RU2775504C1 - Method for limiting water inflows in petroleum and gas boreholes - Google Patents

Abstract

FIELD: petroleum industry.

SUBSTANCE: invention relates to the petroleum industry and can be used to limit water inflows in petroleum and gas boreholes. In order to implement the method for limiting water inflows in petroleum and gas boreholes, the estimated volume of buffer fluid and the estimated amount of water shutoff compound are pumped, and the water shutoff compound is pushed into the reservoir using hydrocarbon raw materials with exit to the water saturated horizon. The liquids are held for a time needed to set and gain strength. Prior to pumping the buffer liquid and the water shutoff compound followed by pressing using hydrocarbon raw materials, an electromagnet is lowered into the borehole to the interval of the water saturated horizon, and the calculated amount of magnetically controlled liquid is pumped. When a magnetic field is established by the electromagnet, the leak is controllably filled with the water shutoff compound within the magnetised magnetically controlled liquid surrounding the site. The calculated value of the boost force provided by the supply of hydrocarbon raw materials and the calculated value of the electromagnetic force inhibiting the propagation of the water shutoff compound using the magnetic liquid are selected so that an equilibrium is ensured.

EFFECT: increase in the controllability of the process of repair and insulation work for the purpose of preventing the entry of a water shutoff grouting compound to a significant depth into the productive reservoir.

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Description

The invention relates to the oil industry and can be used to limit water inflows in oil and gas wells.

There is a problem of reducing the productivity of the well due to insufficient controllability of the process of repair and isolation works, during which clogging of the productive formation occurs due to uncontrolled penetration of the water-insulating cement composition to a considerable depth.

A known method of eliminating water inflow into the well [RU 2536904, IPC E21V 33/00, 10/28/2013], including cutting the interval of the production string, forming a cavity and filling the cavity using a system of water-swellable packers. This system consists of at least 4 water-swellable elements, at least 2 of which are located opposite the cut interval with the ability to fill the cavity during swelling.

This method is quite technically complex and does not allow to isolate with sufficient accuracy all possible ways of water penetration into the formation and well.

The prototype of the invention is a method for restoring a flooded gas or gas condensate well after hydraulic fracturing [RU 2740986, IPC E21V 33/138, 12/23/2019], including pumping the estimated volume of a buffer fluid, pumping the calculated amount of water insulating composition, squeezing the water insulating composition into the formation using hydrocarbon raw materials, exposure for the period of curing and curing. At the same time, acetone is used as a buffer liquid, and natural hydrocarbon gas is used as a hydrocarbon feedstock for pushing the water-insulating composition. Injection and squeezing of the water insulating composition is carried out in two stages, at the first stage, AKOR-BN 102 cementing material mixed with an aqueous solution of calcium chloride, reinforced with basalt fiber, is used as a water insulating composition. The mixture is pumped into the water-saturated horizon by 0.5-0.75 m. At the second stage, AKOR-BN 102 in commercial form is used as a water-insulating composition and pumped until the space of the hydraulic fracture is completely filled. During operation, after the restoration of the well, a constant withdrawal of the residual inflow of formation water to the bottom of the well is carried out by gas lift.

The disadvantages of the invention are due to the fact that during the implementation of the method there is an increased consumption of the insulating composition, as well as its uncontrolled penetration outside the repair area, which can contribute to the clogging of the productive formation and reduce its productivity.

The objective of the invention is to improve the controllability of the process of repair and insulation works to prevent the penetration of water-insulating grouting composition to a considerable depth inside the productive formation and maintain the productivity of the well.

The problem is solved by the fact that in a method for limiting water inflows in oil and gas wells, including injection of a calculated volume of a buffer liquid, injection of a calculated amount of a water-insulating composition, squeezing a water-insulating composition into a reservoir using hydrocarbon raw materials with access to a water-saturated horizon, holding for a period of curing and curing, according to of the invention, before pumping the buffer fluid and the water-insulating composition with their subsequent displacement using hydrocarbon raw materials, an electromagnet is lowered into the well to the interval of the water-saturated horizon and the estimated amount of the magnetically controlled fluid is pumped in; magnetically controlled fluid, while the calculated value of the backwater force provided by the supply of hydrocarbon raw materials and the calculated value of the electromagnetic force, holding the distribution of the waterproofing composition with the help of a magnetic fluid should be selected in such a way that a balance is ensured between them.

For dosed supply of magnetically controlled, buffer and water-insulating liquids to the leak interval, for example, an installation with a flexible continuous tubing, at the end of which an annular electromagnet is fixed from the outside, is used.

The technical result of the invention is to increase the controllability of the process of repair and insulation works to prevent the penetration of a water-insulating cement composition to a considerable depth inside the productive formation and maintain well productivity by creating a retaining screen from a magnetically controlled fluid in a magnetic field generated by an electromagnet.

The technical result is achieved due to the fact that before pumping the buffer fluid and the water-insulating composition with their subsequent squeezing using hydrocarbon raw materials into the well to the interval of the water-saturated horizon, an electromagnet is lowered and the estimated amount of the magnetically controlled fluid is pumped, when the magnetic field is induced by the electromagnet, a controlled filling of the leak with a water-insulating composition is provided within the magnetized magnetically controlled fluid surrounding this place, while the calculated value of the backwater force provided by the supply of hydrocarbon raw materials and the calculated value of the electromagnetic force holding the spread of the water-insulating composition with the help of the magnetic fluid should be selected in such a way that balance is ensured between them. As a result, this increases the controllability of the process of repair and insulation works of the claimed method.

