RU2012780C1 - Method for metering of chemical agent injected into well - Google Patents

Abstract

FIELD: oil producing industry. SUBSTANCE: metering of chemical agent fed to neighboring wells of well cluster is effected by means of deep well pump. With partially closed delivery gate valve, part of produced fluid is injected through hole in tubing to above-packer zone of hole clearance to force out chemical agent to neighboring wells of well cluster. Excessive gas phase from under-packer zone of hole clearance is bled through check valve in to tubing. EFFECT: efficiency. 1 dwg

Description

 The invention relates to the oil industry, in particular to methods of dispensing the supply of liquid chemicals to oil wells to prevent corrosion of equipment, deposition of paraffin and salts, the formation of emulsions of oil and water.

 A known method of dispensing a reagent into a well, comprising injecting a reagent into a cavity formed by an annular over-packer space between the inner surface of the casing pipes and the outer surface of the tubing, and dosed supply of the reagent through the circulation valve in the tubing [1].

 The disadvantage is the difficulty in controlling the operation of the circulation valve.

 Closest to the proposed invention is a method of dispensing a reagent into a well, which involves injecting a reagent into an over-packer cavity of an annulus and dosing a reagent through a valve into a tubing by forcing it into an under-pack cavity with a non-freezing fluid [2].

 The disadvantage is the impossibility of centralized dosing of the reagent into the well bore; the need for special ground equipment and anti-freezing fluid; the formation of a high-pressure gas cap in the sub-packer zone, which can lead to a cessation of dosing, as well as a breakthrough of associated gas at the pump intake, i.e., disruption of its operation.

 The purpose of the invention is the centralized dosing of the reagent in the cluster wells.

 This is achieved by communicating the sub-packer annulus with the cavity of the tubing in its upper part through an additional insulated vertical channel with a check valve in its upper part and dosing the reagent into the well borehole with a deep pump by injecting part of the produced fluid into the packer annulus through the in the lower part of the tubing, a radial hole and further at the mouth into the over-packer cavities of the wellbores by partially overlapping the flow second latches, and the excess gaseous phase from the annulus below the packer through the check valve is directed in tubing.

 The drawing shows a diagram of a device for implementing the method.

 A packer 2 was lowered into the well 1 on the tubing string 3. The subpacker zone 4 communicates with the tubing cavity 3 with a vertical channel 5 with a check valve 6 that opens when the pressure in the gas cap of the subpacker zone exceeds the pressure in the tubing cavity working well. A small diameter hole 7 is made in the tubing above the packer, and the annulus 8 at the wellhead is communicated with a manifold line 9 equipped with a valve 10, a flow regulator 11, and individual valves 12 of the well 13. A valve 14 is installed at the output of the well.

 The method is as follows. The filling of the over-packer zone 8 of the annular space of the well 1 with reagent is carried out through the open valve 10 of the manifold line 9 with the closed position of the flow regulator 11. Dosing of the reagent into neighboring wells 13 of the cluster equipped with individual valves 12 is carried out by covering the shut-off valve 14. In this case, oil production from the well does not ceases. The increase in pressure in the tubing 3 is transmitted through the opening 7 of the over-packer zone 8, so that the fluid from the zone 8 is displaced into the annular space of neighboring wells in the bush. The presence of a flow controller 11 allows for a strict (rational) dosage of the reagent to receive pumps from neighboring wells. The excess gas phase that accumulates in the sub-packer zone is vented through the check valve 6 into the tubing 3. The gas inlet into the tubing is selected in depth so that the pressure in the packer zone 4 exceeds the pressure in the tubing at the entry point gas. As dosing, the produced fluid completely displaces the reagent from the overpacker zone 8. After that, a new portion of the reagent is pumped into the annulus through the valve 10.

 The use of the invention eliminates the use of special fluids and ground tanks, additional dosing pumps and provides centralized dosing of the reagent in several wells.

Claims (1)

 METHOD FOR REAGENT DOSING INTO A WELL, including injection of reagent from the mouth into the over-pack cavity formed by the annular space between the inner surface of the casing pipes and the outside surface of the tubing, and a dosed supply of the reagent to the pump by displacing from the over-pack annular space, characterized in that for the purpose of centralized dosing of the reagent into cluster wells, a sub-packer annular space is reported with a cavity of tubing in its upper part through d an additional isolated vertical channel with a non-return valve in its upper part and the reagent is dosed into the well wells by a deep pump by injecting a portion of the produced fluid into the over-pack annular space through a radial hole made in the lower part of the tubing and then at the mouth into the over-pack cavity of the well wells by partially the shutter of the flow gate, and the excess gas phase from the sub-packer annulus through the check valve is sent to the tubing pipes.

Images