RU2095540C1 - Oil producing device - Google Patents

Abstract

FIELD: oil production technology. SUBSTANCE: this relates to acoustic devices for oil production. For more efficient separation of free gas from gas-saturated oil, hollow in device body is divided by partition through which inserted is magnetostriction converter. Converter body has passage 9 for passing gas-liquid flow from lower zone to upper zone of hollow. Oil reaching upper zone is degassed under action of upper part of converter (concentrator). Oil reaching lower zone is degassed under action of walls of passage 9. EFFECT: high efficiency. 1 cl, 1 dwg

Description

 The invention relates to devices for acoustic impact on a gas-saturated liquid and can be used to lift oil from wells due to the energy of the gas released under the influence of acoustic vibrations (vibration).

 A device for oil production using acoustic exposure, comprising a housing with holes for input and output of a gas-liquid stream and a magnetostrictive transducer installed in the housing coaxially with the outlet pipe.

 The disadvantage of this device is the lack of effectiveness of its impact on gas and oil flow.

 The technical problem solved by the invention is to increase the efficiency of the device by increasing the surface of its contact with the fluid flow.

 To solve this problem, in a device for oil production, comprising a housing with openings for input and output of gas-liquid flow and a magnetostrictive converter installed in the housing, the cavity of the housing is divided by a partition, and the magnetostrictive converter is passed through the partition and a channel is made in it for bypass flow from the lower zone of the cavity in the upper zone, separated from the lower partition.

 The oil flow coming from the well into the upper zone of the cavity enters the zone of action of the concentrator of the magnetostrictive transducer, and the flow entering the lower zone of the cavity is exposed when it is passed through the channel in the converter.

 The working surface of the device in contact with the gas-oil stream can be made rough.

 The invention is illustrated in the drawing, which shows a diagram of a device for oil production.

 The device comprises a housing 1 with openings 2 and 3 for input and an opening (outlet pipe) 4 for outputting a gas-oil stream. The cavity of the housing is divided by a partition 5, through which a magnetostrictive transducer installed in the housing is passed, including a core 6 with a hub 7 and an excitation winding 8. An axial channel 9 is made in the transducer (in the core with a hub), communicating the lower zone of the cavity with the upper, separated partition 5.

 The Converter can be performed with a concentrator at both ends of the core or without them.

 The device output branch 4 is connected to a tubing string installed in the well, and the excitation winding 8 is connected to a high-frequency oscillation generator mounted on the surface.

 Crude oil (gas-liquid flow) entering the upper zone of the cavity through the openings 2 is degassed by the upper part of the converter, and the oil entering the lower zone through the openings 3 is exposed to the lower part of the converter and in the channel 9. The gas released in the cavity of the device provides gas lifting of oil through a tubing string.

 To increase the degassing efficiency, the working surface of the converter can be roughened. The surface roughness contributes to a more intense formation of gas bubbles on it.

 The device will improve the efficiency of oil production due to more rational use of associated gas energy.

Claims (2)

 1. A device for oil production, including a magnetostrictive converter, characterized in that it is equipped with a hollow body with holes for input and output of gas-liquid flow and a baffle, the magnetostrictive converter is made with an axial channel, placed inside the body and forms the upper and lower zones with the body and partition communicating with each other by the axial channel of the magnetostrictive transducer.  2. The device according to p. 1, characterized in that the working surface of the device in contact with the gas-liquid flow is made rough.