SU577441A1 - Device for trapping wind erosion particles - Google Patents

Description

Squeezing 5 in nods in contact with the cam mechanism CJM 6, the drive is carried out from the engine 7. Hub 2 is filled with a viscous liquid 8.

The entire device is enclosed in a housing-fairing 9, in the front part of which dust collector device 2 and sensors of wind flow 10 are inserted to measure its parameters.

The device works as follows

Depending on the expected speed of the air flow and the degree of its dustiness, a nozzle with an appropriately calibrated f hole is selected, then it is filled with a viscous liquid, which is also selected based on speed and g. dusty air potszha. The fluid must fill the nozzles, provide a drooping and subsequent return, and adsorb the dust particles well.

The nozzles 2 sec. / The liquid is weighed on the scales, after which it is installed in the holding tube 1, with the elastic nozzle in the normal position (the cam is in the zero position, just touching the nozzle).

A separate item in the assembly is ready to work. It is installed in the test place of the flow, the actuator is turned on, and the cam acts with a given frequency

on the elastic nozzle, causes the fluid to reciprocate in the tube until a free-hanging drop is formed and then returned to the nozzle. I

After a predetermined purge time (1-5 min with cyclic exposure to the adsorbing fluid, nozzles are removed with the liquid and weighed. The difference in weights and determines the degree of eroding of this material.

To expand the range of research, individual dust collection elements are installed alternately with devices for determining wind flow parameters.

ka (for example, with Pitot-Prandtl tubes) and assembled into a comb. Such an embodiment of a combined comb, where devices for capturing particles and measuring wind flow alternate, allows us to simultaneously study the density gradient, the distribution of oro particles and the wind flow gradient over the field, which greatly increases the accuracy of determining the number of particles caught.

As a device that creates an alternating pressure in the housing (in a nozzle with a liquid,), it can be used, for example, a sylph with a drive or a valve.

Such a device design allows the height of suspended particles to be determined. By separating particles from a viscous liquid, particle sizes are relatively easy to determine, which provides important information: the distribution of particles in height, flow, depending on their dispersion.

Claims (2)

1. A device for trapping particles during wind erosion, including a dust collecting cell with an adsorbing viscous liquid, characterized in that, in order to increase the accuracy of the erosion, the cell is made in the form of a branch pipe that is equipped with a mechanism for moving the viscous liquid inside it. 2. ycTpt cTBO in accordance with claim 1, which is related to the fact that, in order to quantify the distribution of particles along the height of the wind flow, the cells are assembled into a comb. Sources of information taken into account in the examination: 1, USSR Copyright Certificate No. 208327, class (t01 K 21/12, 1963. 2. Bocharov, AP, Instruments for Investigating the Processes of Wind Soil Erosion, Bulletin of Agricultural Sciences Alma Ata, 1965, No. 5, p. 46-49.