SU521016A1 - Electroseparator Corona Electrode - Google Patents

Description

one

The invention relates to devices for charging particles of a separated material in corona electric separators used, in particular, in the mining industry,

A corona electrode of an electroseparator is known, including a number of spikes connected to a high voltage source. The disadvantage of such an electrode is the cessation of the separation process along the entire length of the corona-forming system in the event of occurrence of spark and arc discharges in the interelectrode gap, as well as the failure of arc discharges

In order to protect the system from arc

Discharges and intensification of the separation process suggest that the corona tips of the electrode be assembled into sections, isolated from each other, and connected in parallel with a high voltage source through resistors.

The drawing shows a diagram of the proposed device.

The device contains branch busbars 1 with discharge points 2 of the electrode, connected in parallel via gated resistors 3 to the busbar 4, which is connected to a high voltage source 5, and a grounded collecting electrode 6. The resistance value of the resistors 3 is chosen so that The operating current of the section did not exceed the value of the critical value of the current at which the spark may develop into an arc.

The device works as follows.

The operating current from the high-voltage source 5 via the bus 4 flows through the resistors 3 and bus 1 to the tips of m 2 partitioned sections of the discharge electrode. In the normal operating mode of the separator, the corona-current of the electrode section passes through each resistor, which causes a voltage drop across it, the magnitude of which is many times less than the operating voltage of the high-voltage source 5, therefore, it practically does not affect the corona discharge voltage. In the case of the occurrence of corona overgrowth conditions in the sparks at one of the corona-producing electrode sections, the current increases sharply between the tips 2 and the collecting electrode 6, respectively, and the voltage drop across the resistor increases accordingly. As a result, the electric field strength in the inter-H electrode space decreases, and the development of a breakdown is limited by spark discharge, which does not stop the separation process in this area, but only reduces its efficiency, while in the remaining parts of the separator the process proceeds without changes. . After the spark is extinguished, the corona discharge again reaches its nominal value and the corona system is completely jj

The separator continues to operate normally.

Claims (1)

Invention Formula The corona electrode of the spectroseparator, which includes a series of spikes connected to a high voltage source, characterized in that, in order to protect the system from arc discharges and intensify the separation processes, the spikes are assembled in sections isolated from each other and connected in parallel with a high source voltage across resistors.