RU2822852C1 - Method for development of massive oil deposit - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: invention relates to oil industry and can be used in development of massive oil deposit. Method for development of massive oil deposit includes drilling of production and injection wells, construction of structural maps and maps of oil-saturated thicknesses, extraction from production wells and injection of displacement agent into injection wells, separation of zone with oil-saturated thickness, drilling of production well in it with horizontal end with two faces. Branched horizontal well with two faces is drilled in the zone of oil-saturated thickness equal to at least 12 m and having no abrupt drops of wings of the structure controlling the oil deposit. At that, the first upper borehole with horizontal end is made in thickness making 25% of top to total oil-saturated thickness along the section and zenith angle output by 90°. Further, geophysical and hydrodynamic investigations are carried out, based on their results, the second lower horizontal borehole is drilled with zenith angle of 78°–90° under the first shaft and parallel to it at a vertical distance of at least 6 m. In case watering of the product is more than 70% after geophysical and hydrodynamic investigations carried out for specific determination of watered thickness of the formation, and in case of watering of the lower part of the formation, the lower shaft is changed over to intermittent injection.

EFFECT: enabling increase in development of reserves of the site and the deposit as a whole, increase in oil recovery of oil deposits with large oil-saturated thicknesses, increase in the well operation life, reduction in the volume of produced associated water.

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Description

The invention relates to the oil industry and can be used in the development of massive oil deposits.

There is a known method for developing a massive oil deposit (patent RU No. 2447272, MPK E21B 43/20, publ. 04/10/2012, Bulletin No. 10), including placing vertical and/or directional production and injection wells along a sparse grid, constructing maps structural and oil-saturated thicknesses, selection from production wells and injection of a displacing agent into injection wells. The main horizontal trunk is drilled in a thickness that is no more than 30% of the total oil-saturated thickness from the roof, hydrodynamic studies are carried out, the trunk is developed and put into operation, its productivity is determined, the second lower horizontal or subhorizontal trunk is drilled under the first with an azimuth deviation of no more 10°, with an inclination angle of at least 60° and a distance from the first wellbore of at least 3 m with the installation of one or more platforms for equipment of a controlled filter with a length of at least 15 m, ensuring the absence of fluid flows between the formation zones before and after the site, are equipped the well and put it into operation, measure the flow rate of liquid and oil, determine its productivity and the degree of water cut of the product; when the product water cut is 85% or more, a controlled filter is lowered to the installed site and its lower curtain is closed, cutting off the lower part of the well, and the upper part of the well with low product water cut continues to be exploited.

The disadvantages of this method are incomplete coverage of the production of oil reserves in the interwell space and along the section, short well life and low oil recovery.

The technical objectives of the invention are a more complete coverage of oil reserves production in the interwell space and along the section, increasing the life of wells and oil recovery.

Technical problems are solved by the method of developing a massive oil deposit, including drilling production and injection wells, constructing structural maps and maps of oil-saturated thicknesses, sampling from production wells and pumping a displacing agent into injection wells, separating zones with oil-saturated thicknesses, drilling a production well in it with a horizontal end with two faces.

What is new is that in a zone of oil-saturated thickness equal to at least 12 m and without sharp drops in the wings of the structure controlling the oil deposit, a branched horizontal well with two faces is drilled, while the first upper trunk with a horizontal ending is drilled in a thickness equal to the roof 25% of the total oil-saturated thickness along the section and the zenith angle reaching 90°, geophysical and hydrodynamic studies are carried out, based on their results, a second lower horizontal trunk is drilled with an zenith angle of 78° - 90° under the first trunk and parallel to it at a vertical distance of at least 6 m, when the product is watered by more than 70%, after geophysical and hydrodynamic studies carried out to specifically determine the watered thickness of the formation and when the lower part of the formation is watered, the lower trunk is transferred to periodic injection.

The method is carried out as follows.

A massive reservoir is drilled with production and injection wells, research is carried out, maps of structural and oil-saturated thicknesses are built, production is carried out from production wells and a displacing agent is pumped into injection wells.

In a zone of oil-saturated thickness equal to at least 12 m and without sharp drops in the wings of the structure controlling the oil deposit, a branched horizontal well with two faces is drilled. In this case, the first upper shaft with a horizontal end is carried out in a thickness that is 25% from the roof to the total oil-saturated thickness along the section and the zenith angle is 90°. Geophysical and hydrodynamic studies are carried out, based on their results, a second lower horizontal trunk is drilled with an inclination angle of 78° - 90° under the first trunk and parallel to it at a vertical distance of at least 6 m. When the product is watered by more than 70% after geophysical and hydrodynamic studies carried out for a specific determination of the watered thickness of the formation and when the lower part of the formation is watered, the lower trunk is transferred to periodic injection.

Example of a specific application.

On oil deposits in the sediments of the Bobrikovsky horizon with an average depth of 1095 m, vertical and horizontal production and injection wells are drilled along a sparse grid of more than 350 m, structural maps and maps of oil-saturated thicknesses are constructed, sampling is carried out from production wells and a displacing agent is pumped into injection wells.

On maps of oil-saturated thicknesses, a zone of more than 6 m is distinguished. In the zone of oil-saturated thickness equal to at least 12 m and without sharp drops in the wings of the structure controlling the oil deposit, a branched horizontal well with two faces is drilled, while the first upper trunk with a horizontal ending is drilled in a thickness of 3 m from the roof and an inclination angle of 90°, 350 m long. Geophysical and hydrodynamic studies are carried out, based on their results, a second lower horizontal shaft is drilled with an inclination angle of 78° - 90°, 350 m long, under the first shaft and parallel to it at a vertical distance of at least 6 meters, while the exit at 90° 50-70 m to the face created a horizontal platform and prevents the rapid creation of a water cone and contributes to longer operation in anhydrous mode and low water cut of the product.

The well's flow rate was 68 tons/day of anhydrous oil. After 13 years of work, based on the results of oil flow measurements, the degree of water cut in the product in the last year was 78%. Cumulative oil production amounted to 295 thousand tons. According to the results of geophysical and hydrodynamic studies, water comes from the lower shaft. We transfer the lower borehole to periodic injection of the working reagent—formation water—with a volume of 83 m ³ /day and a period of 7 every 7 days.

The use of the proposed method makes it possible to most fully develop the reserves of the site and the deposit as a whole, to achieve increased oil recovery from oil deposits with large oil-saturated thicknesses as a result of greater drainage coverage over the area and section and an increase in the service life of wells, reducing the volume of produced associated water.

Claims (1)

A method for developing a massive oil deposit, including drilling production and injection wells, constructing structural maps and maps of oil-saturated thicknesses, sampling from production wells and pumping a displacing agent into injection wells, identifying a zone with oil-saturated thicknesses, drilling a production well in it with a horizontal end with two faces , characterized in that a branched horizontal well with two faces is drilled in a zone of oil-saturated thickness equal to at least 12 m and without sharp drops of the wings of the structure controlling the oil deposit, while the first upper trunk with a horizontal end is drilled in a thickness of 25 m from the roof % of the total oil-saturated thickness along the section and the zenith angle reaching 90°, geophysical and hydrodynamic studies are carried out, based on their results, a second lower horizontal trunk is drilled with an zenith angle of 78°-90° under the first trunk and parallel to it at a vertical distance of at least 6 m, when the product is watered by more than 70% after geophysical and hydrodynamic studies carried out to specifically determine the watered thickness of the formation, and when the lower part of the formation is watered, the lower trunk is transferred to periodic injection.