RU2119042C1 - Device for cleaning bottom-hole of well from sediment accumulations - Google Patents

Abstract

FIELD: oil production industry. SUBSTANCE: this can be used at subsurface repair of wells. Device incorporates string of pump and compressor pipes which is suspended in well by rope-and-pulley system of hoisting mechanism. Provided in upper part of pump and compressor pipe string are tee-piece with flexible hose, and well head sealing gland. Located in lower part of pump and compressor pipe string is pumping-out unit. Device is provided with shank having bit on its lower end, and slime collector which is located above bit. Pumping-out unit is made in the form of piston connected to lower part of pump and compressor pipe string. Piston has delivery valve, and stop which is located in upper part of shank. Also incorporated in pumping-out unit are cylinder in which piston is located, and suction valve which is located between slime collector and piston. Piston stop and lower end of cylinder are adapted for interaction. Device has several slime collectors arranged successively one above other. Application of aforesaid embodiment of device allows to improve efficiency of cleaning well bottom-hole from sediment accumulations. Design of device is simplified and its service life is prolonged. EFFECT: higher efficiency. 1 cl, 1 dwg

Description

 The invention relates to the oil industry and can be used to clean the bottom of the well from sedimentation.

 When solid sediments are removed from the bottom of the well, most of the time is spent on hydromonitor erosion of them, accompanied by repression to the formation and additional blockage of the bottomhole zone by sedimentation destruction products.

 The proposed invention solves the problem of increasing the efficiency of cleaning the bottom of the well from sedimentation by preventing contamination of the bottomhole zone with a liquid containing sediment destruction products.

 The problem is solved in that a device is known for cleaning a well from sedimentation in the form of a choke, lowered on a rope into a well (1). The bailer strikes sedimentation several times, destroying them, captures part of the destruction products and raises them with the bailer to the surface where the bailer is cleaned and again lowered into the well.

 The disadvantage of this device is the need for multiple launches of the choke, which requires a lot of time, as well as incomplete cleaning of the bottom of the well and the impossibility of destruction of solid sedimentation by the chaser.

 A device is known for cleaning a well by flushing the bottom with water injected from the surface along the tubing string (2). The device includes a mobile pumping unit, a lifting unit for lowering pipes, a tubing string and a tip attached to the end of the tubing.

 The disadvantages of this device are associated with the need to use a mobile pumping unit and, most importantly, with the negative consequences of creating excessive pressure on the reservoir, which leads to its clogging by sedimentation destruction products.

 A device for cleaning the bottom of a well from sedimentation is known, including a tubing string suspended in a well on a hoist hoist system with a tee located on the top of the tubing string with a flexible hose and wellhead seal and located at the bottom of the tubing pumping unit (3).

 The pumping unit is a jet apparatus with a wash head, lowered into the well on a column of concentrically twin tubing.

 Sedimentation is destroyed by a stream of liquid when the wash head abuts against the plug.

 The device has a significant drawback, consisting in the need to use double pipe columns, which complicates the design and increases the cost of tripping. Another disadvantage is the presence in the device of the high-pressure pump unit for driving the jet apparatus and the creation of a powerful hydraulic motor jet that destroys solid sedimentation. The pumping unit itself is a complex structure, i.e. provides for the alternate performance of two functions: the destruction of sedimentation and pumping liquid with mechanical impurities. Since the principle of operation of the inkjet apparatus is based on the use of high fluid flow rates, the presence of abrasive particles in the pumped liquid, products of the destruction of sedimentation, leads to rapid wear of the diffuser part of the apparatus, which reduces the life of the device.

 The closest in technical essence to the invention is a device for cleaning the bottom of the well from sedimentation, including a column of tubing suspended in the borehole on a hoist tackle system with a pumping unit located in the lower part of the tubing string, made in the form of an attached to the bottom parts of the piston tubing string with pressure valve and stop located at the top of the liner with a chisel at its lower end of the cylinder, in which Position the piston and the suction valve (4).

 A disadvantage of the known device is the low efficiency of cleaning the bottom of the well from sedimentation, the complexity of the design and low service life.

