SU66047A1 - Method for determining the effective radius of a pulsed corona - Google Patents

Description

METHOD FOR DETERMINING AN EFFECTIVE RADIUS OF A PULSE CORONB1

It was filed on May 7, 1943 at the People's Commissariat for Power Stations No. 128 (336912). Published on March 31, 1946.

The subject of the present invention is a method for determining the effective radius of a pulsed corona from the magnitude of the equivalent impedance of the corona wire. A distinctive feature of the method is that the characteristic impedance of the corona wire is compared with the characteristic impedance of the wire, the discrepancies of which ensure the absence of a crown.

The invention is illustrated in the drawing, which shows an electrical circuit allowing the proposed method to be carried out. Here, / is the corona wire, 2 is the wire, the dimensions of which ensure the absence of a crown, 3 and 4 are wires of the same cross section, 5 is a pulse generator, and b is the zero indicator.

From the pulse generator 5, a voltage wave of a certain shape with amplitude and sufficient for corona wire / and insufficient for corona wire 2 is thrown. At the same time, voltage 3 and 4 will induce voltages with different amplitudes, the difference of which will show a zero pulse indicator 6. Continuing to power impulses to point A, gradually changing the distance 5i between the wires / and 5 until the zero indicator establishes the equality of the voltages in the wires 5 and 4.

Having fixed the distance 5j and the radii of the wires, it is easy to calculate the effective corona radius.

The same can be achieved in a different way: if the distances are equal, Si 82 const changes the amplitude and the incident wave until the voltages induced in wires 3 and 4 become equal. In this case, the effective radius of the corona of the wire / is equal to the radius of the wire 2. However, the maximum amplitude of the incident waves should not exceed the voltage of the beginning of the corona of the wire 2.

After measuring the radii of streamers with one of the known methods, one can easily establish the relationship between the latter and the effective radius of the crown. The subject matter of the invention is specifically to determine the effective radius of a pulsed corona in terms of equivalent wavelength of the corona wire, characterized in that the characteristic impedance of the corona wire is compared with the characteristic impedance of the wire, the dimensions of which ensure the absence of a corona.