SU1448245A1 - Apparatus for investigating moisture transfer - Google Patents

Abstract

The invention relates to engineering geology and can be used to study the processes of moisture transfer in soils. The purpose of the invention is to increase the accuracy of measurements of moisture transfer parameters in the soil while ensuring the calibration of sensors. For this, the device is additionally equipped with a calibration column 2, each with a hole 9 for sampling soil, made flush with the sensors 7 and 8 of the tensiometers and the humidity of the measuring column 1. The columns 1 and 2 are connected to a common water regulating system. The measurement of the dynamics of moisture in the soil is carried out in conjunction with the calibration of sensors 7 and 8 of the measuring system. 2 Il. l

Description

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The invention relates to engineering geology and can be used to study the processes of moisture transfer in the soil.

The purpose of the invention is to increase the accuracy of measurements of moisture transfer parameters in the soil while ensuring the calibration of sensors.

Figure 1 shows the device, a general view; figure 2 - node I in figure 1. The device includes measuring and calibration columns 1 and 2, made of transparent ring blocks 3 with sealants 4 between them, having at the base porous membranes 5 and fittings 6 for connecting them to the general water regulating system. Measuring column 1 is equipped with 7 strain gauges and electric humidity sensors 8 installed vertically in it. The calibration column 2 has openings 9 for sampling with stoppers that are flush with the sensors 7 and 8 of the measuring column 1. Each column 1 and 2 is equipped with a gravitational system for monitoring the total moisture imbalance containing equal bar 10, one end of which is connected the counterweight 11 and the other is spring-loaded with respect to the fixed support and is associated with the indicator 12 of the moisture balance change and column 1 and 2.

Sensors 7 and 8 are associated with pressure and humidity indicators, respectively (not shown).

The device works in the following way.

Columns 1 and 2 of the prefabricated blocks 3 are filled with the test soil. As the measuring column 1 is filled, sensors 7 and 8 are installed in its core area. Then columns 1 and 2 are filled with water through fittings 6. Unloading the initial weight of the device with counterweights 11 and setting the indicator 12 to zero on the total moisture balance is performed. The pressure indicators take the soil suction pressure P at different levels in column I. The humidity indicator removes the moisture value 9, and in the calibration column 2 through the holes 9, take soil samples at the appropriate levels to determine its moisture content using the thermometric method.

After discharge of water through fittings 6 as the soil dries out in the upper part of columns 1 and 2, the soil moisture is redistributed along a vertical profile.

The suction pressure data in the soil at various levels, the moisture indicator readings, the soil moisture test and the total moisture balance in columns 1 and 2 are taken for different times. According to the measurement data, calibration curves for each humidity sensor 8 and graphs of Pc (&) for the soil under study are plotted.

During repeated cycles of measurements, the calibration column 2 is taken only if it is necessary to monitor the readings of the instruments.

Thus, when using two identical columns operating simultaneously in the same water-physical conditions, the columns measure the moisture dynamics in the soil together with the calibration of sensors 7 and 8 of the measuring system. The manufacture of columns 1 and 2 of the ring blocks 3 allows sequential laying of the soil with the installation of sensors 8 in the center of the column. The presence of a gravitational system for controlling the total imbalance of moisture makes it possible to determine the total change in soil moisture content over time in a duplicate manner.

Claims (1)

Invention Formula A device for the study of moisture transfer, including a soil measuring column with vertical strain gauges and electric sensors and a water regulating system installed, characterized in that, in order to improve the accuracy of measurements of moisture transfer parameters in the soil while ensuring the calibration of sensors, The device is equipped with a calibration column for soil with openings for sampling, while the columns are installed in parallel to one another and are connected to a common water regulating system, and The brushes for sampling in the calibration column are flush with the sensors of the measuring column. 2