SU86827A1 - Instrument for determining the gas permeability of samples of porous materials - Google Patents

Description

The known devices for determining the gas permeability of samples of porous materials are cumbersome and therefore unsuitable for use in field conditions.

The described device for determining gas permeability is suitable for use in field conditions.

A feature of the proposed device is the use of several ball tanks arranged one above the other and filled with water or released from it to create the pressure or vacuum necessary to pump air through the samples of the studied rocks.

FIG. 1 shows a general view of the device; in fig. 2-device for fastening samples.

The device is made in the form of four interconnected spherical tanks, the top / of which are connected by a tube 2 with a water manometer 3 and a tube 4 with a device 5 for fastening samples. The lower tank 6 is connected by a hose 7 with a pressure vessel 8 filled with water. The vessel 8 is mounted on a stand 9 that is moved in the vertical direction by means of a block 10 and a worm gear //.

The fixture 5 for fastening the samples (fig. 2) consists of a stand 12 equipped with a tip 13 connected for supplying air to the tube 4. On the stand 12 there is a rubber gasket 14 on which a metal cylinder 15 with a sample 5 is pressed against the rubber gasket 14 using clamp 17 and screw 18.

Sample 16, prepared from the studied rock, is placed in cylinder 15 and filled with Wood for tightness.

There are air holes in the cylinder head cover 15.

The determination of gas permeability is made by measuring the time required for the flow through the sample 16 of a given volume of air at constant pressure.

The discharge time of air through the sample is measured as follows.

When water flows from the pressure vessel 8 to the tank 6, the air pressure in the tanks 19, 20 (Fig. 1) and V will increase and it will pass through sample 16 and exit to the atmosphere. At the moment of coincidence of the water level with the mark 21 located on the throat connecting the vessels 19 and 20, the stopwatch is switched on and the time required for displacing the air from the reservoir 20, the volume of which is known, is measured. When the liquid level reaches 22, the stopwatch is turned off. At the same time, the pressure vessel 8 is gradually lowered by means of a worm gear so that the air pressure in the tank 1, measured by the pressure gauge 3, remains constant. The results obtained determine the rate of air outflow in and, knowing the dimensions of sample 16, calculate its gas permeability.

The reservoir 20 is used in the study of rocks with significant gas permeability, the smaller reservoir 19 is used in the study of rocks with low gas permeability.

Reservoir 6 is designed to equalize air pressure; the time it takes to fill it with water is used to move the vessel to a position where the air pressure in the tanks 1 and 20 is kept constant.

A reservoir is used to prevent water from flowing into device 5. In order to displace the water from the reservoirs /, 20, J9 and 6, the tube 4 is connected to the atmosphere and the vessel 8 is moved downwards.

In order to avoid the influence of water vapor on the gas permeability of the studied samples, the action of the proposed device can be carried out according to the principle of vacuum. For this, tanks 6, 19, 20, and 1 are filled with water, and vessel 8 is placed below vessel 6. When water flows from vessels 1, 20, and 19, air, seeping through sample 16, fills the indicated tanks.

The whole method of determining gas permeability will remain the same.

Subject invention

A device for determining the gas permeability of samples of porous materials from the rate of outflow of a given volume of air through the sample under test using a vertically displaceable pressure vessel with water to provide the required pressure or vacuum is different in order to create a constant value during the test. differential pressure or vacuum pressure on one side of the test specimen, the device is equipped with a system of balloons of a given volume installed under the specimen, filled with water or released given from it in the process of vertical displacement of the pressure vessel.