RU2242594C1 - Method for extraction of sedimentologically screened oil-saturated lens by one well - Google Patents

Abstract

FIELD: oil extractive industry.

SUBSTANCE: method includes extraction of bed liquid by one well until bed pressure lowers to level of oil saturation by gas or oil debit decrease to rentable limits. Lens profile is analyzed, limits and portions are determined with lowered and heightened deposit placement. Through vertical well in productive layer in direction of lowered or heightened portion no less than one horizontal shaft is drilled. Periodical feeding of water into lowered lens portion is performed, and extraction of bed fluid is performed periodically from heightened portion of lens.

EFFECT: higher oil yield.

3 cl, 2 ex

Description

The invention relates to the oil industry and may find application in the development of oil deposits, within the boundaries of which there are isolated lithologically shielded oil-saturated lenses, opened only by a single well of the production fund.

A known method of developing small deposits and individual lenses of a multilayer oil field, including the injection of chemicals through the well into the reservoir, increasing the reservoir pressure due to the release of carbon dioxide as a result of the reaction and selecting products through this well. At least one horizontal wellbore having a curvilinear arrangement in plan is drilled through a vertical well through a productive formation. The calculated volume of reagents is injected with periods with holding to stabilize the pressure without taking products between them until the reservoir pressure rises to the initial and subsequent selection of products to an economically viable level. The cycles are repeated (RF Patent No. 2086756, class E 21 B 43/22, publ. 10.08.97).

The known method does not allow to develop reserves from the lenticular oil deposits with the achievement of high oil recovery.

Closest to the invention in technical essence is a method for developing a lithologically shielded oil-saturated lens with one well, comprising alternating the injection of water with hydraulic fracturing of the porous medium and adjustable pressure relief and formation fluid withdrawal. Water is pumped at a pressure at the bottom of the borehole that exceeds the fracture pressure of the porous medium and is sufficient to create vertical cracks deeply penetrating into the formation to the boundaries of the lens. Stop the injection of water when the reservoir pressure is restored to its original level. Quickly relieve pressure on the bottom of the well.

The well is converted for production and formation fluid is taken until the reservoir pressure drops to the level of oil saturation with gas or the oil production rate drops to the most profitable (RF Patent No. 2150578, class E 21 V 43/20, publ. 10.06.2000 - prototype).

The known method allows for the alternation of injection and selection and to increase oil recovery, however, a significant part of the oil reserves remains undeveloped.

The invention solves the problem of increasing oil recovery deposits.

The problem is solved in that in a method for developing a lithologically shielded oil-saturated lens with one well, which involves alternating the selection of reservoir fluid to reduce reservoir pressure to a level of oil saturation with gas or a drop in oil production to an extremely cost-effective and injecting water with increasing reservoir pressure, the lens profile is analyzed according to the invention , determine the boundaries and areas with a reduced and increased location of the reservoir, through a vertical well into the reservoir in the direction of low about or an elevated area, at least one horizontal well is drilled, water is injected into the lower area of the lens, and formation fluid is taken from the elevated area of the lens.

When the bottom of the vertical wellbore is located in the zone of the elevated section, a horizontal wellbore is drilled into the zone of the lowered section, water is injected through the end of the horizontal wellbore into the zone of the lowered section, and formation fluid is taken through the beginning of the horizontal well, or through the second horizontal well, or through oblique - horizontal wellbore, or through a vertical wellbore from a zone of an elevated area.

When the bottom of the vertical wellbore is located in the zone of the lowered section, a horizontal wellbore is drilled into the zone of the highered area, water is pumped through the vertical wellbore or the beginning of the horizontal wellbore into the lowered area, and formation fluid is taken through the end of the horizontal wellbore from the highland area, or through the second horizontal trunk, or through an inclined horizontal trunk. Signs of the invention are: 1) the alternation of reservoir fluid selection to reduce reservoir pressure to the level of oil saturation gas pressure or drop in oil flow rate to the most cost-effective and water injection with increasing reservoir pressure, 2) analysis of the lens profile, 3) determination of boundaries and areas with reduced and increased location of the reservoir, 4) drilling through a vertical well into the reservoir in the direction of a lower or higher section of at least one horizontal wellbore, 5) injection of water into the lower section PS, 6) the selection of reservoir fluid from the elevated portion of the lens, 7) when the bottom of the vertical wellbore is located in the area of the elevated portion, drilling a horizontal wellbore into the zone of the lower portion, pumping water through the end of the horizontal wellbore into the zone of the lower portion, and the selection of reservoir fluid through the beginning horizontal wellbore, or through a second horizontal wellbore, or through an inclined horizontal wellbore or through a vertical wellbore from a zone of an elevated section, 8) when the bottom is positioned vertically about the wellbore in the zone of the lowered section, drilling a horizontal wellbore into the zone of the high section, pumping water through the vertical wellbore or the beginning of the horizontal wellbore into the zone of the lowered section, and selecting reservoir fluid through the end of the horizontal wellbore, or through the second horizontal well, or through horizontal trunk from an elevated area.

