SU1393485A1 - Method of charging particles of materials - Google Patents

Abstract

The invention relates to methods for charging materials and can be used in all areas of industry that use materials charging in technological processes, for example, to separate the effluent from electroseparation and electroclassification. The goal is to increase the effectiveness of the regulation of the charging process. The material is charged by precipitating ions from the gaseous medium through a layer of ions deposited on the material, additionally passing a dissipative unipolar electron current, the same polarity with the ion current, the value of each component being regulated selectively, and the resulting sum currents set maximum. 1 il. F (L

Description

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The invention relates to methods of packaging materials and can be applied in all areas of MMFLFieHHocTH, which use materials charging processes in technology T46CKVfx, for example, for separation of raw material, in electrical separation and electroclassification.

The aim of the invention is to increase the efficiency of regulating the charging process,

} ia the drawing shows a scheme for charging particles of a material.

The circuit consists of an ionizer I installed at the inlet inside a metal pipe 2 placed coaxially on the insulators, a wire electrode 3 connected to the electrodes, a high voltage source 4, sample 5 connected to an oscilloscope 6, and a fan 7 installed at the entrance pipes 2,

The method is compounded as follows.

An adjustable high voltage from a low-voltage high-voltage source 4 is applied to the electrode 3 and the pipe 2 according to the scheme. At the same time between the pipe. and the electrode 3 should be neither corona nor spark. Under these conditions, with oscilloscope 6, the absence of the ion and electron current on the sample 5 with the high voltage source 4 turned on. To fix the electron current outside the electron-electron gap, it is necessary to blow through the fan 7

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dissipative electric current in gases or at least the ionic component in them substantially predominated over the electronic component.

Example: A low-voltage arc discharge is used as the source of the ionic ion, with a voltage of 6 V applied to the electrodes. A C 1 65 A device is used as the oscilloscope. The velocity of the air flow cleaned in the filter in the air duct is 6 m. / s. As objects for charging, particles of various materials of frozen food products are used at (-13) - (- 10) s (the air temperature is maintained at the same level) and part C 1 of the dried products. It was established experimentally that the charging of particles of materials for 1 minute is carried out weakly due to the ionization of air at a level of 0.1 V, which is clearly not enough to carry out a number of technological processes, for example, electrical separation. According to the conditions of charging modes, the minimum value of the charge of the material of the electronic component is 1P ×

When blowing a stream of ionized air, particles of a material are exposed to ions, which are deposited on the material and inform it of the corresponding charge. In the charge dissipation process, a dissipative ion current in the gas and on particles occurs.

To stabilize the process of charging materials used

ionized air. In this case, the ion – Q walk through the ionized gas

the shutter must provide air ionization without the electronic component of the dissipative electric current, which can be monitored by detecting the ion component of the dissipative electric current using an oscilloscope 6, with the fan turned on and the source of high voltage 4 turned off,

As an ionization source of air, one can use known methods and devices, for example, radioactive radiation, ultraviolet pampas and other sources. It is necessary to determine the intensity of air ionization and reduce the possibility of one-time generation of electricity from a single source by electron and ion components.

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dissipative electron current, which can be given a strictly specified frequency, polarity, amplitude, duty cycle, and the electronic component of the dissipative electric current must have adequate polarity with ionic electric current and have a constant maximum value.

Claims (1)

Invention Formula The method of charging particles of materials by precipitating ions on them from the gaseous medium, in contrast to the fact that, in order to increase the efficiency of controlling the charging process, a layer of ions deposited on the material additionally passes a dissipative unipolar electron current of the same polarity with ion current, with this value each of the components is adjusted selectively, and the resulting sum of currents is set to the maximum.