RU2274738C1 - Method for oil field development by horizontal wells - Google Patents

Abstract

FIELD: oil production industry, particularly for oil field development.

SUBSTANCE: method involves drilling inclined main transport hole through formation towards water-oil contact level; drilling ascending additional branch holes; ascending branch hole bottom marks are drilled so that bottom marks thereof descend to main transport hole end. Bottom mark of the last ascending additional branch hole is set taking into consideration distance ratio defined by distance between vertical distance from lower point of main transport horizontal hole, which is head mark of the last ascending branch hole, to water-oil contact level and distance from bottom of the last ascending additional branch hole to water-oil contact level. Above distance ratio is to be equal to 0.3-0.5. Bottom mark of the first ascending additional branch hole is set from distance ratio defined by vertical distance from head of the first ascending additional branch hole to water-oil contact level and distance between bottom of the first ascending additional branch hole to water-oil contact level, wherein above distance ratio is to be equal to 0.6-0.8. Bottom marks of intermediate ascending additional branch holes arranged between the first and the last ones are set from distance ratio defined by vertical distance from head of corresponding ascending additional branch hole to water-oil contact level and distance from bottom of the same ascending additional branch hole to water-oil contact level, wherein the distance ratio is to be equal to 0.3-0.8. The main transport horizontal hole is provided with flow string arranged so that flow string bottom is located in lower point of main transport horizontal hole. Oil is produced through ascending additional branch holes.

EFFECT: increased oil recovery from the field.

1 ex, 1 dwg

Description

The present invention relates to the oil industry and may find application in the development of oil deposits by horizontal wells.

A known method of developing an oil field, including drilling a field with a horizontal wellbore system, injecting a displacing agent through injection wells and producing oil through production wells. Additionally, drainage wells with horizontal shafts are carried out, they are placed at the bottom of the gas-pressure field or in the roof of the field with a water-pressure mode, while the horizontal well system has intersecting or intersecting trunks in plan view, and production wells are hydrodynamically connected to the intersection of horizontal drainage well shafts, injection of the displacing agent is carried out in the roof of the field in gas pressure mode or in the bottom of the field in water pressure mode (patent t of the Russian Federation No. 1623276, class E 21 B 43/20, publ. 1999.11.11.27).

The known method does not allow to develop an oil reservoir with high oil recovery due to the rapid flooding of the produced products with rising cones of flooding.

Closest to the proposed invention in technical essence is a method of developing an oil reservoir by horizontal wells, including conducting a main horizontal transport well in the well, flow metering along its entire length from its bottom to the top of the formation, using the flow meter to find working sections adjacent to the main horizontal horizontal well formation and idle sections of the formation, then from the main horizontal transport trunk to idle sections of the formation b erasure of branched descending trunks of a wave-like profile, flow metering in them, identification of working sections of a formation adjacent to a branched descending trunks of a wave-like profile, drilling of subsequent horizontal trunks and additional branched descending trunks in working sections of a formation from a main transport horizontal wellbore, including wells in oil production , while the inclusion of additional branched descending shafts in each well in the oil production after satisfactorily, starting from the bottom of the main horizontal transport trunk to the roof of the formation (RF patent No. 2141560, cl. E 21 B 43/00, publ. 1999/11.20 - prototype).

The known method allows you to select the main oil reserves from the reservoir, however, the oil recovery remains low due to the premature rise of bottom water cones to the faces of production wells.

The proposed invention solves the problem of increasing oil recovery deposits.