 The proposed invention "Device for cleaning the bottom of the well from sedimentation" solves the problem of increasing the efficiency of cleaning the bottom of the well from sedimentation, simplifying its design and increasing the service life.

 The problem is solved in that the device for cleaning the bottom of the well from sedimentation, including a tubing string suspended in the borehole on a hoist hoist system with a pumping unit located in the lower part of the tubing string, made in the form of a pumping unit attached to the bottom of the string tubing of a piston with a discharge valve and a stop located in the upper part of the shank with a bit at its lower end, the cylinder in which the piston is located, and the suction the suction valve according to the invention is equipped with a sludge collector located above the bit, a wellhead seal, a tee with a flexible hose located in the upper part of the tubing string, while the suction valve is located between the sludge collector and the piston, and the piston stop and the lower end of the cylinder are made to interact .

 Contributes to the solution of the task that the device contains several sludge collectors located in series one above the other.

 In the proposed invention, the cleaning of the bottom of the well from sedimentation occurs at the same time the destruction of sedimentation and the creation of depression on the reservoir, and the products of the destruction of sedimentation are removed from the well by the fluid coming from the reservoir. Moreover, large particles of sedimentation destruction products are collected and removed from the well after sedimentation destruction.

 Thus, the entire process of destruction and removal of sedimentation occurs at reduced pressure in the well due to the fluid coming from the reservoir. At the same time, the formation is not only not contaminated by the products of destruction, but is also further cleaned. As a result, the efficiency of downhole cleaning increases and the productivity of the well increases.

 A device for cleaning the bottom of the well from sedimentation, shown in the drawing in longitudinal section.

 The device includes a tubing string 1, a hoist system 2 of a lifting mechanism (not shown in the drawing), a tee 3, a flexible hose 4, a wellhead seal 5, a pumping unit in the form of a piston 6 with a pressure valve 7, an emphasis 8, a cylinder 9, a suction valve 10, as well as a shank 11, a chisel 12 with inlets 13, a sludge collector 14.

 The bit 12 is located at the lower end of the shank 11, the sludge collector 14 is located above the bit 12. The pumping unit is attached to the bottom of the tubing string. The piston 6 at the lower end has a valve 7 and an abutment 8. A cylinder 9 is located in the upper part of the shank 11. A piston 6 is located in the cylinder. Valve 10 is located between the sludge collector 14 and piston 6. The abutment 8 and the lower end of the cylinder 9 are designed to interact. The device may contain several sludge collectors 14 arranged in series one above the other (not shown in the drawing). The number of sludge collectors is selected depending on the degree of contamination of the well.

 The device operates as follows. The tubing string 1 is lowered into the well 15 using the hoist tackle system 2 and then, having reached sedimentation 16, it is repeatedly lifted and lowered. Due to this, the bit 12 is destroyed by sedimentation 16 and, due to the depression created on the formation 17, the formation fluid is sucked through the holes 13 in the bit 12 into the lower part of the liner 11.

 To destroy sedimentation 16, the tubing string 1 is lifted to the length of one or more pipes. The shank 11 at the end of the up stroke is detached from sedimentation 16, which is controlled by the weight indicator (not shown in the drawing), and when downward stroke is hit by a bit 12, destroying sedimentation 16. After the impact, a further downward stroke of the piston 6 is accompanied by pumping fluid from the shank 11 into the cavity of the tubing string 1. Valve 7 is open at this time, and valve 10 is closed. The piston 8 does not reach the valve 10 to a distance that provides an unstressed stop of the tubing string 1 at the bottom dead center. When the tubing I is lifted with the piston 6 until the abutment 8 contacts the lower end of the cylinder 9, the formation fluid is sucked up together with sediment destruction products 16. Valve 7 is closed and valve 10 is open. Fracture products at the exit of the slag accumulator 14 lose their speed and the largest of them are deposited in the slag accumulator 14, where they are collected and subsequently removed from the well 15 together with the tubing string 1. Further lifting of the tubing string 1 leads to a new separation of the bit 11 from sedimentation 16 and the repetition the process of their destruction and cleaning of the well 15. The formation fluid pumped out of the well 15 together with the products of the destruction of sedimentation 16 through the tubing string 1 enters through a tee 3 into a flexible hose 4 and then into a container 18 located in the vicinity zi wells 15. To drain the liquid during the extraction of the tubing string 1 to the surface in the lower part of the tubing string 1 there is a whipped fitting 19.

