SU1257510A1 - Method and apparatus for measuring continuity of flow of liuquid medium - Google Patents

Abstract

The invention relates to a measurement technique and can be used in the chemical, petroleum, aviation and other sectors of the national economy. The purpose of the invention is to increase the sensitivity of measuring the continuity of the flow of liquid media. The method implemented by the device is as follows. Using a successively electro-acoustically connected generator and acoustic unit, ultrasonic vibrations are excited in a controlled flow of fluid and receive them. Then, the phase difference between the emitted and received signals is measured using a phase difference meter, the first input of which is connected to the output of the generator, and the second to the output of the acoustic unit. Simultaneously with the phase, the amplitude of the signal is measured and rectified using a meter connected to the output of the acoustic unit. The phase difference is also converted to a voltage. and rectified with a phase-to-voltage converter, A connected to the output of the phase difference meter. After this, the voltages proportional to the phase and amplitude are added to the adder, one input of which is connected to the rectifier, the other to the phase-voltage converter. Next, the change in the total voltage relative to the initial voltage corresponding to zero flow continuity is determined. To this end, a zero compensator is connected in series to the accumulator. The value of the continuity of the flow is judged by the change in the total voltage relative to the initial voltage, which is determined by the voltage meter connected to the compensator O. 2 sec. f-ly, 1 ill. § (L with GS cd ate

Description

one

The invention relates to a measurement technique and can be used in the chemical, petroleum, aviation and other industries.

The purpose of the invention. - increase the sensitivity of measurements of the continuity of the flow of liquid media by taking into account changes in gas content.

The drawing shows a device that implements a method for measuring the continuity of a fluid flow.

A device that implements a method for measuring the continuity of fluid flow consists of a generator 1 ultrasound

12575102

signal of the acoustic unit after straightener 5 at point S (see drawing). Next, measure the voltage U Um + and - Ufl at the output of the adder 6, at point 5 (see drawing). After that, with the help of the compensator 7, the voltage is compensated for so that the voltage measured by the meter 8 is zero (i.e.

10 oi 0%, voltage U. 0). Then

top

In the acoustic unit, a gas-liquid medium is created, and at each value of the continuity of the gas flow Acf 0% to 100%, the output voltage is measured. After this monotonic oscillations, the acoustic unit 2, the acoustic unit in the pipeline

with a controlled gas-liquid medium, is fixed by the meter 8 output total voltage U, - and according to the RY

The 20 characteristic is determined by

meter 3 phase difference, converter 4 phase-voltage, rectifier 5, adder 6 ,. compensator. 7 zero and meter 8 voltage.

Acoustic unit 2 is connected with its input to the output of the generator 1 ultrasonic | oscillations, and the output of unit 2 - to the first input of the meter 3 phase difference. The second input of the meter 3 25 is connected to the output of the generator 1. The input of the rectifier 5 is connected to the output of the acoustic unit 2. The rectifier 5, the adder 6, the compensator 7 zero and the meter B voltage are connected 30 in series with each other. Winder 4 phase-voltage is connected between meter 3 phase difference and adder 6.

A device that implements the method of measuring the FLOWNESS of the fluid flow works as follows.

flow continuity q; gas content 3L. Formula

and 3 o r e t

e ni

1. A method for measuring the continuity of a stream of liquid media, which consists in exciting ultrasonic oscillations in a controlled medium and measuring the phase of the oscillations, characterized in that, in order to increase the sensitivity, the amplitude of the oscillations and continuity are measured simultaneously with the phase; flow is judged by the sum of the measurement values.

2. A device for measuring the continuity of the flow liquid ;; media, containing an acoustic unit, the input of which is connected to the output of the ultrasonic oscillator, and the output to the first input of the phase difference meter, the second input of which is connected to the output of the generator, characterized in that it is equipped with series-connected rectifier, the input

Electric ultrasonic oscillations of fixed frequency and constant amplitude (voltage) are delivered to the input of acoustic unit 2 from generator 1. The internal cavity of the acoustic unit is filled with water.

2. A device for measuring the flow density of liquids ;; The media contains an acoustic unit whose input is connected to the output of the ultrasonic oscillator, and the output to the first input of the phase difference meter, the second input of which is connected to the generator output, characterized in that it is equipped with a series connected rectifier, the input

In this case, continuity (f 100%, the gas supply of which is connected to the output acoustic holding "i 0%. Then the phase of the oscillations converted by converter 4 to a constant voltage Uqj at point a is measured (see drawing). After that, the amplitude is measured U output

a unit, an adder, a zero compensator, a voltage meter, and a phase converter is the voltage connected between the phase difference meter and the adder.

the signal of the acoustic unit after rectifier 5 at point S (see drawing). Next, measure the voltage U Um + and - Ufl at the output of adder 6, at the point (see drawing). After that, using the compensator 7, I compensate for the voltage so that the voltage measured by the meter 8 is zero (i.e.

oi 0%, voltage U. 0). Then

top

in the acoustic unit, a gas-liquid medium is created, and at each value of the continuity of the gas flow Acf 0% to 100%, the output voltage is measured. After this, the

flow continuity q; gas content 3L. Formula

and 3 o r e t

e ni

1. A method for measuring the continuity of a stream of liquid media, which consists in exciting ultrasonic oscillations in a controlled medium and measuring the phase of the oscillations, characterized in that, in order to increase the sensitivity, the amplitude of the oscillations and continuity are measured simultaneously with the phase; flow is judged by the sum of the measurement values.

2. A device for measuring the continuity of the flow liquid ;; media, containing an acoustic unit, the input of which is connected to the output of the ultrasonic oscillator, and the output to the first input of the phase difference meter, the second input of which is connected to the output of the generator, characterized in that it is equipped with series-connected rectifier, the input

which is connected to the output of the acoustic unit, an adder, a compensator with a zero torus, a voltage meter, and a phase-voltage converter connected between the phase difference meter and the adder.

Claims (2)

Claim 1. The method of measuring the continuity of the flow of liquid media, which consists in the fact that in a controlled environment, ultrasonic vibrations are excited and the oscillation phase is measured, characterized in that, in order to increase sensitivity, the oscillation amplitude is measured simultaneously with the phase, and continuity: the flow is judged by the sum measurements of quantities. 2. A device for measuring the continuity of the flow of liquid media containing an acoustic unit, the input of which is connected to the output of the ultrasonic oscillation generator, and the output to the first input of the phase difference meter, the second input of which is connected to the output of the generator, characterized in that it is equipped with a series-connected rectifier , the input of which is connected to the output of the acoustic unit, by an adder, a zero compensator, a voltage meter, and a phase-voltage converter connected between the phase difference meter and the sum rum.