SU540201A1 - Device for determining the phase boundary of two-phase media - Google Patents

Description

one

J The invention relates to the study of fluid flow flowing in machine elements, assemblies and pipelines, pneumo-fluid, and equilibrium systems.

Devices for determining the phase separation gradient are known, which are capacitive, isotope or ultrasonic sensors 1,

These devices require the use of sophisticated secondary equipment.

The closest in technical solution to the present invention is a device for determining the phase interface of gas-liquid media containing electrodes,; connected to a current source, a recording device 2.

This device determines the position of the phase boundary or steam content by the electrical conductivity of the gas-liquid medium through which the electrodes are closed. Therefore, the device can only be used to determine the phase boundary in electrically conductive gas-liquid media.

The purpose of the invention is to determine the phase boundary of non-conducting media.

The goal is achieved by the fact that the electrodes are located at an angle to each other, and a high-voltage discharge is used as the current source.

FIG. 1 schematically shows the proposed device; in fig. 2 and 3 - installation of electrodes in the study of gas-liquid flows with a liquid phase in the center and

near the wall, respectively.

The device is an insert 1 in the pipe 2, in which electrodes 4 are fixed on the insulator 3 and connected to the power source 5, which is a high-voltage discharge. The measuring circuit is formed by a coil 6 with a load of 7 and a voltmeter 8.

The device works as follows. When power is supplied from source 9 through

the toggle switch 10 to the high-voltage electric discharge 5 between the electrodes 4 produces a high-voltage discharge. If the pipeline 2 is completely filled with gas, then the discharge occurs at the place of the smallest gap by the electrodes. The device 8 detects the current or voltage in the circuit of the coil 6 corresponding to this case. If a liquid appears in the place of the smallest gap (in Fig. 2 - in the center of the pipeline, and in Fig. 3 - at the wall),

This high-voltage discharge is shifted to the place where the phase medium is located and at the same time the smallest gap between the electrodes. And this place corresponds to the phase boundary. Due to the change in the length of the gap between the electrodes, the current changes (or

voltage) in the coil circuit 6. If the pipeline is completely filled with liquid, the discharge will not occur. This case will correspond to the minimum current (or the maximum voltage in the coil 6 circuit).

Claims (2)

1. Brazhnikov N. I. “Ultrasonic Phasometry. Energie, 1968, p. 268. 2. V.Nakorkov et al., “Investigation of turbulent flows of two-phase media, Novosibirsk., 1973, p. 268. Figz