SU1620609A1 - Method of conducting isolation work in well - Google Patents

Abstract

The invention relates to the oil industry and is intended for repair and insulation works in a well. The goal is to increase the efficiency of the method by reducing the time required to inject the process fluid (TJ) while the cement slurry (TR) is in the reservoir and to prevent convective mixing of the TP with the fluid in the well. For this purpose, TJ is pumped into the annular space of pump-compressor tubing (NKT) to a depth below which the volume of TJ is at least one NKT volume. Then on the tubing into the reservoir pumped TR. As a TJ, a fluid with a density equal to the density of the TP is used. The excess of the TP is displaced from the well by reverse circulation prior to placing the TJ in the formation interval. After that, the tubing is raised above the level of the TJ, sealing the wellhead and closing it for the period of waiting for the cement to harden. After the estimated time is over, the tubing is lowered and the TJ is washed out of the filter zone to pure water. / WITH

Description

The invention relates to the field of oil and gas production and is intended for repair and insulation works in a well.

The purpose of the invention is to increase the efficiency of the method by reducing the time required to inject the process fluid while the cement slurry is in the formation and to prevent convective mixing of the grouting fluid with the fluid in the well.

After inspection of the production string, the pump-compressor spring (NKT) pipes are lowered into the interval of the formation to the bottom holes of the filter. In this position, the tubing is pumped into the annular space — into the annular space between the production casing and the tubing in a volume equal to

On the order of 1.5 volumes of the filter zone, the process fluid is brought to a certain depth with open tubing and squeezing fluid so that its fluid volume in the annulus is at least one tubular volume.

For example, visco-elastic composite systems are used as the process fluid. It is possible to use other similar compounds that do not interact with cement mortar and have high viscosity. The parameters of the process fluid in terms of density and viscosity are prepared equal to the density and viscosity of the injected cement slurry.

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ChE

ABOUT

Qs

The presence in the perforation interval of technological liquids of the same density with the cement slurry (cement mortar) crushed into the annular space eliminates convective mass transfer under the action of the density difference.

In parallel, cement mortar with a retarder is prepared, which is thoroughly mixed until a stable density is reached, after which it is pumped into the tubing down to the bottom holes of the filter, with an open annular space in the calculated volume and brought to a depth of about 20 m and above the pipe shoe. Then, the valve is closed on the annular space, the cement slurry is forced into the reservoir until the design pressure is reached (not exceeding the hydraulic fracturing pressure and the pressure of the compression string of the production string).

After that, the excess wellhead pressure in the tubing is smoothly discharged and fluid is pumped into the annular space in a volume equal to two pipe volumes in order to bring the process fluid to the formation interval, i.e. into the filter zone, while washing off excess cement mortar. The pipes are raised above the level of the process fluid by 30–40 m, the wellhead is sealed, and the well is closed while waiting for the cement mortar to harden.

After the estimated time has elapsed, the pipes are lowered and the process fluid is washed out from the filter zone to pure water. They test for injectivity (perforate if necessary) and equip the well for development.

"This method makes it possible to increase the efficiency of insulating works by eliminating convective mixing of the cement slurry with the well in the well. drilling cement stone in the well.

FORUMAWLAH AND ISLANDS

The method of conducting isolation works in the well, including injection of the cement slurry into the reservoir through the pump-compressor column (NCP)

well in the interval of the process fluid layer that does not interact with the cement slurry, displacing excess cement slurry from the well, leaving the well for the waiting period

cement hardening (RFP) followed by washing out of the process fluid, characterized in that, in order to increase the efficiency of the method by reducing the time for pumping the process fluid while the cement slurry is in the reservoir and preventing convective mixing of the cement slurry with the fluid in the well before pumping grouting

the process fluid is injected into the reservoir process fluid into the annular space of the tubing to a depth below which the volume of fluid in the annulus is at least one volume of the tubing, and displacement

excess cement slurry from the well is back circulated prior to placement of the process fluid in the interval of the reservoir, and liquid is used as the process fluid

with a density equal to the density of the cement slurry, and before leaving the well for the period of RAM, the tubing is raised above the level of the process fluid.

Claims (1)

Claim A method of conducting insulating work in a well, including injecting grouting fluid into a formation through a tubing string (tubing), injecting technological fluid that does not interact with grouting fluid into the well interval, displacing excess grouting fluid from the well, leaving the well to wait for solidification cement (OZZ) followed by leaching of the technological fluid from the well, characterized in that. that, in order to increase the efficiency of the method by reducing the time it takes to pump the process fluid while the grout is in the formation and to prevent convective mixing of the grout and the fluid in the well, before pumping the grout 30 the process is pumped into the annulus of tubing to a depth below where the volume of fluid in the annulus is at least one volume of tubing, and the displacement of 35 excess cement slurry from the well circulation until the technological fluid is placed in the reservoir interval, moreover, fluid 40 is used as the technological fluid with a density equal to the density of the cement slurry, and before leaving the well for the period of the RAM, the tubing is raised above the level of the technological fluid.