SU873185A1 - Method of oil and gas deposit prospecting - Google Patents

Description

(54) METHOD FOR EXPLORING OIL AND GAS

The invention relates to geophysical methods for studying the sedimentary strata of the earth's crust, and more specifically to the use of well seismic methods for developing oil and gas fields.

There is a method of exploration of oil and gas fields, including land seismic exploration and deep drilling, aimed at improving the accuracy and geological accuracy of exploration while reducing costs. It can be used to delineate the productive zones by changing the kinematic and dynamic characteristics of the reflected waves, determined by seismic observations made in the Limits of the extended zones connecting the exploration wells-ztalony and the location of the projected deep squigikin. The width of the extended zones is usually limited by the condition of the nocTOHHCTBia of the geological model of the environment in the region, the reflection, and the length of the sections are set at least twice as wide as 1).

However, this method is not effective enough, as it works only in a narrow zone of the boundary of the zgzhezhi and not the deposits.

allows you to significantly reduce the number of exploratory wells and space them optimally in size. Its geological efficiency is also limited due to the lack of accuracy and resolution of land seismic surveys.

There is also known a method for prospecting oil and gas fields.

10 which includes drilling exploratory wells in the study area, conducting vertical seismic profiling in them and separating productive strata. In this way,

15 based on the use of anomalously increased absorption of the high-frequency components of the elastic wave spectra in layers with industrial oil and gas content near the bottom

20 surfaces, at many points, within and beyond the petroleum potential contour, produce energetically identical explosions. Vibrations are recorded above and below the reservoir along the wellbore located near the field zone. Analyzing the amplitude-frequency parameters of the direct wave allows spatially localizing the reservoir boundaries, which increases the reliability of determining the oil and gas bearing contours of all horizons of the section and reduces the required number of exploration wells 2.

The disadvantage of this method is that it reduces the number of only those wells that are designed directly to delineate deposits, while the overwhelming number of exploration wells is drilled inside the oil and gas bearing contour for the purpose of calculating reserves.

There is also known a method for prospecting oil and gas fields, including drilling exploration wells in the study area, conducting vertical seismic profiling and acoustic logging in them, processing the results and isolating the reservoir. The method is based on the fact that, according to observations in wells drilled within and behind the oil-gas contour, a model of the section under study is being constructed, for this model, reference standards for recording reflected waves of productive and unproductive sections of the sediments on the surface are determined. recording of reflected waves on ground seismograms. max, on the basis of which the reservoir contours are predicted and the distribution of reservoir properties by area is more reliable (compared to other known methods) to exclude the possibility of erroneous design of new wells outside the oil and gas potential and thus to increase the efficiency of exploration 3 .

The main disadvantage of this method is that it only reduces the number of wells that are designed to contour the deposits, and this method is also characterized by relatively low reliability of the results, due to the limited frequency band of the recorded information. These restrictions are associated, on the one hand, with the conditions for the excitation of oscillations, and, on the other hand, with the registration of waves on the day surface that have passed through a strongly absorbing and, as a rule, inhomogeneous zone of small velocities.

The purpose of the invention is to increase the efficiency of exploration by optimizing the placement and reducing the number of wells.

The goal is achieved by the fact that in the method of exploration of oil and gas fields, including the drilling of exploration wells, carrying out vertical seismic profiling and acoustic logging, the processing of results and

separation of the productive formation, in each exploration well, the registration is carried out above the productive formation in the section interval free from interference between reflected waves from the producing formation and multiple incident waves, and the excitation is performed at each point in the low-frequency, mid-frequency and high-frequency parts of the spectrum so for the entire seismic frequency range to overlap, for each point of the excitation, deconvolution of the reflected wave records from all the explosions is carried out, using in the form of the incident waves, the results obtained are collated, through which the indicatrix of plotting a variation of the physical parameters of the producing formation in azimuth function and subsequent wells arranged in the direction of maximum indicatrix.

Currently, exploration of oil and gas fields is carried out mainly by deep exploratory drilling, as a result of which the contours of the reservoir are established, the total mineral reserve (oil, gas) in the reservoir is calculated, and its distribution is distributed. The last two parameters are significantly affected by inhomogeneities in the area of the geometric shape of the deposit and the physical properties of the reservoir (free porosity, oil and gas saturation). Geometric physical parameters. geophysical methods are determined directly at the drilling points and interpolated between the wells. A simple increase in the number of deep wells leads to an increase in the accuracy of the calculated parameters. However, due to the changing nature of the heterogeneity over the area, not all wells are equally informative. If a new well has come to a point where the parameters differ significantly from the adjacent well-drilled squigikone. its role in specifying the estimated parameters is significant, and vice versa, if a new well repeats already known data, then the funds for its drilling are spent in vain. Since the nature of the distribution of heterogeneity over the area is not known in advance, such overhead costs, especially at large fields, are very large;

The proposed method allows to reduce the number of deep wells by area and significantly reduce the costs of exploratory drilling due to the placement of new wells, which ensures their maximum information content.

