SU1264122A1 - Method for prospecting oil and gas deposits - Google Patents

Abstract

1. A METHOD OF SEARCHING FOR OIL AND GAS DEPOSITS, at which synchronous variations of the components of the Earth’s electromagnetic field are recorded at points located on the surface within the studied area, characterized in that, in order to increase the detail of the study, the points forming the measuring grid of closed contours are additionally selected register successively for each circuit, synchronously in all its points, variations of the horizontal magnetic components of the Earth’s electromagnetic field, produce a separation variations, determine their amplitudes and frequencies, calculate for each contour the total anomalous field, summing over all divided frequencies, the value + ..., k. where n is the number of points of the contour; K is the number of allocated variations of different frequencies; and - the average value of the amplitude. variations K point n, after which a map of the total anomalous field of the study area is constructed in isolations, according to which the presence and boundary of the deposit is judged. 2. A method according to claim 1, characterized in that the separation of variations is performed by filtering high-frequency noise and low-frequency variations and selecting components of variations with certain amplitudes and frequencies. 3. Method according to Claims 1 and 2, characterized in that, in order to determine the average depth, resonant frequencies are found according to the dependence of the magnitude of the total anomalous field on the frequency of variation, select points forming a grid (L of closed contours nested in one and located around the deposit center at distances selected in the range from the minimum possible depth to the technically accessible depth of drilling, register at these points the variations of horizontal magnetic fields that generate electromagnetics. the total field of the Earth at the resonant frequencies, you & A & numbered the total anomalous field k for each contour, determine the average depth of the depth over the area of the contour corresponding to the maximum value of the total anomalous field 4. Method. 3, in the sense that, in order to increase the accuracy of the study, the boundary of the deposit is redetermined, i preliminarily taking the distances between the nearest points equal to the average depth.

Description

5. The method according to paragraphs. T-4, characterized in that, in order to reduce the number of sets of equipment used for recording variations, select the points that form the measuring grid of closed circuits in the form of triangles.

The invention relates to technical physics, namely to geophysical methods of exploration using magnetic means, based on the measurement of the magnetic field of the Earth, and can be used for prospecting deposits of oil and gas.

The known-linear-integration method of magnetic reconnaissance, in which the total magnetic field of the Earth is measured at a number of points located along a closed loop, is calculated by linear integration over a closed loop, based on the total current law, the magnitude of the vertical electric current, oil and gas fields 1shi about the presence of solid rocks in the direction from the surface or to the surface of the vertical electric current.

The disadvantage of this method is low accuracy, due to the fact that in this method the variations of the magnetic field of the Earth do not increase.

The closest to the Invention is a geoelectrical reconnaissance method based on the measurement of the natural electromagnetic field of the Earth using synchronous recording of variations in the components of the electromagnetic field in other locations.

The disadvantage of this method is the low detail of the study, which leads to significant differences in the determination of the geological nature of the revealed anomalies.

The purpose of the invention is to improve the detail of research.

This goal is achieved by the fact that according to the search method for the search for oil and gas deposits, at which they are recorded simultaneously in points located on the surface within

The area being explored, the variations of the components of the Earth’s electromagnetic field, additionally select the points that make up the measuring grid of the closed

5 contours, register sequentially for each contour, synchronously in all its points, variations of the horizontal magnetic components of the electromagnetic field of the Earth, produce

10 separation of variations, determine them: amplitudes and frequencies, calculate for each contour the total anomalous field, summing over all the selected frequencies the value

5 (a ,, -а, к1 + «-азк1 + - + Кк-.Ь where n is the number of contour points;

K - the number of selected variations

different frequencies;

 mean value of the amplitude of 20 variations of K point n, after which a map of the total anomalous floor of the studied area is constructed in isolines on which the presence and boundary of the deposit is judged. 25 In addition, the separation of variations is produced by ft-shtru high-frequency noise and low-frequency variations and the selection of the composition1}: variations with certain amplitudes and frequencies.

 In addition, in order to determine the average depth, the resonant frequencies are found according to the dependence of the magnitude of the total anomalous field on the frequency of variations;

35 grid-forming closed contours nested in one another and located around the center of a deposit at a distance selected in the range of the minimum possible depth

40 before technically accessible drilling, these nyFiKTax record the variations of the horizontal magnetic components of the Earth's electromagnetic field at resonant frequencies.

