RU2090916C1 - Method of search for oil-gas pools - Google Patents

Abstract

FIELD: complex search for oil-gas pools by geophysical methods, in particular, by seismic prospecting and gravitation prospecting. SUBSTANCE: according to the data of gravimetric survey, determined are the plan position and outlines of local geodynamic zones that gravity anomalies; seismic survey is performed within the outlined zones; and, according to the seismic record anomalies, sections are picked out that are featured by enhanced speed and/or density characteristics relative to enclosing rocks at their constant lithological composition. EFFECT: facilitated procedure.

Description

 The invention relates to methods for integrated search and exploration of minerals using geophysical methods, in particular to the search and exploration of oil and gas deposits.

 The effectiveness and reliability of the discovery of oil and gas deposits depends on many factors: the complexity of the geological structure of the area, the depth and thickness of the deposit, physical and mechanical properties and the state of aggregation of rocks.

 An analysis of the materials of the complex of exploration and exploration drilling in the area of known oil and gas fields showed that, along with oil and gas deposits of a structural or tectonic type, which are a single deposit with a common oil-water contact contour, significant accumulations of oil and gas are recorded in specific areas, the so-called local geodynamic zones , the location of which, as a rule, is confined to the boundaries of the foundation blocks and regional faults.

 According to seismic data, local geodynamic zones are narrow, subvertical in the upper part of the section and flattened with the depth of formation.

 Within the local geodynamic zones, the physical and mechanical properties of the rocks change under the influence of excess pressure, and due to secondary porosity and fracturing, areas with increased filtration and capacitive properties arise, forming non-structural traps of the geodynamic type for a hydrocarbon fluid migrating along cracks and faults, and forming a certain quantitative concentration of oil and gas deposits.

 A known method for the search and exploration of oil and gas deposits, including gravimetric and seismic surveys.

 According to the gravimetric survey, according to the known method, the planned position of oil and gas bearing structures characterized by negative gravity anomalies is determined, and the thickness and depth of the deposits are determined from seismic surveys, for which the studied area is covered by a network of seismic profiles, and sections are identified by seismic anomalies, characterized by the velocity of longitudinal waves up to 500 m / s.

 For a final assessment of oil and gas potential, the entire area in the anomaly area is covered by a network of exploratory wells.

 The known method allows to identify and evaluate the oil and gas potential of deposits of a structural or tectonic type having a common oil-water contact contour and significant thickness (more than 50 m).

 The discovery of deposits confined to non-structural traps of the geodynamic type, which in the vast majority of cases is from 300 m to 1200 m wide, up to 50 km long, up to 50 m thick, is random in nature and is only possible in the process of carrying out a large volume of drilling operations "over the grid" , since when interpreting the data of geophysical works, according to the known method, the features of the physicomechanical properties and the state of aggregation of rocks in the local geodynamic zone are not taken into account, which makes it difficult to identify nomalies created by such deposits, the effect of which is not large and commensurate with the errors of observation, which in turn reduces the efficiency of using the known method.

 The basis of the present invention is the task of creating such a method for the search and exploration of oil and gas deposits, the use of which would improve the detection efficiency of deposits associated with non-structural traps of the geodynamic type, by increasing the reliability of geophysical data and reducing the total volume of prospecting and exploration.

 The problem is solved in that in the method of searching and exploration of oil and gas deposits, including gravimetric and seismic surveys, according to the invention, according to the gravimetric survey data, the planned position and contours of the local geodynamic zones, which are characterized by narrow, linearly elongated, positive gravity anomalies, are determined seismic surveys are carried out within the contoured zones, and areas characterized by increased speed and / or density characteristics are distinguished by seismic recording anomalies acteristic with respect to the rock at a constant lithology.

 Determining the planned position and contours of the local geodynamic zones allows you to limit the area of subsequent exploration and replace the seismic areal survey with a fragmentary one.

 The selection within the contoured zone of the anomalies of the seismic recording of areas characterized by increased speed and / or density characteristics relative to the host rocks with a constant lithological composition allows us to clarify the contours and sizes of non-structural traps of the geodynamic type.

 An analysis of the aggregate of local parametric anomalies makes it possible to establish with a high degree of certainty the location of the oil and gas deposits and determine the location of exploratory wells, excluding their penetration in unpromising areas.

 The use of the claimed combination of features as a whole allows to increase the efficiency of prospecting and exploration of oil and gas deposits confined to non-structural traps of the geodynamic type, by increasing the reliability of the data of geophysical work of the total volume of prospecting and survey work, significantly reducing the financial costs and terms of their implementation.

 Search and exploration of oil and gas deposits, according to the invention, is as follows.

 After preliminary studies aimed at clarifying the fundamental possibility of the presence of non-structural traps of a geodynamic type in a particular area, small-scale and medium-scale gravimetric surveys are carried out over a network of 500 mx 100 m. According to gravimetric surveys, the planned position and contours of local geodynamic zones are determined, which are characterized by narrow linearly elongated, positive dagger-type gravity anomalies with an amplitude of 0.05 mGal, which are correlated on several gravimetric profiles and having a length of at least 5 km. The epicentral part of each anomaly allows one to determine the most probable location in terms of an unstructured geodynamic type trap. Against the background of positive anomalies, negative anomalies of gravity can be distinguished with an amplitude of 0.02-0.3 m / Gal, the presence of which confirms the oil and gas potential of the object.

 To establish the contours and dimensions of the trap within the identified local geodynamic zone, a high-resolution seismic survey is performed. The development of seismic profiles is carried out along the local geodynamic zone and across its extension through the epicenter of each identified anomaly.

 In seismic sections, seismic recording anomalies identify areas characterized by increased velocity and / or density characteristics relative to the surrounding rocks with a constant lithological composition.

The increase in density can be 2-4% and the increase in the speed of elastic oscillations 5-12%
The application of the proposed method allows to reduce costs and increase the efficiency of the search for oil and gas deposits confined to non-structural traps of the geodynamic type, which turns local geodynamic zones into new and promising objects of prospecting and exploration.

 The method is carried out using standard equipment and instruments and can be used both for the search and exploration of new oil and gas fields, and for additional exploration of already known ones, and in the latter case, for analysis, according to the proposed method, the existing materials of field geophysical works can be used.

Claims (1)

 A method of searching for oil and gas deposits, including detailed gravimetric and high-resolution seismic surveys and extracting according to their results the contours and sizes of the oil and gas traps and deposits, characterized in that the traps and deposits are detected within the localized, narrow, linearly elongated zones of positive gravity anomalies with an amplitude of 0.05 mGal, complicated by negative anomalies from the deposit, mapped by gravimetric survey, then the anomalies are captured by seismic surveys, subvertical sections of the section that are growing with depth, lithologically of the same type with host rocks, but with an increased by 5 12% speed and 2 4% density, to which the traps and deposits are confined, determine their contours and sizes.