The problem is solved in that in the method of developing an oil reservoir by horizontal wells, including wiring a main horizontal transport well in the well, drilling additional branch trunks from the main horizontal transport well into working sections of the formation and incorporating the well into oil production, according to the invention, the main horizontal transport well drilled obliquely through the reservoir in the direction of the oil-water contact, additional branched shafts are drilled upward, marking the faces of the additional ascending branch trunks are drilled with lowering the marks of their faces to the end of the main horizontal transport trunk, the bottom mark of the last additional branch ascending trunk is determined based on the ratio of the vertical distance from the lower point of the main horizontal transport trunk, which is also the mark of the mouth of the last additional branch ascending trunk to the oil-water contact to the distance from the bottom of the last additional branch ascending trunk to the oil-water contact, equal to 0.3-0.5, the bottom mark of the first additional branched ascending trunk is determined based on the ratio of the vertical distance from the mouth of the first additional branched ascending trunk to the oil-water contact to the distance from the bottom of the first additional branched ascending trunk to the oil-water contact equal to 0.6-0.8, the bottom mark of the additional branch ascending trunk in the interval between the first and last additional branch ascension A box trunk is assigned based on the ratio of the vertical distance from the mouth of the corresponding additional branched ascending trunk to the oil-water contact to the distance from the bottom of the same additional branched ascending trunk to the oil-water contact of 0.3-0.8, the main transport horizontal barrel is equipped with a pump compressor pipes with placement of the bottom of the tubing string at the lower point of the main horizontal transport trunk, and the selection of oil is carried out through supplement branchy ascending trunks. The features of the invention are:

1. Posting in the well of the main transport horizontal wellbore;

2. drilling from the main transport horizontal trunk of additional branched shafts into working sections of the formation;

3. the inclusion of wells in oil production;

4. drilling the main horizontal transport trunk obliquely through the formation in the direction of the oil-water contact;

5. drilling of additional branched trunks ascending;

6. drilling the marks of the faces of the additional ascending branch trunks with lowering the marks of their faces by the end of the main horizontal transport trunk;

7. Assignment of the bottom mark of the last additional branch ascending trunk based on the ratio of the vertical distance from the bottom point of the main horizontal transport trunk, which is also the mark of the mouth of the last additional branch ascending trunk to the oil-water contact to the distance from the bottom of the last additional branch ascending trunk to the oil-water contact, equal to 0.3-0.5;

8. Assignment of the bottom mark of the first additional branch ascending trunk based on the ratio of the vertical distance from the mouth of the first additional branch ascending trunk to the oil-water contact to the distance from the bottom of the first additional branch ascending trunk to the oil-water contact of 0.6-0.8;

9. Assignment of the bottom mark of the additional branch ascending trunk in the interval between the first and last additional branch ascending stem based on the ratio of the vertical distance from the mouth of the corresponding additional branch ascending trunk to the oil-water contact to the distance from the bottom of the same additional branch ascending trunk to the oil-water contact, equal to 0.3-0.8;

10. supplying the main transport horizontal trunk with a string of tubing with the bottom of the tubing string at the bottom of the main horizontal transport trunk;

11. oil selection through additional branched ascending trunks.

Signs 1-3 are common with the prototype, signs 4-11 are the salient features of the invention.

SUMMARY OF THE INVENTION

When developing an oil reservoir with bottom water, water cones are raised to the faces of production wells. As a result of this, waterlogging of produced products, burial of a part of recoverable reserves in the reservoir and a decrease in the final oil recovery of the reservoir occur. A particularly strong negative effect of this kind manifests itself when lifting the cones to horizontal producing wells. The proposed method solves the problem of increasing oil recovery by reducing the effect of cone formation and premature flooding of horizontal production wells.

The drawing schematically shows a section of the reservoir. The main transport horizontal trunk 1 is drilled obliquely through the thickness of the formation 2 in the direction of oil-water contact 3. Additional branched ascending trunks 4-7 are drilled from the main transport horizontal trunk ascending with lowering marks of their faces 8-11 to the end of the main transport horizontal trunk 1. Values h _{1 -4} , h _1-5 , h _1-6 , h _1-7 determine respectively the heights of the additional branched ascending trunks 4-7, the values h _2-4 , h _2-5 , h _2-6 , h _2-7 determine the distance from the mouths of additional branch ascents tvolov to water contact.

