RU2168612C1 - Method of provision and maintenance of serviceability condition of tubing flow area in development well and cleaning device - Google Patents

Abstract

FIELD: oil and gas production; applicable in operation of development wells. SUBSTANCE: method includes checking of flow area value of tubing string in presence of minimal circulation through it; step change of maximum size in cross-section of rotating heads with cutting members of cleaning device. This size is brought to value not exceeding the size of tool of tubing string gagging. Cleaning is carried out by axial motion of cleaning device. EFFECT: provided maximum possible production rate of wells of one ore other parts of deposit or entire deposit. 15 cl, 2 dwg

Description

 The invention relates to the field of oil and gas production and can be used in production wells.

 During oil and gas production, a layer of deposits (asphaltenes, resins, paraffins, hydrates and mixtures thereof) is deposited on the walls of the pipe columns of the wells along which the produced product moves, and the passage section narrows down to its complete overlap, which leads to a decrease in the volume of produced products or to a complete stopping the flow rate of the well.

 There is a method of maintaining in working condition the bore of the tubing string in a production well and a treatment device by which this method is carried out (RF patent N 2041341).

 The known method includes periodic cleaning of the inner surface of the tubing string from deposits by axial movement of the cleaning device equipped with two rotating heads with cutting elements and removing deposits on the surface by an upward flow of produced fluid, while the axial movement of the cleaning device is carried out on the traction body under the influence of their gravity - when downward and forcibly by means of a winch hoist - when lifting upward, and the rotation of the heads with cutting elements in the treatment device TWE is carried out due to their interaction with the flow of produced fluid in the process of axial movement of the device.

 The disadvantage of this method is the inability to create the maximum possible flow area of the tubing string in the presence of circulation through it, since the known method allows you to maintain in working condition the flow area of the tubing string through which free descent on the traction body under the influence of gravity of the treatment device is possible, and this the cross section cannot be called the maximum possible, because The next cleaning of the inner surface of the tubing string is usually carried out when, due to a decrease in the bore, the decrease in the flow rate of the well becomes noticeable. An attempt to return the passage section of the tubing string to its original state, as a rule, leads to failure, because it is not possible to carry out a free descent of the treatment device of the desired diameter.

 There is a method of maintaining in working condition the bore of the tubing string in a production well (copyright certificate N 87024).

 According to the known method, periodic cleaning of the inner surface of the tubing string from deposits is carried out by axial movement of the cleaning device of one design or another on the traction unit under the action of their gravity when descending, and forcibly by means of a winch elevator when lifting up, and removing deposits on the surface by upward flow produced fluid. The descents and ascents of the treatment device are carried out in automatic mode with a predetermined frequency, which allows to maintain in working condition almost the maximum possible flow area of the tubing string. However, this method is associated with high capital costs, because it requires the presence of a winch hoist stationary on the well equipped with a complex automatic control system, which implies both preventive measures and repair work related to the failure of both the ground part (winch hoist ), as well as the treatment device located in the well and the traction unit associated with it. The method does not provide for the creation of the working condition of the passage section of the tubing string, for example, in the case of its narrowing due to buildup of deposits due to a violation of the cleaning frequency caused by, for example, failure of the winch hoist, traction unit, automatic control system or treatment device.

 Known, selected as the closest analogue, is a method of creating and maintaining in working condition the flow section of the tubing string in a production well, including restoring circulation through the tubing string if it is absent, periodically cleaning the inner surface of the tubing string from deposits by axial movement of a cleaning device equipped with rotating heads with cutting elements, and the removal of deposits on the surface by the upward flow of the produced fluid (RF patent N 2147064). The disadvantages are the same as in the method (RF patent N 2041341).

 Known cleaning device with a drive, including interconnected rotating head with cutting elements, mounted rigidly on a shaft articulated with. an output shaft of a drive electric motor, an attachment unit to a traction member equipped with electrically conductive elements, and a second electric motor, the output shaft of which rotates in the opposite direction. Hydraulic pumps are installed on the shafts of the electric motors, one of which is designed to supply fluid to the working area of the rotating head, and the second is to create an axial force that propels the device down (RF patent N 2097532).

