Abstract:
Basic. In order to air disinfection of medical objectives in areas with special hygienic sanitary
and aseptic type is using BUV lamps. The cleaning of the rooms atmospheric air is usually performed
in lack of staff and patients by direct irradiation, except in special cases.
When calculating the required amount of UV radiation for the reclamation of atmospheric air in the room
using a formula which shows the relationship where every m3 of room volume it was for no less than
0.75 - 1,0W lamp type BUV capacity.
Irradiation spaces with UV lamps should be carried out 3-4 times per day. The total time of irradiation
of the rooms must not exceed 8 hours per day with duration of action of 30 min.
Bactericidal lamps can be placed on the ceiling or walls so that the flow of ultraviolet radiation should
be directly sent down, capturing maximum and uniform amount of air space, preferably distributed
evenly throughout the room or directly on workspaces.
Materials and methods.To assess the quality of air disinfection by ultraviolet irradiation method
in rooms with specialized sanitary-hygienic regime type will use multiple methods:
Chronological method, or decreasing time evaluation of UV irradiation source activity. For each source
of ultraviolet radiation there are periods with maximal efficiency. When installing the UV lamps, every
working hour is written in a registry so it monitors sanitation regime and the working term of ultraviolet
irradiation source.
The second method is widely used, named arbitrary bacteriological control, that evaluate the quality of
air disinfection method of sowing air samples collected orcontrol biological samples after destruction.
Unfortunately these methods can not be used with absolute application, experts in the field consider that
direct evaluation by instrumental method sources would be a good solution. It will assess the effective
power of radiation in (Watts) per (m2) multiplying to the room volume (m3). This assessment can be
done using the TKA-PKM-12 device.
Results.We evaluated the activity of bactericidal lamps and got a gap of ultraviolet irradiation
potential. Evaluation allows us to say that the efficiency of some lamps is not so good.
Discussion results. We compared the results were assessed with the European legislative
framework in the field of public health and determined that in some cases is not satisfy the special
requirements of power source, but if we look at this moment through the old regulations, calculate the
average power at room volume, such a situation emerges in the regulations.
Conclusion.This speaks about possible insufficient action sources of ultraviolet irradiation for
aseptic spaces. It is proposed to deepen the study by having wider assessment of ultraviolet irradiation
facilities, and a next step to determine the wavelength of the radiation spectrum bactericide, it is also an
attribute of quality efficiency of these sources of ultraviolet light.
Description:
Nicolae Testemitanu State University of Medicine and Pharmacy, Chisinau, Republic of Moldova, The 6th International Medical Congress for Students and Young Doctors, May 12-14, 2016