RU1775608C - Turbine flowmeter - Google Patents

Abstract

Use: for measuring the flow rate of liquids and gases with various physicochemical properties. SUMMARY OF THE INVENTION: in a turbine flowmeter comprising a housing with a flow guide therein and a flow straightener, between which a measuring chamber is formed with a turbine located on it and a speed sensor, a pressure gauge, the first and second fittings of which are connected before and after the turbine , and a computing device. The first fitting is connected between the flow guide and the impeller, and the second between the impeller and the flow rectifier. 1 ill.

Description

The invention relates to measuring technique and can be used to measure the flow rate of liquids and gases with various physicochemical properties.

The closest is a turbine flow converter.

A differential pressure gauge and a turbine speed sensor are connected to the turbine flowmeter, the information from which is fed to a computing device in which the mass flow rate of the substance is calculated.

The differential pressure gauge is connected before the flow direction and after the flow rectifier, i.e. The differential pressure meter is connected outside the measuring chamber in which the turbine is located.

A disadvantage of the converter is that it can measure the mass flow rate not of liquid substances, but of gaseous substances of the hydrocarbon type. The inability to measure liquid flows in this way is due to the fact that when the temperature of the stream changes or when

The composition of the flowing fluid changes the viscosity of the substance. When the viscosity of the substance changes, the proportionality coefficient between the volume flowing through the turbine and the speed of the turbine changes. Thus, information about the real volume flow rate of the stream is lost, and therefore reliable information about the mass flow rate of the liquid substance cannot be obtained.

The purpose of the invention is to improve accuracy.

This is achieved by connecting a differential pressure gauge to the measuring chamber of the turbine flowmeter, and its output and the input of the inductive sensor connected to the computing device.

The drawing shows a diagram of a turbine flowmeter.

The flow meter consists of a housing 1, a guide 2, rectifier 3, between which a measuring chamber 4 is formed, in which a turbine rotor 5 is placed. An inductive sensor 6, tubes 7., the output of which

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dinen with a differential pressure gauge 8. The outputs of the inductive sensor 6 and the differential pressure gauge 8 are connected to the computing device 9.

The flow meter operates as follows.

In the housing 1, in the axial direction of the liquid or gas flowing through it, a turbine rotor 5 is installed, rotating at a speed proportional to the flow rate, the rotation speed of the turbine rotor 5 is sensed by an inductive sensor b.

When the turbine rotor 5 having magnetic blades rotates, a current pulse appears in the winding of the inductive sensor, the frequency of which is proportional to the speed of the controlled flow. The frequency supplied by the induction sensor b serves as an information signal.

When measuring the temperature or type of medium being measured, i.e. when the physicochemical properties of the controlled medium change, it is fundamentally impossible to get rid of the change in the mass forces of the controlled flow in the measuring chamber 4. This leads to an increase or decrease in the braking torque of rotation of the turbine rotor 5, which distorts the measurement readings.

Thus, the use of the initial calibration of a flow meter carried out on a specific fluid for a fluid with physicochemical properties other than calibration has a significant error in the measurement of flow.

In order to get rid of this undesirable phenomenon, it is necessary to have additional information on the change in the energy balance of the controlled flow. In this regard, tubes 7 are connected to the measuring chamber 4, which transmit a signal about the change in the differential

pressure. The change in the energy balance of the flow in the measuring chamber 4 is unambiguously reflected in the pressure drop in the same flow section to the differential pressure gauge 8, where this signal is converted into an electric signal in proportion to the pressure drop and transmitted to the computing device 9. Received information from the inductive sensor 6 and the differential pressure gauge

Claims (1)

8 in the computing device 9 undergoes appropriate mathematical processing and the calibration of the turbine flow transducer is corrected. A turbine flowmeter comprising a housing with a flow guide therein and a flow straightener, between which a measuring chamber is formed with a turbine located therein and a speed sensor, a differential pressure gauge. the first and second nozzles of which are connected before and after the turbine, and a computing device, characterized in that, in order to increase accuracy, the first nozzle is connected between the flow guide and the turbine, and the second between the turbine and the flow rectifier.