SU1330305A1 - Arrangement for producing from two formations in one well - Google Patents

Abstract

The invention relates to the field of the oil industry and is intended for the flow of oil. The purpose of the invention is to increase the efficiency of well operation by automatically maintaining a predetermined ratio of the volumes of the selected reservoir of fluids. To do this, inside the column of lift pipes 2, a body (K) is installed 6 times :: ir i.TlL-J

Description

control mechanism for bottomhole fittings. The mechanism is embodied in the form of two hydraulic impellers (TT) 13 and 14 mounted on the axis 8 of the rotors with opposite directions of rotation. The movable adjusting elements 11 and 12 of the downhole fittings are rigidly fixed on the axis 8, which is installed with the possibility of rotational and axial movement. To improve the accuracy of controlling the ratio of the costs of produced fluids in K 6 with a gap, hollow cylinders (C) 17 and 18 with radial holes are installed. There are downhole fittings at the ends of the C 17 and 18, and the cavity 2-1 C 17 and 18 is hydraulically connected to the formation. To increase on 1. ,

The invention relates to the oil-bearing industry, in particular, to devices for operating two formations with one well with a flowing method of producing oil.

The aim of the invention is to increase the efficiency of well operation by automatically maintaining a predetermined ratio of the volume of MOB liquids withdrawn from the formations.

FIG. 1 shows schematically a device, a section; in fig. 2 - knot of the threaded pair.

The device consists of wellhead 1, a lift pipe string 2, a packer .3 for separation of the layers. An outlet fitting 5 is installed on the flow line 4. In the column of elevator pipes 2, the device 6 is coaxially placed with a gap 7. The axis 8 is placed in the internal cavity of the latter with the possibility of rotation and longitudinal reciprocating movement. This movement is achieved by placing in the middle part of the axis 8 a screw thread 9, which interacts with a corresponding thread in a blank partition 10 installed in the housing 6. On the axis 8 above and the bottom blank part 10, the movable control elements are fixed, respectively, 11 and 12 downhole fittings

The reliability of the device in K 6 between C 17 and 18 is installed partition 10 with a threaded hole. Axis 8 has a counter thread 9 to interact with the baffle 10. Using elements 11 and 12, adjust the volume of incoming fluid from the formations to the well. The production of the upper layer passes the rotor of the GT 13 through the openings in the partition enters the cavity of the pipe 2. The production of the lower layer flows through the GT 14 into the cavity of the pipes 2 and then together with the flow of the upper layer into the discharge line 4. The total selection 5 fluid from the reservoir. 2 hp f-ly 2 ill.

and, respectively, rotors of hydraulic impellers 13 and 14 with opposite directions of rotation are installed. In order to reduce the effect of free gas on the operation of the impellers, it is advisable to install the latter in the cluster 6 in front of the moving regulating elements 11 and 12 downhole fittings.

Downhole fittings are doubled in order to reduce the force on the axis 8 from the effects of flows, the fixed elements 15 and 16 are mounted along the cones of the hollow cylinders 17 and 18, which are coaxially and with a gap 19 and 20 placed in the housing 6. Cavities 21 q.t. of lindras 17 and 18 through the pipes 22 and 23 are communicated respectively with the overlying reservoir 24 and the underlying 25

through the gaps 26 and 27.

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With the aim of reducing hydraulic losses and preventing contamination of the screw thread in the housing 6, jet baffles 28 and 29 with glands are installed. A housing 30 with a bearing and a partition 31 with openings and a bearing are placed in the housing 6. The reservoir 25 communicates with the gap 7 through the holes 32.

To remove the device to the surface, protrusions 33 are provided in the housing 6. Sealing tightness of the mouth

The wellhead operation is achieved by seals 34-36.

The device works as follows.

The production of the overburden 24 through the gap 26 through the pipe 22 enters the cavity 21 of the cylinder downhole fitting. Part of the flow from the cavity 21 through the gap 37 enters the rotor of the horizontal impeller 13, and the other part from the same cavity through the gap 38, having reflected from the jet suppressor 28, through the gap 19 also enters the rotor of the hydraulic turbine 13 and turns it to the right.

At the same time, from the underlying reservoir 25, through the gap 27, through the pipe 23, enters the cylinder cavity 21, from which part of the stream 4 cuts 39, and the other part through the gap 40, reflected from the striker 29, through the gap 20. enters the rotor of the hydraulic turbine 14 and turns her left.

The rotors of hydraulic turbines can be structurally made similarly to turbines of hydraulic stations, propellers, rotors of flow meters, etc., but in the proposed device the axial-type turbodrill multi-stage turbine most fully meets the working conditions of the rotor.

Since the rotors of the hydraulic turbines 13 and 14 are fixed on the same axis 8, the rotation of the latter in one direction or the other depends on the difference in torque, i.e. axis 8 rotates that impeller, the torque of which is greater, and consequently, the flow of liquid is greater. Simultaneously with the axis, the screw thread 9 of the device rotates (bolt), interacting with the thread (nut) in the firing 10 (Fig. 2).