The method is implemented as follows. Perform preparatory operations. The well is stopped and tied with the necessary technological equipment. The discharge lines are pressure tested to one and a half times the planned pressure. If necessary, dismantle the Christmas tree and tubing. The leak interval is determined by a known method. A water-insulating composition is prepared in the amount necessary to isolate the water inflow, depending on the thickness of the reservoir and the radius of processing (RD 153-39-023-97). The reaction time is calculated taking into account the volume ratio of the starting components and the type of water insulating reagent used (RD 153-39-023-97). An annular electromagnet is lowered into the well to the interval of the water-saturated horizon, fixed, for example, at the end of a flexible continuous tubing. The prepared calculated volume of the magnetically controlled fluid is pumped through the tubing into the well, after which the estimated volume of the buffer fluid and water-insulating composition is pumped [Zakinyan, A.R. Dynamics of capillary rise of a magnetic fluid in a porous medium / A.R. Zakinyan, L.S. Mkrtchyan, A.A. Lukinov, L.M. Kulgina // Science. Innovation. Technology. - 2015. - No. 4. - S. 7-22.]. Then the liquids are forced into the reservoir up to the interval of the water-saturated horizon with the estimated amount of the squeezing agent in the form of hydrocarbon feedstock. During the execution of technological operations, the current values of pressure, flow and electromagnetic characteristics of the electromagnet are constantly monitored. When a magnetic field is induced by an electromagnet, a controlled filling of the leakage area with a water-insulating composition is provided within the magnetized magnetically controlled fluid surrounding this place. The well is closed and left for the response time of the composition under pressure equal to the final displacement pressure. The calculated value of the backwater force provided by the supply of hydrocarbon raw materials and the calculated value of the electromagnetic force that holds the spread of the water-insulating composition with the help of a magnetic fluid is selected in such a way that a balance is provided between them [Zakinyan, A.R. Dynamics of capillary rise of a magnetic fluid in a porous medium / A.R. Zakinyan, L.S. Mkrtchyan, A.A. Lukinov, L.M. Kulgina // Science. Innovation. Technology. - 2015. - No. 4. - S. 7-22.]. At the final stage, the waterproofing composition is cured, with the formation of a sealed waterproof layer.

After the hardening of the waterproofing composition is completed, the flexible pipe with the electromagnet is removed to the surface. To determine the effectiveness of the repair and insulation work carried out, geophysical surveys are carried out. If necessary, install Christmas trees. Then the development of the well is carried out, which is carried out by the method adopted at the field. The decision on the need to reperforate the well is made based on the results of geophysical and other types of research. To connect to the work of oil interlayers that were not working before the repair and insulation works, acid baths and acid treatments are used according to standard technologies for this field. The volume of acid should not exceed the volume of water-proofing material in order to prevent formation destruction. The injection pressure during acid treatments should not exceed the injection pressure of the backfill material at the end of the squeezing.

It is possible to use the technology to eliminate the inflow of bottom water, eliminate leaks in the production string, eliminate behind-the-casing flows, shut off layers when moving to underlying horizons, intensify oil production in wells with watered products, level the injectivity profile and other types of repair and insulation works.

The essence of the invention is illustrated by the following example.

To implement the proposed method, an oil well is shut down. The Christmas tree and tubing are dismantled. At the wellhead, piping is carried out with process equipment that ensures the circulation of working agents and the supply of a flexible tubing. The discharge lines are pressure tested at a pressure of 30 MPa. Geophysical surveys are carried out to determine the leak interval. A flexible continuous tubing with a diameter of 44 mm is lowered into the leakage interval, at the end of which an annular electromagnet is fixed from the outside and through which a magnetically controlled fluid is sequentially supplied (example of a magnetically controlled fluid: includes a solid phase in the form of ferromagnetic particles with a size of less than 30 μm with a polymer coating in an amount of about 25%, carrier liquid in the form of epoxy resin up to 65% and stabilizer in the form of naphthenic acid up to 10%), buffer liquid - acetone, water-proofing composition - mineral gel-forming composition and natural hydrocarbon gas with a flow rate of 0.02 m ³ / s under pressure of 20 MPa. When the waterproofing composition reaches the place of leakage, an electromagnet induces a magnetic field with a strength of about 3300 A/m. The water-insulating reagent is held for 24 hours at a pressure of 20 MPa. After the holding time has elapsed, the flexible pipe with an electromagnet is removed to the surface and geophysical studies of the isolation site are carried out to determine the quality of work, as well as the need for reperforation. They are installing Christmas trees and well development.

Claims (1)

A method for limiting water inflow in oil and gas wells, including injection of a calculated volume of a buffer liquid, injection of a calculated amount of a water-insulating composition, squeezing a water-insulating composition into a reservoir using hydrocarbon raw materials with an exit to a water-saturated horizon, holding for a period of curing and strength development, characterized in that before injection of a buffer liquid and water-insulating composition with their subsequent pushing using hydrocarbon raw materials into the well to the interval of the water-saturated horizon, an electromagnet is lowered and the estimated amount of magnetically controlled fluid is pumped, when the magnetic field is guided by the electromagnet, a controlled filling of the leak site with a water-insulating composition is ensured within the magnetized magnetically controlled fluid surrounding this place, while the calculated value of the backwater force provided by the supply of hydrocarbon raw materials, and the calculated value of the electromagnetic force holding back the spread of water insulating composition with the help of a magnetic fluid, should be selected in such a way that a balance is ensured between them.