SU824490A1 - Device for determining loose material electrifiableness - Google Patents

Description

The invention relates to techniques for controlling the intensity of electrification of bulk materials, may find application in animal feed, chemical, ⁵ metallurgical and other industries related to the production and transportation of bulk materials.

It is known that the determination of propensity to electrification .. NOSTA bulk materialistic fishing ¹ is of special practical interest for the timely application of technological 'techniques to limit static discharges and thereby prevent occurrence Nia 15 explosions and fires the transported solids.

A device is known for determining the propensity for electrification of bulk materials, comprising a sensor made in a vice-rotating metal plate electrically connected to a recording amplifier. The intensity of electrification is fixed due to the current generated in the rotatable plate as it approaches the analyzed electrified granular mass [1].

A significant disadvantage of the known device is the lack of 30 possibilities for controlling the intensity of electrification directly. During transportation of the analyzed bulk material. This is due to the fact that any dusting of the sensor plate leads to its shielding, and, accordingly, to a sharp decrease in sensitivity. In turn, due to the dependence of the readings on the registration of electrification and the speed of the plate-sensor, it (the sensor) cannot be placed directly in the analyzed granular mass or pipeline conveying system due to the inhibitory effect on the rotating plate of both particles of granular material and airborne aerodynamic flows of pneumatic conveying systems. Closest to the proposed is a device for determining the electrical conductivity of bulk materials during transportation through pipelines, containing a pipeline and a sensor 12]. This device also has a noted drawback.

The purpose of the invention is the expansion of the functionality of the device.

This goal is achieved by the fact that in the device for determining the electric 3 824 490 euvm of bulk materials when transporting them through pipelines containing a pipeline and a sensor. indicated. m <th sensor is formed as a ferroelectric with two parallel faces, which are arranged mgtalli-, cal plate attached to scheme ³ 'IU permittivity measurement, the sensor being mounted on the pipeline so that said faces are perpendicular to the pipe axis. <q

The drawing schematically shows the proposed device.

It consists of a conveying pipeline 1, through which the bulk mass 2 by gravity or transportation moves in a predetermined direction. In the plane of the conveying surface of the pipeline, a sensor is installed, made in the form of a ferroelectric 3, with deposited metal layers 4 and 5 ,. to which 20 a dielectric permittivity measuring circuit 6 is connected (l & elcometer).

The device operates as follows. 25

Particles of the analyzed bulk material 2 in the process of transporting it through the pipeline 1 as a result of their natural collision between themselves and with the walls of the pipeline ηθ 2 acquire a charge of static electricity. Moreover, the smaller the particles, the lower the electrical conductivity of the particles and the walls of the pipeline 1, the less the relative humidity of the air, the intense interaction and the larger the contact area when the particles collide with each other and the walls of the pipeline 1, the more intense the electrification, and accordingly the increase in the electric field strength, is 40 thicker transported material 2. An increase in this tension leads to a change in the dielectric constant of the ferroelectric 3 of the sensor. The change in the dielectric constant is recorded using a measuring circuit (dielcometer) 6, connected to metal substrates 4 and 5 deposited on a ferroelectric 3. Thus, directly during the transportation of bulk material. there is a registration of the accumulation of electric charges in the transported material - the initial stage of electrification and an increase in the electric field strength in the bulk of the transported bulk material with increasing intensity of Electrification.

It should be noted that the proposed * device allows you to measure the field strength in a non-contact way, if the pipeline is made of dielectric material. The ego allows you to measure the electric field generated by the volume * charge of the flow inside the pipeline and significantly expands the functionality of the device.

Claims (2)

The invention relates to the technique of controlling the intensity of the electrification of bulk materials, can be used 3 feed, chemical, metallurgical and other industries related to the production and transportation of bulk materials. It is known that the determination of the propensity for electrification of bulk materials is of particular practical interest for the timely application of technological methods on constraints; the reduction of static electrification and the prevention by that of the occurrence of explosions and fires of transported bulk materials. A device for determining the propensity to electrify and bulk materials is known, which comprises a sensor made in the form of a rotating metallic plate electrically connected with a recording amplifier. The intensity of the electrification is fixed by the current generated in the rotating plate as it approaches the analyzed electrified bulk mass 1. A significant drawback of the known device is the lack of control over the intensity of electrification directly. This is due to the fact that all dusting of the sensor plate leads to its shielding, and, accordingly, to a sharp decrease in sensitivity. In turn, in connection with the dependence of the readings of the electrification and on the speed of the sensor plate, its (sensor) cannot be placed directly into the analyzed bulk mass or pipeline transport | due to the braking system, due to the braking effect on the active plate of both particulate material and air aerodynamic flows of pneumotransport systems. The closest to the present invention is a device for determining the electrifiedness of bulk materials during their transportation through pipelines, which contains a pipeline and a sensor 12. This device also has a marked disadvantage. The purpose of the invention is to expand the functionality of the device. This goal is achieved by the fact that in a device for determining the electroforming of bulk materials when they are transformed into a pipepresonic containing pipelines and a decree sensor. The toift sensor is made in the form of a ferro electrician with two parallel faces on which the mounts are placed:; 4 hems attached to the dielectric permittivity meter; the sensor is mounted on the pipeline so that the perpendicular edges of the pipeline axis are The drawing schematically shows the proposed device. It consists of a transporting conduit 1, through which the bulk mass 2 flows by gravity or by transportation in a given direction. In the plane of the conveying surface of the pipeline, a sensor is installed, made in the form of a ferroelectric trika 3, with deposited metal layers 4 and 5, to which a circuit 6 for measuring the dielectric constant (d elkomatr) is connected. The device works as follows. Particles of the analyzed bulk material 2 in the course of its transportation through pipeline 1 as a result of their natural collision between themselves and With the walls of pipeline 2 acquire a charge of static electricity. Moreover, the smaller the particles, the lower the electrical conductivity of the particles and the walls of the pipeline 1, mene relative air humidity, and the intense interaction and the larger the contact area when particles collide with each other and with the walls of the pipe 1, the more intense The electric field in the thickness of the transported material 2. The increase in this intensity leads to a change in the dielectric constant of the ferroelectric 3 sensor The change in the dielectric constant is recorded with using the measuring circuit (dielkometra) 6, connected to the metal substrates 4 and 5, deposited on the ferroelectric 3. Thus, directly during the transport of bulk material. the accumulation of electric charges in the transported material is registered — the initial stage of electrification and the increase in the intensity of the electric field in the thickness of the transported bulk material as the intensity of electrification increases. It should be noted that the proposed device allows to measure the field stress in a non-contact manner if the pipeline is made of a dielectric material. The ego allows measuring the intensity of the electric field generated by the volumetric charge of the flow inside the pipeline and greatly expands the functional possibilities of the device. Apparatus of the Invention A device for determining the electrifiedness. bulk materials during pipeline trans porting, containing piping and a sensor, so that, in order to expand the functionality of the device, the specified sensor is made in the form of a ferroelectric with two parallel faces, on which metal plates attached to the measuring circuit dielectric constant, the sensor being installed in the pipeline, so that said faces are perpendicular to the axis of the pipeline. Information sources, . taken into account during the examination 1.Muskov LA Electronics in labor protection. M., Profizdat, pp.103-105. 2. Mozhimov V.K. and others. Static electricity in industry and protection from it, M., Ener-i, 1978, p.33-34. .