RU79616U1 - INSTALLATION FOR SIMULTANEOUS-SEPARATE WATER INJECTION IN TWO LAYERS - Google Patents

Abstract

The proposal relates to the oil industry, in particular, to methods and devices for maintaining reservoir pressure of oil fields.

Installation for simultaneous and separate injection of water into two layers through one well, including two-channel wellhead fittings, a packer installed between the upper and lower layers, the main column of elevator pipes in communication with the lower layer, and an additional one. An additional column of elevator pipes is placed in the well parallel to the main one and is connected to it by a two-channel anchor, and the wellhead reinforcement is double-barreled.

Thus, the proposed utility model allows simple structures to protect the production casing from corrosion during simultaneous and separate injection into two layers, as well as reduce the metal consumption of the installation.

In addition, two parallel columns have a lower mass than concentric ones.

Description

The utility model relates to the oil industry, in particular, to methods and devices for maintaining reservoir pressure of oil fields.

A known installation for simultaneous and separate injection of water into two layers (see R.A. Maksutov et al. Simultaneous separate operation of multilayer oil fields. M, Nedra, 1974, p. 168), containing one lift column and a packer separating layers. Water is pumped into the upper layer through the annulus, which is its main drawback, because this leads to intense corrosion of the production string and is prohibited by the rules of Rostekhnadzor.

The closest to the proposed installation, containing a packer separating the layers, two concentric columns of elevator pipes and two-channel wellhead fittings (see R.A. Maksutov et al. Simultaneous separate operation of multilayer oil fields. M, Nedra, 1974, p. 170 ) Its main drawback is the complexity of the equipment, the lack of the ability to lower instruments for reservoir analysis, the lack of protection of the production string at high injection pressures into the upper formation.

The technical problem solved by the proposed installation is to simplify the design, provide the possibility of studying the reservoirs, reduce the metal consumption of the installation.

This problem is solved by installing for simultaneous-separate injection of water into two layers through one well, including two-channel wellhead fittings, a packer installed between the upper and lower layers, the main column of elevator pipes in communication with the lower layer, and an additional one.

New is that an additional column of elevator pipes is placed in the well parallel to the main one and is connected to it by a two-channel anchor, and the wellhead reinforcement is double-barrel.

The essence of the invention lies in the fact that the use of two parallel elevator columns allows you to deliver pumped water directly to the reservoir, without subjecting it to the corrosive effect of the wall of the production string, and the presence

in them free channels allows you to lower the geophysical instruments to the reservoir for their research. In order to lower and seal two parallel lift columns at the mouth, two-channel wellhead fittings are made with two parallel shafts.

The drawing shows the installation diagram with parallel elevator columns without a packer.

The installation comprises a production casing 1 with double-wellhead reinforcement 2, into which the main packer 4 is lowered on the main lift casing 3, separating the upper 5 and lower 6 layers. An additional column of elevator pipes 7 is lowered into the well parallel to the main 3 and connected to it via a two-channel anchor 8, which is connected to the main elevator column 3 by a thread, and with an additional 7 - for example, “J” connection or thread.

The installation works as follows.

The main lift string 3 with a packer 4 and a two-channel anchor 8 is lowered into the production casing of the well and the packer 4 is planted between the upper 5 and lower 6 layers. Then, through the double-barrel wellhead 2, an additional lift column 7 is lowered and connected to the two-channel anchor 8 by means of a “J” connection or thread.

After that, the installation of wellhead fittings 2 and supply lines is completed and water is pumped into reservoirs 5 and 6 through its column of elevator pipes 3 and 7 with optimal pressures for them. In this case, the injection pressure into the upper layer 5 should not exceed the allowable for production casing 1.

Then, the installation of wellhead fittings 2 and supply lines is completed and water is pumped into each formation through its own column of elevator pipes 3 and 7 with optimal pressure. The supply line can be one, and the necessary pressure is ensured by water plating at the wellhead.

Thus, the present invention allows simple structures to protect the production casing from corrosive effects while simultaneously injecting water into two layers.

In addition, due to the fact that two parallel columns have a lower mass than concentric, the metal consumption of the installation decreases.

Claims (1)

Installation for simultaneous and separate injection of water into two layers through one well, including two-channel wellhead fittings, a packer installed between the upper and lower layers, the main column of elevator pipes in communication with the lower layer, and an additional one, characterized in that the additional column of elevator pipes is placed in the well parallel to the main one and connected to it by a two-channel anchor, and wellhead reinforcement is double-barreled.