SU1373024A1 - Borenole pneumatic generator - Google Patents

Abstract

The invention relates to the oil and gas industry. The purpose of the invention is to improve the processing efficiency of the bottomhole zone when installing the generator at the wellhead. The generator includes a housing 1 with an adapter 3 and an exhaust channel (K) 13 and K 11, 12 of compressed air supply (CB). In housing 1, a movable piston 2 and a flexible hose 15 of high pressure are installed for opening K13, connected with a gearbox 8. In the cavity of housing 1 under the piston 2 there is an axially movable sleeve 4, and a sleeve 15 connected to knot. It is designed as triggering electric valves (EPA) 6 and 7. Adapter 3 has radial exhaust ports 18 and K 9, 10 for supplying fluid and CB to the cavity of housing 1 for axial movement of sleeve 4. Prch supply voltage to EPA 7 through K.12. The piston 2 is directed to the CB, changing the ratio of the forces acting on it, and it is shifted upwards. At the vent, K 13 opens and the CB enters through the cavity of the bush 4 and the wellbore column in the pipe string, compressing it. Then, voltage is applied to EPA 6 and under a ryssoktt with a pressure п pressure of CB, it enters the hub of the sleeve 4 and changes the ratio of the forces acting on it. Sleeve 4 moves upward and opens windows 18, and the CB is emitted into the atmosphere. This leads to the expansion of the previously compressed wellbore column along which the vacuum wave propagates. 1 hp f-ly, 3 ill. W with: FIG. I

Description

The invention relates to the oil and gas production industry, in particular, to devices for initiating a well.

The aim of the invention is to increase the efficiency of wellbore zone treatment.

Fig, 1 shows a downhole pneumatic generator, in the original position; 2 - the same, at the moment of exhausting compressed air from the body cavity at the mouth of the well; on fig.Z - the same, with open exhaust windows in the adapter.

The well pneumatic generator (Fig. 1) consists of a hollow body 1 with a movable piston 2, an adapter 3 with a sleeve, connecting Poland body 1 with a casing 5, regulating units in the form of starting electropneumatic valves 6 and 7, gearbox 8 In the adapter 3, the channels 9 and 10 of the water supply and compressed air are made to transfer the sleeve to the working (upper) position. The following channels are made in the case: 11, 12 - compressed air supply to the body cavity; exhaust 13, respectively, for converting the piston into the operating and initial position; 14 - for drainage of water. Compressed air is supplied into the body cavity through a flexible high-pressure hose 15. This cavity has a damper 16 and a working 17 volumes. Exhaust windows 18 are made in the wall of the adapter. The sealing of movable joints is provided by fluoroplastic rings 19, 20, 21 and rubber rings 22 of circular cross section. I

The downhole pneumatic generator operates as follows.

After the adapter 3 is connected to the casing 5, high pressure compressed air is supplied through the sleeve 15. Through the gearbox 8, compressed air under pressure in the order of 0.5 MPa enters the damping volume 16 through channel 13. Under the action of this pressure, the piston 2 and the sleeve are pressed to the lowest (original) position and seal the exhaust ports and openings, respectively. housing 1 and adapter 3. At the same time, compressed air under pressure up to 20 MPa through channel 11 enters working volume 17, and water under pressure up to 0.3 MPa through channel 9 in ne

rehodnik 3 enters the internal cavity of the casing 3 and the central channels of the piston 2 and bushings D. After filling these cavities, before the appearance of water in the first upper part of the channel 14, the downhole pneumatic generator is ready for the production of formation influence (Fig. 1).

When a voltage is applied to an electropneumatic valve 7, the compressed air through channel 12 enters under the shoulder nopm-n 2, changes the ratio of forces acting on it and sharply displaces the piston upwards. The compressed air through the central cavity of the sleeve 4 enters the internal cavity of the casing string 5 and compresses the column in it with a well. At the same time, a pressure pulse with a steep front propagates along the wellbore column. After the wellbore fluid has been compressed from the mouth to the bottom, a voltage is applied to the triggering electropneumatic valve 6. High pressure compressed air passes through the channel 10 to the hub shoulder.

4and changes the ratio of forces acting on him. Sleeve 4 moves abruptly upward and opens exhaust ports 18 in adapter 3 (FIG. 3). Compressed air is emitted into the atmosphere (in the direction indicated by arrows), which leads to the expansion of the previously compressed column of well fluid. With

this in fluid in the casing

5 a rarefaction wave propagates. I

Under the action of pressure in the damper volume 16, the piston 2 and the sleeve 4 are lowered to the lowest position and the exhaust port from the internal cavity of the housing 1 and the exhaust port 18 from adapter 3 are again bridged. Water supplied to the adapter through channel 9 fills the wellhead. After filling the working volume 17 with high-pressure compressed air and the appearance of water in 14 well pneumatic

the generator is again ready for production.

Claims (2)

1. A downhole pneumatic generator comprising a hollow body / with an adapter, an exhaust channel and compressed air supply channels installed therein with a possibility to open the exhaust channel a movable piston and a flexible high-pressure hose for compressed air supply associated with a gearbox are distinguished by nj and with the fact that, in order to increase the processing efficiency of the wellbore zone when it is installed at the wellhead, it is equipped with a sleeve movable in the axial direction placed in the body cavity under the piston High-pressure regulating units connected with the sleeves of high slewing and adapter, and the radial exhaust ports and channels for supplying liquid and compressed air into the body cavity for axial displacement of the sleeve. 2. The generator according to claim 1, of which is that the regulating bridges are made in the form of electric pneumatic valves. p.2 Editor S.Kulakova Compiled by T. Umariyev Tehred A. Kravchuk Fird Proofreader M.Sharoshi