SU905895A1 - Seismic survey method - Google Patents

Description

The invention relates to seismic exploration using a set of field and laboratory interference systems based on the summation of seismic vibrations.

When conducting seismic surveys using the method of reflected waves in seismic and geological conditions, characterized by a complex relief pattern of reflecting boundaries and high EMC power and, consequently, intense interference waves of various kinematic characteristics, propagating in space in various directions, there is a need to use a set of interference systems including multiple profiling with areal location of explosion points with highly efficient interfer Continuous sources such as detonating cord lines and subsequent summation of seismic records. The use of the complex is aimed primarily at increasing the signal-to-noise ratio.

Known methods of seismic exploration, based on the use of the complex interference

systems including multiple profile overlap using a detonating cord (LH) line as the source, placed along profile 1.

In the known method, various interference waves with a wide and continuous range of kinematic changes are effectively suppressed.

10 characteristics. However, effective suppression is achieved only for waves propagating along the profile.

15

The closest to the proposed method is a seismic survey based on multiple profiling of a series of parallel profiles with oscillation excitation sources and a line of observation when placing sources, ensuring the uniformity of the projections of their centers onto the line of observation. This method is real (seized in a system for seismic

25 oscillations, including a set of interference systems and characterized by the location of explosion points using single or group sources along a number of parallel profiles and using a single line of observation with groups of seismic receivers 2, the System provides effective attenuation of interference waves with a wide and continuous measurement range of nematic characteristics, distribution of wounding in two directions along the profile and across. The disadvantage of this method is the impossibility effectively. suppressing interference waves with a wide range of kinematic variations of f characteristics, spreading cts in any other direction, and not only in the two indicated. This is expressed in the appearance on the plots of the coefficient of directional action (KND) describing the system performance for seismic observations, elevated values (kDd, including in the form of additional maximums, indicating a low noise immunity of the system with respect to wave interference, arguments 4 ko These values correspond to the cosiness values. ChCID charts with additional maxima and in general with higher values can be observed with different schemes of location of the explosion points on the excitation lines used in Stimulation of seismic surveys: both at the location of the explosion points (source centers) that do not overlap their projections onto the observation line, and the projections form a uniform sequence, and when the explosion points are located, resulting in a coincidence of the explosion points, i.e. to overlap them. The question of how to optimize the method arises when using both the one and the other arrangement of the location of the explosion points on the lines. To optimize the method, to make it more noise-proof to, wave-interference with a wide and continuous range Nominal changes in kinematic characteristics (wavelengths) that propagate in any direction in space, when placing explosion points that ensure uniform projection of them onto the line of observation, it is necessary to achieve exclusion of elevated values of CCND, including in the form of additional intense maxima in the ShchSch graphs, having included in the method as a source of oscillations a continuous source in the form of an areal figure with given parameters and choosing the size of the explosive interval so that during processing seysmozapisey all-wave interference ,, races propelling space in the space for any alignments, summed by .zakonu with a continuous distribution of sensitivities. The purpose of the invention is to improve the noise immunity of the method with respect to intense wave interference, having a wide and continuous range of variation of apparent wavelengths and propagating in any directions in space. This goal is achieved by the fact that in a known seismic survey method based on multiple profiling using a line of observation and a series of parallel profiles with oscillatory sources, the projections of the centers of which onto the line of observation do not overlap and form a uniform sequence. interference, as a source of oscillations using a continuous source with enhanced noise immunity, such as a detonating cord, which agayut the figure having an envelope in the form of a rectangle. One side of the rectangle, which is a longitudinal base source (D), is oriented along the profile, and the dimensions of the other side (b) are determined by the formula b (ha - 1) P (1) where P is the distance between the profiles with sources of arousal; . m is the number of profiles with sources. A continuous source is simultaneously blown up in a number of points. The magnitude of the explosive interval (Z) in multiple profiling (the distance between adjacent projections of the source centers to the observation line) is determined from the relation Z - | - (Dl + (cb) r + hr 2) where D is the longitudinal base of the continuous source; - the maximum length of the continuous source between two adjacent source excitation points; the propagation velocity of the excitation wave in the continuous source; minimum wave-to-noise rate, which needs to be attenuated to the maximum degree; the coefficient depending on the mutual arrangement of the observation lines and the lines with the sources and varying from 0.5 to 1. When the observation line coincides with one of the explosive lines and passes through the center of the source, the coefficient c is 0.5; when the observation line coincides and passes through the side of the rectangle.

oriented along the profile, or the location of the observation line outside the explosion lines, the coefficient c is 1. After that, the seismic recordings are accumulated (summed) along the common reflection area.

