RU18106U1 - INSTALLATION FOR CALIBRATION OF FLOW METERS - Google Patents

Abstract

1. Installation for calibrating flowmeters, comprising a compressor, a gearbox, an oscillation generator (butterfly type pulsator), a test flowmeter, damping tanks, a control flowmeter, an output tank, control valves, differential pressure, pressure and temperature sensors, a medium differential adjuster pressure, characterized in that a pressure pulsation shape correction device is bypassed connected to the output of the pulsator. 2. Installation according to claim 1, characterized in that the device for correcting the shape of pressure pulsations is made in the form of a throttle connected to the tank. Installation according to claim 1, characterized in that the device for correcting the shape of pressure pulsations is made in the form of a throttle connected to a cylinder, inside which a movable piston is placed.

Description

INSTALLATION FOR CALIBRATION OF FLOW METERS.

The proposed utility model relates to the field of flow measurement and bench testing of units.

A known installation for testing flowmeters in a pulsating gas flow (Torigoe Ippegi. Method for measuring the flow in pulsating flows // Trans. Soc. Instrum. And Contr. Eng., 1987. - (23). - N8. - pp. 794-799) containing a supercharger (fan), a gearbox, a rotary valve, a butterfly type pulsator, a flowmeter with a venturi nozzle.

The disadvantage of the described device is the inability to accurately set and maintain the average pressure drop and pressure on the constricting device of the flow meter variable pressure drop, which leads to a decrease in the accuracy of the tests.

The closest in technical essence to the proposed solution is the installation for calibrating standard apertures (Installation for calibrating standard apertures // A.G. Gimadiev, I.D. Kashapov, E.S. Sliva and others. - Certificate of the Russian Federation for utility model No. 2649 ), containing a source of compressed gas, a gas pressure oscillation generator, a gas line with a standard diaphragm, a reference flowmeter, a medium pressure adjuster, an average differential pressure adjuster that allows you to maintain the set value of the average differential pressure per diaphragm e and medium pressure before the diaphragm with high precision.

The disadvantage of this installation and installation (Torigoe Ippegi. The method of measuring flow in pulsating flows // Trans. Soc. Instrum. And Contr. Eng., 1987. - (23). - N8. - pp. 794-799) is that to change the vibration parameters (the shape and amplitude of the pulsations), it is necessary to reconfigure the units of the bench equipment, and leads to a change in the boundary conditions with respect to

MPKO01b27 / 00

new component of the gas flow and, as a consequence, to the calibration error of the flow meter of a pulsating gas flow.

The utility model is based on improving the accuracy of calibration of flowmeters in a pulsating gas flow.

The installation for calibrating flowmeters in a pulsating gas flow contains a compressor, a gearbox, an oscillator (butterfly type pulsator), a test flowmeter, damping tanks, a control flowmeter, an output tank, control valves, differential pressure, pressure and temperature sensors, an average adjuster differential pressure, a device for correcting the shape of pressure pulsations is bypassed connected to the output of the oscillation generator.

A device for correcting the shape of pressure pulsations can be made in the form of a throttle connected to the tank or in the form of a throttle connected to a cylinder inside which a movable piston is placed.

In FIG. 1 shows a diagram of an apparatus for calibrating flow meters under a pulsating gas flow, FIG. 2 - a ripple shape correction device in the form of a choke with a capacitance, FIG. 3 - a device for correcting the shape of pulsations in the form of a throttle and a cylinder with a piston.

Installation for calibrating flow meters in a pulsating gas flow (Fig. 1) contains a compressor 1 with a gear 2, the output of which is connected to an oscillator (pulsator type "butterfly" 3, then a calibrated flow meter 4, containers for damping oscillations 5, a control flow meter are connected in series) 6 and the output tank 7, throttles 8, 9, 10 and 11 are used to control the amplitude of the oscillations and the flow, differential pressure sensors 12, a pressure sensor 13, a temperature sensor 15 and a flow sensor 15 are installed on the control flow meter a valve 16 is connected to the line, an average differential pressure adjuster 17 and a device for correcting the shape of the pressure pulsations 18 (bypass) are connected to the output of the oscillation generator. Device for correcting the shape of pressure pulsations (Fig. 2) under,) / A (yg

It is connected to the pipeline 19 and contains a container 20 and a throttle 21. A device for correcting the shape of pressure pulsations (Fig. 3) is connected to the pipeline 22 and contains a cylinder 23, inside which a piston 24 with a handle 25 and a throttle 26 are placed.

When calibrating a gas flow meter, it is initially statically calibrated by changing the flow rate with the chokes 10, 11 when the oscillation generator 3 is turned off. Then the oscillation generator 3 is connected and the flowmeter is calibrated in a pulsating flow. The relative amplitude of the pulsations is controlled by throttles 8, 9. To accurately set and maintain the differential pressure on the test flowmeter, the average differential pressure adjuster 17 is used. The shape and amplitude of the pulsations are changed using correction device 18.

The gas pressure pulsation shape correction device of FIG. 2 is used if necessary, changes in the amplitudes of pressure fluctuations in a wide frequency range, and when opening the throttle 21 will more effectively reduce the amplitudes of the higher harmonics of the vibration spectrum.

In the case of using the ripple shape correction device of FIG. 3 - the device tunes to a specific resonant frequency that matches the frequency of the filtered harmonics. In accordance with the condition for realizing a quarter-wave resonance with a frequency / -, where / is the resonance

frequency, s is the speed of sound as follows, L is the length of the cylinder 23, is determined

cylinder length L -, where / is the frequency of the filtered harmonic of the pressure fluctuation spectrum. With the help of inductor 26, the amplitude of the filtered harmonic changes.

The application of the proposed installation will improve the accuracy of calibration of flowmeters in a pulsating gas flow.

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Claims (3)

1. Installation for calibrating flowmeters, comprising a compressor, a gearbox, an oscillation generator (butterfly type pulsator), a test flowmeter, damping tanks, a control flowmeter, an output tank, control valves, differential pressure, pressure and temperature sensors, a medium differential adjuster pressure, characterized in that to the output of the pulsator a bypass device is connected to correct the shape of the pressure pulsations.  2. Installation according to claim 1, characterized in that the device for correcting the shape of pressure pulsations is made in the form of a throttle connected to the tank. 3. Installation according to claim 1, characterized in that the device for correcting the shape of pressure pulsations is made in the form of a throttle connected to a cylinder, inside which a movable piston is placed.