RU2081998C1 - Method for releasing surplus pressure from intertube space in operating immersed electric pumps - Google Patents

Abstract

FIELD: oil industry. SUBSTANCE: method refers to electrically-driven centrifugal, spiral and diaphragm pumps. Increased oil production and prolonged service life of electric motor and electric cable are achieved due to installing jet-type pump on pump-and-compressor tubing above steady-state dynamic level. This pump is pumping out gas from intertube space when produced liquid is passing through it. EFFECT: high efficiency. 1 dwg

Description

 The invention relates to the oil industry and is intended to relieve excess gas pressure from the annular space of the well during operation by electric-centrifugal, electro-screw and electro-diaphragm pumps.

A known method of development and operation of an oil well with subsequent operation of its electric centrifugal pump (ESP) in conjunction with a jet pump. In addition, the development of an oil well is carried out only by an electric centrifugal pump, then a jet pump is discharged into the well and the oil well is operated by an electric centrifugal pump, the jet pump being fixed above the electric centrifugal pump. [one]
The disadvantage of this method is that it does not allow to remove excess gas pressure from the annulus of the well, since the jet pump is installed on the discharge of the centrifugal pump. As a result, during operation with a pressure at the pump inlet below the saturation pressure, part of the free gas slides into the annulus, and the gas accumulated under pressure tends to push the level before the pump is received, especially this phenomenon is observed in wells with a low dynamic level. The flow of free gas to the pump intake disrupts its supply and the ESP installation is turned off. Frequent shutdown of the ESP installation leads to a negative consequence: oil production and the operation time of the installation are reduced, since each time the electric current is significantly increased, this adversely affects the durability of the electric motor and cable.

 In addition, the excess gas pressure in the annulus of the well, firstly, affects the durability of the cable, because, dropping into the junction of the cable ("splices"), the gas reduces insulation, and secondly, it inhibits the additional flow of fluid from the formation into the well.

 The purpose of the invention is the increase in oil production and increase the durability of the electric motor and electric cable.

 This goal is achieved by the fact that in wells equipped with submersible electric pumps on the tubing above the established dynamic level, a jet pump is installed.

 In FIG. 1 shows a layout of a submersible electric pump and a jet pump on a tubing string in a well.

 The method of removing excess gas pressure from the annular space of the well during operation by submersible electric pumps is as follows.

 During underground repairs, a jet pump 3 is installed in wells equipped with submersible electric pumps 1 and tubing 2, so that during operation it is higher than a steady dynamic level 4 and relieves excess gas pressure. To do this, before performing underground repair of the well, the formation pressure is measured, after which, taking into account the productivity coefficient, the density of the produced fluid and the productivity of the submersible electric pump, it is calculated using the calculation of removing excess gas pressure from the annular space of the well at what depth the steady-state dynamic level will be.

 In addition, to prevent paraffin deposition due to oil degassing, the distillate is pumped into the annulus of the well after it is brought to a steady state of operation so that only distillate is pumped during operation.

Thus, the application of the method of relieving excess gas pressure from the annular space of the well during operation by submersible electric pumps will allow:
due to the removal of free gas into the annulus of the well with its extraction by a jet pump into tubing to increase the current oil production;
to reduce the number of shutdowns of submersible electric pumps in wells with a high annular gas pressure and low dynamic level, thereby increasing the current oil production and the durability of the electric motor and electric cable.

Claims (1)

 A method of relieving excess gas pressure from the annular space of a well during the operation of submersible electric pumps, comprising operating an oil well with an electric centrifugal pump in conjunction with a hydraulic jet pump associated with it, which is installed on tubing above an electric centrifugal pump, characterized in that the jet pump is installed higher steady dynamic level.