RU2267606C1 - Mine oil field development method - Google Patents

Abstract

FIELD: oil production industry, particularly mine development of oil fields.

SUBSTANCE: method involves boring production bores from ground surface to productive bed bottom in advance of other field facilities building; previously degassing the formation through surface production wells along underground production galleries driven in vertical plane as broken lines along productive bed bottom; aligning recessed productive gallery sections with face areas of surface production wells; forming sump holes for produced liquid accumulation in above recessed productive gallery sections, whereon production gallery path amplitude does not exceed excavation height and productive gallery inclinations in broken line sections thereof are maintained within permissible limit; drilling underground slightly rising and horizontal bores from production galleries through productive bed; conveying liquid drained from underground wells and accumulated in oil gathering gutters formed along production galleries to sump holes; pumping-out liquid from sump holes through surface production wells to ground surface and conveying thereof to oil transport pipeline.

EFFECT: increased oil output.

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Description

The invention relates to the oil industry, in particular to mine methods for developing oil fields.

There is a method of developing a highly viscous oil field, according to which the coolant is pumped through injection wells drilled from the surface. Oil is taken through production wells drilled from a mine. It is carried out in a productive oil reservoir or below it. Production wells are drilled sloping. They are arranged in rows. Injection wells are drilled near the boundary of the developed field between the rows of production wells. In the interval between these wells and parallel to them, gently sloping wells are drilled. The bottoms of these wells are oriented in the roof of the oil reservoir, cross the injection wells or pass in the zone of their influence and form a single injection system for pumping coolant into the oil reservoir. This provides an increase in the rate of oil recovery, an increase in oil recovery and a decrease in the specific heat consumption per unit of oil produced (RF Patent No. 2114289, class E 21 B 43/24, publ. 06/27/98).

The known method does not allow to achieve high current oil recovery in the initial period. The term of development of the field is 7-8 years.

Closest to the proposed invention in technical essence is an underground-surface method for developing a highly viscous oil field, according to which mining is conducted in or below the producing formation. Half-rising steam distribution and production wells are drilled from mining. Vertical injection wells are drilled from the surface. The coolant is pumped into them. The heat carrier is steam. Steam is distributed across the formation through half-rising steam distribution wells. They are drilled from mining parallel to producing wells. The faces of the steam distribution wells are oriented in the roof of the oil reservoir. They cross injection wells or pass in the zone of their influence. Additional production wells are oriented below the bottom of the vertical injection wells. Each steam distribution well and additional production well are drilled from one place of mining in the form of radial rays located in one vertical plane. After filling an additional production well with steam, it is transferred to the category of steam distribution wells (RF Patent No. 2199657, class E 21 B 43/24, publ. 02.27.2003. - prototype).

The known method provides the acceleration of the withdrawal of the developed section to the design level of oil production and the reduction of the field development time.

The disadvantage of this method is that each mine for natural drainage has a slope of up to 5 per 1000 m of mine. The mouth of the mine is located at the bottom of the reservoir. With a long length of mine workings, its face can rise above the level of the bottom of the formation to a considerable height and even go into the roof of the formation. The main regime of mine development is gravity drainage of the reservoir. Therefore, oil from part of the reservoir under the mine is practically outside the development and is irretrievably lost. Oil recovery is reduced.

The objective of the present invention is to increase oil recovery deposits.

The problem is solved in that in the method of mine development of an oil field, including wiring an underground producing gallery in a producing formation, drilling surface producing wells, drilling from underground producing wells and / or horizontal wells from the producing gallery, and liquid selection from underground wells, characterized in that that along the route of conducting the production gallery from the surface, production wells are drilled to the bottom of the reservoir in an advanced manner compared to the construction of other parts In the course of production, through the surface production wells, the formation is pre-degassed along the production gallery wiring route, the production gallery is carried out in a vertical plane in the form of a broken line along the bottom of the producing formation, the places of lowering of the production gallery are combined with the bottom faces of the surface production wells, sumps are constructed to collect liquid produced, surface producing wells are equipped with pumping equipment for pumping liquid from sumps, while the amplitude of the trajectory is extracted x galleries operate not generate a greater height and slope extracting galleries portions broken line for natural drainage in the shaft is maintained within acceptable limits.

