SU41606A1 - The way to strengthen the crown on the wire - Google Patents

Description

Intensive corona enclosures, i.e., nonisacin of air or any other gas, can be applied in a number of practical cases, namely: gas reaction management, sedimentation of suspended particles from air (precipitation of metal and oxides, smoke control of factories, military vessels, air purification in hazardous industries - tobacco, lead, tarring, etc.), air ozonation, as a sanitary measure, activation of bleach gas, etc.

In order to achieve a more intensive coronation of any electrodes than is the case at an industrial frequency (i.e., 50 aperiods per second), it is necessary, for direct electrical connection of the supply device with the corona electrode, to impose high-frequency vibrations on the normal-frequency wave. Due to this, the phenomenon of ionization will become much stronger. In order to eliminate the need for special high-frequency apparatus, a new method of feeding corona electrodes is proposed, which differs from those known in that, in order to amplify the corona, auxiliary oscillations are superimposed on the main AC wave, the fifth corona electrode. To accomplish this, the elements of the oscillating circuit are used

(485)

self-capacitance of the corona electrodes and self-induction of wires that supply high voltage to the corona electrode. The electrode is connected to a source of high voltage electrical energy through a spark gap, breaking through n at each half period. Due to the breakdown, high-frequency oscillations in the circuit are excited from capacitance and self-induction. The magnitude of the spark gap is empirically determined.

If space is available, the device can be supplemented with some additional capacity and self-induction, which are suitably switched on, thereby increasing the energy in the oscillating circuit, and, accordingly, the ionization processes.

The subject matter of the invention.

1. A method of amplifying a corona on a wire, characterized in that the attachment of the corona electrode of the propod is carried out through a spark gap, so commensurate that the discharge occurs at a voltage close to the amplitude of the supply voltage, and causes self-induction of the circuit itself n capacity corona electrodes

ko.Teoare.ibiiufl () a field d, the oscillations of which would be imposed on the main wave feeding that (.

2.When the method of years. 1 application of the discharge electrode in the wire pida with needles or the like unequal momerosti.

3. With the method according to paragraphs. 1 and 2, the use of an additional capacitor connected in parallel with a corona electrode and a second additional capacitor connected in series with the electrode.

4. When the method according to paragraphs. 1-3, the use of spark gap electrodes made of zinc or other metal, which has the property of hindering the transition of a spark into an arc.