Sign 1 is common with the prototype, signs 2-6 are the salient features of the invention, signs 7, 8 are particular features of the invention.

SUMMARY OF THE INVENTION

Isolated lithologically shielded oil-saturated lenses are devoid of natural backwater of formation water or hydrodynamic connection with neighboring sections of the reservoir. Due to the small size of the lens, more than one well cannot be drilled. Therefore, when developing such lenses, traditional methods for developing oil deposits associated with water flooding, oil displacement, etc. are not used. The use of only one well imposes even greater restrictions. Natural selection of oil or cyclic selection through one well, even with intensification of selection by increasing and decreasing pressure or hydraulic fracturing, does not significantly increase the oil recovery of the lens.

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

The problem is solved by the following set of operations.

When developing a lithologically shielded oil-saturated lens opened by one vertical well, the productive layer of the lens is opened and the oil is taken in natural mode to the maximum production rate. A variant is possible when a decrease in oil production rate to an extremely profitable one occurs earlier than the reservoir pressure decreases to the pressure of oil saturation with gas. Using the map of the structural surface of the benchmark and the formation, the boundaries of the lens are determined according to the NVSP, the profile of the lens and areas with a reduced and increased location of the productive layer of the lens are analyzed, the location of the bottom hole is determined. At least one horizontal well is drilled through a vertical well in a producing formation in the direction of a lowered or elevated section. Alternate the selection of reservoir fluid to reduce reservoir pressure to a pressure level of oil saturation with gas or a drop in oil production to an extremely cost-effective and water injection with increasing reservoir pressure. Water is injected into the lower portion of the lens, and the formation fluid is taken from the elevated portion of the lens. When the bottom of the vertical wellbore is located in the zone of the elevated section, a horizontal well is drilled into the zone of the lowered section, water is pumped alternately through the end of the horizontal wellbore into the zone of the lowered section and the formation fluid is taken through the beginning of the horizontal well, through the vertical wellbore or through an additional wellbore from the zone of increased plot. When the bottom of the vertical wellbore is located in the zone of the lowered section, a horizontal well is drilled into the zone of the high section, water is pumped alternately through the vertical well, the beginning of the horizontal well or through an additional wellbore into the lowered zone and the formation is taken through the end of the horizontal wellbore from the high zone .

For the alternation of injection and selection, the injection zone is separated from the selection zone, the horizontal wellbore is perforated in the injection zone, or perforation of the vertical wellbore is used. To select formation fluid, the injection zone is separated from the selection zone and the horizontal wellbore is perforated in the selection zone, or perforation of a vertical wellbore or additional wellbore is used for selection. Disconnection is carried out by packers, by plugging the perforation zone of a horizontal or vertical wellbore, etc.

The method is as follows

When developing a lithologically shielded oil-saturated lens, one well is drilled, which, as a rule, is offset from the center of the lens. Oil is taken in the natural mode until the reservoir pressure drops not lower than the gas saturation pressure of the oil or to an extremely profitable one. The boundaries of the lens are determined from the structural surfaces of the benchmark and the formation, the profile of the lens and areas with a lower and increased location of the productive formation of the lens are analyzed, and the location of the bottom hole is determined. A horizontal well is drilled through a vertical well into the reservoir. When the bottom of the vertical wellbore is located in the zone of the elevated section, a horizontal well is drilled into the zone of the lowered section. When the bottom of the vertical wellbore is located in the zone of the lowered section, a horizontal well is drilled into the zone of the highered section. When the bottom of the vertical wellbore is located in the middle part of the lens, it is possible to drill two or more horizontal shafts, one into the zone of the lowered section, the other into the zone of the highered section. With the approximate equality of the depths of the lens sections, a horizontal barrel is drilled to the boundary of the lens, preferably at maximum distance to increase the coverage of the lens by exposure.

To pump water into the lens, the injection site and the extraction site in the well are separated. Depending on the structure of the lens and the location of the drilled horizontal trunks, the place of separation may vary.

When the bottom of the vertical wellbore is located in the zone of the elevated section and the horizontal wellbore is located in the zone of the lowered section, the end of the horizontal well is perforated in the zone of the lowered section and the perforation zone is separated from the rest of the well volume, for example, by setting the packer above the perforation zone in the horizontal wellbore and / or by plugging the perforation interval of the vertical wellbore with the setting of the plugging (cement) bridge. Water is injected through the end of the horizontal trunk into the lowered area. In this case, no oil is produced. After the reservoir pressure in the lens is restored above the initial one, the end of the horizontal wellbore and the vertical wellbore are disconnected, for example, by setting up a soluble plugging bridge in the perforation zone (shut-off valve) of the horizontal wellbore. To select formation fluid, the message of the well and the formation in the bottomhole zone of the vertical wellbore is restored, for example, by drilling a plugging (cement) bridge and perforating the drilled interval. The reservoir fluid is sampled through the perforated interval of the bottomhole of the vertical wellbore until the reservoir pressure decreases to the level of oil saturation pressure with gas or the oil production rate drops to an extremely profitable one. Next, the operations are repeated.

