RU2599650C1 - Method of detecting intervals of cracks and their characteristics in benches crossed by well - Google Patents

Abstract

FIELD: data processing.

SUBSTANCE: invention relates to geophysics, to interpretation of materials of well geophysical researches (WGR) on stages of exploration and development of hydrocarbons and is intended to detect cracks. Carry out a research of the bench with different geophysical instruments with build-up curves of neutron gamma logging (NGL), gamma logging (GL), curves of apparent resistance (AR) potential of spontaneous polarization (SP). Presence of cracks is determined by the presence of synchronous extreme values, where synchronous deviation of GL and PS towards minimum values, AR - in any direction of extremum - open fractures. Synchronous deviation of GLand PS towards the maximum values, AR - towards the minimum values - closed fractures.

EFFECT: technical result is ra eliable determination of fracturing zone and the presence of open and closed cracks for detecting with account of these data intervals of oil intake, water inrush.

1 cl, 1 dwg

Description

The invention relates to the field of geophysics, to the interpretation of materials of geophysical research of wells (GIS) at the stages of exploration and development of hydrocarbon deposits composed of reservoirs, the filtration characteristics of which are greatly influenced by the presence of cracks, and is intended to detect cracks.

A known method for registering fracture of the reservoir and diagonal formations (patent RU No. 2475780, IPC G01V 1, publ. 02.20.2013, Bull. No. 5), using triaxial / multicomponent measurements of resistivity anisotropy, the group of inventions is a method for inverting biaxial formation anisotropy -collector and identification of a complex fractured / diagonal bedding system, as well as a method for producing hydrocarbons from an underground area using triaxial induction logging and exploration / survey data.

The disadvantage of this method is that in the analysis only one parameter is used - resistivity, the use of only one method does not allow to objectively evaluate the parameters of the reservoir exposed by the well.

The closest in technical essence to the proposed method is a method for assessing the degree of fracture of carbonate rocks through the parameter of diffusion-adsorption activity (patent RU No. 2455483, IPC G01N 13, E21B 49, publ. 10.07.2012, Bull. No. 19), including the stages of core saturation an analogue of produced water, measuring the natural potential of diffusive origin E∂, measuring at given intervals the electrochemical potential E∂a, determining from the mathematical expression of the diffusion-adsorption activity A∂a and absolute measurement errors ΔA∂a, as well as the application of the obtained ΔA∂a values for the quantitative assessment of the hydrophobicity of the pore space. At the same time, along with the assessment of the hydrophobicity of the pore space by the value of A∂a〉 ΔA∂a, the degree of fracturing in the structure of the core void space is estimated, the intensity of which increases with increasing A∂a.

The disadvantage of this method is that in addition to the analysis of GIS, it is necessary to conduct core studies, which leads to additional costs. The small core size, the study is not in reservoir conditions does not allow to objectively assess the parameters of the reservoir. In this method, the characteristics of the crack are not determined.

The technical objectives of the invention are to obtain objective data on the presence of cracks along the entire length of the wellbore and determine their characteristics according to the results of the analysis of the well logging complex, including nuclear, electrical and mechanical logging.

Technical problems are solved by the method of determining the presence of intervals of cracks and their characteristics in the formations intersected by the well, including the study of the formation with obtaining dependencies for several parameters, a comprehensive analysis of the results, determining the presence of cracks and their characteristics in the selected interval.

New is that the study of the formation is carried out by various geophysical instruments in the open hole of the well with the construction of neutron gamma-ray logging curves - GC, gamma-ray logging - GK, spontaneous polarization potentials - PS and resistance logging - CS, determine the presence of cracks in a selected interval of the well by the presence of synchronous extremes, determine open and closed cracks in the fracture zones using HA, PS and CS, where the synchronous deviations of the HA and PS in the direction of minimum values, CS - in any direction of ext emuma - open fractures, the conductive liquid, and synchronous CC and MS deviation towards maximum values of COP - toward the minimum value - the closed cracks, no conductive fluid.

The drawing shows a GIS diagram, which is a graph of changes in the measured parameters along the length of the well. The curves of OGC and GK are shown on the right half, and the curves of KS, PS, and DS are shown on the left half. The absence of at least one of the listed methods, except for the DS, leads to incorrect conclusions. The DS method is used to confirm the parameters.

The method is implemented as follows.

This method is used in a drilled well, where a complex of geophysical surveys was carried out, including studies using methods of oil and gas, gas, gas, water, and subsurface, as an additional method, the DS method can be used to confirm the parameters. Curves KS 1, PS 2, DS 3 combine in one group 4, curves NGK 5 and GK 6 in another group 7.

A sequential analysis of the results of the GIS is carried out. At the first stage, gradient negative extrema of small lengths 8, 9 are distinguished on the logging curve of OGC 5. At the second stage, gradient positive 10 and negative 11 extrema are identified on the logging curves of HC 6. At the third stage, sections of the minimum 12 and maximum 13 values on the curves of COP 1 are distinguished At the fourth stage, positive 14 and 15 negative deviations are identified on the PS curve 2. At the fifth stage, intervals 16, 17 of the increased borehole diameter are allocated to confirm the parameters. The coincidence along the length of the wellbore of gradient negative extrema of a small length of 8 on the curve of OGC 5, positive 10 on the curve of GC 6, minimum values of 12 on the curve of COP 1, positive deviations of 14, 16 on the curves of PS 2 and DS 3 (if necessary) respectively indicate about the presence of a closed crack 18. Coincidence along the length of the well of gradient negative extrema of small length 9 on the OGC curve 5, negative extrema 11 on the GK curve 6, a negative deviation of 15 on the PS 2 curve and positive 17 on the DS curve 3 indicate the presence of an open crack 19. Closed 18 and open 19 cracks can alternate within a single fracture zone.