Claims (3)

The method is carried out as follows. In the area under study, a number of exploratory wells are drilled to reveal the reservoir, which in the general case may be non-uniform, i.e. be a stack of layers. Acoustic logging (AK) and vertical seismic profiling (VSP) are carried out in each well, in the vicinity of which the parameters of the reservoir are to be refined. At the same time, the vertical profile is worked out when removing the explosion dashes (DF) for a distance of 400 to 800 m (DF in the drawing). In aggregate. AK and VSP data identify the section interval above the reservoir, free from interference between. reflected waves from the reservoir and multiple incident waves. The depth of the selected interval should be greater than the depth of the main multiple-forming boundaries and should correspond, if possible, to a uniform section of the section. Then register the wave field area. To do this, the probe is placed in the explored well in a dedicated incision interval, the explosion points are located at different azimuths (30–40) from the well at a distance of 400–800 m and from its mouth and recorded simultaneously, direct falling and reflected from different points of the productive area. the waves, while the excitation is carried out at each point in succession in the low-frequency, mid-frequency and high-frequency parts of the spectrum so that the entire seismic frequency range overlaps. Expanding the recorded information in the low frequency domain allows ultimately to increase the absolute accuracy of determining reservoir parameters and, in the high frequency region, to increase the detail of the division of its internal structure. , Further, one of the known methods is treating -cooled direct and reflected waves from all explosions. The processing sequence may be as follows. For each explosion, the deconvolution operator is determined from the records of the direct wave. Then the records of the reflected waves are subjected to corrective deconvolution using the obtained operator in a frequency band where the solution of the problem is stable. The absorption is taken into account in the area between the probe and the productive bundle, which is determined by calculation, or according to the data of direct measurements on a non-longitudinal vertical profile made of PV. The curves obtained for the three explosions are aligned with the c1-plates and summarized by eliminating the pre-phase characteristic. .Then records in a known manner are transformed into models of the section of the acoustic rigidity in the area corresponding to the reservoir. An indicatrix is constructed to characterize the difference in reservoir models for each PF from the reference model obtained from the AK data, and the variability of the reservoir parameters as an azimuth. The parameters used are the apparent thickness of the formations or the total capacity of the formation, as well as the relative values of the reflection coefficients at the boundaries of the section of the formation and within it. If the explosion points had different distances from the squigkinas, then the increments of the parameters are previously normalized to some standard distance. From the obtained indicatrices, the most expressive is chosen or the generalized indicatrix is constructed according to the available population. The positions of new exploration wells, outlined according to field geophysics, are refined according to the indicatrices described, their disposals are mostly in the direction of the indicatrices, and the relative step of the wells is inversely proportional to the indicatrices in this azimuth. The implementation of the method allows to reduce the number of exploration wells while increasing the reliability of research. The invention method of exploration of oil and gas fields, including the drilling of exploratory wells, vertical seismic profiling and acoustic carriage, the processing of results and the allocation of productive formation, characterized in that, in order to increase the efficiency of exploration by optimizing the placement and reducing the number of wells , in each exploration well, the registration is carried out above the productive formation in the interval of the section free of interference between the reflected waves productive layer and multiple padgy waves, and the excitation is performed at each point consistently in the low-frequency, mid-frequency and high-frequency parts of the spectrum so as to overlap the entire seismic range of frequencies, for each point of excitation they deconvolve the records of reflected waves from all the explosions using the form falling waves, compare the results obtained, on the basis of which the indicatrix of the variability of the physical parameters of the reservoir is constructed as an azimuth and is placed subsequent wells in the direction of the maximum indicatrix. Sources of information taken into account in the examination 1. USSR author's certificate, 577448, cl. G 01 V 1/00, pub. 1978 2. Authors certificate of the USSR. 1,38874, Cl. G 01 V 1/40, published 1970. 3. Authors certificate of the USSR for the application No. 2770804, cl. G 01 V 1/00, 1979 P8,