RU111295U1 - DEVICE FOR LABORATORY OPTION OF SEISMOGEOELECTROCHEMICAL RESEARCH - Google Patents

Abstract

 A device for a laboratory variant of seismic geoelectrochemical studies, characterized in that it is a vibration platform on which an electrolytic cell is rigidly mounted, designed to accommodate rock samples and equipped with electrodes configured to connect to a direct current source, as well as asynchronous an electric motor equipped with an unbalanced rotor and made with the ability to connect to an AC source.

Description

The utility model relates to geophysics and can be used in predicting the oil and gas potential of local objects using the seismic-geoelectrochemical method.

Measurements of the concentrations of indicator elements in rock samples before activation of geochemical processes (C ₀ ) and from the near-cathode (C _C.T.K. ) and anode (C _C.T.A. ) sites after the field is subjected to elastic vibrations and constant electric current allow you to get information about the prospects of oil and gas local objects.

Two types of laboratory vibration units (vibroplatforms) are known. The first type is used when checking electrodynamic seismic receivers (Slutskovsky AI Electrodynamic seismographs. - Exploration and field geophysics No. 13. Gostoptekhizdat, 1955, S.54-56), (Gurvich II. Seismic exploration. Edition. 2nd revised and supplemented. M., "Nedra", 1970, S.242-248).

A vibration platform is a device consisting of a massive table (platform) suspended on rubber tows from a fixed support. A vibrator is mounted under the table, which is a coil connected to a sound generator and placed in a permanent magnet field, rigidly fixed to the platform table.

However, the main characteristics of the vibration platforms do not meet the requirements of seismic geoelectrochemical studies, in particular, the displacement amplitude is at the level of tens of microns, which is completely insufficient to change the structure of the studied sample.

The second type of vibration sources of elastic vibrations is used in small-scale and pilot production of building materials for compaction of mixtures in molds (http://www.vibromaster.ru.stanki-vibromaster.php.). Small-sized units of the “vibromaster” series consist of a small-sized table with a block form mounted on the table and an upper forming traverse with resonators fixed to it.

However, installations of this type are characterized by significant displacement amplitudes and very high accelerations, which is unacceptable in the settings of the laboratory version of the seismic geoelectrochemical method. In addition, they have a significant cost.

Known unbalanced vibration exciter, including a rotating shaft, on which there is an unbalance made of two unbalanced masses, installed with the ability to control their angular position relative to each other, which ensures the constancy of the acting force on the soil in a wide frequency range (RF patent No. 2387488, IPC B06B 1 /16).

The disadvantage of this technical solution is its complexity and bulkiness, which makes it impossible to use it in the laboratory version of the seismic geoelectrochemical method.

The task is to create a structurally simple device with the possibility of conducting seismic-geoelectrochemical studies in the laboratory version.

The technical result consists in increasing the reliability of research by creating elastic vibrations of the sample at the moment of passing an electric current through it.

The specified technical result is achieved by the fact that the device for the laboratory version of seismic geoelectrochemical studies, according to the solution, is a vibration platform on which an electrolytic cell is rigidly fixed, designed to accommodate rock samples in it and equipped with electrodes made with the possibility of connecting to a direct current source, and an asynchronous electric motor equipped with an unbalanced rotor and made with the possibility of connecting is also rigidly fixed Nia to AC power.

The utility model is illustrated in the drawing. The positions in the drawing indicate:

1 - vibration platform;

2 - shock absorbers;

3 - asynchronous electric motor;

4 - cargo of adjustable imbalance;

5 - electrolytic cell;

6 - test sample of rock;

7 - graphite electrodes;

8 - a direct current source;

9 - AC source.

The device comprises a vibration platform 1 attached to four shock absorbers 2. An asynchronous motor 3 is fixed to the platform 1 and is connected to an alternating current source 9. The engine is equipped with an unbalanced rotor, which is a disk mounted on the axis of the engine, capable of securing a load of adjustable imbalance 4 on it . An electrolytic cell 5 with a test sample of rock 6 is also rigidly fixed on the platform 1, while graphite electrodes 7 are installed in the cell, made e with the ability to connect to a DC source 8.

The device operates as follows. The test rock sample 6 is poured into the electrolytic cell 5, saturate the rock with distilled water to full moisture capacity, set the unbalance load 4 in the working position and turn on the power sources 8 and 9, causing the platform to vibrate and direct current flow through the rock sample.

The positive effect of the utility model is the ability to conduct seismic-electrochemical studies of rock samples, which is achieved by manufacturing a vibration platform that provides sufficient data on the amplitude and frequency of oscillations with minimal material costs on the one hand and high efficiency on the other.

A device was made for seismic geoelectrochemical studies of rock samples, which was a platform 800 × 500 × 15 mm with shock absorbers. An asynchronous electric motor with an unbalanced rotor is rigidly fixed on the platform. The engine during operation creates vibrations with a rotor speed. The amplitude of the oscillations is regulated by the position of the unbalanced load, and the rotation frequency is controlled by the supply voltage. An electrolytic cell with a rock sample is rigidly fixed on the same platform. Using graphite electrodes, direct current is passed through the sample.

Claims (1)

A device for a laboratory variant of seismic geoelectrochemical studies, characterized in that it is a vibration platform on which an electrolytic cell is rigidly mounted, designed to accommodate rock samples and equipped with electrodes configured to connect to a direct current source, as well as asynchronous an electric motor equipped with an unbalanced rotor and made with the ability to connect to an AC source.