SU1702542A1 - Device for measuring compressibility characteristics of liquid in chamber - Google Patents

Abstract

The invention relates to devices that change the variable pressure and control the physical characteristics of liquid media. By selecting the frequency of the radiator depending on the size of the cavity of the chamber filled with liquid, reliable measurements are obtained. The device provides continuous monitoring of the change in the compressibility characteristics of the fluid in the chamber and is suitable for use in automated control systems. 1 Il.

Description

The invention relates to devices for measuring variable pressure and monitoring the physical characteristics of liquid media.

The aim of the invention is to increase the reliability of measurements of the compressibility characteristics of the fluid in the chamber by providing the ability to continuously monitor changes in their values.

The drawing shows a device for measuring the compressibility characteristics of a fluid in a chamber.

The device comprises a chamber 1 filled with a working fluid, for example, transformer oil. The camera has a stationary base 2, which is common to the radiator 3 from the receiver 4 sound rigidly mounted on this base and located in the cavity of the chamber 1 filled with liquid. The emitter 3 and the sound receiver 4 can be made, for example, of quartz piezoelectric elements . The sound receiver 4 is electrically connected to the input of one of the means of recording an electrical signal, for example

with a voltmeter 5 Emitter 3 is electrically connected to the output of a sinusoidal voltage generator 6 Emitter 3 performs a periodic change in the pressure in the liquid. When scrapping, the oscillation frequency f is in the following relation with the size of the cavity of chamber I.

And with

I

10 f

where c is the speed of sound in a liquid

A device for measuring the compressibility characteristics of a fluid in a chamber works as follows.

To measure the modulus of the bulk elasticity of the fluid in the chamber and the compressibility factor characterizing the ability of the working fluid to change its volume in a reversible way under the action of a comprehensive external pressure, from the generator 6, a sinusoidal alternating voltage is applied to the radiator 3, which creates a variable pressure in the fluid. This variable air pressure

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acts on the receiver 4 sound, which converts it into an electrical signal recorded by, for example, a voltmeter 5.

The magnitude of the variable pressure generated by the radiator 3 in the cavity of the chamber 1 with the liquid depends on the bulk elasticity of the fluid in the chamber, since the bulk elasticity determines the magnitude of the acoustic impedance. The electrical signal at the output of the sound receiver 4 is thus a measure of the bulk elasticity and compressibility of the fluid in the chamber.

In order to make absolute measurements of the compressibility characteristics of the working fluid in the chamber using the specified device, the device is pre-calibrated using static methods for determining the compressibility characteristics, for example, by applying a piston to the fluid creating additional pressure in it and registering the volume change with a level sensor. The resulting calibration of the electrical signal at the output of the sound receiver 4 from the magnitude of the bulk elasticity of the fluid in the chamber allows using the described device to continuously monitor the actual values of the compressibility characteristics of the fluid in the chamber directly

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the process of working with this fluid, in which, for example, chemical reactions can take place.

The device provides high accuracy of measurements and is suitable for automated control systems.

Claims (1)

Apparatus of the invention for measuring the compressibility characteristics of a fluid in a chamber, comprising a chamber with a working fluid and pressure change blocks and its recording, characterized in that, in order to increase reliability by allowing continuous measurements, the pressure change blocks and its recording are made of respectively radiator and a sound receiver rigidly mounted on a common base in the cavity of the chamber, the sound emitter being electrically connected to the output of the generator introduced into the device sinusoidal voltage, while the size of the cavity of the chamber I satisfies the condition I 10-f where c is the speed of sound in a liquid; 30 f - oscillation frequency.