RU73393U1 - PRODUCTIVITY IMPACT DEVICE - Google Patents

Abstract

The utility model relates to the oil industry and can be used for wave action on the reservoir in order to increase its oil recovery. The objective of the utility model is to increase the effectiveness of the impact on the bottomhole zone of the well and, accordingly, on the reservoir. The device contains a perforated casing string, tubing, acoustic wave generator and process fluid, according to a utility model. New in the device is that it is additionally equipped with a positive feedback sensor installed in the process fluid stream and connected to the acoustic wave generator, while an acoustic pump is used as an acoustic wave generator and is electrically connected to the control station, and any positive feedback sensor is used a sensor that responds to changes in flow parameters, for example, a pressure sensor or a speed sensor.

Description

The utility model relates to the oil industry and can be used for wave action on the reservoir in order to increase its oil recovery.

A well-known analogue of the utility model is a device for influencing the bottom-hole zone of a well by exciting hydroacoustic waves in a liquid by a wave generator (RF patent No. 1595070, 1999).

Closest to the claimed utility model is a device for generating elastic vibrations and hydraulic fracturing in which damped oscillations of a fluid column in a well are periodically generated using a generator (depression chamber) (RF patent No. 2176403, 2001).

The specified device is accepted by us as a prototype.

The disadvantages of the analogue and the prototype are the low impact efficiency associated with insufficient consideration of the properties of the treated object and the need to use special devices and fluids to generate a wave effect on the bottomhole zone of the well.

The objective of the utility model is to increase the effectiveness of the impact on the bottomhole zone of the well and, accordingly, on the reservoir.

The problem is solved in that the device for influencing the reservoir, including perforated casing, tubing, acoustic wave generator and process fluid, according to the utility model, is additionally equipped with a positive feedback sensor installed in the process fluid stream and connected to the acoustic wave generator while at the same time as the generator of acoustic waves use a deep pump electrically connected to the control station, and as Occupancy positive feedback using any sensor responsive to changing flow parameters such as pressure sensor or a speed sensor.

The period of natural oscillations of the well-reservoir system for wells with a depth of 1000 to 4000 m is tens to hundreds of seconds. To create waves in this frequency range, an extraction wave is used as a wave generator.

equipment of the well itself, for example, a submersible electric pump with a pump speed control station.

As a positive feedback sensor, any sensor can be used that responds to changes in flow parameters that change with speed, for example, a pressure sensor or a flow rate sensor.

In FIG. The claimed device is presented.

The device consists of a perforated casing string 1 filled with liquid 2, a positive feedback sensor 3 and a wave generator which use a submersible electric pump 4 and a pump speed control station 5.

The device operates as follows.

In the process of oil production, a working submersible pump 4 creates a flow of fluid 2 from the reservoir to the surface.

The sensor 3 is connected to the control input of the pump 5 speed control station so that in the closed system "pump 5 speed control station - submersible pump 4 - sensor 3" positive feedback is generated and fluctuations in the speed of the submersible pump 4 occur at the natural frequency oscillations of the well-reservoir system.

Fluctuations in the rotational speed of the submersible pump 4 cause fluctuations in the flow rate of the fluid 2 and, accordingly, pressure fluctuations in the well, which penetrate into the reservoir through the perforations of the casing 1, affecting the bottomhole zone and, further, the reservoir.

In order to protect against overloads, the amplitude of fluctuations in the speed of rotation of the submersible pump 4 can be limited by the internal adjustments of the control station for the speed of rotation of the pump 5.

Since fluctuations are constantly created in the process of oil production, their efficiency is increased due to the long exposure time.

The device can also work in a controlled wave mode when an oscillation generator is connected to the control input of the pump speed control station 5, the frequency of which is equal to the natural frequency of the well-reservoir system.

The application of the proposed device will increase the flow rate of wells by increasing the efficiency of the impact on the reservoir.

Claims (3)

1. The device impact on the reservoir, including a perforated casing, tubing, acoustic wave generator and process fluid, characterized in that it is additionally equipped with a positive feedback sensor mounted in the flow of the process fluid and connected to the acoustic wave generator. 2. The device according to claim 1, characterized in that as a generator of acoustic waves using a submersible pump, electrically connected to the control station. 3. The device according to claim 1, characterized in that any sensor responsive to changing flow parameters, for example a pressure sensor or a speed sensor, is used as a positive feedback sensor.