RU65119U1 - OIL PRODUCTION DEVICE - Google Patents

Abstract

The utility model can be used to prevent emulsification of oil in wells. The device is a packer, which is equipped with a locking support, consisting of a saddle, springy petals, a glass with passage windows, in the cavity of which there is a valve with a guide rod.

1 p. Fs, 2 ill.

Description

The utility model relates to the oil industry and is intended to prevent emulsification of oil in wells.

It is known that the oil-water mixture entering the pump is intensively mixed resulting in the formation of persistent, highly viscous emulsions. The rise of such emulsions to the surface, their transport and destruction at the oil preparation points are associated with high energy costs and costs of chemical demulsifiers.

A technical solution is known (see Abdulin F.S. Improving the productivity of wells. M .: Nedra, 1975, S.178-181), to create depressions on a productive formation containing a housing with side openings and a profiled movable rod.

The disadvantage is the necessity of killing the well and removing underground equipment when installing the device on the bottom of the well for processing the bottom-hole zone.

A technical solution is also known (see ed. Certificate. According to the application No. 2504912/03, class ЕВВ 43/26, 1977) for influencing the bottom-hole formation zone, which includes a housing with radial holes and a piston with an axial channel placed in it, in which check valve installed.

The disadvantage is low reliability.

The closest technical solution to the proposed utility model is (see ed. Certificate No. 832074, class E21B 43/25, BI No. 19, 1981), including a piston with an axial channel and a check valve, a seal, collet springs and a spring split ring .

The disadvantage is the same.

The purpose of the utility model is to increase the reliability of the device.

This goal is achieved by the fact that the packer is equipped with a locking support, consisting of a saddle, springy petals, a glass with passage windows, in the cavity of which there is a valve with a guide rod.

Figure 1 shows the period of accumulation of reservoir energy in the under-packer space and its stratification into oil and water.

Figure 2 shows the period of arrival of the stratified components of the formation from the sub-packer to the over-packer space of the well.

The device operates as follows.

Initially, the tubing string 2 with pump 3 is lowered into the well 1. After the pump 3 is lowered into the well and turned on, the liquid is pumped out of the annulus at the initial time (see FIG. 1). At this time, the pressure drop on both sides of the valve 8 is practically absent and the petals 6 with their protrusions hold it in its lowest position, in which there is no fluid flow from the sub-packer zone of the well to the over-packer zone. At the same time, stratification of the formation fluid into oil and water occurs in the sub-packer zone. As you pump out

the liquid from the annulus begins to increase the pressure drop on both sides of the valve 8. This differential further increases due to the accumulation of fluid pressure in the sub-packer zone due to the elastic properties of the reservoir.

At the moment when the pressure drop reaches a critical value, the valve 8 will tear itself away from the seat, unbending the springy petals 6 and take up the upper position under the influence of the dynamic pressure of the incoming fluid. At the beginning, oil will enter the nadpaker zone, and then water. The liquid flow rate in the initial period will exceed the capacity of the pump 3 and therefore the annulus will be filled with liquid. Constantly the flow of fluid into the nadpaker zone will decrease and upon reaching a certain level in the annulus stabilizes. The dynamic pressure of the liquid on the valve 8 will decrease and under its own weight the valve will fall down, bending the petals 6 and will be fixed in the lowermost position by blocking the seat 5. During the downward movement, the force of unclenching of the petals 6 is much lower due to the corresponding bevel angles of the protrusions.

After that, the pump only pumps oil out of the annulus. At the beginning, water and then oil will be pumped out. During the pumping period, the liquid in the annulus is further stratified into oil and water. Sequential pumping of water and then oil by the pump prevents their joint movement in the working bodies of the pumps and the formation of stable emulsions.

The technical advantage of the proposed method lies in the high operational reliability achieved by the exclusion of periodic pump starts.

The well-known beneficial advantages of the proposed method is to reduce labor costs and funds for the destruction of the emulsion and additional repairs of borehole pumps

Claims (1)

A device for oil production containing tubing, pump and packer, characterized in that the packer is equipped with a locking support, consisting of a saddle, springy petals, a glass with passage windows, in the cavity of which a valve with a guide rod is placed.