SU284333A1 - METHOD FOR PROCESSING SEISMIC DATA - Google Patents

Description

The invention relates to the field of exploration geophysics and, in particular, to marine seismic exploration.

During explosions in water basins, due to the pulsation of the gaseous products of the explosion, one-time shocks occur, causing elastic oscillations similar to those generated by the first impact. In this case, in addition to direct waves, gas-bubble ripples result in deep seismic waves associated with geological interfaces. Seismograms record waves from both the main explosion and the gas bubble pulsation in the form of repeating synphasic axes. Each interface will correspond to several reflected or refracted waves, the number and repetition period of which depend on the number and frequency of gas-bubble ripples. This leads to the appearance of additional in-axis axes on the seismograms and to the complex wave interference.

A known method of eliminating the distorting effects on the record of repeated shocks. If the excitation source is located near the surface of the water, when the maximum radius of the gas bubble is equal to the depth of immersion of the charge (chamber), the bubble is broken, water is released, which eliminates the possibility of pulsations.

A seismic survey method is also known, in which it is proposed to sum seismic waves from the same interfaces caused by the first and repeated impacts. The disadvantage of this method is that in the total recording the deep waves, due to repeated blows, remain on the seismogram and often in intensity, commensurate with the deep waves, obtained by summation. The total record also shows the signal from the second strike directly or in sum with any reflections. The seismic record is clogged.

A seismic data processing method is proposed that is free from the above disadvantages and is fundamentally different from the previously used methods for processing seismic data containing repeated data.

blows.

The proposed method for processing seismic data is based on subtracting from the amplified input signal an amplified difference signal formed by subtracting the same signal from the input signal shifted by the repetition rate of the blows and summing the results of the first subtraction with the amplified difference signal shifted by the same time.

practical implementation of the proposed method. sob.

Considering that seismic waves, caused by repeated blows, are close in shape to the waves from the main (home) impact and are shifted by a time equal to the per-pulse pulsation of the gas bubble, it is possible to accumulate; on one track, the seismic signals of the first (main) and repeated beats. The signals are rolled up in the following way.

Seismic signals caused by the action of the first and repeated shocks are recorded, for example, on magnetic media. When reproducing, starting from the time t - from the moment of arrival of the first strike, the signal from the magnetic head 1 enters the input of amplifier 2 and then to the inputs of subtractor 3, linden detained 4 and subtractor 5; the output signal of the delay line 4 is fed into the second input of the subtractor 3. Starting from the time: the signal for the arrival of the signal from the second blow. with the subtractor 3, to the second INPUT (subtractor 5 and the input of the delay line 6: signals equal to the difference oscillations from perbogo and second strokes.

Hardly, vibrations corresponding to residual signals will characterize seismic recording only from the first impact.

Simultaneously, when playing, starting from the moment of time ti, the original signal from the uterine head / is fed to the first input of the subtractor 5 through the amplifier 2 and the subtraction from the output of the subtractor proceeds, 5. The result of the subtraction is summed up in block 7 with the output signal of the lag and delay 6. The total signal is recorded in block 5.

Thus, the described method allows, producing a single explosion, to accumulate energy from several blows, and thereby increase the accuracy of interpretation and increase the depth of research.

Subject matter

The method of processing seismic data obtained by IB as a result of an explosion in the aquatic environment and pulsation of the pelvic bladder, based on the summation of the seismic signals, characterized in that, in order to improve the accuracy of the interpretation, the amplified difference signal formed by subtracting from the input siital of the same signal, shifted by the repetition period, the result of the first subtraction is summed up with the amplified difference signal shifted at the same time.