Since the axis 8 is made with the possibility of axial movement, and the cutting 9 is stationary, as a result of rotation, the axis 8 moves relative to the screw cutting 9 in the fixed partition 10, and therefore relative to the housing 6 up or down, while simultaneously moving elements 11 and 12 double downhole fittings.

Axial movement of the movable elements 11 and 12 leads to a reduction of the gaps 37, 38 or 40, 39 of the downhole

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a choke through which the fluid enters is greater than the established ratio of the volumes of fluids withdrawn from the layers and at the same time to an increase in the gaps of 40.39 or 37.38 of the opposite choke and, consequently, to an increase in flow. The rotation of the axis 8 continues until the torque is equalized from the effect of the flux on the rotors of the hydraulic turbines 13 and 14, i.e. until recovery of a given volume ratio.

the functional purpose of the axis 8 is to ensure the transmission of torque from the rotor of the hydraulic impeller or the difference in torque from the rotors to the screw thread 9, as well as to secure the movable elements 11 and 12 on it.

The purpose of the movable elements 12 and 11 is to reduce or increase the gaps 37-40 and thereby regulate the volumes of incoming fluid from the formations into the well.

The production of the upper layer 24 passes through the rotor of the hydraulic impeller 13, through the holes in the partition 31 enters the cavity of the lift pipe string 2. The production of the lower layer 25 passes through the rotor of the hydraulic impeller 14, is reflected from the bump 30 and through the holes 32 and the gap 7 also enters the cavity the lift pipe 2 and further along with the product flow from the overlying reservoir 24 through the wellhead 1 through the wellhead fitting 5. enters the flow line. Surface fitting 5 regulate the total selection of fluid from the reservoir.

When developing two layers, the following options may occur: liquid withdrawal: equal volumes withdrawn from the formations, equal volumes are taken, with a constant ratio not equal to 1: 1j the ratio of withdrawal, the volume of liquid from one formation is kept constant with respect to the incoming (unregulated a) the volume of fluid from another reservoir (such a regime may arise during the operation of a low-rate and high-yield reservoir, and to regulate (limit) the volume of incoming fluid from a low-rate fin impractical).

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Depending on the functions available, the design of the device has the following main features.

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The parameters of parts 11, 12, 15 and 17 should be respectively similar to those of parts 12, 14, 16 and 18, the rotor bodies (stators) of hydraulic turbines should also be similar,

In this case, the velocity of the fluid flows, as well as the forces that turn the turbine 13 to the right, and the turbine 14 to the left, are identical, and the axis 8 will not rotate.

The diameters (parameters) of the rotors of hydraulic turbines or their bodies (stators) must be chosen so that the torques of the rotors are the same for given volumes of incoming liquid.

For this case, suppose that from the underlying reservoir 25 the volume of incoming fluid increased, In this case, the flow rate and, consequently, the force turning the turbine 14 to the left, more force from the fluid flow from the reservoir 24 and the axis 8 begins to rotate to the left, simultaneously moving down, while the gaps 40 and 39 are reduced, and the gaps 37 and 38 are increased until the equal volumes of the fluid flow acting on the blades of the turbines 14 and 13 are restored and the specified ratios are restored.

If it is necessary to take out liquids at a different ratio in the proposed device, it is sufficient to change the rotor parameters of one of the hydraulic turbines accordingly so that the torques of both turbines are the same for a given ratio of the volumes of the selected fluids from the formations.

In the latter case, the bottomhole nozzle is not placed in the flow of fluid coming from the uncontrolled reservoir.

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Formula inventions

Claims (3)

1. A device for operating two layers of one well, including wellhead, a string of lift pipes, a packer for separation of layers, downhole fittings with moving control elements and a mechanism for controlling them, in order to increase the efficiency of well operation by automatic maintaining a predetermined ratio of volumes of fluids withdrawn from formations, it is equipped with a housing installed inside the tubing string, inside of which there is a control mechanism for bottomhole nozzles, in a space filled with two rotors mounted on a hydraulic impellers axis with opposite direction of rotation, with a being movable regulating members chokes downhole rigidly zakrep- 5 Lena on rotor shafts mounted for rotational and axial movement. 2. The device according to claim 1, characterized in that, in order to increase the accuracy of controlling the cost ratio of the produced liquids, it is equipped with hollow cylinders with radial holes installed with a gap in the housing, downhole fittings are placed at the ends of each cylinder, and the cavity of each cylinder is hydraulically associated with the reservoir. 3. The device according to claim 3, which is designed so that, in order to increase the reliability of its operation, it is equipped with a partition with a threaded hole installed inside the case between the cylinders, and the axis has a response thread to allow interaction with the partition. 0 five 0 five ffjus.Z Compiled by V. Boryskin Editor N. Gorvat Tehred V. Kadar Proofreader N. Korol Order 3551/34 Circulation 532 Subscription VNIIPI USSR State Committee for Inventions and Discoveries. 113035, Moscow, Zh-35, Raushsk nab. 4/5 Production and printing company, Uzhgorod, st. Project, 4