RU96171U1 - WATER RESET WELL - Google Patents

Abstract

 1. A water discharge well containing a well plugged by a packer, a pipe insert and an inner column are located in the well, the lower end of the internal column is located at or deeper than the lower end of the pipe insert, the water-oil emulsion inlet pipe is connected to the wellhead or pipe insert, the outlet pipe water is connected to the inner column, the oil discharge pipe is connected to the well or pipe insert, if the oil-water emulsion supply pipe is connected to the pipe insert, the gas discharge pipe is suction Inonii to the upper tubular insertion point; if the branch pipe for supplying the oil-water emulsion is connected to the well, then the gas branch pipe is connected to the upper point of the well, characterized in that the outlet of the gas branch pipe is connected to the oil branch pipe. ! 2. The well for water discharge according to claim 1, characterized in that a pump is suspended on the inner column, the intake of which is located inside the well, and the outlet is connected to the inner column. ! 3. The well for water discharge according to claim 2, characterized in that the pump is equipped with a flow control system for the volume of water discharged. ! 4. The well for water discharge according to claim 2, characterized in that a pressure is provided at the outlet of the inner column, which allows pumping the discharged water into a system of high pressure pipelines to maintain reservoir pressure. ! 5. The well for water discharge according to claim 1, characterized in that at the outlet of the pipe for supplying oil-water emulsion is a device for the degassing of oil-water emulsion. ! 6. The well for water discharge according to claim 1, characterized in that the inner column is equipped with a damping unit.

Description

The inventive utility model relates to the field of equipment for the oil industry, and in particular to devices for preliminary discharge of water from well products directly on the bushes (groups) of wells in sealed collection systems.

The closest in technical essence and the achieved result is a water discharge well containing a well plugged by a packer, a pipe insert and an inner column are located in the well, the lower end of the inner column is located at or deeper than the lower end of the pipe insert, the water-oil emulsion supply pipe is connected to the mouth a well or pipe insert, a water drain pipe is connected to the inner column, an oil drain pipe is connected to a well or pipe insert, if the water inlet pipe If the emulsion is connected to the pipe insert, then the gas outlet pipe is connected to the upper point of the pipe insert; if the branch pipe for supplying oil-water emulsion is connected to the well, the pipe for gas withdrawal is connected to the upper point of the well, in which the installation additionally contains a gas pre-sampling unit installed on the pipe for supplying oil-water emulsion, and the gas pre-sampling unit is connected by a gas pipeline to the gas pipe / Patent for utility model RU 91883, MPK B01D 17/038, publ. 03/10/2010 /.

The disadvantage of this device is the lack of manufacturability and the complexity of the application due to the need to build a separate gas exhaust pipeline.

The problem to be solved is to increase manufacturability and simplify the use of the device due to the removal of oil and gas through one branch pipe for oil removal.

The problem is solved in that in the well for discharging water containing the well plugged by the packer, the pipe insert and the inner column are located in the well, the lower end of the inner column is located at or deeper than the lower end of the pipe insert, the pipe for supplying oil-water emulsion is connected to the wellhead or the pipe insert, the water drain pipe is connected to the inner column, the oil pipe is connected to the well or pipe insert, if the pipe for supplying the oil-water emulsion is connected to the pipe tavke, the gas discharge pipe connected to the top point of the insertion tube, if water emulsion supply pipe is connected to the well, the gas discharge pipe connected to the top point of the hole, - the output gas outlet pipe connected to the oil discharge conduit.

A pump may be suspended from the inner string, the intake of which is located inside the well, and the outlet is connected to the inner string.

The pump can be equipped with a flow control system for the volume of discharged water.

At the outlet of the inner column, pressure can be provided to pump the discharged water into a system of high-pressure pipelines to maintain reservoir pressure.

The inner column can be equipped with a damping unit.

At the outlet of the inlet of the oil-water emulsion, a device for degassing the oil-water emulsion can be located.

The connection of the outlet of the gas outlet pipe to the oil outlet pipe allows oil and gas to be diverted through one oil outlet pipe, eliminating the need for a separate gas outlet pipe, which ensures the manufacturability of the device and simplification of its use.

The suspension on the inner column of the pump, the intake of which is located inside the well, and the outlet is connected to the inner column, allows you to pump water from any depth, which, in turn, allows you to create a layer of water necessary for cleaning the thickness, which increases the efficiency of the device.

Equipping the pump with a flow control system for the volume of discharged water allows you to divert the required amount of discharged water from the well, which increases the efficiency of the device.

Providing pressure at the outlet of the inner column, which allows pumping the discharged water into the system of high-pressure pipelines to maintain reservoir pressure, is useful in case of linking to the system of high-pressure pipelines; it also provides increased device efficiency.