The features of the invention are:

1. Posting in the reservoir of the underground mining gallery;

2. drilling of surface producing wells;

3. Drilling from the producing gallery of underground shallow and / or horizontal wells in the reservoir;

4. fluid withdrawal from underground wells;

5. along the route of conducting the production gallery from the surface, drilling production wells to the bottom of the reservoir in an advanced manner compared to the construction of other parts of the field;

6. through surface producing wells, preliminary degassing of the formation along the route of the mining gallery;

7. holding the mining gallery in a vertical plane in the form of a broken line along the bottom of the reservoir;

8. combination of places of lowering the producing gallery with the places of the bottom faces of surface producing wells;

9. in places of lowering the construction of sumps to collect the produced fluid;

10. equipment of surface producing wells with pumping equipment for pumping liquid from sumps;

11. the amplitude of the trajectory of the mining galleries is not greater than the height of the output;

12. The bias of the mining galleries along the broken line sections for the implementation of natural drainage in the mine within acceptable limits.

Signs 1-4 are common with the prototype, signs 5-12 are the salient features of the invention.

SUMMARY OF THE INVENTION

In the mine development of an oil field, the main development mode is the mode of gravity drainage of the reservoir. However, in the case of a significant rise in the level of the producing gallery above the level of the bottom of the productive formation, it is difficult to ensure drainage of the formation below the level of the gallery only due to the gravitational regime. Part of the recoverable reserves remains buried in the reservoir. The proposed method solves the problem of increasing oil recovery of an oil field. The problem is solved as follows.

In the mine development of an oil field, drilling wells from the surface are drilled to the bottom of the producing formation in an advancing order compared to the construction of other parts of the field. Through surface producing wells, the formation is pre-degassed along the mining gallery wiring route.

A mining gallery in the vertical plane is constructed in the form of a broken line along the bottom of the reservoir. Places for lowering the production gallery are combined with the bottom faces of the vertical production wells, and sumps are also built there to collect the produced fluid. The amplitude of the trajectory of the mining galleries is not greater than the height of the output. The slope of the producing gallery in the broken line sections can withstand no more than the standard value of 0.005, but ensuring the passage of the produced fluid through the oil collecting grooves laid in the producing gallery.

From the producing gallery, half-rising and / or horizontal underground wells are drilled. Fluid from the reservoir flows from underground wells to oil gathering grooves laid in the production gallery, through which it is transported to sumps, from where it is pumped to the surface through surface production wells and sent to the oil transportation pipeline.

Figure 1 shows the plot of the developed field. Figure 2 shows the same section along section AA. Figure 3 is a section along BB.

In the area of the oilfield 1, intended for mine development, a long producing gallery 4 is drawn along the sole 2 of the oil-saturated part of the formation 3. In order for the producing gallery 4 not to rise to a significant height above the level of the sole of the formation 2 or not to enter the roof 5 of the formation 3, the trajectory the mining gallery 4 in a vertical plane is made in the form of a broken line. In places of lowering, sumps 6 are constructed to collect liquid. The formed slope in the mining gallery 4 between the sections of the broken line is not more than 0.005, but sufficient to effect natural drainage in the mine along the oil gathering grooves laid in the mining gallery. From the producing gallery 4, the oil reservoir 3 is drilled by underground shallow and / or horizontal wells 10 that provide oil production. From the underground wells 10, the produced fluid flows into the oil gathering groove 11, through which it is transported to the sump 6. To pump the produced fluid from the sumps 6, surface production wells 7 are drilled from the surface, the faces of which are placed in the sumps 6. The surface production wells 7 are drilled ahead of schedule compared with the excavation of the production gallery 4 for the degassing of the formation 3 along the mining route 4. The surface production wells 7 are equipped with pumping equipment for pumping liquid. To reduce the number of surface production wells 7, the twin mine workings 4 are connected by faults 8, which are laid to prevent the direction of the ventilation air stream from being changed, but below them, a groove is made in which the produced fluid from the mine, where there is no sump, enters the mine in which it is . The pumped liquid through the surface producing wells 7 enters the oil transportation pipeline 9.