The bottom mark 11 of the last additional branch ascending trunk 7 is assigned based on the ratio of the distance from the bottom point 12 of the main horizontal transport trunk 1, which is also the mouth of the additional branch ascending trunk 7, to the oil-water contact 3 h _2-7 to the distance from the bottom 11 of the barrel 7 to the oil-water pin 3, equal to the sum of the distances h _1-7 + h _2-7 , equal to 0.3-0.5:

h _2-7 / h _1-7 + h _2-7 = 0.3-0.5.

The bottom mark 8 of the first additional branch ascending barrel 4 is assigned based on the ratio of the distance from the mouth of the additional branch ascending barrel 4 to the oil-water contact 3 h _2-4 to the distance from the bottom 8 of the barrel 4 to the oil-water contact 3, equal to the sum of the distances h _1-4 + h _2-4 , equal to 0.6-0.8:

h _2-4 / h _1-4 + h _2-4 = 0.6-0.8.

The marks of the faces of the additional branched ascending trunks in the interval between the first 4 and the last additional branched ascending trunk 7 are determined based on the ratio of the distance from the mouth of the additional branched ascending trunk to the oil-water contact 3 to the distance from the bottom of the trunk to the oil-water contact 3 of 0.3-0, 8.

The bottom mark 9 of the second additional branch ascending shaft 5 is assigned based on the ratio of the distance from the mouth of the additional branch ascending barrel 5 to the oil-water contact 3 h _2-5 to the distance from the bottom 9 of the barrel 5 to the oil-water contact 3, equal to the sum of the distances h _1-5 + h _2-5 , equal to 0.5-0.7:

h _2-5 / h _1-5 + h _2-5 = 0.5-0.7.

The mark of the bottom 10 of the third additional branch ascending shaft 6 is assigned based on the ratio of the distance from the mouth of the additional branch ascending barrel 6 to the oil-water contact 3 h _2-6 to the distance from the bottom 10 of the barrel 6 to the oil-water contact 3, equal to the sum of the distances h _1-6 + h _2-6 , equal to 0.4-0.6:

h _2-6 / h _1-6 + h _2-6 = 0.4-0.6.

The main horizontal transport trunk is provided with a tubing string (not shown) with the bottom of the tubing string at the lower point 12 of the main horizontal horizontal trunk 1. Oil is extracted through additional branched ascending trunks 4-7 and is supplied to the surface on the column tubing.

As a result of raising the water cones, flooding of the faces of all additional branch ascending trunks occurs approximately simultaneously. The main rise of the watering cone occurs near the main wellbore (vertical) of the well. Therefore, the face of the first additional branched ascending trunk is raised above the rest. With the described location of the faces, the development of the reservoir section occurs as evenly as possible, and the raising of water cones - in accordance with the line of placement of the faces of the additional branched ascending trunks. Placing the bottom of the tubing string at the lower point of the main horizontal transport trunk helps to remove oil and contaminants from the main horizontal transport trunk and clean it.

An example of a specific implementation of the method

An oil deposit of the Romashkinskoye field is developed with the following characteristics: average depth 892 m, massive type of deposit, carbonate reservoir, average total thickness 22 m, porosity 0.141, average oil saturation 0.79, permeability 0.145 μm ² , reservoir temperature 23 ° С, formation pressure 7.4 MPa, oil viscosity at reservoir conditions 52.9 MPa · S, oil density at reservoir conditions 0.884 t / m ³ , oil saturation pressure of gas 1.3 MPa, oil gas content 4.7 m ³ / t, water viscosity in reservoir conditions 1.1 MPa · S, water density 1.036 kg / m ³ .

The deposit is being developed by flooding. The working agent is pumped through injection wells and oil is taken through production wells.

In the production well, the main horizontal transport trunk 1 is drilled obliquely through the thickness of the formation 2 in the direction of the oil-water contact 3 with a length of 300 m. Additional branched ascending shafts 4-7 are drilled from it through 75 m each with a decrease in their faces towards the end of the main horizontal transport trunk 1.