Equipping the inner column with a damping unit allows you to reduce the effect of vibrations, in particular, the inner column that occurs when the pump is operating, on the oil-water emulsion and discharged water, which improves the efficiency of the device.

The location at the outlet of the inlet of the oil-water emulsion device for the degassing of oil-water emulsion allows you to separate the gas contained in the oil-water emulsion, which improves the efficiency of the device.

A variant of a well for discharging water with the connection of a pipe for supplying a water-oil emulsion to a pipe insert is shown in Fig. 1.

Figure 2 shows a variant of the well for discharging water with the connection of the pipe for supplying oil-water emulsion to the well.

The device comprises a well 1 plugged by a packer 2. A pipe for supplying oil-water emulsion 3 is connected to a well 1 or a pipe insert 4. An oil pipe 5 is connected to a well 1 or a pipe insert 4. For oil drainage, an inner column 6 with a connected a water outlet pipe 7. A gas outlet pipe 8 from a pipe insert 4 or from a well 1 is connected to an oil outlet pipe 5.

A pump 9 can be suspended on the inner column 6. The inner column 6 can be equipped with a damping unit 10. At the outlet of the inlet of the oil-water emulsion 3, a device for degassing 11 can be located.

The well for discharging water according to the first embodiment — in FIG. 1 — works as follows.

The pipe for supplying oil-water emulsion 3 into the pipe insert 4 enters the oil-water emulsion. It flows down the cavity formed by the inner surface of the pipe insert 4 and the outer surface of the inner column 6. In this case, gas is released, which rises to the upper part of the pipe insert 4, from where it is discharged through the gas outlet pipe 8 to the oil discharge pipe 5. When the oil-water emulsion reaches the lower end of the tube insert 4, the speed of the emulsion decreases due to an increase in the cross-sectional area. The emulsion is divided into oil and water. Oil, as lighter, enters the cavity formed by the outer surface of the pipe insert 4 and the inner surface of the well 1, from where it is discharged by the oil discharge pipe 5. Water, as heavier, flows down the well 1 and is discharged by the water discharge pipe 7 through the inner column 6 Particles of mechanical impurities settle on the packer 2.

The well for discharging water according to the second embodiment - in figure 2 - works as follows.

A water-oil emulsion enters the well 1 through a branch pipe for supplying an oil-water emulsion 3. There is a separation of gas from the oil-water emulsion by the degassing device 11. The emulsion flows down the cavity formed by the inner surface of the well 1 and the outer surface of the pipe insert 4. In this case, gas evolution continues, which rises to the upper part of the well 1, from where the gas outlet 8 is discharged into the oil discharge pipe 5. When the oil-water emulsion reaches the lower end of the pipe insert 4, the speed of the emulsion decreases due to an increase in the cross-sectional area. The emulsion is divided into oil and water. Oil, as lighter, enters the cavity formed by the inner surface of the pipe insert 4 and the outer surface of the inner column 6, from where it is discharged by the oil discharge pipe 5. Water, as heavier, flows down the cavity formed by the inner surface of the borehole 1 and the outer surface of the inner columns 6. Oscillations of the inner column 6 that occur during the flow of water are quenched by the vibration damping unit 10. Water from the well 1 is pumped out by the pump 9 through the inner column 6. Particles of solids settle to the packer 2.

Thus, the problem of improving manufacturability and simplifying the use of the device due to the removal of oil and gas through one branch pipe of the oil.

Claims (6)

1. A water discharge well containing a well plugged by a packer, a pipe insert and an inner column are located in the well, the lower end of the internal column is located at or deeper than the lower end of the pipe insert, the water-oil emulsion inlet pipe is connected to the wellhead or pipe insert, the outlet pipe water is connected to the inner column, the oil discharge pipe is connected to the well or pipe insert, if the oil-water emulsion supply pipe is connected to the pipe insert, the gas discharge pipe is suction Inonii to the upper tubular insertion point; if the branch pipe for supplying the oil-water emulsion is connected to the well, then the gas branch pipe is connected to the upper point of the well, characterized in that the outlet of the gas branch pipe is connected to the oil branch pipe. 2. The well for water discharge according to claim 1, characterized in that a pump is suspended on the inner column, the intake of which is located inside the well, and the outlet is connected to the inner column. 3. The well for water discharge according to claim 2, characterized in that the pump is equipped with a flow control system for the volume of water discharged. 4. The well for water discharge according to claim 2, characterized in that a pressure is provided at the outlet of the inner column, which allows pumping the discharged water into a system of high pressure pipelines to maintain reservoir pressure. 5. The well for water discharge according to claim 1, characterized in that at the outlet of the pipe for supplying oil-water emulsion is a device for the degassing of oil-water emulsion. 6. The well for water discharge according to claim 1, characterized in that the inner column is equipped with a damping unit.