 The objective of the invention is to develop a method for creating the maximum possible cross-section of the tubing string in the production well and maintaining it in working condition to ensure a stable flow rate of the well, preventing failure of the wells due to plugging from deposits.

 The technical result of the invention should be considered to ensure the possibility of operating wells of certain sections of the field or the field as a whole with the highest possible stable flow rate.

 The technical result in the process of solving the problem is achieved by the fact that in the method of creating and maintaining in working condition the flow section of the tubing string in the production well, including restoring circulation through the tubing string in the absence of it, periodically cleaning the inner surface of the tubing string from deposits by axial movement of the treatment device equipped with at least one rotating head with cutting elements and removing deposits on the surface of the upward flow of produced fluid According to the invention, periodic cleaning of the inner surface of the tubing begins with checking the size of its bore through successive descents and rises of a cleaning device equipped with at least one of the said rotating heads, while the maximum cross-sectional size of each upstream rotating head is chosen to be greater than or corresponding to the same size of the downstream head, with each subsequent descent of the cleaning device, the maximum size is stepwise changed in the cross section of the rotating heads and bring it up to a value not exceeding the same size of the tool used for patterning the passage section of the tubing string, after which, at designated intervals, the inner surface of the tubing string is cleaned of deposits by axial movement of the said cleaning device, while the time intervals are assigned between cleanings is carried out on the basis of the analysis of the parameters of the reservoir, produced fluid, interval and composition of deposits.

In special cases, the implementation of the method:
removal of deposits on the surface by the upward flow of produced fluid is completed by increasing its flow rate at the wellhead, while the duration of the flow increase is mainly from 3 to 15 minutes;
step change of the maximum size in the cross section of the rotating heads is carried out by increasing it; in another case, first by reducing it to a size that allows free descent and lifting of the treatment device, and then by increasing it;
in the process of periodic cleaning of the inner surface of the tubing string at designated intervals, a cleaning device is used, equipped with said rotating heads, in which the maximum size in the cross section of each upstream is greater than or corresponding to the similar size of the downstream head;
the axial movement of the treatment device is carried out on the traction body under the action of their gravity - when going down and forcibly by means of a winch hoist - when going up;
the rotation of the heads with cutting elements in the cleaning device is carried out due to their interaction with the flow of produced fluid during axial movement of the device or by means of a drive located in the said device;
the cleaning device before descent can be treated with a hydrophilizing composition, which is a mixture of polyacrylamide with sodium silicate in 3-5 weight parts and water - the rest;
it is advisable to axially move the treatment device during cleaning of the inner surface of the tubing string from deposits to stop it in its lowest position and / or periodically stop it when it rises, while the duration of the stops is determined from the condition that the deposits are removed by an upward flow of produced fluid to a distance sufficient to exclude their contact with the treatment device when lifting it.

 The method can be implemented using known devices disclosed in information sources (see, for example, RF patents NN 2041341, 2089719, 2126881, 2147064, 2155860).

 In cases where the flow of produced fluid is not sufficient for rotation of the heads with cutting elements in the cleaning device, a cleaning device with a drive is used. In particular, such a device is known (see RF patent N 2097532, 1997). This device includes interconnected rotating head with cutting elements, mounted on a shaft articulated with the output shaft of the drive motor or its reduction gear, means for creating axial force in the form of a hydraulic pump and an attachment unit to the traction body equipped with electrically conductive elements.

 A disadvantage of the known cleaning device is that it is designed to remove only plugs in the tubing, and for its operation, it is necessary to supply (refill) liquid from the surface into the space above the plug. Another disadvantage is the impossibility of using it to remove extended plugs, since the principle of its operation involves the mechanical destruction of the material of the plug (hydratoparaffin) and its transfer to the molten state due to exposure to heat. Obviously, as the plug breaks down and the device moves downward, in the space above the device, the material of the plug from the molten state, cooling down, will again turn into a solid state and it will be impossible to remove the device to the surface. The design of the device is not intended to remove deposits from the inner surface of the tubing to ensure the possibility of operating wells with the highest possible stable flow rate.

