SU1287077A1 - Method of performing geoelectric surveying by charge method - Google Patents

Abstract

The invention relates to geophysical prospecting and is intended to increase the efficiency of geophysical work in assessing the size of the bedding elements and to determine the presence of electrical communication between well-conducting ore bodies. openings or holes. The purpose of the invention is to increase labor productivity and make it possible to perform work by the method of charging with the measurement of the electric field under poor ground conditions. In order to achieve the goal, in the method of charge, in which the horizontal component of the electric field gradient E is measured on the surface of the earth, the angle of inclination of the electric field vector to the horizon is also measured at points with minimum values of Е. In the process of measurement using ungrounded receiving line. 2 Il. with S.

Description

The invention relates to geophysical prospecting and is intended to increase the effectiveness of geophysical work in assessing the size, elements of the bed and determining the electrical connection between well conducting conductive bodies exposed by mining or boreholes. ,

The purpose of the invention is to increase labor productivity and make it possible to perform work using the charge method with measuring the electric field under poor ground conditions and, in particular, in winter conditions on snow cover and on ice of frozen lakes, marshes, etc.

FIG. 1 shows the spatial layout of the installation for implementing the method of FIG. 2 shows the results of observing the various components of the electric field obtained by operating the proposed method. .

The installation for implementing the method contains a supply electrode 1, connected to a well-conducting object 2 under study, supplying electrode 3, referred to infinity, a low-frequency current generator 4, connected to electrodes 1 and 3 with the help of two pieces of wire one of which is located on the surface of the earth 5, and the second - in the mine workings or borehole 6. The non-grounded receiving line 7 with the meter 8 is located on one of the profiles 9 of the profile system 10 within the working plate.

The adopted XYZ coordinate system with the beginning at the point of location of the generator at the wellhead or mining site; The OX axis is directed parallel to the profile of m observations, the OS axis is perpendicular to the profile of m observations, and the OZ axis is vertically up.

The method is carried out as follows.

An electrode 1 electrically connected to the object under study 2 (point 3) is arranged in a mine working or well. Install remote grounding 3 (infinity). A low-frequency current generator 4 is installed and connected to grounding 1 and 3 by means of two pieces of wire, one of which (5) is located on the earth surface perpendicularly or at a certain angle to the observation profile and the second ( 6) - in the well or mine workings. Excite the test body, passing a low frequency current through it. Non-grounded receiving line 7 is oriented parallel to the observation profile 9. At points of the profiles 9 along a dial gauge meter 8, a horizontal component of the electric field gradient E is measured along the direction of the OX axis and the angle is measured (f tilting the electric field vector to the horizon in the vertical XOZ plane by rotating the receiving line in this plane and fixing its position, at which the indicator of the gauge 8 is maximal (or min flax).

Claims (1)

Fig. 2 shows the nprn-iep of a geological section, including a host environment of high resistance 12, a charged ore body 3 of reduced resistance and a pocket of loose sediments 14, also of reduced resistance. On curve 15 of the horizontal component of the electric field gradient, measured by a known method, at an alternating current of low frequency without fixing the sign E, p, two minima are observed, one of which corresponds to the charged body 13, and the second to the pocket of loose sediment (or other heterogeneous geological cut, electrically unrelated to the charged body), determining the singular point 16 of the profile, in which the value E) (changes sign, measures the angle measurement by the results (j (curve 17). As can be seen from figure 2, special points meet areas in which the angle value (f of the electric field vector 18 is close to 90 °. The results of measuring the angle make it possible to construct, taking into account the sign, the curve EX (19), which is used for qualitative, and quantitative interpretation, The method of geoelectrical exploration by the method of charging, in which the power supply line is laid out, one end of which is connected to the object under study, the other end is carried to infinity, the supply line is connected to the current generator, low frequency, the receiving line is laid out on the earth's surface. . one The horizontal component of the electric field gradient is measured to determine the position of the minimum of its amplitude and to determine the geometrical parameters of the objects under investigation, which are different in that the target is above 287077 Moreover, in addition to the points with the minimum values of E.x., using an ungrounded receiving line, the angle of inclination of the vector, the electric field to the horizon in a vertical plane passing through the observation profile, is measured by the method. fiyo, 1 , "