SU1368640A1 - Device for measuring small and microflows of gas - Google Patents

Abstract

This invention relates to primary measuring transducers for flow measuring systems. The purpose of the invention is to improve the accuracy of measurement, and to ensure the linearity of the static characteristics of the device. The gas, the flow rate of which is measured, is supplied to chamber 2, passes through the apillary tube 1 and is withdrawn from the outlet chamber 3. When a gas flows through a capillary tube, a pressure differential occurs on it. Due to the fact that the absolute pressure stabilizer 5 is installed in the outlet chamber 3 and provided with a regulator 6, and the capillary tube 1 is made with a certain ratio of its length to the square of the inner diameter, the differential pressure measured by differential pressure gauge 4 is linearly dependent from the flow rate of gas flowing through the capillary tube 1. 1 Il. 2 S (L

Description

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The invention relates to instrumentation, in particular, to primary measuring transducers of expenditure measuring systems, and can be used in various sectors of the national economy for measuring small and micro expenses of various gas streams.

The purpose of the invention is to improve the measurement accuracy and ensure the linearity of the static characteristic of the device.

The drawing shows a schematic diagram of the device.

The device contains a capillary tube 1 with an input 2 and. output 3 chambers to which a differential pressure gauge .4 is connected, an absolute pressure stabilizer 5, a regulator 6 installed on the gas outlet line from the outlet chamber 3. The device also contains a system 7 for stabilizing the temperature of the test gas.

 The device works in the following way.

Gas whose flow rate is to be measured is supplied to the inlet chamber.

2, passes through the capillary tube 1 and is discharged from the exit chamber

3. When gas flows through a capillary tube, a pressure drop occurs on it. Due to the fact that the absolute pressure stabilizer 5 is installed in the output chamber 3 and is provided with a regulating organ 6 installed on the gas outlet line from the output chamber 3, and the capillary tube 1 is arranged in such a way that its length is 1 to the square of the inner diameter d., determined by the condition

1 i .g. d Л |

p, and

m where P is the absolute gas pressure in the outlet chamber; density and viscosity of the test gas in the exit chamber;

end-effect correction factor,

The differential pressure measurement, measured by differential pressure gauge 4, is linearly dependent on the flow rate of the gas flowing through this capillary tube. In addition, the device eliminates the effect of barometric pressure on its output signal, which contributes to an increase in measurement accuracy.

Formula and Acquisition

A device for measuring small and micro gas consumption, containing a capillary tube with inlet and outlet chambers, a differential pressure gauge,

connected to these chambers, and a system for stabilizing the temperature of the test gas, characterized in that, in order to increase the measurement accuracy and ensure linearity

the static characteristics of the device, it is equipped with an absolute pressure stabilizer, installed on the gas outlet line from the exit chamber, and the ratio of the length of 1 capillary tube to the square of its internal diameter d corresponds to

 . V512p2 absolute gas reduction in

output chamber;

density and viscosity of the test gas;

correction factor for end effects.

Claims (1)

The claims for measuring small and gas containing capillary chambers at the inlet and characterized by the goal of increasing accuracy The device of micro-expenditures has an output tube, a differential pressure gauge connected to these chambers, and a system for stabilizing the temperature of the test gas, so that, by measuring and ensuring the linearity of the static characteristics of the device, it is equipped with an absolute pressure stabilizer installed on the gas outlet line from the output chamber, and the ratio of the length of 1 capillary tube to the square of its inner diameter d corresponds to the condition one m P _{g <} p _g . d * Ί • 512 η? ’ where P _r p ₂ and fU is the absolute gas distance in the outlet chamber; density and viscosity of the test gas; w - correction factor for end effects. Compiled by V. Shalagin