 In order to eliminate the drawbacks noted above and to obtain a technical result, a cleaning device with a drive, including at least one rotating head with cutting elements connected to each other, mounted on a shaft articulated with the output shaft of the drive motor or its reduction gear, means of creating axial force and the node connecting to the traction body, equipped with electrically conductive elements, according to the invention is equipped with a hollow shaft, covering the shaft, articulated with the motor shaft the drive or its reduction gear, by a unit for changing the direction of rotation of the hollow shaft opposite to the direction of rotation of the shaft articulated with the output shaft of the drive motor or its reduction gear, while at least one rotating head with cutting elements is rigidly fixed to the hollow shaft .

 In specific cases, the implementation of the cleaning device with the drive, the node changes the direction of rotation of the hollow shaft opposite to the direction of rotation of the shaft articulated with the output shaft of the drive motor or its reduction gear, made in the form of two pairs of bevel gears located in the housing and engaged mounted opposite each other, while one pair of bevel gears is fixed in the housing, and the bevel gears of the second pair are fixed - one on the shaft articulated with the output centralizer shaft of the drive motor or its reduction gear, and the other on the hollow shaft, and it is desirable that centralizers are installed between the hollow shaft and the shaft articulated with the output shaft of the drive motor or its reduction gear.

 The means of creating axial force in a particular case can be a load installed, for example, between the drive and the unit of attachment to the traction unit, and this load can also perform the function of a stabilizer (corresponding mass, longitudinal or inclined ribs on its outer surface), contributing to a stable position devices in operation.

 A specific example of the implementation of a cleaning device with a drive can serve as the proposed device, shown in figure 1 - General view; figure 2 is the lower part, a longitudinal section.

 The device includes rotating heads 1,2 with cutting elements, a node 3 changing the direction of rotation of the hollow shaft 4 opposite to the direction of rotation of the shaft 5, drive 6, means of creating axial force (load) 7 and the node 8 connecting to the traction body 9. Rotating the head 1 is fixed rigidly to the shaft 5 using, for example, a key 10. The shaft 5 is articulated with the shaft 11 of the drive motor 12 or its reduction gear, for example, a coupling 13 and fingers 14. This joint provides the transmission of torque and holding the shaft 5 in axial direction. The shaft 5 is surrounded by a hollow shaft 4, on which a rotating head 2 is fixed, for example, with a key 15. The knot 3 of changing the direction of rotation of the hollow shaft 4 with respect to the direction of rotation of the shaft 5 is two pairs of bevel gears 16.17 and 18.19 set opposite each other. One pair of gears 16.17 is fixed in the housing 20. The gears 18.19 of the second pair are fixed - one (18) on the shaft 5, and the other (19) on the hollow shaft 4. Centralizers 21.22 are installed between the hollow shaft 4 and shaft 5 providing coaxial arrangement of shafts 4.5 during rotation. An annular stop 23 is made on the shaft 4. A sleeve 24 is installed between the heads 1,2, which covers the hollow shaft 4 and the lower end, just like the shaft 4 is supported by an axial bearing 25. The upper end having protrusions, the sleeve 24 abuts the head 2 having reciprocal protrusions of the sleeve 24 of the cavity, which provides the sleeve 24 joint rotation with the shaft 4. A flare nut 26 is screwed onto the lower threaded portion of the shaft 5, which tightens the head 1 and is secured against spontaneous unscrewing by a stopper (not shown). In the housing 20, an upper radial bearing 27 and an stuffing box seal 28 are installed. The traction member 9 is equipped with electrically conductive elements and may be an armored geophysical cable. The heads 1,2 have cutting elements and are made in a known manner (see, for example, RF patent N 2147064).

 The device operates as follows. When you turn on the drive 6 of the reduction gearbox, the shaft 5 begins to rotate, the shaft 4 also rotates in the opposite direction. The heads 1,2 rotate in opposite directions, balancing each other, the housing 20 remains stationary due to the presence of the load 7 as well.

