RU2128285C1 - Unit for hydropulse stimulation of productive strata - Google Patents

Abstract

FIELD: oil producing industry. SUBSTANCE: unit includes casing string mounted in well. Assembly of unit includes polyethylene tube located in zone of productive stratum. Cavity of polyethylene tube forms pulse chamber. Electrode discharge (hydropulse device) is lowered into pulse chamber by cable. Since walls of pulse chamber are made from more plastic material (polyethylene tube) as compared with material of casing string, waste consumption of energy is reduced. EFFECT: increased oil recovery factor. 2 cl, 1 dwg

Description

 The invention relates to the field of oil production and can be used mainly at a late stage in the development of oil fields to increase the final oil recovery of productive formations by impulse exposure to them.

 A device is known for influencing a reservoir by creating elastic vibrations in a reservoir (1). An anvil is installed in the well at the level of the reservoir, over which the falling load is placed. To lift cargo at the wellhead, a winch with a device for capturing cargo was mounted. The impact of the load on the anvil provides the occurrence of elastic vibrations in the reservoir.

 The disadvantage of this device is that the blow is applied along the production string, which leads to disruption of the contact of the column with cement stone. In addition, a significant portion of the impact energy is extinguished by casing pipes. The device is material-intensive, and its use is associated with a large volume of tripping operations in the well.

 Closest to the claimed technical solution is the installation for processing the bottom-hole zone of the well with pressure pulses, containing a casing installed in the well and a hydraulic pulse device lowered into the casing string of the tubing, which is an expanding pipe with a locking element and a short plunger (2). When the plunger is pulled into the nozzle, a column of fluid from the cavity above the nozzle strikes the shut-off element, opens it and creates an impulse of increased pressure in the formation.

 The main disadvantage of the installation is that a significant part of the energy of the hydraulic shock is extinguished by steel casing.

 The technical task is to reduce energy losses on the casing pipes of the well when transmitting a pressure pulse from the well to the formation.

 The problem is solved in that in the installation for hydroimpulse impact on productive formations containing a casing pipe and a hydroimpulse device installed in the well, in the casing in the zone of the productive formation there is a pulse chamber made of plastic material, for example, of polyethylene pipes included in casing arrangement.

 To simplify installation and operation of the installation, it is advisable to use a borehole electrode spark gap of any known design as a hydro-pulse device, similar to those used to increase the permeability of the bottomhole zone or to improve the quality of cementing of casing strings.

 The drawing shows the installation diagram for hydroimpulse effects on productive formations.

 The installation for hydro-pulse treatment comprises a casing 1 installed in the well, the lower part of which is located in the reservoir 2 and is made of polyethylene pipes 3. The cavity of the polyethylene pipe 3 forms a pulse chamber 4 in which an electrode spark gap 5 is lowered into the well on cable 6 connected to a surface power source with a control unit (not shown in the drawing).

 When the device 5 is discharged, electric pressure breakdowns produce powerful pressure pulses that are applied to the wall 3 of the pulse chamber 4. The powerful elastic vibrations arising in the pulse chamber are transformed into a pulse wave field in the reservoir 2.

 The polyethylene housing 3 of the pulse chamber has significantly lower rigidity than the steel pipes of the casing 1. Therefore, a significantly smaller portion of the energy is extinguished on the walls 3 and spent on vibration of the entire casing.

 The use of an electrode spark gap significantly reduces the volume of tripping operations during installation of the entire installation and localizes the zone of generation of powerful shock waves.

 Application of the installation provides the possibility of a long and effective impact of elastic vibrations on the formation, which contributes to the involvement of stagnant zones and pillars of oil in the development.

 Installation for hydroimpulse exposure can be combined with both production and injection wells, or made in the form of a special non-perforated well.

Sources of information
1. Copyright certificate of the USSR N 1710709, cl. E 21 B 43/25, 1989.

 2. Copyright certificate of the USSR N 1719623, cl. E 21 B 43/25, 1989.

Claims (2)

 1. Installation for hydroimpulse impact on productive formations, containing a casing string installed in the well and a hydroimpulse device, characterized in that a pulse chamber is installed in the casing in the zone of the productive formation, made of plastic material, for example, polyethylene pipes included in the casing arrangement the columns.  2. Installation according to claim 1, characterized in that an electrode gap is installed in the pulse chamber as a hydro-pulse device.