SU1420575A1 - Unpolarizable electrode - Google Patents

Abstract

The invention relates to the field of geophysical methods of prospecting and exploration of mineral deposits and can be used in carrying out surface and borehole observations using the natural electric field method and the induced polarization. The purpose of the invention is to increase the reliability of electrometric surveys using the natural electric field method by eliminating the self polarization of the electrode caused by a change in the ambient temperature. The temperature compensation of the own polarization of the non-polarizing electrode is achieved by forming a compensation voltage in the temperature-dependent polarization matrix, which linearly depends on the temperature of the temperature-sensitive element. The sensing element is placed in a metal electrode and has with it a rigid thermal / HVO bond provided by the design. 1 il. with S a

Description

4 K

SL H SL

The invention relates to geophysical methods of prospecting and exploration of mineral deposits and can be used in conducting surface and borehole observations using the natural electric field method and induced polarization.

The purpose of the invention is to increase the reliability of electrometric measurements.

The drawing shows a diagram of the proposed device.

The non-polarized electrode contains a contact element in the form of a vessel 1, a cover 2 with a plug 3, a metal electrode 4 and a temperature-dependent compensator; polarization (TCH) 5, which includes a temperature-sensitive element 6, four resistors 7-10, a key 11 and a power source 12. The vessel 1 is filled with electrolyte 13 and is made of a porous material. The metal electrode 4 is made hollow, filled with heat-conducting material 14 and through the hole made in the plug 3, placed in the electrolyte 13.

The non-polarizing electrode operates as follows.

The electrode is placed under normal conditions (18 ° C) and includes a key 11. A resistor 10 is selected depending on the voltage of the power source 12. The temperature characteristic of the metal electrode 4 is determined and a value of the resistors 8 and 9 is selected which provides the specified proportionality coefficient between the temperature change of the metal electrode 4 and the magnitude of the unbalance potential of the bridge. The bridge is balanced by a resistor 7. At the same time, the voltage on the AV bridge diagonal is zero. A non-polarizing electrode is installed at the observation point and the point B of the diagonal of the AV bridge is connected to a meter (not shown). The vessel 1 is fully or partially immersed in the medium (soil). Turn on meter. The non-polarized electrode is exposed to ambient temperature (ground surface, solar reaction). Thermal energy from the environment is perceived by the vessel 1, the lid 2 and the stopper 3 and through conductive and convective heat transfer through the electrolyte 13 is transferred to the metal electrode 4, causing a change in its temperature and, therefore, its polarization. Heat energy from the metal electrode 4 through the heat-conducting material 14 is transferred to the heat-sensitive element.

6. In connection with a change in the temperature of the latter, its resistance also changes. There is an imbalance of the bridge, i.e. currents flow through the resistors

7-9 and a temperature-sensitive element 6. A potential difference appears on the diagonal of the AV bridge, which compensates for the change in the polarization of the electrode due to a change in its temperature.

J. Thus, TPK 5 ensures the elimination of the effect of self-polarization of a non-polarizing electrode when the temperature of its environment changes. The application of the proposed non-polarized electrode electrode allows one to increase the reliability of surface and downhole measurements using the EP method by eliminating the effect of ambient temperature and electrodes on their results. In addition, when performing high-precision surveys using the natural electric field (EP) method,

For which it is envisaged to perform special thermometric measurements at observation points in order to take into account the effect of temperature on the measurement results, the use of the proposed non-polarized 5 electrode for electrometric measurements makes it possible to increase the work productivity by eliminating thermometry.

Claims (1)

Invention Formula A non-polarized electrode containing a contact element in the form of a vessel filled with electrolyte, a lid with a stopper and a metal electrode, while the metal electrode is placed into the electrolyte through an opening made in the stopper, and the contact element is made of porous material In order to increase the accuracy of electrometric measurements, it is equipped with a temperature-dependent polarization compensator, including a temperature-sensitive element, four resistors, a switch and a power source, while vstvitelny element and three resistors connected in series in a bridge circuit, a fourth resistor, a power source key and connected in series and included in one bridge diagonal, a metal electrode is hollow and filled with a thermally conductive material, which is placed in the temperature sensing element, a second diagonal the bridge is connected to the metal electrode by one point, and the second point of this bridge diagonal is the output of the device. one