RU92466U1 - DEVICE FOR INTEGRATED PROCESSING OF PRODUCTIVE LAYERS (OPTIONS) - Google Patents

Abstract

1. A device for the integrated treatment of productive formations, including a jet pump and a packer installed on a tubing string (tubing), characterized in that it further comprises a slotted perforator installed at the bottom of the tubing string. ! 2. The device according to claim 1, characterized in that the perforator is equipped with at least one hydraulic nozzle, installed with the possibility of directional supply through it through the tubing of the opening fluid for the formation of caverns in productive formations, as well as fluid for acid treatment (chemicals). ! 3. The device according to claim 1 or 2, characterized in that the perforator is made double-sided with the possibility of simultaneous formation of two diametrically located slots in the column. ! 4. A device for the integrated treatment of productive formations, including a jet pump and a packer installed on a tubing string (tubing), characterized in that it further comprises a hydromechanical piercing hammer installed in the bottom of the tubing string. ! 5. The device according to claim 4, characterized in that the hammer is equipped with two or more punches (piercing elements). ! 6. The device according to claim 4 or 5, characterized in that the perforator is equipped with at least one hydrochannel made in the punch (piercing element) of the perforator with the possibility of directional supply of opening fluid through it along the tubing to form caverns in productive formations, as well as liquid for acid treatment (chemicals).

Description

The utility model relates to the oil and gas industry, to the field of drilling and well operation, and in particular to devices for the secondary opening and acid treatment of productive formations in order to intensify oil and gas production.

Known are the technologies for treating productive formations in order to stimulate the inflow, including the secondary opening of the production string by a cumulative perforator, possible subsequent acid treatment of the bottom-hole formation zone (PZP), and cleaning the well of reaction products by creating a depression using an inkjet unit including a jet pump and a packer (SU 1570384 A1, MPK-6 Е21В 43/11, 05/10/1996; SU 1572084 A1, MPK-6 Е21В 43/11, 11/20/1996; RU 2015317 C1, MPK-5 Е21В 49/00, 06/30/1994 g .; RU 2170857 C1, MPK-7 F04F 5/54, 07/20/2001; RU 2188342 C1, MPK-7 F04F 5/54, 08/27/2002) The main disadvantage The trick of these technologies is the use of unsafe cumulative, explosive perforations.

The safer and more efficient slot perforation technologies are known from the prior art: RU 2254451 C1, MPK-7 ЕВВ 43/112, 20.06.2005; RU 2239053 C1, IPC-7 E21B 43/114, 10.27.2004; RU 2247226 C1, IPC-7 ЕВВ 43/112, February 27, 2005; RU 2249678 C2, MPK-7 Е21В 43/112, April 10, 2005; RU 2282714 C1, IPC Е21В 43/114, ЕВВ 43/22, 08/27/2006; hydromechanical piercing perforations EA 010346 B1, IPC Е21В 43/112, 08/29/2008; RU 2172394 C1, IPC-7 Е21В 43/112, 08/20/2001; RU 2070959 C1, IPC 6 Е21В 43/11, 12/27/1996; RU 2043486 C1, IPC 6 ЕВВ 43/114, 09/10/1995, fairly effective devices are known that use the hydromonitor effect of jets during acid treatment, which significantly increases the efficiency of acid treatment and helps to achieve greater permeability of productive formations (patents RU 2258804 C2, MPK-7 Е21В 43/27, Е21В 37/06, 08/20/2005; RU 2205950 C1, MPK-7 Е21В 43/27, 10/10/2003). However, well-known technologies for the use of slotted and piercing perforators, as well as for acid treatment devices, usually require sequential descent of devices into the well for each stage of stimulation, each technological operation in the well (perforation, acid treatment, well cleaning) involves tripping operations of the corresponding device (perforator, jet installation).

The objective of the proposed utility model is to create an integrated device that allows, firstly, to carry out all the work on processing and development of the well in one round trip and, secondly, to increase the efficiency and safety of operations involving the processing of productive formations.

Closest to the proposed utility model is the device disclosed in the patent for invention RU 2213277 C1, IPC-7 F04F 5/54, ЕВВ 43/25, 09/27/2003, which is taken as a prototype.

The prototype device is a downhole jet installation, which includes a jet pump installed on tubing (tubing) with a passage through which a perforator with a sealing unit located above it, a packer and a liner with a funnel can be lowered into the well, moreover, for pumping chemicals into the zone of the reservoir in the passage channel, a blocking insert with a through passage channel is installed.

