting solution in the form of an aerosol was fed into the included ventilation system, which was pulled by the air flow through the ventilation system: air intake shafts, control valves and grilles, air treatment devices (irrigation and heating chambers), air ducts and supply grilles, etc. For the formation of aerosol used pneumatic spray “Quasar” V 8 and motor spray “Ole-Mac”.

After fixing the disinfectant at the exits of the ducts, the ventilation system was turned off and the time required for disinfection was maintained in accordance with the instructions for the disinfectant. After this, a repeated bacteriological study of the swabs from the same internal surfaces of the ventilation system was carried out.

A total of 80 washes were taken at BGKP and St. In all cases, a comparison with the primary results of the control of flushing showed a lack of growth of epidemiologically significant microorganisms: the absence of germination of pathogenic and conditionally pathogenic microflora in all selected flushes from the internal surfaces of ventilation systems.

Positive results of disinfection were confirmed by control bacteriological studies of flushing from the inner surface of the duct and control samples of air in the ventilated room.

The obtained results of bacteriological studies confirm the high efficiency of the proposed method of disinfection of supply ventilation systems.

Claims (1)

The method of disinfection of supply ventilation systems, according to which disinfection is carried out according to epidemiological indications, characterized in that bacteriological testing of flushes from the internal surfaces of the ventilation system is carried out, when epidemiological indications are identified, an appropriate disinfectant solution is prepared for disinfection, the ventilation system is turned on, and a disinfectant solution is fed into it in the form of an aerosol, which is pulled by the air flow through the ventilation system, after fixing desi of the effectant at the exits of the air ducts, the ventilation system is turned off, the time required for disinfection is maintained, after which a repeated bacteriological study of the flushes from the same internal surfaces of the ventilation system is carried out and the control results are compared with the primary ones; if the control results are negative, disinfection is completed, and disinfection and control of the flushes are positive repeat and when negative control results are achieved, disinfection is completed.