When the bottom of the vertical wellbore is located in the zone of the lowered section, a horizontal well is drilled into the zone of the highered section. Water is pumped through a vertical trunk into the lowered area. When placing the beginning of the horizontal wellbore in the zone of the lowered section, it is possible to perforate the beginning of the horizontal well and pump water through the perforated interval. In this case, the perforation interval of the vertical barrel can be plugged or connected to the injection of water. When the reservoir pressure in the lens is higher than the initial one, the beginning of the horizontal well is plugged and again drilled until the horizontal volume of the well is communicated with the main volume of the well and the bottom of the vertical well is plugged. Perforate the end of the horizontal trunk in the area of the elevated section. Selected reservoir fluid along a horizontal wellbore until the reservoir pressure decreases to the level of oil saturation pressure with gas or the oil production rate drops to an extremely profitable one. Then the perforation zone of the horizontal well is separated from the remaining volume of the well, for example, by plugging the perforation interval and the communication of the well and the formation in the area of the reduced section is restored, for example, by drilling a plugging (cement) bridge and perforating the drilled interval. Next, the operations are repeated.

When drilling two horizontal shafts, as a rule, in different, close to diametrically opposite directions, the end of one horizontal well is used to pump water, the other end of the other horizontal well is used to select formation fluid.

Concrete example

Example 1. A lithologically shielded oil-saturated lens with the following characteristics is developed: depth 1150 m, initial reservoir pressure 10.5 MPa, saturation pressure 6.0 MPa, reservoir temperature 22 ° C, reservoir thickness 3 m, lens area 70.6 thousand m ² , porosity 23%, permeability 232 μm ² , oil viscosity 27 cP, oil density 0.921 kg / m ³ , gas factor 11 m ³ / t.

The deposit is drilled by one vertical producing well with a face in the center of the lens. Selected reservoir fluid to reduce reservoir pressure to the level of pressure of oil saturation with gas, while the flow rate of the well decreases from the initial 8 t / s to the current 1.5 t / s. Geophysical surveys are carried out in the well and in the deposits. Analyze the profile of the lens, determine the boundaries and areas with a reduced and increased location of the deposits. At the bottom of a vertical well, grouting is carried out with the formation of a cement bridge 100 m high. One horizontal well is drilled through a vertical well in the direction of the lowered section towards the boundary of the lens. The production casing is lowered and cemented with a window closure in the previous production casing. The end of the horizontal barrel is perforated in the zone of the lowered lens area and water is pumped through the formed perforation interval until the reservoir pressure reaches 13.5 MPa in the reservoir, i.e. more than the initial. Grouting is carried out with the formation of a cement bridge with a height of 20 m in the perforation interval at the end of the horizontal wellbore. The beginning of the horizontal wellbore is perforated in the zone of the elevated lens section and the formation fluid is taken in natural mode until the reservoir pressure drops to 7.0 MPa and the flow rate decreases to the base.

Then, the beginning of the horizontal wellbore is plugged and drilled in the zone of the elevated lens section, the cement bridge is drilled and the end of the horizontal wellbore is perforated. Water is pumped through the formed perforation interval in the zone of the lowered area of the lens. Next, the operations are repeated until the estimated oil recovery of the lens is achieved. As a result, it is possible to select 7 thousand tons of oil from the lens and achieve oil recovery of 0.44 instead of 0.25 for the prototype.

Example 2. Perform as example 1. The bottomhole of the vertical wellbore is located in the area of the lowered area. A horizontal trunk is drilled into the elevated area zone. Periodic injection of water through a vertical wellbore into the zone of the lowered section and periodic selection of formation fluid through the end of the horizontal wellbore from the zone of the highered section are carried out.

As a result, it is possible to select 7 thousand tons of oil from the lens and achieve oil recovery of 0.44 instead of 0.25 for the prototype.

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

Claims (3)

1. A method for developing a lithologically shielded oil-saturated lens with one well, including alternating the selection of reservoir fluid to reduce reservoir pressure to a level of oil saturation with gas or a drop in oil production to an extremely cost-effective and water injection with an increase in reservoir pressure, characterized in that they analyze the lens profile, determine boundaries and areas with a reduced and increased location of the reservoir, through a vertical well into the reservoir in the direction of a lower or higher section at least one horizontal barrel is drilled, water is pumped periodically into a lowered area of the lens, and formation fluid is taken periodically from an elevated area of the lens. 2. The method according to claim 1, characterized in that when the bottom of the vertical wellbore is located in the zone of the elevated section, a horizontal well is drilled into the zone of the lowered section, water is pumped periodically through the end of the horizontal wellbore into the zone of the lowered section, and formation fluid is collected periodically through the beginning of a horizontal wellbore or through a vertical wellbore from an elevated area. 3. The method according to claim 1, characterized in that when the bottom of the vertical wellbore is located in the zone of the lowered section, a horizontal well is drilled into the zone of the high area, water is pumped periodically through the vertical wellbore or the beginning of the horizontal wellbore into the lowered area, and the formation is selected fluids are periodically led through the end of the horizontal wellbore from the zone of the elevated section.