RU2710883C1 - Method of searching for oil-bearing formations in carbonate devonian reservoirs - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to oil and gas industry, namely to methods of searching for oil and gas deposits by means of seismic exploration and drilling of prospecting wells. Method of searching for oil-bearing formations in carbonate Devonian reservoirs involves studying by means of seismic prospecting of reservoirs with detection of oil-saturated thicknesses on upper – "U" of lower carbon and lower – "D" of upper Devonian borders of seismic-reflecting horizons. At that during seismic survey there calculated are calculated stratigraphic sections by the method of common deep point – CDPM 2D with density of seismic profiles of not less than 2 p.km/km. Boundaries of zones of unconformed occurrence of summary elevations are identified by comparison of structural plan on both seismic-reflecting horizons. Calculated stratigraphic section is correlated with the actual one according to previously drilled adjacent wells. Priority exploratory wells are drilled inside boundaries of detected zones in elevations of horizon "U" with projective bottomhole in horizon "D".EFFECT: high information value of the obtained data, since the disclosed method of searching for oil-bearing formations in the carbonate Devonian reservoirs enables to cover the researches with complexly structured formations and interlayers by an integrated approach, including exploration of formations and interlayers with poorly seismically reflecting lower horizons.1 cl

Description

The invention relates to the oil and gas industry, and in particular to methods of searching for oil and gas fields with the help of seismic exploration and drilling of exploratory wells.

A known method of exploration of oil and gas fields (patent SU No. 873185, IPC G01V 1/00, G01V 1/40, G01V 1/42, published on 10/15/1981 in Bull. No. 38), including drilling exploration wells, conducting vertical seismic profiling and acoustic logging, processing the results and isolating the reservoir, and in order to increase the efficiency and reduce the number of wells, in each exploration well, registration is performed above the reservoir in the section interval free from interference between the reflection waves from the reservoir of the active reservoir and multiple incident waves, and the excitation is performed at each point sequentially in the low-frequency, mid-frequency and high-frequency parts of the spectrum so that the entire seismic reconnaissance frequency range is overlapped, for each excitation point, records of reflected waves from all explosions are deconvolved using the shape of the incident waves, and they are compared the obtained results, on the basis of which the indicatrix of the variability of physical parameters of the reservoir and the azimuth function are built and the subsequent Vazhiny towards maximum indicatrix.

The disadvantages of this method are the need to drill the first exploration well, which reduces the likelihood of getting into the oil interval and requires additional costs for drilling new exploratory wells, the low power of the charges used in the well leads to the need for a large number of repetitions from different parts of the field to get full coverage of field studies.

There is also a method of searching for deposits and oil and gas deposits (patent RU No. 2263935, IPC G01V 7/00, G01V 9/00, published on November 10, 2005 in Bull. No. 31), which consists in establishing the oil and gas prospects of the territory by the presence of deep reservoirs in the earth's crust For this purpose, they carry out seismic exploration of MOGT in deep modification and the extraction of volume dynamic anomalies, moreover, they predict and localize oil supply channels, identify the degree of activity of the oil supply channel, for which purpose, on the territory of the output of the oil supply channel they study the instability of the gravitational field by conducting gravimetric observations at different times on points fixed on the ground and determining the changes in the gravitational field in time on each of them, and by the presence of sections of increased instability of the gravitational field in time, they evaluate the current activity of the channel, drill a prospecting well directly onto an active oil supply channel.

The disadvantage of this method is the determination of the oil channel only using multivariate gravimetric observations, which significantly reduces the likelihood of getting into the group of oil reservoirs of the field and excluded from the exploration by exploratory wells complex structured reservoirs and interlayers.

The closest in technical essence the method of direct search for highly productive oil reservoirs in complex oil deposits (patent RU No. 2628584, IPC G01V 9/00, G01V 1/00, published on 08.21.2017 in Bull. No. 24), characterized in that the seismic survey 3D method continuously determines comparisons of thicknesses between the roof and the bottom of the Visean tier to the changing depths of the bottom of the Visean tier. For sloping conditions, the parameters are determined by the change in the thickness of the sandstones, according to which sandy bodies are distinguished in the deposits of the Visean tier regardless of the depth and complexity of their occurrence; according to the results of the ratio of marginal coefficients, determined by comparing the thicknesses between the roof and the bottom of the Visean tier to the varying depths of the bottom of the Visean tier and between the surface of the crystalline basement and the roof of the Visean tier, for slope conditions, the parameters of the change in the thickness of sandstones are determined by which highly productive sandstones are determined among the Visean tier oil reservoirs; by the difference between the product of the limiting coefficient, determined by comparing the thicknesses between the roof and the bottom of the Visean tier to the varying depths of the bottom of the Visean tier and the thickness between the surface of the crystalline basement and the roof of the Visean tier, and the thickness between the roof and the bottom of the Visean tier, the values of the thickness variation parameter are determined for the summary conditions sandstones in the Visean tier, and according to the highest values of the parameter of change in the thickness of sandstones within the development of highly productive oil x layers define a location for drilling a primary borehole exploration.

The disadvantages of this method are the inability to use for terrigenous reservoirs, the need for a clear definition of the roof and sole with the definition of highly productive thicknesses of each layer, which significantly narrows the definition of oil-bearing strata without covering complex structured strata and interlayers.

