SU1377795A1 - Method of seismic prospecting - Google Patents

Abstract

The invention is intended for seismic exploration using the Zemai natural noise field in order to isolate a number of deep objects, such as stress zones of rocks and ore veins, which are the source of seismic emission. The purpose of the invention is to improve the noise immunity of the method. Vibrations are recorded at each observation point by an azimuthal installation with vertical, as well as inclined and horizontal instruments located in the same azimuths, followed by determination of the corresponding projections of the direction vector to the seismic emission source through the cross-correlation functions. with (L

Description

with

The invention relates to seismic exploration using the natural noise floor of the Earth in order to isolate a number of deep geological objects, such as zones of stressed state of rocks and ore veins, which are sources of seismic effect.

The purpose of the invention is to increase the area of the seismic emission source, the resistance of the method. A positive effect is assumed for the operations at another point of the software (5 and find the direction to the object from the new installation position. Make similar measurements from several additional points on the profile. At the intersection point of the vectors constructed from different points of observation, the position is

the indicated operations at another point of the software (5il and find the direction to the object from the new installation position. Similar measurements are made additionally from several points on the profile. At the intersection point of vectors constructed from different observation points, the position

The method is carried out as follows.

At the research site, at one point of the profile, the components of the oscillations are simultaneously recorded during the time interval T. The function of the aerial correlation (PCF) of the R (ZX), R (ZY), R (XY) seismic receivers is calculated. According to the values of the maxima of the FVC, the direction in space to the source of seismic radiation is determined and the polarization of the component on the vertical instrument is determined

the waves. Denote by apf (t) pro-very small. Accordingly, the diminution wave and, through), the amplitude of the correlation function is alternated, which is equivalent to reducing the noise immunity of the method. The ratio of the amplitudes of the vertical and horizontal components of the observed signal is 30 tan / /, where "/ is the angle between the direction of motion of the particles and the horizontal cross-section seismic wave propagating from one localized source of elastic oscillations. I

FVK records vertical and inclined devices

R (o - a f (t). And f (t + zontal. With al 2b, 5 ° interference resistance g Pit P1

 efficiency increases 2 times with you) dti

the counting of PCF records on an inclined, and horizontal devices in comparison with (ij) -1-1 a f (t) -a f (t + iy with an ICF inclined and vertical - C devices. At d 11 ° interference resistance +) dtj

R, ();

Rp., PVf Pg-P, KD)

., Ptf,)

pg P1 //

Claims (1)

The bone is improved 5 times. Invention Formula 40 A seismic survey method based on multicomponent recording of elastic vibrations at least at one point from the natural 45 sources of elastic vibrations with subsequent calculation of the function of mutual correlation of records and determining the position of the source of seismic vibrations, in order to improve the robustness of the method, registering vibrations produced by azimuthal installation with vertical, inclined and horizontal instruments, located The ratio of the calculated maximum values of PVCs R sr.pm (C) / R ho  .pji  pvf. pg, pVj (45 ° - rf). From here, the angle of approach of the wave at the point of observation can be determined. Similarly, for a transverse wave, we obtain RS ,, sif, (), 5c /, () tg (45 ° + c). A seismic survey method based on multicomponent recording of elastic vibrations at least at one point from the natural 45 sources of elastic vibrations with subsequent calculation of the function of mutual correlation of records and determining the position of the source of seismic vibrations, in order to improve the robustness of the method, registering vibrations produced by azimuthal installation with vertical, inclined and horizontal instruments, located in the same azimuths, and From the values of the amplitudes of the FVC to the position of the source of seismic coiled and oppositely oriented parablings, the direction and devices determine the angle of approach of the pitch angle vector at the observation point. Repeat seismic wave. This method is determined by the introduction of a group of horizontal seismic receivers into the azimuth setup and is determined by the principle of correlation reception, in which the amplitude of the output signal is proportional to the product of amplitudes of correlated oscillations. Therefore, when registering vibrations, causing the movement of soil particles in the direction close to the horizontal (transverse 1e waves). counting of FVK records on inclined, and horizontal devices as compared with FVK of inclined and vertical devices. At d 11 °, noise immunity is improved 5 times. Invention Formula A seismic survey method based on multicomponent registration of elastic vibrations at least at one point from the natural 5 sources of elastic vibrations with subsequent calculation of the function of mutual correlation of records and determining the position of the source of seismic vibrations, in order to improve the robustness of the method, register vibrations produced by azimuthal installation with vertical, inclined and horizontal instruments, located 0