The use and location of a linear continuous source according to the area figure, the envelope of which forms a rectangle, the orientation of one side of the rectangle along the profile and the choice of dimensions of the other side, as well as the magnitude of the explosive interval in multiple profiling according to the specified formulas, contribute to the use of the seismic recording operation within the limits of placement of seismic receivers (groups of seismic receivers) along the observation line to the effective attenuation of wave-to-noise interference over a wide range and change of seeming. velocities (wavelengths), the presence from vJnivi and above, spreading in any directions in space. The suppression efficiency is achieved due to the fact that the interference wave-interference in this method is carried out according to the law with a continuous distribution of sensitivities over relatively large bases equal to the sum of the bases of the linear source and the accumulation base. A continuous source is simultaneously excited at several points. This avoids unacceptable amplitude and phase distortions of the useful reflected waves arising due to the final values of the propagation velocity of the source excitation wave. The undermining (excitation) of a continuous source is recommended to be conducted through such segments B in which the time delays of reflected waves due to the speed of propagation of the excitation wave do not exceed 1/4 of the prevailing period of reflected waves (for example, if the dominant period is 0.03 s, the source excitation rate is 6.7km / s, then it is advisable to carry out the explosion of the source in 0.05 km).

The fulfillment of the above conditions when selecting the parameters of the method allows to achieve the maximum possible gain in the signal-to-interference ratio, when the disturbances have a wide and continuous range of variation of the kinematic characteristics and propagate in space in a wide variety of directions.

When there are deviations in the choice of parameters. The method from the proposed optimal variant, the efficiency of the method is reduced due to the fact that the interference reception of interference waves is already carried out according to the law with a discrete-continuous distribution of sensitivities, which is less effective than continuous as it causes the appearance Chhkid's graphs describing the noise immunity of the method, additional maxima.

This method of seismic prospecting has advantages over the known ones due to higher noise immunity with respect to

0 interference wavelengths with a wide range of variations in kinematic characteristics (wavelengths) propagating in any directions in space. This method can be applied.

5 in platform conditions, as well as in areas with inclined reflecting boundaries. The method is maximally effective in conjunction with the treatment using the method of a common depth platform.

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Claims (2)

Claim 1 A seismic survey method based on multiple profiling of a series of parallel profiles with excitation sources 5 and lines of observation when placing sources, ensuring the uniformity of the projections of their centers on the line of observation, characterized in that, in order to increase 0, the noise immunity of the method for wave interference, having a continuous range of wavelengths and propagating in any directions, determine the value of the minimum wave-interference speed (V), use a continuous source as a source of oscillation, have a source on the figure, the envelope of which forms rectangle, one side of the rectangle 0 (D), which is the longitudinal base of the source, is oriented along the profile, the dimensions of the other side (b) are determined by the formula b (t - 1) P, five where P is the distance between the profiles with excitation sources; m is the number of profiles with sources, and the value of the explosive interval is determined from the ratio . 2 -1 -l + (cb) + e-), where D is the longitudinal base of the continuous source; t is the maximum length of the continuous source between two adjacent points of source detonation; V - propagation velocity 0 source excitation waves; V.r minimum wave speed w t interference that needs to be suppressed to the maximum extent; five 79058958 c is the coefficient depending on 1. USSR author's certificate of mutual disposition of the LNG according to application no. 2787583 / 18-25, observation and explosion. G 01 V 1 / bo. 1979 The sources of information, according to application 2624086 / 18-25, were taken into consideration in the examination of 5 cl. G 01 V 1/00, 1978 (prototype). 2. USSR author's certificate