SU1262359A2 - Device for determining continuity of liquid flow in pipeline - Google Patents

Abstract

The invention relates to a measurement technique, can be used to determine the continuity of a fluid flow in a pipeline, and is an improvement of the invention according to the authors. St. No. 185092. The purpose of the additional invention is to improve the accuracy by Accounting for measurements of the background acoustic signal. When the turbine sensor of the flow rate operates, the gas bubbles contained in the liquid flow are slammed, the first acoustic transducer receives an acoustic signal, the amplitude and duration of which pulses depend on the size of the gas bubbles, i.e. the concentration of gas in the liquid flow. The first acoustic transducer receives an interfering (background) acoustic signal, which, after converting it to an electrical one, overestimates the signal from the first average detector. The bandwidth of the first and second bandpass filters is the same. The second acoustic transducer perceives only an interfering acoustic signal, which, after conversion (L to electric, amplified by the second amplifier, filtered by the second bandpass filter and detected by the second detector, the average value goes to the third input of the computing unit. The latter subtracts the signals from the first and second detectors and dividing signal from a turbine speed meter, i il. HS 05 N3 CO O1 with

Description

Go

The invention relates to a measurement technique, can be used to determine the continuity of the flow of fluid in a pipeline, and is an improvement on the device according to the basic author. St. .NTs 1185092.

The purpose of the invention is to improve the accuracy by taking into account when measuring the background acoustic signal.

The drawing shows a block diagram of a device for determining the continuity of a fluid flow.

The device contains series-connected first acoustic transducer 1, intended for installation on pipeline 2 (usually in its upper part), amplifier 3, band-pass filter 4, first average value detector 5 and computing unit 6, turbine sensor 7 of fluid flow intended for installation inside pipeline 2, with the meter 8 speed vrš, turbine turbine (not marked) installed on the pipeline 2.

The output of the meter B of the rotational speed of the turbine is connected to the second input of the computing unit 6.

A second acoustic transducer 9 for mounting on conduit 2 (usually in its lower part), a second amplifier 10, a second band-pass filter II, and a second average detector 12 connected to the third input of the computing unit 6 are connected in series.

A device for determining fluid flow works as follows.

During operation of the turbine sensor 7 of the flow rate, the gas bubbles collapse in the liquid flow and the acoustic signal is supplied to the first acoustic transducer 1, the amplitude and duration of the pulses of which depend on the size of the gas bubbles, i.e. the gas concentration in the liquid flow.

In addition, the first acoustic transducer 1 receives an interfering (background) acoustic signal, which after

converting it to an electric signal, it overstates the signal from the first detector 5 of the average value, because the first band-pass filter 4 passes a part of the interfering signal in its passband. The bandwidth of the first and second bandpass filters 4 and 1 1 is chosen the same, with the lower cut-off frequency such that it is tuned off from the noise of a working turbine (not indicated), and the upper

the frequency is selected based on the maximum possible gas concentration in the fluid flow.

The second acoustic transducer 9 only perceives an interfering acoustic signal, which, after being converted to electrical and amplified by the second amplifier 10, filtered by the second band-pass filter 1 and detected by the second detector 12, enters the third input of the calculating unit 6. The computation unit 6 subtracts the signals from the first and second detectors 5 and 12 and division by the value of the signal from the meter 8 of the rotational speed of the turbine.

The installation location of the second acoustic transducer 9, finding such an installation location at which the further increase in the distance between the transducer 9 and the flange, for example, the neighbor (not marked), did not reduce the difference of signals from the detectors 5 and 12 of the average value.

Claims (1)

Invention Formula Device for determining the continuity of the fluid flow in the pipeline St. No. 1185092, characterized in that, in order to improve accuracy, it is equipped with series-connected second acoustic transducer intended for installation on the pipeline, second amplifier, second band-pass filter and second average detector connected to the third input of the computing unit.