SU87669A1 - Apparatus for investigating the air regime of porous soil samples - Google Patents

Description

The subject of the invention is a device for determining porosity, volume and specific gravity and other indicators of porous soil samples.

Instruments are known for determining the gas permeability of a sample of porous materials placed in a chamber isolated from the external atmosphere and filled with a predetermined volume of air under hydraulic pressure measured by a pressure gauge. The magnitude of the hydraulic pressure in such devices is regulated by a membrane pressure gauge.

The difference between the proposed device and the known ones is that the test porous sample is filled with a specified volume of air through a measuring tube connected to a manometric tube through a common reservoir or through a control tube, depending on the hydraulic pressure. The liquid manometer is equipped with a choked valve that shuts off the manometer during the investigation from the external atmosphere.

Thanks to such a device, it is possible to directly, without and subsequent calculations, determine the porosity and other indicators of soil samples in both laboratory and field conditions.

 FIG. Figure 1 shows schematically an instrument for studying the air regime of samples of porous soils at a hydraulic pressure that is higher than atmospheric; in fig. 2-device for the same research, but within the limits of natural fluctuations of atmospheric pressure.

The device for studying the air regime of porous soil samples consists of chamber 1 isolated from the external atmosphere with the image of the soil under study taken in the field without disrupting the structure1. Kg} 1 pas with a measuring tube 2, which is through a reservoir of 3 rdr; A 1 liter of clump is connected to the manometric tube 4. The fifth pstrep specimen sample is filled with a predetermined volume of air by squeezing the air in the tube 2. Air hedgehogs # 87669

mats Bodo1 li.iii with a different liquid, Ezypuskaluy under pressure in the reservoir) 3 using a stopcock 5. The magnitude of the hydraulics; The pressure is regulated by a 1E E1 gearbox 6.

In order to design the device for the study of the air regime of porous and optic samples, the manometric tube 4 may be assembled; inside the measuring tube 2.

In order to avoid possible inaccuracies of legends due to the difference in fluid levels in the communicating tubes, and for studying the urgency and other readings of soil samples within the limits of natural variations in atmospheric pressure, a modified instrument, shown in FIG. 2

The device has the same chamber 1 isolated from the external atmosphere with a soil sample, connected by nozzle 7 with measuring tube 2. Manometric tube 4 is disconnected from measuring tube 2 and hydraulically, through reservoir 3, is connected to parallel control tube 8. Pipe 8 is connected by nozzle 7 s chamber 1 and serves as an indicator of pressure in this chamber. In order to bring the pressure in the chamber to the desired anddere, one-dimensional and one-manometer) and a comb the tubes are equipped with air chambers 9 and 10.

The taps 11 and 12 serve to charge the device with the working fluid, and the taps 13 and 14 are needed to isolate the rubber base straps 15 and 16 from the 1-st and map-metric tubes during the monitoring period.

Investigation of the air regime of samples of noriey soils with half a device shown in FIG. 1, occurs with the 1 M image.

After filling the chamber 1 with sample. Of the soil test with the specified volume of air, the edge 5 closes. Gear 6 meniscus in the gauge tube 4 is brought exactly to the mark. Then, the time and position of the meiiscian of the measuring tube 2 are measured. The meniscus level and time are monitored until the meniscus stops losing time, and the latest report of the meniscus of the measuring tube 2 above the meniscus of the same tube is recorded (in the drawing, height h ).

The result obtained is an indicator of the total surface area of the sample.

The difference in the nerve countdown of time and the latter serves as a characteristic of pits (air flow into the soil).

For measurements on the instrument shown in FIG. 2 (i.e., at low pressure drops), the menisci of all tubes 2, 4 and 8 are set to 0; The taps II, 12 are closed, and by turning the go.youvok of the regulators, the menisci of the control 8 and the gauge 4 tubes are set to a predetermined degree, after which the meniscus of the measuring tube 2 is read. The difference of the counts during calibration and with the test sample (in the drawing h) and there is the indicator needed to calculate the air pore volume of the test sample. Further calculation is similar to the option with high pressure.

PREd. M et and z about b ete n i

. The device for studying the air regime of samples of porous soils, in which the sample of the soil under study, by placing in a chamber isolated from the external atmosphere, is filled with a predetermined volume of air under hydraulic pressure, measured by a liquid manometer and an adjustable diaphragm reducer,