RU2337383C1 - Technology for oil and gas occurrence forecast - Google Patents

Abstract

FIELD: physics.

SUBSTANCE: technology involves seismic exploration by common depth point method and defining scheduled position of anomalous zones. Additionally geoelectrochemical shooting is performed, and scheduled position of anomalous zones is defined. For seismic exploration, zones located at target floor possibly bearing oil and gas field are selected as anomalous zones. In anomalous zones, effective cross-section of seismic wave backscattering is examined for waves of the size comparable to seismic wave length and identified as acoustic medium irregularities in random wave fields of different frequency composition. Presence of oil and gas field can be determined by scheduled coincidence of geoelectrochemical and seismic anomalies.

EFFECT: enhanced efficiency of oil and gas survey works, improved forecast reliability for oil and gas occurrence at local object.

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Description

The invention relates to geophysics and can be used in the search for oil and gas fields.

There is a known method for searching for hydrocarbon deposits, according to which current electrodes are placed in the studied area, an electric current is passed through them, the magnitude of the magnetic field strength and current density are measured, and the presence of hydrocarbons is judged by the curve of the magnetic field strength versus current density ( AS No. 1071990, MKI G01V 9/00, publ. 02.07.84, BI No. 5).

The disadvantage of this method is the low accuracy and ambiguity of forecasting oil and gas, due to the fact that the direct effects of the deposits are small and they are comparable in amplitude with interference.

A known method of geochemical searches of ore deposits, according to which, to obtain contrasting anomalies of the deposits, samples are taken, the fine fraction is sieved, wetted with distilled water and treated with constant electric current, then aqueous extracts are prepared from the material taken in the anode zone, which are subjected to chemical analysis (A.S. No. 2221977, MKI G01N 3/06).

The disadvantage of this method is the low accuracy associated with the fact that most trace elements are found in both cationic and anionic forms, therefore, the determination of the concentration of trace elements only in samples from the anode zone after processing with direct current leads to a distortion of the true distribution of the concentration of heavy metals located in mobile form, which is especially important in the study of superimposed halos of dispersion of trace elements corresponding to oil and gas deposits.

Closest to the technical nature of the present invention is a method of prospecting for oil and gas, including seismic profiling by the method of common depth point and gas survey. In this case, using the seismic profiling, the planned position and contours of the zones are determined, which are characterized by a velocity of longitudinal waves of up to 500 m / s and a depth of 100-400 m from the earth’s surface, then fragmented gas surveys for hydrocarbons are carried out within the contoured zone, if any a conclusion on the existence of oil and gas deposits (A.S. No. 972452, MKI G01V 11/00).

However, this method involves the analysis of data only to depths of 100-400 m, which reduces the reliability of the forecast of oil and gas fields at great depths. Indeed, the method does not allow to find out the nature of the anomalies of speed and geochemical parameters. Therefore, anomalies due to lateral heterogeneity of the surface intervals of the geological section may be erroneously associated with the presence of deposits at great depths. That is, the result of forecasting deposits will be erroneous. In addition, the disadvantage is the ambiguity and low accuracy of the geochemical survey for hydrocarbons due to the fact that they are unstable in surface conditions and are destroyed during oxidative processes.

The technical task is to increase the efficiency of oil and gas exploration, increase the reliability of forecasting the oil and gas potential of local objects.

Additionally, the characteristics of the scattered waves are calculated, the planned position is determined, as well as the depth binding of the zones is abnormal.

The problem is solved in that in the technology for predicting oil and gas content, including seismic surveys using the common depth point method and determining the planned position of the anomalous zones, according to the solution, an additional geoelectrochemical survey is carried out, the planned position and depth reference of the anomalous zones of the energy values of the scattered waves are determined, while anomalous zones during seismic surveys choose zones located in the interval from the surface to the level of the target oil and gas of prospective horizons in which the effective cross-section of backscattering of seismic waves, the sizes of which are comparable with the length of the seismic wave, and identified with random acoustic inhomogeneities of the medium in random wave fields of different frequency compositions, is investigated, the presence of oil and gas deposits is judged by the planned coincidence of geoelectrochemical and seismic anomalies.

The studied anomalous zones are presumably associated with improved reservoir properties of the rocks and with the migration of hydrocarbons into the surface layers.

From the scientific, technical and patent literature, the authors are not aware of the existence of a technical solution with the listed set of distinctive features, which gives reason to conclude that the claimed object meets the criteria of the invention.

The drawing shows the distribution map of the complex geoelectrochemical parameter (K _p ), combined with the results of structural constructions along the D ₂ vb horizon (isohypses at the bottom of Vorobev deposits) in comparison with the anomalous zones of the effective backscattering cross section according to the MOGT data.

Legend: 1-4 anomalous zones according to geoelectrochemical survey, 1) K _p less than 1; 2) To _p from 1 to 1.2; 3) To _p from 1.2 to 1.4; 4) To _p from 1.4 to 2; (5) contours (K _p ); 6) isohypses along the bottom of Vorobev deposits; 7) the contour of the area of resource calculation; 8) lines of disjunctive disorders; 9) well and its number; 10) a well recommended for drilling; 11) areas of increased values of the effective backscattering cross section; 12) seismic profiles.

A general regularity of the distribution of K _p and anomalous zones of wave scattering is the confinement of the latter to increased values of K _p bordering the contour of the structure. Similar distributions are characteristic of other deposits.

The technology for predicting oil and gas content provides for the conduct of geoelectrochemical and seismic studies. Geoelectrochemical studies include the selection of rock samples from a specific network of profiles and the determination of indicator elements in them, the activation of geochemical processes by applying direct electric current to the samples. According to the data of geoelectrochemistry, the identified anomalous areas are zones enriched with certain elements that correlate in plan with the oil and gas profile, or border a reservoir that coincides with zones of weak fracturing. Seismic studies of the MOGT are carried out in order to determine, in addition to the structural and material parameters of the section, the characteristics of scattered waves reflecting the heterogeneity of the rocks, which manifests itself in the form of stratification, uneven granularity, porosity, fracturing, multiphase, different densification of rocks, the presence of compression and extension zones, uneven dolomitization pyritization, etc. In addition, the heterogeneity of the medium can be associated with local changes in its acoustic characteristics caused by fluctuations in grain size, degree of cementation, etc. inside rocks of the same lithological and facies composition, or by the presence of deposits of accessory rocks randomly distributed in the studied complex, that is, inclusions of a different lithological appearance. Such inhomogeneities also lead to the formation of an irregular field of reflected waves, which is not taken into account in the framework of classical models of media. The listed factors to one degree or another control the formation of dispersion halos. This fact is the physico-geological basis of the proposed technology for predicting oil and gas content according to geoelectrochemistry and seismic exploration by scattered waves.

The effectiveness of the proposed technology has been confirmed at a number of oil and gas fields in the Saratov Volga region.

Using the proposed method allows to increase the efficiency of exploration for oil and gas and significantly reduce material costs for drilling wells.

Claims (1)

The technology for forecasting oil and gas potential, including seismic surveys using the common depth point method and determining the planned position of the anomalous zones, characterized in that they additionally carry out geoelectrochemical surveys, determine the planned position of the anomalous zones, while the zones located at the level of the target oil and gas prospective are selected as anomalous zones for seismic surveys horizons in which the effective cross-section of backscattering of seismic waves, the dimensions of which remain with the seismic wavelength, and identified with random acoustic inhomogeneities of the medium in random wave fields of different frequency composition, the presence of oil and gas deposits is judged by the planned coincidence of geoelectrochemical and seismic anomalies.