SU927983A1 - Method and apparatus for treating oil wells - Google Patents

Description

(5) METHOD AND DEVICE FOR PROCESSING OIL WELLS

The invention relates to the oil and gas industry. A method for displacing oil by means of a thermal rim is known, while simultaneously maintaining a high reservoir pressure sufficient for the oil to reach the surface, oil viscosity is reduced by increasing its temperature by displacing the oil with steam that is injected through the system of injection wells in the IJ oil reservoir. The disadvantage of the method lies in the fact that when steam is injected, oil outflow is effective only until steam is interrupted and Shays and skondensirova water to a borehole is not operational. Subsequently, the steam goes through highly permeable intervals of the formation and the water that comes to the surface has a small amount of oil. This disadvantage is associated with a large difference in viscosity and density of steam and oil, as a result of which steam is collected in the upper part of the oil reservoir, not covering it in depth. The displacement of oil by cold or hot water is less prone to breakthrough, but it does not allow for the thermal liquefaction of oil, the office remains in the reservoir. The closest to the proposed technical essence is a method of thermal and vibration treatment of an oil well, including thermal and vibration effects on the formation and a device for its implementation, consisting of an electric steam generator with channels for supplying fluid and a vibrator 2. The device does not allow local directional treatment of the well with steam, and only volumetric heating of the contents of the well. The aim of the invention is to increase the effectiveness of the effect due to the directional heat treatment.

This goal is achieved by the effect on the formation of a pulsed steam jet, for which the device vibrator is made in the form of a flexible pipe that is movably connected with a steam generator with an L-shaped channel in communication with the channel of the steam generator.

The drawing shows a device for carrying out the proposed method.

The device consists of a steam generator 1 with an inclined spiral channel 2, a L-shaped pipe 3 with a drummer C, a metal plate 5, a bimetallic lock 6, and an electric cable 7 The method is carried out as follows.

The steam generator 1 is lowered to the depth of the productive horizon, the steam generator is turned on and the device is closed with locking device 6, which takes the position shown in dotted lines. Simultaneously, under the action of heat, the fluid in the well begins to move upwards and, passing through the spiral channel 2, turns into a stream of steam that is released through the hole drummer 4.

In this case, the striker k deviates from the casing 6 and the nozzle 3 bends, which leads to the displacement of the rigid plate 6 (shown by the dotted line). Plate 5 blocks access of steam and drummer C returns to its original state, under the action of elastic force arising during bending of pipe 3. When drummer k returns, it collides with the wall of casing of column 8, which causes it to vibrate in the place of steam blowing.

The method can be carried out on spontaneous non-stationary modes of steam outflow, then the need for a rigid plate 5 disappears. In addition, it is possible to perform the spiral channel 2 in the form of double, triple, etc. spirals. The exit of each of the spirals in this case ends with its drummer, which allows for vibration around the perimeter of the well.

In addition, the helicity provides a high back pressure due to the high friction of the jet against the wall, and, consequently, the high speed of the jet of steam at the outlet. The obliquity of the spiral of the spiral turns to the force vector is necessary for the guaranteed rise of steam from the bottom upward along the spiral.

The technical and economic efficiency of the invention is to increase oil recovery from old wells, in which structural and paraffin formations are formed in the oil-bearing rock adjacent to the well, preventing the flow of oil to the surface. Thermal and vibration effects on the oil reservoir reduce the structure of oil and its viscosity, facilitating the movement of oil to the well.

If there are 2 thousand wells in one region with 1 million tons of oil remaining in it after development, then an additional 200 million tons of oil can be obtained by extracting oil from these wells.

Claims (3)

1. A method of treating oil wells, which includes thermal and vibration effects on the formation, characterized in that, in order to increase the effectiveness of the impact due to directional heat treatment, the formation is exposed to the formation by a pulsed steam jet. 2. A device for treating oil wells, comprising an electric steam generator with fluid supply channels and a vibrator, characterized in that the vibrator is designed as a flexible pipe connected to the steam generator with an L-shaped channel communicating with the steam generator channel. 3. A device according to claim 2, characterized in that the steam generator channel is made spiral. C, the device according to claim 3, characterized in that the l-shaped nozzle is equipped with a flow interrupter made in the form of a cantilevered rigid plate. Sources of information taken into account in the examination 1. Dzhamalev I. et al. Oil displacement by thermal rim. Neft Nick, 1977, W 2. 2. Authors certificate of the USSR according to the application, 75063, cl. E 21 B 43/00 01.25.80 (prototype).