 The method is as follows. If the well has lost circulation through the tubing string, then it is restored in a known manner, for example, by pumping hot oil using ADP, while the goal is not to clean the inner surface of the tubing string from deposits in order to achieve the maximum possible flow section of the tubing string. In the general case, the well, as a rule, has some small flow rate, i.e. minimal circulation through the tubing string. Periodic cleaning of the inner surface of the tubing string begins with checking the size of its bore by successive descents and rises of the treatment device equipped with at least one rotating head. In this case, the cleaning device has a rotating head mounted on the shaft, a stabilizer connected to the shaft, a load and an attachment unit to the traction unit. More often, a cleaning device is used, in which there are more than one rotating head, for example two, as in the device according to RF patent N 2147064. When preparing the device, the maximum cross-sectional size (outer diameter) of each upstream rotating head is chosen to exceed the similar size of the downstream head and the device is released. through the lubricator. If it turns out that the descent of the device is difficult, then it is removed, each upstream (upper) head is replaced with a head with a maximum size corresponding to the same size of the downstream head and the device is again descent. If again the descent of the device is not possible, then replace the heads with heads with a smaller maximum cross-sectional size and so on until the device can be lowered to the lower extreme point. Then, after lifting the device to the surface, the heads are replaced and the heads are installed with a large (at a certain step) maximum cross-sectional dimension and the device is again lowered and so on, the mentioned size is adjusted to a value not exceeding the same size of the tool used when patterning the passage section of the column Tubing, which is carried out during the preparation and descent of the tubing string.

 A situation is possible in which the maximum size in the cross section of the heads was initially chosen such that the descent of the device was possible the first time. In this case, with each subsequent descent of the device, the maximum size in the cross section of the heads is incrementally increased and also brought to a value not exceeding the same size of the tool used to template the passage section of the tubing string. Obviously, the maximum size in the cross section of each head upstream may exceed or correspond to the same size of the downstream head in each particular descent of the device. After the maximum size in the cross section of the heads of the device is determined, which ensures, on the one hand, unobstructed descent and lifting of the device in a particular well, and on the other, the creation of the maximum possible passage section of the tubing string, an analysis is made of the parameters of the reservoir, produced fluid, interval and composition of deposits. According to the results of the analysis, time intervals are prescribed through which the inner surface of the tubing string is cleaned from deposits by axial (descent-lift) by moving the treatment device.

 In the process of axial movement of the device, the heads rotate due to their interaction with the flow of produced fluid in opposite directions and cuttings cut off deposits that are removed to the surface by an upward flow of produced fluid. The axial movement of the treatment device is carried out on the traction body under the action of the gravity of the device and the traction body - when going down and forcibly by means of a winch hoist - when going up. The axial movement of the cleaning device in the process of cleaning the inner surface of the tubing string from deposits is usually accompanied by a stop in its lowest position and periodic stops when it rises. In lighter operating conditions of the treatment device (intense flow of produced fluid), its axial movement is accompanied by a stop only in the lowest position or by periodic stops when it rises. A variant is also possible in which, after reaching the lowest position, the cleaning device is immediately started to be lifted. The duration of the stops is determined from the condition of ensuring the removal of sediments (cut off) by the upward flow of the produced fluid to a distance sufficient to exclude their contact with the treatment device when it is lifted. Often the removal of deposits to the surface by an upward flow of produced fluid is completed by increasing its flow rate at the wellhead for 3-15 minutes using a flow regulator. Before the descent into the well, the device or its rotating heads can be treated with a hydrophilizing compound (polyacrylamide 3-5 parts by weight, sodium silicate 3-5 parts by weight, water up to 100 parts by weight). Such processing contributes to a better operation of the device, as prevents deposits from sticking to its elements. In cases where the flow of produced fluid is not enough to rotate the heads of the treatment device (its effective operation), a treatment device with a drive is used, the design of which is disclosed in one possible embodiment in the present invention.

 The use of the invention allows the operation of wells of certain sections of the field or the entire field with the highest possible stable flow rate.

