RU2101464C1 - Well cementation method - Google Patents

Abstract

FIELD: oil and gas production industry. SUBSTANCE: according to method, easily formed packer is installed in well in pipe string below defective spot, then cement slurry is injected into space above packer and below defective spot. Technological delay is undertaken until curing and hardening of cement slurry. Well is filled with cement slurry which is then pressure-forced into casing clearance. Pressure-forcing is performed through defective spot with maintaining required forcing pressure operation. Then technological delay is undertaken. Cemented bridge thus created in string is drilled through. Cement slurry is prepared with using brine water which is recovered as accompanying matter. EFFECT: high efficiency.

Description

 The invention relates to the oil industry and may find application in well repair and isolation of water inflows through casing discontinuities.

A known method of cementing mainly oil and gas wells, including the injection into the well of cement and forcing it into the annulus [1]
The disadvantage of this method is its lack of effectiveness.

Closest to the invention in technical essence is a cementing method, comprising filling a well with a cement mortar and forcing it into the annulus through a defective place in the column while maintaining the forcing pressure [2]
The disadvantage of this method is its lack of effectiveness, as well as the increased consumption of cement in the repair of highly located defective places in the well and the need to fill the entire volume of the well from the bottom to the defective place.

 The proposed invention solves the problem of increasing the efficiency of cementing and reducing the consumption of cement mortar.

 The problem is solved in that in a method of cementing a well, comprising filling a well with a cement mortar and forcing it into the annulus through a defective place in the column while maintaining the burst pressure, according to the invention, an easily formed packer is installed below the defective place in the column before filling it with cement mortar , into the space above which cement mortar is pumped to a depth below the defective place, and technological exposure is carried out until the cement r is set and hardened solution, and after the cement mortar is pushed into the annular space, technological exposure is carried out and the resulting cement bridge is drilled in the column, while cement mortars are prepared using the produced water.

 During well operation, there are places of discontinuity in the casing and violations of the cement stone behind the casing. This leads to annular flow of water and the flow of water into the well. The invention solves the problem of isolating annular flows and isolating the flow of water into the well. The problem is solved by the following set of actions.

In the well, the place of casing discontinuity is determined and the place of isolation of water flow into the well is planned. An easily formed packer is pushed from the mouth into the well to a depth of 10-15 m below the defective site in the form of burlap folded into a bundle, which has worn out overalls, sweatshirts, etc. Then the space above the isolation site at 5-6 m is poured with cement mortar in the water simultaneously extracted with oil with a water-cement ratio of about 0.5. Along the way, the produced water has a variable composition from well to well, from the field, from the development stage, etc. In this case, water with a density of 1.16-1.18 g / cm ^{3 is used} . Carry out technological exposure for setting and hardening of the cement layer. Re-fill the well with cement mortar. The cement mortar is crushed into the well in produced water with a water-cement ratio of about 0.5 in the mode of maintaining the pressure of the crush. In this case, the resulting cement layer does not pass the cement mortar into the lower part of the well. A cement mortar under pressure penetrates through the discontinuity into the annular space of the well and fills the defective places of the cement stone behind the well string, the internal volume of the well. After technological exposure to setting and hardening, the cement layer in the well is drilled, the well is washed and put into operation.

 The use of cement mortar in produced water contributes to a deeper penetration of the cement mortar into the annulus of the well and thus increases the reliability of isolation. The use of an easily formable packer facilitates its delivery to the installation site in the well and reduces the cost and simplifies the work, since when drilling, the packer inevitably and irrevocably collapses. Squeezing a cement mortar into a well on produced water while maintaining the burst pressure promotes a uniform flow of cement mortar regardless of the costs that vary during the sales process. Pressing pressure is recommended to be maintained at 3-4 MPa at the mouth.

Example. In a well with a depth of 1200 m, a casing string discontinuity is determined at a depth of 350 m. An easily formed packer in the form of a twisted old bag is pushed to a depth of 365 m. From a depth of 365 to a depth of 360 m, the well is filled with cement mortar with a water-cement ratio of 0.5 in produced water with a density of 1.17 g / cm ³ . Carry out technological exposure for setting and hardening of cement during the day. While maintaining the pressure at the wellhead at the level of 3-4 MPa, the well is filled and a cement mortar is injected with a water-cement ratio of 0.5 to produced water with a density of 1.17 g / cm ³ . Carry out technological exposure for setting and hardening of cement during the day. The internal volume of the well is drilled. The well is washed and put into operation.

 As practice shows, the method allows you to reliably repair the defective place. Repeated repairs are not required.

 The application of the method will improve the reliability of isolation of water inflow into the well and simplify the production of works.

LITERATURE
1. USSR author's certificate N 1105613, cl. E 21 B 33/13, 1984.

 2. Serenko et al. Secondary cementing of oil and gas wells. Overview information. Series "Drilling", issue 4 (22), M. VNIIOENG, 1982, p. 72.

Claims (1)

 A method of cementing a well, including filling a well with cement mortar and forcing it into the annulus through a defective place in the column in the mode of maintaining pressure, characterized in that in the well, before filling it with cement, an easily formed packer is placed below the defective place in the column, in a space above with which cement mortar is pumped to a depth below the defective place and technological exposure is carried out before setting and hardening of the cement mortar, and after punching cement mortar into the annular space carry out technological exposure and drill the resulting cement bridge in the column, while cement mortars are prepared on incidentally produced water.