SU1408232A1 - Testing installation for gas small and microflow rate meters - Google Patents

Abstract

The invention relates to measuring technique and allows for improving the accuracy of the device. The calibrated flow meter 3 is included in test section 2. Reducer 1 lowers the pressure of the gas supplied to the flow meter 3, and through the system of thermostabilized throttle elements 10, 11 and the absolute pressure stabilizers 12, 13 connected to them, the gas flow rate is constant, corresponding to the required point of the characteristics of the flow meter to be tested 3. From the output of the stabilizer 12, the gas is discharged into the bypass pipeline 14. The flow rate of the gas entering the test section 2 from the output of the stabilizer 13, It is an exemplary flow meter 4. 1 sludge. R (L 4 o CX) to with to

Description

; The invention relates to a measuring device (equipment) and can be used for the verification, calibration and testing of small and micro gas flow rates.

The aim of the invention is to increase the measurement accuracy.

The line also shows the principal scheme of the calibration installation.

The installation contains a gas reduction unit 1, a test section 2 with a test meter 3, an exemplary flow meter 4, consisting of a measuring tube 5 with a gas supply unit 6 and a fitting 7 for the solution of surfactant surface and a deformable reservoir 8; with a surfactant solution 9, throttle elements 10 and 11, stabilizers 12 and 13 absolute pressure and, bypass 14, differential pressure transmitter 15, secondary measuring device 16, system 17 ter- (stabilization and chronometer 18.

The calibration facility works in the following way.

Gear 1 decreases the pressure of the gas from the gas source to the calibration facility. With the help of the throttling system: oil 10 and 11 and the absolute pressure stabilizers 12 and 13, a constant gas flow rate is set corresponding to the required point of the characteristics of the flow meter 3 to be checked. The flow control is carried out using the secondary device 16 measuring the output signal of the differential pressure gauge. The transmitter 15, which corresponds to the pressure drop across the throttle element 11, is linearly dependent on the gas flow rate through this throttle element. Gas from the stabilizer output

five

0

five

0

the mash 12 is discharged into the bypass 14, and from the output of the stabilizer 13 enters the test section 2, which includes the flow meter 3.

The set gas flow rate is measured by the reference flow meter 4 as follows. By pressing the deformable reservoir 8, a film is formed in the measuring tube 5 from a solution of surfactant 9, which moves upward under the action of a moving gas stream. Chronometer 18 measures the time for a film to pass the calibrated section of the measuring tube 5. The actual value of the gas flow is determined from the volume of the calibrated section of the measuring tube and the time for the film to pass through this section. From the measured values of the gas flow by the flow meters 3 and 4, the accuracy of the flow meter 3 to be tested is determined by the comparison method.

Claims (1)

Invention Formula A calibration installation for gas flow meters and micro gas flow meters containing a gas pressure regulator, a test section, a bypass pipeline and an exemplary flow meter, characterized in that, in order to improve accuracy, two thermally stabilized throttle elements installed in series between the gas pressure regulator and the test section are introduced and an absolute pressure stabilizer connected to their outputs, the output of the first throttle element being connected to the bypass pipeline, and the output of the second to the test installation site.