Claims (15)

 1. A method of creating and maintaining a working cross-section of a tubing string in a production well, including restoring circulation through the tubing string if it is absent, periodically cleaning the inner surface of the tubing string from deposits by axially moving the treatment device, equipped with at least one rotating head with cutting elements and the removal of deposits on the surface by an upward flow of produced fluid, I distinguish wherein the periodic cleaning of the inner surface of the tubing string begins with checking the size of its bore by successive descents and rises of the cleaning device equipped with at least one of the said rotating head, while the maximum cross-sectional size of each upstream rotating head choose the head below or exceeding the corresponding size of the downstream head; each subsequent descent of the cleaning device changes stepwise the maximum size in the cross section of the rotating heads and bring it to a value not exceeding the same size of the tool used when patterning the bore of the tubing string, after which, at designated intervals, the inner surface of the tubing string is cleaned of deposits by axial displacement of the aforementioned treatment device, while the appointment of time intervals between purifications is carried out on the basis of the analysis of the parameters of the productive fins, produced fluid, interval and composition of sediments.  2. The method according to claim 1, characterized in that the removal of deposits on the surface of the ascending stream of the produced fluid is completed by increasing its flow rate at the wellhead.  3. The method according to claim 2, characterized in that the duration of the increase in the flow rate of the produced fluid at the wellhead is preferably from 3 to 15 minutes.  4. The method according to claim 1, characterized in that stepwise change the maximum size in the cross section of the rotating heads by increasing it.  5. The method according to claim 1, characterized in that stepwise change the maximum size in the cross section of the rotating heads, first by reducing it to a size that allows free descent and lifting of the cleaning device, and then by increasing it.  6. The method according to claim 1, characterized in that in the process of periodic cleaning of the inner surface of the tubing string at designated intervals, a cleaning device is used, equipped with said rotating heads, in which the maximum size in the cross section of each upstream exceeds or corresponds to a similar size downstream head.  7. The method according to one of claims 1 to 6, characterized in that the axial movement of the treatment device is carried out on the traction body under the influence of their gravity when descending and forcibly by means of a winch hoist - when lifting up.  8. The method according to one of claims 1 to 7, characterized in that the heads are rotated in the treatment device due to their interaction with the flow of produced fluid during axial movement of the device.  9. The method according to one of claims 1 to 7, characterized in that the rotation of the heads with cutting elements in the cleaning device is carried out by means of a drive located in the said device.  10. The method according to one of claims 1 to 9, characterized in that the treatment device is treated with a hydrophilizing composition before descent. 11. The method according to claim 10, characterized in that use a hydrophilizing composition, weight. hours:
Polyacrylamide - 3 - 5
Sodium Silicate - 3 - 5
Water - Up to 100
12. The method according to one of claims 1 to 11, characterized in that the axial movement of the treatment device in the process of cleaning the inner surface of the tubing string from deposits is accompanied by stopping it in the lowest position and / or intermittent stops when it rises.  13. The method according to p. 12, characterized in that the duration of the stops is determined from the condition of ensuring the removal of sediments by the upward flow of the produced fluid to a distance sufficient to exclude their contact with the treatment device when it is lifted.  14. A cleaning device with a drive, comprising at least one rotating head with cutting elements connected to each other, fixed rigidly to a shaft articulated with the output shaft of the drive motor or its reduction gear, means for generating axial force and an attachment unit to the traction member, equipped with electrically conductive elements, characterized in that it is equipped with a hollow shaft, covering the shaft, articulated with the shaft of the drive motor or its reduction gear, the unit for changing the direction of rotation of the PU the hollow shaft to the opposite with respect to the direction of rotation of the shaft articulated with the output shaft of the drive motor or its reduction gear, while at least one rotating head with cutting elements is rigidly fixed to the hollow shaft.  15. The cleaning device according to 14, characterized in that the node changes the direction of rotation of the hollow shaft to the opposite with respect to the direction of rotation of the shaft articulated with the output shaft of the electric motor or its reduction gear, made in the form of two pairs located in the housing and engaged bevel gears mounted opposite each other, while one pair of bevel gears is fixed in the housing, and bevel gears of the second pair are fixed one on the shaft articulated with the output shaft of the electric motor drive or its reduction gear, and the other on a hollow shaft.  16. The cleaning device according to 14 or 15, characterized in that centralizers are installed between the hollow shaft and the shaft articulated with the output shaft of the drive motor or its reduction gear.

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