SU1744662A1 - Method of well seismic prospecting - Google Patents

Abstract

Use: when observing microseismic wave fields at internal points of the medium, as well as when assessing the physical state of rocks in natural occurrence. Summary of the invention: in the sound frequency band along the wellbore, seismoacoustic emission is recorded in the time interval corresponding to the maximum daily intensity of seismoacoustic emission (SAE). To determine the daily variations, the SAE conduct additional continuous measurements at a fixed point of the medium.

Description

The invention relates to borehole seismic exploration, in particular to the observation of microseismic wave fields in the inner points of the medium, and can be used in the vertical contouring of mineral deposits passed by the well, as well as in assessing the physical state of rocks in natural occurrence.

A source of information is known, in which the results of studies of terrestrial tides and their relationship with physical parameters, including seismic emission, are presented. However, it does not contain information about the order of seismic exploration well.

There is also known a method of borehole seismic exploration, based on the registration of microseismic wave fields along the wellbore. The method allows to distinguish areas of increased fracture and permeability along the vertical

profile. The main feature of the method is the observation of a microseismic background for a relatively short time at each observation point in the wellbore. Moreover, there is no indication of the duration of measurements at each observation point, which implies the possibility of testing each point at different times, as a result, the intensity of the microseismic background, due to the physical state of the rocks, also depends on the intensity of the lunisolar tide, whose magnitude depends on the time . Consequently, there is an ambiguity in the interpretation of the results obtained.

The disadvantage of the prototype is the low accuracy of determining the physical properties of the rocks exposed by the well.

The aim of the invention is to improve the accuracy of the method.

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For the implementation of the method, seismic emission is observed in the observation well at the maximum depth of the probe; the duration of the observations should not be less than 3 days, i.e. only in this case it is possible to confidently obtain the emission curve and determine the period of the recorded oscillations,

Next, the time interval in which the emission curve has the maximum value is determined, the seismo-acoustic well logging is carried out, the intensity of the wave field is observed during this time of day interval.

The intensity of seismoacoustic noise of the method approbation was measured as follows. The seismic signal was recorded continuously for 3 days in the frequency range of 30 ± 1 Hz. Then, for each hour, the number of deviations of the amplitude of seismic noise, which is twice the average value of the amplitude of instrumental noise, was calculated.

An analysis of the data obtained showed that the number of deviations for each hour during the period under consideration significantly changed, reaching a maximum of 380 imp / h with a minimum of about 100 imp / h, i.e. The intensity of seismoacoustic emission changes during the day by 3-4 times.

Measuring seismoacoustic emission in the time interval corresponding to the maximum daily intensity allows the use of lunar-solar variations in severity as a tool to effectively influence the medium for the excitation of seismoacoustic emission.

Compared with the prototype, the proposed method allows to increase the accuracy of seismic well logging by 3-4 times.

Claims (1)

Method of borehole seismic prospecting, including measurement of seismoacoustic emission of rocks in the sound frequency band in the borehole, extracting violation zones by maximum values of seismoacoustic emission intensity, characterized in that, in order to improve the accuracy of the method, continuous recording of seismoacoustic emission is performed at a fixed point of the well, determine the period of the maximum daily intensity of seismoacoustic emission, and its measurements have performed well in the time interval corresponding to a daily maximum intensity seismic acoustic emission.