RU2047730C1 - Well filter cleaning device - Google Patents

Abstract

FIELD: oil and gas industry. SUBSTANCE: well filter cleaning device has a pneumatic chamber and an air-delivery conduit. The pneumatic chamber is enclosed in a flexible jacket, and the air-delivery conduit is located in water-lift pipes of the device. Between the pneumatic chamber and the flexible jacket there is a perforated framework. The upper part of the perforated framework is connected with the water-lift pipes, and the lower part of the perforated framework is a booster suction pipe. EFFECT: higher efficiency; quick removal of sand plugs. 1 dwg

Description

 The invention relates to mining, and in particular to devices for operating boreholes, and specifically for processing well filters and cleaning them from sand plugs.

 A known device for the development and operation of wells, consisting of a compressor, receiver, control valves, air discharge line and air supply pipe [1] The main disadvantages of this device are the significant time spent on the development of newly drilled wells, as well as the need for high-performance equipment.

 The closest in technical essence to the proposed device is a device containing a pneumatic chamber installed in an elastic shell, and an air supply pipe installed in water pipes [2] The disadvantage of this device is the presence of only hydraulic effects on the well, as well as the inability to clean the filters from sand plugs.

 The aim of the invention is to expand the functionality by simultaneously processing and cleaning the well from sand plugs and increasing the processing efficiency due to the combined hydraulic and mechanical effects.

 This is achieved by the fact that in the device for treating a well, consisting of a pneumatic chamber, placed in an elastic shell, a line for supplying compressed air, a pneumatic chamber is located inside the perforated frame, in the lower part equipped with an accelerating suction tube, and in the upper part connected to water-lifting pipes, while elastic shell is fixed on the outer surface of the frame. In order for mechanical action to take place simultaneously with the hydraulic, the shell is equipped with impact metal elements. Placing the pneumatic chamber inside the perforated frame, as well as the presence of an accelerating suction tube and a water pipe connected by a frame, allows the suction and lifting of sand when a gas bubble emerges, i.e., to clear the well of a sand plug. The presence of a perforated frame, inside of which a pneumatic chamber is placed, makes it possible to expand, when exhausting, an elastic shell fixed to the frame, which in turn will cause a hydraulic flow acting on the cleaned part of the filter. If the elastic shell is equipped with impact metal elements, then in addition to the hydraulic one, a mechanical effect on the filter will be carried out. In the process, the elastic shell will periodically expand and contract, which will also positively affect the absorption and raising of sand.

The proposed device has significant differences:
the camera is placed inside the perforated frame;
the frame is equipped in the lower part with an accelerating tube, and in the upper part is connected to water-lifting pipes;
the elastic shell is mounted on the outer surface of the frame and is equipped with impact metal elements.

 Thus, the proposed device meets the criterion of "novelty."

 The drawing shows a General view of the device in working position in the well, the dotted line shows the elastic shell during the expansion of the gas bubble).

 The device for processing the well contains a line for supplying compressed air 1, a pneumatic chamber 2, located inside the perforated frame 3 with holes, in the lower part equipped with an accelerating suction tube 4, and in the upper part connected to water pipes 5. There is also an elastic shell 6, mounted on the outside the surface of the frame and provided with impact metal elements 7. The drawing also shows a sand cork 8, a filter 9 and clogging deposits 10.

 The device operates as follows. On the highway to the chamber serves compressed air. The pneumatic chamber produces pulsed exhausts, the exhaust of which has a hydraulic effect on the cleaned part of the filter due to the stretching of the elastic membrane caused by the expansion of the gas bubble. There is also a pulse-wave effect on the sand cork, which leads to its liquefaction. If there are shock metal elements on the elastic shell, then a mechanical effect on the filter also occurs. Then the gas bubble begins to compress and rise upward through the water-lifting pipes, the elastic shell returns to its original position, the sand is absorbed and rises upward.

 A comparative analysis of the proposed device and the well-known showed that the flow rate of wells is significantly increased, and the need for subsequent airlift pumping is also eliminated.

Claims (1)

 A WELL TREATMENT DEVICE comprising a pneumatic chamber installed in an elastic shell and an air supply line arranged in water pipes, characterized in that it is provided with a perforated frame installed between the pneumatic chamber and the elastic shell, wherein the perforated frame in its lower part is made in the form of an acceleration pipes, and in its upper part is connected to water-lifting pipes, and the elastic shell is mounted on a perforated frame.

Images