SU1111120A1 - Geoelectric prospecting method - Google Patents

Abstract

METHOD OF GEOELECTRONDELECTION, in which a single-pole three-electrode sounding installation is used, containing two measuring and one feeding electrodes located on the same measurement profile line, the second feeding electrode is positioned perpendicular to the measurement profile line passing through the center of the measuring line, measuring the separation - the potentials in the measuring line and the amount of current in the supply line, on which the apparent resistivity of the medium is found, characterized in that, in order to increase the Labor productivity and increase of measurement resolution in the center of the installation, additionally place the third supply electrode on the continuation of the perpendicular on the other side to the measurement profile line, pass current through the second and third supply electrodes, measure the potential difference, and then turn these S supply electrodes around the center of the measuring line Ш until the potential difference is zero, and probing is carried out by using the first and second supply electrodes.

Description

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2, The invention relates to electrical prospecting and can be used in electrical probing in methods of resistance and induced polarization. There are several modifications of electrical probing for studying the variation of electrical parameters of green layers in the vertical and their sequence. In electrical reconnaissance, symmetric electrical sounding, sounding by dipole devices, and unipolar sounding by a three-electrode installation are widely used. With symmetric vertical electrical sounding, a symmetrical four-electrode installation with two supply and two measuring electrodes is used, in which the distances between the extreme supply electrodes and the measuring electrodes closest to them are equal, and the distance between the measuring electrodes is 1/3 the distance between the supply electrodes. In dipole installations, the meter is placed outside the power supply installation and is located at a distance significantly greater than the size of the circuits. In single-pole sensing, a three-electrode installation is used, one supply and two measuring electrodes placed between each other, in which the other supply electrode is installed at a very large distance {practical infinity) from the installation center O. This distance must exceed the installation size - distance between the first supply electrode and the installation center is 10-15 times C13. However: when probing by the listed methods it is impossible to determine the presence of distorting inhomogeneities at the point of study of the geoelectric cut, which significantly affect the appearance of the curves of apparent resistivity. The closest in technical essence and the achieved result to the proposed invention is a method of electrical prospecting, in which a one-way three-electrode sounding installation is used, containing two measuring and one feeding electrodes located on one line of the measurement profile, and the second flow electrode is placed on the perpendicular to the measurement profile lines passing through the center of the measuring line measure the potential difference in the measuring line and the amount of current in the supply line through The apparent resistivity of the medium 121 is found by the ores. Since the segments connecting the second supply and measuring electrodes are equal, the second supply electrode can be considered as an infinity analogue and its effect is caused only by disturbances of the Horizontal inhomogeneity of the medium near the measurement point. When probing in a known manner using a three-electrode installation, in which the fourth supply electrode is placed perpendicular to the measurement profile line, it is impossible to determine the presence of distorting inhomogeneities at the point of study of the geoelectric section. The circuit of the invention is an increase in labor productivity and an increase in the resolution of measurements in the center of the installation. This goal is achieved in that, according to the Geo-Electro-prospecting method, in which a single-pole three-electrode sounding installation is used, containing two measurement and one supply electrodes located on one line of the measurement profile, the second supply electrode has a measurement profile perpendicular to the line passing through the center of the measuring line, measuring the potential difference in the measuring line and the magnitude of the current in the current line, which are the apparent resistivity of the medium, additionally placing the third supply electrode on a perpendicular continuation on the other side to the measurement profile line, passing current through the second and third supply electrodes, measuring the potential difference, then turning these feeding electrodes around the center of the measuring line until the potential difference is is equal to zero, and probing is performed by using the first and second supply electrodes. FIG. Figure 1 shows a general scheme of the proposed method for measuring apparent electrical resistivity; in fig. 2 is the curve of the apparent specific electrical sounding p of the prototype and the proposed method. The measurement scheme contains (Fig. 1) the supply electrode 1 and the electrodes 2 and 2, which function as an infinity line. The method is carried out as follows. Before a series of bendings, a current is passed to supply line 2-2, and a potential difference is measured at measuring line 3-4. If the potential difference is zero, then electrodes 3 and 4 are found on one equipo.

Claims (1)

METHOD OF GEOELECTRIC EXPLORATION, in which a single-pole three-electrode sensing installation is used, comprising two measuring and one supply electrodes located on one measurement profile line, the second supply electrode being placed perpendicular to the measurement profile line passing through the center of the measurement line, the potential difference in the measurement lines and the magnitude of the current in the supply line, through which the apparent resistivity of the medium is found, characterized in that, in order to increase produces elnosti labor and increase the measurement resolution in the center of the installation additionally disposed a third source electrode on the extension of the perpendicular on the other side to the line profile measurements, current is passed through the second and third supply electrodes, measuring the difference in potentials _d cyano, whereupon the turn (9 feeding electrodes around the center of the measuring line until the potential difference is zero, and probing is carried out by using the first and second supply electrodes. SU111112 Figure 1