SU1236345A1 - Method of determining conditions of current of isothermal gas flow in capillary tubes - Google Patents

Abstract

The invention relates to the determination of flow characteristics of viscous media in capillaries. The purpose of the invention is to simplify the measurement process and expand the measurement range by measuring the gas flow through the capillary at a given pressure drop at its ends 7, the flow rate being additionally measured when the gas is heated to, and the flow condition is judged by the sign of the difference in flow rate. 1 il.

Description

$ 236345

The invention relates to the determination of the characteristics of viscous fluids in capillaries, in particular the flow pattern, and can be used to control the flow pattern in any capillary channels having a small cross-sectional size of not more than Ojl mm, when conducting gas-dynamic studies, in devices pneumatic automation systems, in viscometry.

The purpose of the invention is to simplify the measurement process and expand the measurement range.

The drawing shows a pneumatic schematic diagram of a device implementing the method.

Gas (gas mixture) from compressor 1 through receiver 2 and filter tank 3 is fed into a soothing tank 4, the gas pressure in which is adjusted with the aid of bypass valves 5 and 6, and soothed tank 4 passes through the capillary gas 7 and enters to another soothing tank 8. Then, after passing through the cooler 9, the gas enters and the device 10 for measuring the flow rate. The pressure drop at the ends of the capillary is measured by instruments 11 and 12. The capillary is heated by the coil heat exchanger 13, and its temperature is measured by instrument 14.

The method is carried out as follows.

Through the capillary R 7 gas is passed. Measured by the device 10 (rotometer) the value of the gas flow rate for a given pressure drop at the ends of the capillary, established by means of valves 5 and 6 and determined by

3

2

and 12.

Then the capillary pressure gauge I1 l p 7 is heated with a heat exchanger coil 13 to, controlling the temperature with the device 14 using chromel-copel thermocouples, maintaining the pressure drop at the ends of the capillary with the help of valves 5 and 6 and measuring the gas flow with rotameters again 10. Determine the difference in gas flow rates before heating and during heating (up to 100t3 ° C) and judge the flow conditions by the sign of the difference. Moreover, in the case of a decrease in gas flow, i.e.

when, the flow regime is laminar, in case of an increase in gas flow, i.e. when, turbo current mode20

tape, and with -zd 0 flow mode

corresponds to the flow at a critical Reynolds number.

25 f

formula of invention

The method of determining the flow of an isothermal gas flow in capillaries, including measuring gas flow through a capillary at a given pressure drop at its ends, characterized in that, in order to simplify the measurement process and expand the measuring range, after measuring the flow rate of gas through its capillary is heated to C, keeping the pressure drop constant, after which the gas flow through the capillary is measured again, the flow difference before and during the heating is determined and the flow conditions are judged by the sign of the difference.

VNISHI Order 3082/45 Circulation 778

Random polygons pr-tie, Uzhgorod, st. Project, 4

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Claims (1)

5 claims A method for determining the flow regime of an isothermal gas flow in capillaries, including measuring the flow rate J of gas through a capillary at a given pressure drop at its ends, characterized in that, in order to simplify the measurement process and expand the measurement range of ₅ , after measuring the gas flow through the capillary it is heated to 100–3 C, maintaining the pressure drop unchanged, after which the gas flow rate through the capillary is measured again, the flow difference is determined before and during heating, and the flow regime is judged by the difference sign.