The relevance of this method is determined by the fact that the filtration properties of reservoirs and, as a consequence, the amount of produced fluid from a particular well are determined by the permeability of the reservoir. In the distribution of permeability of carbonate reservoirs, the presence of cracks has a significant effect. Modern and ancient fracture zones are migration routes for liquids that dissolve carbonate rocks that are capable of forming caverns. This means that near the cracks it is assumed that rocks containing caverns are present that are capable of accumulating hydrocarbons.

The identification of fracture zones, including the identification of open 19 and 18 closed fractures in order to optimize the development of reservoirs having fracture zones, can be expressed in the ordered arrangement of both horizontal and vertical boreholes relative to the fracture zones required for additional oil production; in determining approaches and techniques for organizing a reservoir pressure maintenance system; in the selection of intervals for geological and technical measures to intensify production; in the selection of intervals for isolating cracks by which water is filtered.

Concrete example

Drilling a well. A complex of geophysical surveys is carried out, including studies using the methods of oil and gas, gas, geospatial, composites, subassemblies, and subassemblies. Curves KS 1, PS 2, DS 3 combine in one group 4, curves NGK 5 and GK 6 in another group 7.

Conduct a sequential analysis of the results of the GIS. In the intervals of the borehole 18, 19, gradient negative extrema of a small length of 8, 9 on the logging curves of OGC 5 are noted. In the interval of the borehole 18, the readings of GK 6 are characterized by gradient positive extrema 10, the readings of curve KS 1 with minimum values of 12, curve PS 2 is characterized by a positive deviation 14, the DS 3 curve reflects the increased diameter of the wellbore 16. In this interval, 18 closed fractures intersect the wellbore.

In the interval of the well bore 19, the readings of GK 6 are characterized by negative negative extrema 11, the readings of the KS 1 curve with maximum values of 13, the PS 2 curve is characterized by a negative deviation of 15, the DS 3 curve shows the increased diameter of the well bore 17. In this interval 19, open cracks intersect the well bore.

Depending on the location of the well in relation to the contour of the oil-water contact, the following actions are predetermined.

The case of the location of the well in the oil-water zone or in the area with an organized system for maintaining reservoir pressure by water injection. The average daily oil production rate in the well was 5 tons / day, with a water cut of 10%. After 3 months, there was a sharp increase in water cut of extracted products to 70% due to breakthrough of water through cracks. The interval was isolated with the presence of open cracks 19, which led to a decrease in the water cut of well production to 20%.

The case of a well being located in an area with a similar geological structure in a purely oil zone. The well production rate was 5 tons / day with a water cut of 10%. We performed operations aimed at increasing crack opening in intervals 18, 19 by applying appropriate technologies and reagents. As a result, the oil flow rate in the well increased and amounted to 7.5 tons / day, while the water cut of the product did not change and amounted to 10%.

If used in the complex of studies conducted by this method, including using 3D seismic surveys, it is possible to accurately determine the position of the identified fracture zones 18 and 19 and to implement the drilling of new wells according to the propagation of fracture. This allows you to reduce the number of unprofitable wells, to increase the final oil recovery. For example: the average oil production rate of wells in a field of a field drilled without taking into account fractures was 3 tons / day. When using the proposed invention in combination with 3D seismic surveys in another area with fractured reservoirs, the geological structure was clarified, the knowledge of which was used when placing the wells. As a result, the average production rate of the site was 5 tons / day. This allowed us to increase the rate of selection and the final oil recovery coefficient for the site from 0.245 to 0.25 units.

The application of the proposed method for determining the presence of intervals of cracks and their characteristics in the formations intersected by the well allows us to reliably determine the zones of fracture and the presence of open and closed cracks in them, which makes it possible to determine the estimated intervals of oil inflow, water breakthrough, and conduct appropriate geological technical measures for processing the bottom-hole zone of the well and, as a result, increase the rate of selection, the final oil recovery coefficient and / or reduce the water cut of the production aemoy products.

Claims (1)

A method for determining the presence of intervals of cracks and their characteristics in the formations intersected by the well, including examining the formation with obtaining dependencies for several parameters, a comprehensive analysis of the results, determining the presence of cracks and their characteristics in the selected interval, characterized in that the study of the formation is carried out by various geophysical instruments in open borehole with the construction of neutron gamma-ray logging curves - OGC, gamma-ray logging - GK, spontaneous polarization potentials - PS and logging the resistors - CS, determine the presence of cracks in the selected interval of the well by the presence of synchronous extrema, determine open and closed cracks in the fracture zones using GK, PS and KS, where the synchronous deviations of the GK and PS to the minimum values, KS - to either side of the extremum - open cracks, and synchronous deviations of the HA and PS towards the maximum values, CS - towards the minimum values - closed cracks.

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