SU1723319A1 - Device for modelling of mine working - Google Patents

Abstract

The invention relates to mining, to laboratory studies of the processes of formation of areas of stress state of rocks. The aim of the invention is to increase the expressiveness of MO and Va Mg NI yu, o yo geo separation. The device contains a transparent housing 1, a reservoir 3, two shielding formations 4 and 9, a plunger 7, a measuring device, impermeable accommodating deposits 6, on the surface of which non-polarizing electrodes are placed 5. On the surface of the deposits, the initial values of the potentials between the electrodes are measured stationary filtration of fluid in reservoir 3 and re-measuring potential differences. To study the effect of the stress state of rocks on potential changes in the absence of fluid filtration, their initial values are measured. A cavity 8 is created around which a stress state zone is formed, and the measurements are repeated. 1 silt 6 / Z. (S with

Description

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The invention relates to mining, and more specifically to laboratory studies of the processes of formation of areas of stress state of rocks.

A known method for measuring stresses in a model of equivalent materials, including loading the model, measuring the electrical resistance of a measuring sensor placed in it, additionally loading and measuring the electrical resistance of a calibration sensor placed in a sample of the same equivalent material, while ensuring that the electrical resistance of the calibration and measuring sensors and the resulting load is judged on the magnitude of the stresses in the model.

The disadvantage of this method is the impossibility of studying the changes in the potentials of the natural electric field on the surface of the sediments depending on the internal mechanical stresses and filtration of fluids, as well as the considerable time spent on taking measurements.

Closest to the present invention is a karst modeling device, comprising a transparent body with openings having nets, openings are hydraulically connected to water tanks. In the case from the bottom up, there is a waterproof layer, an aquifer, a waterproof layer, a layer (of sarstuvayuschih rocks and overlying sediments. When water is filtered, it gradually forms a karst cavity.

The drawbacks of this device are the considerable time spent on modeling the karst cavity, the inability to create, regardless of the filtration process, the zone of the stressed state of the rocks, the impossibility of conducting electrical measurements, eliminates the possibility of a comprehensive study of mechanoelectric and electrokinetic effects.

The aim of the invention is to increase express ™ modeling due to the intentional formation of a stress zone of rocks for the integrated study of mechanoelectric and electrokinetic phenomena by recording their displays on the surface of sediments based on changes in the potential of the natural electric field.

This goal is achieved by the fact that in a device for modeling mine workings, including a transparent housing, provided with inlet and outlet openings communicating with containers for

fluids, a porous medium imitating a productive horizon, impermeable enclosing sediments located above and below the porous medium on the surface

which contain non-polarizing electrodes in contact with these deposits and connected to measuring instruments, and a plunger is installed inside the deposits with the possibility of its displacement to form a cavity, around which a zone of stress state of the rocks is formed.

The drawing shows the proposed device.

5 The device consists of a transparent housing 1 in which a reservoir 3 is placed, two shielding formations 4 and 9, as well as impermeable enclosing sediments 6, on the surface of which are placed

0 non-adjustable electrodes 5. The device is also provided with a plunger 7 with the possibility of its movement to form a cavity 8, inlet and outlet openings 2 with grids which are hydraulically connected

5 with fluid containers (not shown).

The device works as follows.

A plunger 7 is inserted into the body of the device and the screening layer 9, the reservoir layer 3, the screen layer 4 and impermeable enclosing deposits 6 are subsequently poured. Non-polarizing electrodes 5 are placed on the surface of the deposits and connected to a measuring device (not shown). The inlet and outlet 2 are connected respectively to the feed and receiving containers (not shown).

To investigate the potential connection with

By measuring the potential of the SES on the surface of the sediments, the initial values of the potentials between the electrodes are measured, the steady state filtration of the fluid in the reservoir reservoir is established, and the values of the potential difference are measured secondly.

The days of investigation of the influence of the stress state of the rocks on the changes in the potential of the SES on the surface of the sediments in the absence of fluid filtration measure their initial values. The movement of the plunger 7 creates a cavity 8 around which a stress state zone is formed and the values are re-measured.

5 potential difference.

The device allows a comprehensive and separate study of geomechanical and filtration processes in the underground mining of solid minerals and well production of oil and gas.

5 17233196

The increase in express ™ model-horizon, impenetrable accommodating entrances and carrying out at the same time electrical plots located above and below the porymeasurements allows for a more efficiently high medium, from which it is.

to be regularities in the field of Hesselek in order to increase the expressiveness of the model-transformations and create it, it is equipped with non-polarizing methods for conducting field research with electrodes, a measuring instrument

to solve practical problems. and plunger, and non-priming

Claims (1)

Claims of the invention Electrodes are placed in impermeable A device for simulating mountain-bearing sediments excavation, containing a transparent housing 10 above the porous medium and connected to the measuring inlet and outlet openings, the COO & tel instrument, and the plunger is located (provided with fluid containers, in-between which can move inside the isolating medium, imitating production under the porous medium.