RU1789863C - Device for measuring discharge of dielectric liquids - Google Patents

Abstract

The invention relates to measuring technique and is intended for measuring the flow rate of dielectric liquids. The purpose of the invention is to increase the sensitivity of measurements. The device comprises a flow-through cell of a rectangular shape, two opposite walls of which are formed by working electrodes, a measuring electrode, as well as a high voltage source and a current meter. The walls containing the working electrodes are angled one to the other so that they form a channel that tapers towards the measuring electrode. The measuring electrode can be made in the form of a grid placed perpendicular to the axis of the channel. 1 C.p. f-ls, 3 ill.

Description

(L

WITH

The invention relates to the field of measurement technology and is intended to measure the flow rate of dielectric fluids.

A device for measuring the flow rate of dielectric liquids is known, comprising a rectangular flow cell, the two opposite walls of which are formed by working electrodes, a measuring electrode, as well as a high voltage source and a current meter.

A disadvantage of the device is the low sensitivity of the measurements.

An object of the invention is to increase the sensitivity of measurements.

This goal is achieved by the fact that in the known device containing a flow-through cell of a rectangular shape, two opposite walls of which are formed by working electrodes, a measuring electrode, as well as a high voltage source and a current meter, walls containing working electrodes are located at an angle to each other friend so that

form a channel, tapering towards the measuring electrode, and the measuring electrode can be made in the form of a grid placed perpendicular to the axis of the channel.

In FIG. 1 shows the proposed device, a section; in FIG. 2 is a section AA in FIG. 1; in FIG. 3 is a section BB in FIG. 1.

It contains a dielectric cell 1 with a cover 2, an inlet 3 and an outlet 4 nozzles, a flow part 5, two working electrodes 6, 7, a measuring electrode 8, a microammeter 9. Terminal 10 is connected to the electrode 6 and a high voltage source 11. The terminal 12 is connected to the electrode 7 and is grounded, the terminal 13 is connected to the measuring electrode 8 and the microammeter 9.

The operation of the device is as follows.

The fluid flow is supplied through the inlet pipe 3, from the high voltage source 11, a voltage Uy is applied to the working electrodes to create an electrostatic field in the flow passage 5 of the cell. DielecXI 00

YU

00

about

Oj

the tertiary fluid located in the flow part is polarized.

The polarization current equation has the form:

where y is the coordinate along the flow part; Z - The coordinate along the height of the flow part. .-.

Member Uy.

is the product of the fluid velocity and the rate of change of the field strength Ez with the height Pz (e-1) EoEz.

With the selected system of tapering electrodes dPz / 5Z 0 throughout the flow

g, zou parts of the member Pz

the field strengths along the axis of the velocity derivative along the axis of the flow part.

Claims (2)

SUMMARY OF THE INVENTION 1. A device for measuring the flow of dielectric liquids, comprising a rectangular flow cell, two opposite walls of which are formed by working electrodes, a measuring electrode, as well as a high voltage source and current meter, characterized in that, in order to increase the sensitivity 5 0 Due to the narrowing of the flow part dUy / cfy over the entire flow part, the induced potential at the measuring electrode 8, due to the polarization current, will be proportional to the gradient of the electrostatic field strength over the entire flow part, i.e. the measurement sensitivity is higher than in the source, where the voltage gradient of the electrostatic field is created only at the edges of the working electrodes. As the flow rate of liquid through the flow part increases, the induced potential at the measuring electrode will decrease. The installation of a measuring electrode perpendicular to the axis of the channel makes it possible to increase sensitivity in comparison with the prototype, where the gradient of the electrostatic field strength is created only at the edges of the working electrodes. In fact, the walls containing the working electrodes are located at an angle to one another in such a way that they form a channel tapering towards the measuring electrode. 2. The device pop. 1, characterized in that the electrode is made in the form of a grid placed perpendicular to the axis of the channel. Fig.Z