SU1550369A1 - Virtual impactor - Google Patents

Abstract

The invention can be used for environmental protection, in the microbiological industry, meteorology and agriculture. The aim of the invention is to reduce the loss of particles in the impactor and to make it possible to adjust the threshold particle size. The virtual impactor contains an inlet 1, a nozzle 2 formed by a confuser 3 and a tube 4 placed coaxially and inside the inlet 1 and confuser 3. In the nozzle 1, the tube 4 is joined to the nozzle 6 of suction of small particles. In addition, the tube 4 is provided with an axial movement device 7. The aerosol flow is accelerated in the nozzle 2, then 10% of the flow is sucked through the nozzle 5, the rest of the flow goes through the tube 4 and the nozzle 6. Particles with a diameter larger than the threshold size, due to inertia enter the nozzle 5, the remaining particles are removed through the nozzle 6. The adjustment of the threshold particle size is carried out by changing the width of the output slice of the accelerating nozzle, which is provided by the device 7 for axial movement of the tube 4, made in the form of a screw pair. 2 Il.

Description

31550369

2, then 10% of the flow is sucked through pipe 5, the rest is through pipe 4 and pipe 6 Particles whose diameter is larger than the threshold particle size due to inertia enter pipe 5, other particles are removed through pipe 6 "

The adjustment of the threshold particle size is carried out by changing the width of the output slice of the accelerating nozzle, which is provided by the device 7 for axial movement of the tube 4, made in the form of a screw pair. 2 Il.

The device relates to the control and testing equipment, in particular to devices designed to determine the fractional composition of the aerosol, and can be used for environmental protection in the microbiological industry, meteorology and agriculture

The aim of the invention is to reduce the loss of particles in the device and to make it possible to adjust the threshold particle size.

FIG. 1 and 2 shows a virtual impactor, section 0

The virtual impactor of fig „1,2) contains an inlet nozzle 1, an annular accelerating nozzle 2 formed by a confuser 3 and a tube 4 placed coaxially and inside the inlet nozzle 1 and confuser 3. The confuser 3 is combined with coaxially located large nozzle outlet 5 . Inside the inlet nozzle 1, the tube 4 is docked with the nozzle 6 of the suction of small particles. In addition, the tube 4 is equipped with an axial movement device 7 made in the form of a screw pair.

The device works as follows.

The aerosol stream is accelerated in the nozzle 2, after which a smaller part of the total air flow (5-10%) is sucked through the nozzle 5 of the coarse particles, and the rest is through the tube 4 and the nozzle 6 of the small particles suction. At the same time, particles with an aerodynamic diameter than a certain threshold value, due to inertia fall into the nozzle 5 of the output of large particles. The adjustment of the threshold particle size is due to the change in the width of the output slice of the accelerating nozzle 2, which is ensured by the axial movement of the tube 4 by means of the device 7, the axial movement.

five

0

five

0

five

0

five

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five

This virtual impactor design provides the opportunity; change the direction of movement of the main part of the flow in the separation area from 90 to 180.

In the virtual impactor shown in FIG. 1, the aerosol stream is introduced along the axis of the instrument, and the suction nozzle of small particles is located perpendicular to the axis. However, in a device designed for low aerosol flow rates and having a small size, there is a loss of particles in the rotation between the tube 4 and the nozzle 6 for suction of small particles.

In the variant of the virtual impactor (Fig. 2), intended for use in field experiment, the nozzles 5 and 6 are made coaxial, and the entrance is made in the form of an annular gap formed by a wide cut of confueor 3 and the edges of a circular disk 8o. low wind speeds do not depend on wind direction.

The ratio of the diameters of the tube 4 DZ and the nozzle 5 of the withdrawal of large particles D is not essential, however, when the minimum value of the threshold particle size is limited, since the width of the nozzle cannot be less than

Pi-Da T

The use of the invention will ensure reliable separation of the particles of the aerosol under investigation into fine and coarse fractions, and the device has no particle losses in the nozzle of coarse particles and provides the ability to adjust the threshold particle size o

Claims (1)

Invention Formula A virtual impactor consisting of consistently and coaxially located Compiled by M. Rogachev Editor M. Tsitkina Tehred L. Oliynyk Corrector. Cherni Order 266 Circulation 500 ZNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 4/5, Moscow, Zh-35, Raushsk nab. 113035 Production and publishing plant Patent, Uzhgorod, st. Gagarin, 101 Subscription