 In order to avoid accidental discharge of fluid from the annulus of the well 15 during its cleaning, a wellhead seal 5 is installed.

 Several slag accumulators 14 may be lowered into the well depending on the amount of sedimentation 16.

 Example 1 specific implementation.

 At the bottom of well N5, a depth of 1200 m with a perforation interval of 1190-1198 m, a plug of sedimentation 16 formed a height of 6 m, which accounts for 75% of the entire perforation zone. As a result, the flow of fluid into the well during its operation decreased from 24 to 11 m / day. A feature of the well is that it operates a highly depleted formation 17 with a high absorption capacity, eliminating the use of conventional flushing. The use of baits to remove the cork is ineffective due to the high hardness of rock particles that have been cemented over many years. Jet monitor plug washing with an inkjet apparatus is also unacceptable, because overpressure in the well during erosion leads to repeated clogging of the formation.

 To restore the flow rate of the well, the bottom is cleaned from sedimentation 16 by the proposed device.

 Sedimentation 16 is destroyed, for which the liner 11 with a shock bit 12 with a diameter of 124 mm is lowered to a depth of 1192 m in a tubing string 1 with a diameter of 73 mm. The pumping unit of the device has a piston 6 with a diameter of 89 mm, with a discharge valve 7 with a diameter of 50 mm, a suction valve 10 with a diameter of 60 mm. Then, using the lifting mechanism, the process of repeatedly moving the equipment up and down to a length of 9 m with a frequency of 2 strokes per minute is carried out. In this case, the shank 11 is detached from sedimentation 16 by 1 m, which is controlled by the weight indicator by increasing the load on the tackle system by 450 kg. During the downward movement of the shank 11 with a chisel 12, hit sedimentation 16 with a mass of 450 kg and destroy them. During the upstroke, the liquid containing mechanical impurities is pumped out with a theoretical capacity of 143 m / day.

 Thus, sedimentation 16 is simultaneously destroyed and depression is created on the formation by pumping fluid out of formation 17. The pumped liquid passing through the destruction zone carries the products of sedimentation 16 destruction from the bottom of the well 15 to the surface. In this case, unlike the prototype, the formation fluid and the products of destruction due to the permanent depression on the formation do not enter the reservoir 17 during the entire cleaning process.

 Example 2. Perform as example 1.

 According to the experience of cleaning neighboring wells, two sludge collectors 14 are lowered into this well 15, in which large particles are collected, which are removed to the surface after the destruction of sedimentation 16 and the lifting of equipment.

 The result of the operations was the complete destruction of sedimentation and restoration of the inflow to 24 m / day.

Sources of information:
1. Muravyov I.M. and Krylov A.P. "Exploitation of oil fields." - M.: Gostoptekhizdat, 1949, p. 746-750.

 2. Bukhalenko EI, Abdullaev Yu.G. "Technique and technology of flushing wells." - M .: Nedra, 1982, p. 67-83.

 3. Bogdanov A.A., Pomazkova Z.S. "Inkjet apparatus for washing sand plugs in a well." - M.: Gostoptekhizdat, 1960, p. 5-19.

 4. US patent N 4924940, CL. E 21 B 37/00, 1990.

Claims (2)

 1. A device for cleaning the bottom of the well from sedimentation, including a tubing string suspended in the well on a hoist hoist system, with a pumping unit located at the bottom of the tubing string, made in the form of a tubing attached to the bottom of the string piston pipes with a discharge valve and a stop located in the upper part of the shank with a chisel at its lower end, the cylinder in which the piston is located, and a suction valve, characterized in that then it is equipped with a sludge collector located above the bit, a wellhead seal, a tee with a flexible hose located in the upper part of the tubing string, while the suction valve is located between the sludge collector and the piston, and the piston stop and the lower end of the cylinder are made with the possibility of interaction.  2. The device according to claim 1, characterized in that it contains several sludge collectors arranged in series one above the other.