SU1613185A1 - Arrangement for atomizing powders - Google Patents

Abstract

The invention relates to a device for spraying fine solid materials and can be used as part of a laser Doppler velocity measuring device. The aim of the invention is to obtain an aerosol with a high degree of monodispersity. For this, the device is provided with a porous partition located in the cylindrical cavity of the housing above the gas supply nozzle and placed in the housing above the partition surface by a tangential nozzle communicated with a source of compressed air. The gas supply nozzle is provided with a plug with openings in its side surface. As it passes through the porous septum, a fluidized bed of powder is formed, in the upper part of which a swirling air stream is supplied, carrying the smallest particles to the outlet nozzle. 1 hp f-ly, 1 ill.

Description

The invention relates to a device for spraying fine solid materials and can be used as part of a la apparatus. grain doppler velocity meter.

The purpose of the invention is to obtain a high degree of aerosol} monodispersity.

The drawing shows the device section.

The device comprises a housing 1 with a cylindrical cavity 2 and a gas supply nozzle 3 installed in the outlet portion of the nozzle housing 1, made in the form of a nozzle 4, a cup 5 and a sleeve 6 with a tapered cavity 7. The latter is connected to the cavity 2 of the housing 1 by means of intersecting channels 8 located

perpendicular to the lateral surface of the cavity 7. The sleeve 6 is provided with an outlet 9 that directs the aerosol to the experimental area. The device is equipped with a porous partition.

10, located in the cylindrical cavity 2 of the housing 1 above the nozzle 3, and placed in the housing 1 above the partition 10, the tangential nozzle

11 communicated with a compressed air source (not shown). A partition 12 of the powder is placed on the partition 10.

In order to ensure uniformity of the air flow entering through the partition wall, the branch pipe 3 is provided with a plug 13 with openings 14 in its side surface.

The device works as follows.

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Air under low pressure through the pipe 3 is supplied to the cavity 2. When punching through the porous wall 10, the air mixes with the charge 12 of the powder and forms a fluidized bed of powder. In the upper part of the fluidized bed, in which powder particles are most crushed, 11 are fed by a swirling air flow, which discharges fine aerosol to nozzle 4. Having sped up in nozzle 4, the aerosol passes through channels 8 in glass 5 to the cavity 7 and at high speed strikes its walls. Due to the impact, the aggregates of the powder particles are destroyed. Next, through the nozzle 9, the crawled aerosol is directed to the area of the experiment.

Adjusting the concentration of the aerosol can be done by varying the pressure of the air entering through rail 3 and 11, as well as by changing the position of the partition 10.

The use of the device allows to obtain an aerosol with a high degree of monodispersity and adjustable concentration.

Formula i-z gain

1. A device for spraying powders, comprising a body with a cylindrical cavity and a gas supply nozzle, mounted on the bsod section of the nozzle body, made with a cone-shaped cavity and with intersecting channels connecting it with the body cavity, perpendicular to the inner side surface of the cavity characterized in that, in order to obtain an aerosol with a high degree of monodispersity, it is provided with a porous partition located in the cylindrical body cavity above the nozzle gas supply and placed in the housing above the surface of the partition tangential nozzle communicating with the compressed air source ..

Claims (2)

I 2. The device according to claim 1, characterized in that the gas supply nozzle is provided with a plug with openings in its side surface