SU405079A1 - DEVICE FOR MEASURING THE ELECTRICAL CONDUCTIVITY OF METAL-LIKE PLASMA - Google Patents

Description

one

A device is known for measuring the electrical conductivity of a metal-like plasma, for example, an alkali metal plasma in a supercritical state, comprising a housing with two plane-parallel electrodes inside, provided with conductors, potential clamps and an external heater. Such a device has a low measurement accuracy due to the chemical and structural instability of the housing shunting the test medium in the process of measuring the plasma electrical conductivity, as well as the fact of plasma shunting.

In order to improve the measurement accuracy, in the proposed device between the upper electrode and the housing there is provided an annular space in which a cup with gaps relative to the electrode and the housing is installed. The lower open end of the glass is aligned with the plane of the measuring end of the upper electrode, the upper end of the glass is hermetically connected to the electrode through an electrical insulator, and an inert gas supply nozzle is connected to the annular plane between the glass and the electrode.

The drawing shows the proposed device.

The device consists of an external heater 1, housing 2, the upper and lower plane-parallel electrode 3 and 4, current leads

5 and potential leads 6, cup 7, surrounding the upper electrode 3, hermetically connected to nelp through insulator 8 and equipped with a nozzle 9 for supplying neutral gas, the density of which under operating conditions is less than the density of the test substance, such as gels, when studying the electrical conductivity of cesium. In addition, the device contains a reservoir 10 with the test

substance and filling nozzle 11. The lower electrode 4 of the device is equipped with a viewing tube 12 for pyrometric measurement of its temperature and alkaline metal supply channels 13. At the top of the case

a condenser-reflector 14 is provided.

The device works as follows. A supercritical pressure of a neutral gas, such as gels, is created around the body, the heater is turned on, raising the temperature of the interelectrode space to a supercritical level, alkali metal is fed into the interelectrode space through channels 13 until it is guaranteed to close electrodes 3 and 4, the voltage difference between the current leads 5 is recorded and the dependencies are recorded potential differences at terminals 6 from the interelectrode distance at a constant current in the measuring circuit by moving the upper electrode along with

a glass