RU2417105C1 - Air decontaminator - Google Patents

Abstract

FIELD: process engineering. ^ SUBSTANCE: invention relates to air decontaminators. Proposed device comprises casing with its inner surface coated with combined coat made up of noise absorbing layer from foamed polyethylene and reflecting layer from aluminium foil. Said casing accommodates filter, fan, first shutter grid, mercury gas-discharge low-pressure lamps inclined at angles turned to casing axis at 15-60 degrees, and second shutter grid, all being arranged successively from inlet to outlet. ^ EFFECT: higher efficiency of decontaminating, longer life of gas-discharge lamps. ^ 2 cl, 3 dwg

Description

The invention relates to disinfectants and can be used for bactericidal air disinfection using ultraviolet radiation.

A device for air disinfection is known, comprising a housing with inlet and outlet windows with louvres, a filter, a fan, the first two labyrinth partitions, vertically parallel to the axis of the housing mercury-vapor lamps and the second two labyrinth partitions, are combined in series on the inner surface of the housing; a coating consisting of a sound-absorbing layer of foamed polyethylene and a reflective layer of aluminum foil, in the housing opposite the lamps a chamber is formed section of (cm. specification of a patent RF №2153886, IPC A61L 9/20, publication 10.08.2000).

A disadvantage of the known device is the high aerodynamic resistance to air flow.

The task of the invention is to increase the efficiency of disinfection and increase the service life of mercury gas discharge lamps of low pressure.

The invention consists in the following.

A device for air disinfection, comprising a housing, on the inner surface of which a combined coating is applied, consisting of a sound-absorbing layer of foamed polyethylene and a reflective layer of aluminum foil, a filter, a fan, and a first louvred grille tilt, at angles rotated by 15-60 degrees in different planes with respect to the axis of the housing, low-pressure mercury discharge lamps and a second louvre grille. In addition, the louvre grilles are made of S-shaped plates located obliquely with respect to the vertical axis of the device.

The invention is illustrated by drawings.

Figure 1 presents a device for disinfecting air, a General view in section;

figure 2 is the same, section aa;

figure 3 is a diagram of the distribution of air velocity over the entire inner diameter of the installation.

The device for air disinfection contains a housing 1, on the inner surface of which a combined coating is applied, consisting of a sound-absorbing layer 2 of foamed polyethylene and a reflective layer 3 of aluminum foil. In the housing 1, in the direction from the input window 4 to the output window 5, a filter 6, a fan 7, a first louver grill 8, an irradiation chamber 9 with an inclination at angles α and β, rotated 15-60 degrees in different planes with respect to the axis housing 1, mercury discharge lamps 10 low pressure and a second louvre grille 11.

The device operates as follows.

The air taken from the room through the inlet window 4 is cleaned of dust in the filter 6, is supplied by the fan 7 through the first louvre grill 8 to the irradiation chamber 9, where it is disinfected by the ultraviolet radiation generated by ultraviolet mercury gas discharge lamps 10. The processed air through the second louvre grille 11 is sent to the room. The louvre grilles 8 and 11 prevent ultraviolet radiation from entering through the windows 4 and 5, which allows people in the immediate vicinity of the installation to process the air in the room.

To ensure increased efficiency of air disinfection, it is necessary to create the same radiation dose acting on the microorganism throughout the living section of the radiation chamber 9. The same dose of radiation is achieved by different combinations of the values of bactericidal exposure and the duration of exposure. The dose of radiation is expressed by the formula

,

,

where D _µ is the surface dose of radiation acting on the microorganism µ in the housing of the bactericidal unit;

E (d _i ) is the irradiation of the microorganism from the i-th point source of UV radiation, determined only by the distance d from it to the point emitting portion of the i-th lamp;

N _T is the set of point sources of UV radiation acting on the microorganism µ;

ν is the movement of the microorganism µ inside the installation casing purposefully from entrance to exit with a certain air flow rate;

l is the length of the irradiation chamber 9;

Figure 3 shows a diagram of the distribution of air velocity over the entire internal diameter of the installation, in which the air velocity is distributed unevenly, in a sinusoid, characterized by a decrease in speed in the center and near the walls of the installation, and at a distance ^of _{1/4 of the} diameter D from the walls, it has two maximum values that are located opposite the inclined lamps in the direction of air movement, which allows to achieve a positive effect, which is the object of the invention.

Claims (2)

1. Device for air disinfection, comprising a housing, on the inner surface of which a combined coating is applied, consisting of a sound-absorbing layer of foamed polyethylene and a reflective layer of aluminum foil, in the housing in the direction from the inlet window to the outlet window, a filter, a fan, a first louver grille , with a slope, at angles rotated by 15-60 ° in different planes with respect to the axis of the housing, low-pressure mercury discharge lamps and a second louvre grille. 2. The device according to claim 1, characterized in that the louvre grilles are made of S-shaped plates arranged obliquely with respect to the vertical axis of the device.

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