The technical task of the alleged invention is to provide a method for searching for oil-bearing strata in Devonian carbonate reservoirs with coverage of complex structured strata and interlayers due to an integrated approach that includes exploration wells for strata and interlayers with weakly expressed seismic reflecting lower horizons.

The technical problem is solved by the method of searching for oil-bearing strata in carbonate Devonian reservoirs, including the study using reservoir seismic exploration with the identification of oil-saturated thicknesses along the upper and lower boundaries of seismic-reflecting horizons, from the upper of which arch elevations are determined, in the arch of which priority exploration wells are drilled.

What is new is that seismic exploration determines calculated stratigraphic sections using the common depth point method - MOGT 2D with a density of seismic profiles of at least 2 p. Km / km ² , studies are carried out along the upper - “U” horizons of the lower Carboniferous and the lower - “D” of the upper Devonian with the identification of the boundaries of the zones of inconsistent occurrence of consolidated uplifts by comparing the structural plan for seismic reflecting horizons, the calculated stratigraphic section is correlated with the actual one from previously drilled neighboring wells, They conduct priority exploratory wells inside these zones with a design face in horizon “D”.

A method for searching for oil-bearing strata in carbonate Devonian reservoirs involves studying reservoirs using seismic exploration to identify oil-saturated thicknesses along the upper “U” of the lower Carboniferous (see http://www.tatnipi.ru/upload/sms/2014/geol/008.pdf ) and lower - “D” of the Upper Devonian boundary of seismic reflecting horizons. Moreover, during seismic exploration, the calculated stratigraphic sections are determined by the common depth point method - MOGT 2D with a density of seismic profiles of at least 2 p. Km / km ² . The boundaries of zones of inconsistent occurrence of consolidated uplifts are revealed by comparing the structural plan for both seismic-reflecting horizons. The calculated stratigraphic section is correlated with the actual one for previously drilled neighboring wells. Priority exploratory wells are drilled within the boundaries of the identified zones in the arches of the U horizon elevations with the design face in the D horizon.

An example of a specific implementation.

An example of a technical solution to the method:

1. Application area of the Bugulminsko-Tumutuk exploration zone. The site area is located in the Volga-Ural oil and gas basin in close proximity to the Bavlinskoye field with confirmed oil content.

2. The calculated stratigraphic sections were determined by the common depth point method — MOGT 2D with a density of seismic profiles of at least 3 p. Km / km ² . Studies were carried out on the upper horizons - “U” of the Lower Carboniferous and the lower - “D” of the Upper Devonian

The density and detail of seismic profiles made it possible to map structural uplifts of small amplitude and area to lay prospecting wells, using the Maple and North-Maple uplifts, with thinning of boundaries.

3. Structural maps were constructed on the upper “U” of the Lower Carboniferous reflecting seismic horizontally over the horizons and the “U” of the Upper Devonian, lower “D”.

4. Search wells No. 2259 and No. 2260 were drilled with design faces in the Pashian horizon of the Upper Devonian. According to the GIS result, an inconsistent occurrence of the structural plan along the roof (horizon “U”) of the reference point “Ajax” and the roof of the Tournaisian layer due to an increase in the thickness of the sedimentary cover in the section for well No. 2259 by 14 m and well No. 2260 by 26 m was revealed. The calculated correlation stratigraphic section and the actual section.

5. The oil content in the Bobrikov and Kizelov horizons was confirmed by direct methods (removal of oil-saturated core, samples of drilling core sampling - standard deviations) and indirect (interpretation of geophysical survey curves of wells - well logging).

6. According to the GIS conclusion, oil saturation in the carbonate Devonian is ambiguous or the reservoirs are water saturated.

7. The arches of the “U” horizon uplifts — the Maple and North-Maple uplifts — were opened by two priority exploratory wells with a design face in the “D” horizon.

As a result of perforation and development of reservoirs in the Carbonate Devonian, industrial oil inflows were obtained from both wells, i.e. all the criteria of this method are met and a positive result is obtained.

The proposed method for the search for oil-bearing strata in Devonian carbonate reservoirs makes it possible to cover complex structured strata and interlayers with research due to an integrated approach that includes exploration wells of strata and interlayers with weakly expressed seismic reflecting lower horizons.

Claims (1)

A method for searching for oil-bearing strata in carbonate Devonian reservoirs, including the study of reservoirs using seismic exploration with the identification of oil-saturated thicknesses along the upper and lower boundaries of seismic reflecting horizons, from the upper of which arch elevations are determined, in the arch of which priority exploration wells are drilled, characterized in that during seismic exploration design stratigraphic sections are determined by the common depth point method - MOGT 2D with a density of seismic profiles of at least 2 p.km / km ² , studies are carried out along the horizons: the upper - “U” of the Lower Carboniferous and the lower - “D” of the Upper Devonian, with the identification of the boundaries of the zones of inconsistent occurrence of consolidated uplifts by comparing the structural plan for seismic reflecting horizons, the calculated stratigraphic section is correlated with the actual one for previously drilled neighboring wells , drilling is carried out of priority exploratory wells inside these zones with a design face in horizon “D”.