SU113914A1 - Device for calibrating rheometers and determining the flow rate of gases through capillaries - Google Patents

Description

To calibrate rheometers and determine the rate of gas flow through the capillaries, devices are used that contain a source of excessive static pressure and a measuring vessel.

Known devices of this kind have a complex structure, which limits their use.

In the proposed device for simplifying the design, the source of overpressure is made in the form of two liquid level stabilizers interconnected by a flexible hose and installed at different heights so that the drain tube of the second (lower) stabilizer enters the measuring vessel and ends at some distance from its bottom . The neck of the measuring vessel is connected with an additional channel to the upper cavity of the stabilizer, to which a liquid pressure gauge and a test rheometer or capillary tube are connected via a tee.

The drawing shows a diagram of the proposed device.

The device comprises a device for applying excessive hydrostatic pressure and a measuring vessel 1 connected to said device channel 2, which communicates the throat of the vessel with the upper cavity of the device. A device for maintaining a constant hydrostatic pressure consists of two stabilizers 5 and 4 levels of liquid, interconnected by a rubber tube 5 and installed at different levels. At the same time, the drain tube 6 of the stabilizer 4 enters the measuring vessel 1 and descends almost to its bottom. To the upper cavity of the stabilizer 4, a liquid pressure gauge 8 and a tube 9, which serves to connect the test rheometer or capillary, are connected through the tee 7.

No. 1I39I4- 2 -

The device works as follows. After attaching the tested rheometers or capillaries to the tube 9, the water tap is opened and the stabilizer 5 level sets the required gas pressure in the instrument. With the water pressure gauge 8. After this, the stabilizer 5 is fixed in the stand. only up to the upper end of the tube 6 of the stabilizer level 4, and then the drain valve 10 is opened and water is drained from the measuring vessel 1, as a result of which only running water remains in the device. To more accurately determine the water levels in the stabilizers 3 1 4, water from the faucet is supplied to the stabilizer 3 in such an amount that it is enough for the appliance to work and the excess is constantly drained through the tube 11 into the sink.

When the device is prepared, the test mode of operation is carried out in the following order.

According to the indication of the thermometer 12, the temperature of the gas in the device is recorded and the drain valve 10 is closed, as a result of which water, filling the measuring vessel /, creates a stable pressure in it. As soon as the water reaches the mark 13, the stopwatch is turned on and the time during which the water reaches the upper end of the tube 6 is measured. By changing the height of the water level with a stabilizer of level 3, the corresponding pressure in the device and the corresponding gas flow rate through the capillary are checked. .

For low gas flow rates, the instrument must be made entirely of glass without rubber compounds.

Subject invention

A device for calibrating rheometers and determining the flow rate of gases through capillaries, containing a source of excessive static pressure and a measuring vessel, characterized in that, in order to simplify the design, the source of excess pressure is made of two fluid level stabilizers interconnected by a flexible hose and mounted on different height so that the drain tube of the second (lower) stabilizer enters the measuring vessel and ends at some distance from its bottom, and the throat of the measuring vessel communicates additional Yelnia channel with the upper space of the stabilizer, to which are connected through the tee and the liquid manometer is checked emy rheometer or a capillary.