45 calculates the total anomalous field for each contour, determines the average depth at the contour area corresponding to the maximum value of the total anomalous field. For the purpose of povieni. the accuracy of the study re-determines the boundary of the field, previously taken in the distance between the nearest points equal to the average depth. In order to reduce the number of sets of equipment used for registering variations, the points forming the measuring grid of closed contours in the form of triangles are selected. The invention has the following physical justification. The existence of electric currents in the Earth's crust is mainly due to variations in the magnetic field of the Earth, local electric fields of the atmosphere, electrochemical and thermoelectric processes in the subsoil. According to their physical characteristics, in the simplest case, a formed hydrocarbon reservoir corresponds to a flat electric capacitor, the functions of conducting plates which carry negatively charged layers to a metric with saturated hydrocarbons, collector space, pokryshkoy and underlying rocks, which are formed due to the potential grouping as a result of electrochemical interaction. substance rocks at the boundaries. The role of the dielectric interlayer is performed by a gas or oil-saturated volume of rocks with dramatically reduced dielectric constant. The column of reduced rocks above the deposit, which has a higher polarizability than the surrounding space, plays the role of inductive resistance. The hydrocarbon deposit is a volume of reduced rocks — the surrounding geological space is formed by a natural electromagnetic oscillatory circuit — a learning system, the excitation source of which is the alternating electromagnetic fields of the Earth. Variations of the earth's magnetic field are most convenient for recording signals from a deposit. Example. On the terrain in the area of the proposed field, a system of observation points is selected, located at the vertices of equilateral triangles at distances of, for example, 3 km. The points are the centers of closed contours to which the values of the total anomalous field calculated for each contour are assigned. These values are calculated from the real local field of the anomaly ltd. Map — A topographic map is composed of one of the components — AJ,; for a component Ay construction is similar. The second component map is primarily used for monitoring. The research results are presented not in the form of a deviation map from the mean or a deviation map from the trend (which requires additional calculations), but in the form of equal values of anomalous amplitude components. Determining the boundaries of deposits is carried out as follows. There are areas of higher field values, formed by closed isolines, within which ring anomalies exist, formed by first isolines with repeated values. Next by. The maxima of the anomalies are drawn to the lines corresponding to the boundaries of the deposits. The center point of each deposit is chosen in accordance with -1 with its configuration as the most distant from the borders. As an example, take one of the contours of the general network, in which one of the points falls into the contour of the deposit. Data on one such contour makes it possible to judge only the presence of a deposit, but not about its boundaries and exact location. Let on the ground, in the area of the proposed reservoir, take three points located at the vertices of an equilateral triangle at a distance of x 3 km. Three stations CES-1 are used as ground-based means for measuring variations of the earth's electromagnetic field. Simultaneous recording of the variations of the horizontal components of H. and the H of the Earth’s magnetic field in the interval from 5–10 s to 1000 s (0.1–0.001 Hz) in the low-frequency region during the day is performed. The materials of magnetic telluric sounding (MTZ) are taken as concrete data for the Riemer. The obtained magnetic mites of the digital recording of the station of the TsES-1 station for each of the three observation points (1 are processed by the automated data processing system of the MTZ on the BESM-4M computer in accordance with the Instruction - on the operation of the MTZ-TSES-1 processing system (D1TA - AVTO ) - Versions AM - 3.75 The parameters used for processing are the following: the number of station 4 channels; the frequency grid step is 1.4 Hz; the relative filter bandwidth is 1.2 Hz; the sampling rate is 0.29 s; the constant is ily 0.0024 gamma; constant H

For the third observation point of the closed contour that is within the conditional deposit, the values of the average amplitudes H and H are calculated taking into account the real values of the local anomalies Tu. obtained for the oil field (absolute marks of water-oil contacts (770) (2270) m with a highly sensitive KAM-28 azromagnetometer.

The data from columns I, II, III of the table are used to calculate the anomalous components and field variations for each frequency i (periods) using the formula

I, Ka, -ai,) + i; a, -iiy,) l +.

The results of the calculations for the components of H and H, respectively, are given in the table. 226 0.0024 gamma; igum magnetic canap 0.00099. The data processing system implements procedures for entering information into a computer, editing, narrowband filtering to separate the variations, determining the characteristics of the variations (in this case amplitudes) and obtaining the amplitudes of the variations at each frequency (period). The data obtained for the two points on the H - and H, -consistent i Y are tabulated.

Claims (5)

1. METHOD FOR SEARCHING OIL AND GAS DEPOSITS, in which synchronously register variations in the components of the electromagnetic field of the Earth at points located on the surface within the study area, characterized in that, in order to increase the detail of the study, additionally select points that form a measuring grid of closed loops, register successively for each circuit, synchronously at all points, the variations of the horizontal magnetic components of the electromagnetic field of the Earth, separate the variations Determine their amplitude and frequency, is calculated for each circuit anomalous field sum, summing over all selected frequency value CC ~ ^a ~ ^{+) and 2k-r} sk | ⁺ '· ⁺ 1 ^and vk ^and 1k1 ~' where n - the number of contour points; K is the number of incalculated variations of different frequencies; a _{h) <} . - the average value of the amplitude, variation K of item n, after which a map of the total anomalous field of the studied area in the isolations is constructed, which is used to judge the presence and boundary of the deposit. 2. The method of pop. 1, characterized in that the separation of the variations is carried out by filtering high-frequency noise and low-frequency variations and highlighting the components of the variations with certain amplitudes and frequencies. 3. The method according to claims 1 and 2, characterized in that, in order to ~ determine the average occurrence depth, resonance frequencies are found by the dependence of the total anomalous field on the variation frequency, items that form a grid of closed loops embedded one into another and located around the center of the deposit at distances selected in the range from the smallest possible depth to technically accessible drilling depth, the variations of the horizontal magnetic components of the Earth’s electromagnetic field are recorded at these points whether at resonant frequencies, calculate the total anomalous field for each circuit, determine the average depth by the area of the circuit corresponding to the maximum value of the total anomalous field. 4. The method according to PP. 1-3, characterized in that, in order to increase the accuracy of the study, re-determine the boundary of the deposit, preliminarily taking the distances between the nearest points equal to the average depth. ₉₎ SU „„ 1264122 A1 variations, select the points that form the measuring grid of closed loops in the form of triangles; nicks. 5. The method according to PP. ΐ-4, characterized in that, in order to reduce the number of sets of equipment used for register-