SU365574A1 - METHOD OF MEASURING FLOW MEDIUM - Google Patents

Description

one

The invention relates to the field of measuring the flow of liquid and gaseous media, in particular to methods for measuring the flow of media using heat flow meters.

A disadvantage of the known methods is the impossibility of determining the reliability of measurement results in the course of operation.

Incorrect measurements are due to the instability of the static characteristics of the primary transducers of the flow meters, which is caused by a change in the quality of the heat exchange surfaces (due to contamination of the walls of the measuring tube).

In addition, to determine the reliability of the flow meter readings and the possibility of its further use, it is necessary to periodically turn the flow meter on the calibration installation. However, in addition to the inconvenience associated with the need to dismantle and re-install the primary transducers of heat flow meters, the calibration installation does not always create conditions that correspond to the working conditions (medium, pressure, temperature, etc.), as a result of which the characteristics obtained at the calibration facilities can more or less stencil differ from the operating characteristics of the primary converter.

In order to control the reliability of measurement results using heat flow meters according to the proposed method, the measured flow is divided into two proportional flows by passing it along two parallel sections of the pipeline with flow meters installed on them, they create different hydrodynamic and thermal conditions of the medium and the total flow rate is determined by the sum of the signals received from the transducers, and the reliability of the measurement is judged by the ratio of the signals.

The proposed method is illustrated in the drawing.

The open stream G flowing through the measuring tube / is divided into two streams GI and 2 and passes nx through separate bypass pipes 2 and. Using local resistances 4 and 5, the flow G is divided into two unequal parts so that the ratio of the fluxes GI and Go should always be equal to a constant value of p. Due to the difference in costs between the GI and GZ notes and the geometrical dimensions in the pipes 2 and 3, different hydrodynamic and thermal conditions of the medium flow, which practically excludes the possibility of an identical change in the static characteristics of thermal primary converters. 6 - //, located on the plug-in nozzles. The signals from the thermal primary transducers are fed to the secondary device 12, "which most of the time captures readings proportional to the sum of the signals U + Uz, i.e., and the 311 measure of the total flow rate G Gi + G2.

To check the correctness of the readings due to the invariability of the static characteristics of all elements of the primary converter, the signal ratio f / i / f / 2 is periodically measured using a secondary device. If the static characteristics of all elements of the measuring path (local resistances, heat flow transducers, heating and temperature-sensitive elements) do not change during operation, the residual signal remains a constant value, which indicates the correctness of the instrument readings (measurement accuracy) and the possibility of further operation device.

In this way, the proposed method allows monitoring the accuracy of flow measurements during operation without dismantling and special calibration of the measuring device on graduated installations.

Subject invention

The method of measuring the flow of media using, for example, a heat flow meter whose transducers are installed in the measuring section of the pipeline, characterized in that, in order to control the accuracy of the measurement results, the measured flow is divided into two proportional flows by passing it through two parallel sections M of the pipeline with flow transducers installed on them, they create various hydrodynamic and tenlow conditions for the flow of the medium and the sum of the signals received from the transducers determined by ate dissolved total flow rate, and relative signal judged on the reliability of the measurement.

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