SU1223179A1 - Method of geoelectric prospecting - Google Patents

Abstract

This invention relates to technical physics and can be used to evaluate geoelectric pagas; environmental measurements. In order to increase the informativity of the method, a current is introduced into the earth through a pair of powering electrodes, the magnitude of this current and the potential difference between, a pair of receiving electrodes, are sequentially moved to supply the electrodes symmetrically relative to the center to the limiting distance , a graph of changes in apparent resistivity is plotted, repeated measurements of i are carried out, which are used to estimate the accuracy of measurements, and an additional measurement is carried out on the sections of the profile that are shown on the graph a sharp straight line passing through two points, with observations being made in the intervals between measurement points at which these points were obtained, until each segment of the apparent resistivity graph on the graph changes at least three points at specified measurement error. 1 il.

Description

one

The invention relates to technical physics, primarily to geo-electrical exploration, and can be used to estimate the geoelectric environmental parameters in order to study the structure of geological sections.

The purpose of the invention is to increase the info ability of the method.

The drawing shows the change in apparent electrical resistivity as a function of the distance between the supply electrodes.

The method is described as follows.

On the site to be investigated, profile lines and points for placement of electrodes are planned. In the latter, two feeding electrodes A and B and two receiving electrodes M and N are installed. The distance between the feeding electrodes. A and B are consistently increased to the limiting, due to the depth of research. The step of increasing this distance is sequentially changed in order to obtain a smooth change in the function of apparent resistivity. The distance between the receiving electrodes M and N is taken fixed and does not change it in the course of work, and the ratio of the distance MN between the receiving electrodes M and N to the distance AB between the supply electrodes A and B is kept equal to or less than 0.1. At each step of the spacing of the line AB, measurements are made of the potential difference between the receiving electrodes M and N and the magnitude of the current in the circuit of the line AB, and during the direct course of measuring the spacing

These potentials and currents systematically re-observe changes in the curve after a certain number of points, and with irregular and inconsistent with other observations.

From the measurement results, the apparent resistivity is calculated using the formula

about - to I

where K is the installation factor; D and - potential difference; I - current strength.

Then, based on the calculation results, a graph of the apparent resistivity is plotted. When reaching the limit spacing

j

5 0 5 Q

0

five

five

five

0

79, 2 lines AB begin to reduce the distance between the supply electrodes A and B and make measurements of the magnitude of the current and the potential difference only. in the intervals between three adjacent points of observation of the forward course, the graph of the change in apparent resistivity at the site, which is represented by a curvilinear segment.

. In case the straight line segment on the graph was detected during the forward course of measurements by at least three observation points, measurements are not performed during the reverse course at this site.

In the event that a straight line can be drawn through a point on the graph obtained during the reverse course of measurements and two adjacent points of the forward stroke, further measurements on this section of the profile line are stopped. If, as a result of the measurement, at the intermediate point during the reverse course, two straight lines of segments are formed on the graph, then measurements are made at new observation points in these areas until the next straight line on the graph passes through three points. . .

When using the MN / AB ratio, 1 depth of investigation is equal to AB: 2.

After construction in this way

The graphs of the apparent resistivity function over the initial and final values of the AB / 2 straight line segments determine the thickness of the geological section. The calculation of the true resistivity of the i-ro formation is made according to the formula

 h. Ü hi PI-Ü hi I

bL. where h is the thickness of the i-ro reservoir;

PKI is the apparent resistivity for the i-th power of the medium.

The combination with the method of the proposed method allows to obtain information about the number of sections in the section and their true specific resistances with high confidence. This is achieved due to a sharp decrease in the limiting distance between electrodes A and B, due to the choice of the ratio MK / AB 0.1.

31

In addition, an accelerated acquisition of reservoir power is used, which involves establishing a segment at three measurement points by repeating in all segments direct, connected by two observation points.

PRI me R. The drawing shows a graph of the apparent resistivity versus AB / 2 (at a ratio of MN / ABO, 1) and a geological section, revealed during the reverse course of the measurement with rational placement of repetitive points.

During the direct course of measurements, the graph of the change in apparent specific resistance in areas T and TI between points AB / 2 0.5 m, AB / 2 1.5 m and AB / 2 3.0 m is represented by a broken line. line (dashed line), consisting of two segments, connecting every two adjacent points. In order to determine the reliability of the graph between the indicated points in the sections G and II, additional measurements were carried out during the reverse run at the points AB / 2 0.7 m, AB / 2 1.0 m, AB / 2 1.25 m AB / 2 1, 75 m, AB / 2 2.0 m and AB / 2 2.5 m. As a view from the graph, between each pair of points obtained during the direct course of measurements, two rectilinear segments (solid lines on the graph) are obtained, each of which passes at least three points. Thus, a new graph of apparent resistivity changes in this section characterizes a true geological section, which cannot be established during the course of measurements. Similar results were obtained in section U. At the same time, sections III, IV and VI are straight sections on The graph obtained during the forward run, although each passes through two measurement points, is reliable. This is confirmed by the results of measurements during the reverse course (points А% / 2

0 5 o

five

794

3.5 m, AB / 2 5.0 m and AB / 2 11.0 m). In sections VII - IX, a straight line segment on the graph connects at least three points (four in this case), so there is no need to take measurements during the reverse course, the graph in these areas characterizes the true geological section.

Claims (1)

Invention Formula The method of geoelectromagnetic j, in which the current points are introduced into the earth through the profile points through a pair of supply electrodes, the magnitude of this current and the potential difference between the pair of receiving electrodes are measured, the supply electrodes are successively displaced symmetrically relative to the center to the limiting distance moreover, the magnitude of the difference between the supply electrodes is chosen such that the distance between them is twice the thickness of the investigated strata of rocks, and the ratio of the distances between the receiving ones and the supply electrodes did not exceed 0.1, build a graph of the apparent resistivity, carry out repeated measurements, which measure the accuracy of measurements, characterized in that, in order to increase the information content, after repeated measurements, additional measurements are made on the profile sections, which, in the graph, the changes in apparent resistivity are characterized by a straight line segment passing through two points, the observations being carried out in the intervals between the measurement points in which these m points, as long as each straight segment in the graph of apparent resistivity variation will not be connected to at least three points at a given measurement error. Editor S.Saenko Compiled by A. Voskoboinikov Tehred n.Bonkalo Proofreader Reshetnik Order, 1709/4 Circulation 728. Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5. Branch ShSh Patent ,: Uzhgorod, st. Project, 4