Concrete example

A section of the Yaregskoye field of high viscosity oil is being developed with the following characteristics: depth - 200 m, initial reservoir temperature - 8 ° C, reservoir pressure - 0.1 MPa, reservoir thickness - 26 m, reservoir porosity - 26%, permeability - 3 μm ² , oil saturation - 87%, oil viscosity - 12000 MPa · s, oil density - 933 kg / m ³ .

When mining a field of mine 1 by a mine method on a panel system along the sole 2 of the oil reservoir 3, the main producing gallery 4 is conducted, from which the panel workings are cut, cutting the field being developed on the panel. The length of the main producing gallery 4 reaches 5000 m. For the implementation of natural drainage, the slope of the main producing gallery 4 is 0.005, which is customary for thermal mining of the Yarega field. Therefore, the elevation height of the bottom of the mine above the bottom of the formation can be 25 m, which will lead to a decrease in the efficiency of field development in the gravitational mode, which is the main one in mine and thermal mining. Therefore, the main mining gallery 4 is held at the bottom of the formation 2 in the form of a broken line in the vertical plane. The length of underground wells 10 when drilled by the PBS-2T machine is 250 m, therefore, the distance between the panels is 500 m. Sumps 6 for collecting fluid are located on the main producing gallery 4 in the places where it is connected to the panel workings. The length of the broken line section of the trajectory of the main producing gallery is 250 m. Accordingly, the maximum rise above the sole level is 1.25 m, which is lower than the working height 4, which is 2.5 m. This ensures the transport of fluid to the mouth of the main working if it is impossible to pump it out through surface vertical wells for some reason.

When developing a section of an oil field, producing wells 7 are drilled from the surface in an advanced manner compared to other parts of the field to the bottom of the reservoir. Through the surface production wells 7, the formation is pre-degassed along the route of the main production gallery 4. The places of lowering the trajectory of the main production working 4 are combined with the bottom faces of the surface production wells 7. Sumps 6 are built in the places of lowering.

From the surface, injection wells are drilled (not shown in FIG.) To the middle of productive formation 3. From the main producing gallery 4 and panel mines (not shown in FIG.), Shallow steam distribution wells (not shown) are drilled with faces oriented in the roof 5 of the reservoir 3 and crossing the injection wells or passing in the zone of their influence. From the main producing gallery and panel mine workings, production wells 10 are drilled, oriented below the bottom of the surface injection wells.

Steam is injected into surface injection wells and steam is distributed throughout the formation through shallow steam distribution wells. The fluid from the reservoir flows from the production wells 10 into the oil collecting grooves 11 and is transported through them to the sumps 6, from where it is pumped through the surface production wells 7 to the surface and sent to the oil transportation pipeline 9.

Due to the provision of wiring of the mining galleries at the bottom of the reservoir, the bottom zones are involved in the development, previously located under a high-passing mine. This allows you to fully use the gravitational regime in the mine development of the field, subject to all the required rules of mine construction. Due to the application of the method, oil recovery increases by 15% compared to the solution of the prototype.

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

Claims (1)

The method of mine development of an oil field, including wiring an underground producing gallery in a producing formation, drilling surface producing wells, drilling from a producing gallery of underground shallow and horizontal wells along a producing formation and selecting liquid from underground wells, characterized in that along the route of conducting the producing gallery from the surface drilling production wells to the bottom of the reservoir in a faster manner compared to the construction of other parts of the field, through the surface Other production wells pre-degass the formation along the route of the production gallery, production galleries are carried out in a vertical plane in the form of a broken line at the bottom of the productive formation, the places of lowering of the production gallery are combined with the bottom faces of the surface production wells, sumps are constructed at the places of lowering to collect the produced liquid, surface producing wells are equipped with pumping equipment for pumping liquid from sumps, while the amplitude of the trajectory of the producing galleries is no more Height of generating and extracting a bias galleries portions broken line for natural drainage in the shaft is maintained within acceptable limits.

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