The bottom mark 8 of the first additional branch ascending shaft 4 is assigned based on the ratio of the distance from the mouth of the additional branch ascending barrel 4 to the oil-water contact 3 h _2-4 = 7 m to the distance from the bottom 8 of the barrel 4 to the oil-water contact 3, equal to the sum of the distances h _{1- 4} (3 m) + h _2-4 (7 m), equal to 0.7:

h _2-4 / h _1-4 + h _2-4 = 7 / (3 + 7) = 0.7.

The bottom mark 9 of the second additional branch ascending shaft 5 is assigned based on the ratio of the distance from the mouth of the additional branch ascending barrel 5 to the oil-water contact 3 h _2-5 = 6 m to the distance from the bottom 9 of the barrel 5 to the oil-water contact 3, equal to the sum of the distances h _{1- 5} (4 m) + h _2-5 (6 m) equal to 0.6:

h _2-5 / h _1-5 + h _2-5 = 6 / (4 + 6) = 0.6.

The bottom mark 10 of the third additional branch ascending shaft 6 is assigned based on the ratio of the distance from the mouth of the additional branch ascending barrel 6 to the oil-water contact 3 h _2-6 = 5 m to the distance from the bottom 10 of the barrel 6 to the oil-water contact 3, equal to the sum of the distances h _{1- 6} (5 m) + h _1-6 (5 m), equal to 0.5:

h _2-6 / h _1-6 + h _2-6 = 5 / (5 + 5) = 0.5.

The bottom mark 11 of the last additional branch ascending shaft 7 is assigned based on the ratio of the distance from the lower point 12 of the main horizontal transport trunk 1, which is also the mouth of the additional branch ascending barrel 7, to the oil-water contact 3 h _2-7 = 4 m to the distance from the bottom 11 of the trunk 7 to the oil-water contact 3, equal to the sum of the distances h _1-7 (6 m) + h _2-7 (4 m), equal to 0.4:

h _2-7 / h _1-7 + h _2-7 = 4 / (6 + 4) = 0.4.

The main transport horizontal barrel is equipped with a tubing string with the bottom of the tubing string at the bottom 12 of the main horizontal transport trunk 1. Oil is extracted through additional branched ascending trunks 4-7 and fed to the day surface along the tubing string .

As a result of the raising of the water cones, flooding of the faces of all additional branched falling trunks occurs approximately simultaneously. As a result, the anhydrous period of oil production was 1.5 years instead of 1 year as for horizontal wells of a similar type (according to the prototype). The oil recovery of the deposit section was 48%, while the estimated oil recovery for the section with a well of the same type (according to the prototype) is 40%.

The application of the proposed method will improve oil recovery deposits.

Claims (1)

A method of developing an oil reservoir by horizontal wells, including wiring a main horizontal transport well in the well, drilling additional branch trunks from the main horizontal horizontal well into working sections of the formation and incorporating the well into the oil production operation, characterized in that the main horizontal horizontal well is drilled obliquely through the thickness formation in the direction of oil-water contact, additional branched trunks are drilled ascending, marks of additional faces in descending branch trunks are drilled with lowering their bottom marks to the end of the main horizontal transport trunk; the bottom mark of the last additional branch horizontal ascending trunk is determined based on the ratio of the vertical distance from the lower point of the main horizontal transport trunk, which is also the mark of the mouth of the last additional branch ascending trunk, to oil-water contact to the distance from the bottom of the last additional branched ascending trunk to the waters an oil contact equal to 0.3-0.5, the bottom mark of the first additional branch ascending trunk is assigned based on the ratio of the vertical distance from the mouth of the first additional branch ascending trunk to the oil-water contact to the distance from the bottom of the first additional branch ascending trunk to the oil-water contact, equal to 0.6-0.8, the bottom mark of the additional branched ascending trunk in the interval between the first and last additional branched ascending trunk is assigned, walking from the ratio of the vertical distance from the mouth of the corresponding additional branched ascending trunk to the oil-water contact to the distance from the bottom of the same additional branched ascending trunk to the oil-water contact of 0.3-0.8, the main transport horizontal trunk is equipped with a tubing string with by placing the bottom of the tubing string at the lower point of the main horizontal transport trunk, and oil is extracted through additional branch pipes yaschie trunks.