The prototype device is placed in the well, pumped through the tubing and through the bypass channel of the blocking insert the chemicals in the zone of the reservoir, unpack the packer, remove the blocking insert, put the drill into the well on the wireline and the sealing unit located above it, install the perforator in the specified interval of the reservoir with an accuracy of 0.2 m, perforation of the reservoir is carried out in the mode of repression of a liquid column in it on the well, crushed in active reagent chemicals, the volume of which allows chemicals to penetrate into the reservoir at a distance of at least 4 well radii, affect the reservoir with depressions and repressions by periodically supplying the working fluid to the nozzle of the jet pump, and pump out the reaction products by the jet pump from the borehole zone of the reservoir. and reservoir fluids and control flow rate measurement, act on the reservoir with instant cyclic depressions-repressions and conduct repeated control flow rate measurement, when the depression-repression cycles are repeated until stabilization of the flow rate is achieved, after which a logging cable with a sealing unit and perforator remains is removed from the well and using the downhole jet unit and the emitter and receiver-transducer of physical fields, ultrasound emitter, interchangeable functional inserts lowered into the well to research and improve the well’s productivity or take measures to launch the well into operation.

Thus, the prototype achieves the optimization of the operating mode of the downhole jet installation, which, in combination with the use of a perforator and chemical treatment of the reservoir, allows the well to create conditions for obtaining the maximum possible production rate of the produced medium from the formation.

The main disadvantage of the prototype is the technical limitations on the use in combination with it of other perforators, in addition to cumulative (explosive), due to the need to lower the perforator on the wireline cable. Cumulative perforation creates an impact on the casing and can cause negative consequences associated with this - a violation of the integrity of the cement ring below and above the perforation interval, which can lead to annular flows. When cumulative perforation is used, especially in terrigenous sandstones, glass forms in the near-stem part of the formation and compaction of the adjacent rock occurs, which severely clogs the PPP. In some cases of explosive perforation, in the absence of a centering system, axial displacement of the cumulative charge arrangement lowered into the well can occur, which, when the perforator is triggered, causes the formation of local swelling of the column and a number of poor-quality holes and channels. In addition, with cumulative (explosive) perforation, the risk of ignition increases, which reduces the level of work safety.

Another disadvantage of the prototype is the presence during its use of additional operations for tripping devices, in particular a perforator.

The proposed utility model eliminates these shortcomings by incorporating a slotted punch or a perforating punch into its design and combining well-known downhole devices into a single multifunctional installation, which leads to the achievement of the following technical results:

1. Reducing the time spent on processing and well development.

2. Ensuring the safety of work.

3. Reducing the effect of colmatization of PZP and increasing the efficiency of acid treatment.

According to a utility model, a device for complex treatment of productive formations, including a jet pump and a packer installed on a tubing string, further comprises a slotted hammer drill installed in the bottom of the tubing string. The specified perforator can be equipped with hydraulic nozzles, installed with the possibility of directional supply through them through the tubing of the opening fluid for the formation of caverns in productive formations, as well as fluid for acid treatment (chemicals).

It is preferable to include in the inventive device a double-sided slotted punch, which enables the simultaneous formation of two diametrically located slots in the column, for example, the punch according to the invention patent RU 2249678 C2, MPK-7 ЕВВ 43/112, April 10, 2005. Compared with single-sided slotted punchers, double-sided perforators provide more efficient and faster opening of the production casing.

An embodiment of the utility model is also proposed, according to which a device for the integrated treatment of productive formations, including a jet pump and a packer installed on a tubing string, further comprises a hydromechanical piercing drill installed in the lower part of the tubing string. The piercing punch can be made with a hydrochannel (s) in a punch (s), through which directional injection of opening fluid through the tubing can take place to form caverns in productive formations, as well as fluid for acid treatment (chemicals). In particular, a piercing drill according to patent EA 010346 B1, IPC ЕВВ 43/112, 08/29/2008 can be used in the device.

The inventive device allows for one descent to conduct safe opening of the production string using a slotted or piercing punch, to carry out the washing of caverns in the PZP in the presence of hydromonitor nozzles or hydraulic channels of the punches, and then to immediately acidify the PZP, followed by pumping the reaction products using a jet pump and well development. When using the device, the time between the opening of the column and the acid treatment of the PPP is minimized, the time of the exposure of the working fluid (opening fluid) to the formation is reduced, which reduces the maturation of the PPP and increases the efficiency of acid treatment due to faster and deeper penetration of chemicals into the reservoir.

In the process of acid treatment, chemicals are injected

a) through the tubing through the hydraulic nozzles of the slotted punch or the hydraulic channels of the punches of the piercing punch, or

b) directly through the tubing in a known manner, previously stopping the circulation of fluid in the hydraulic nozzles or hydraulic channels of the punch by knocking down the check valve of the punch or otherwise, or

c) sequentially in both ways.

The supply of chemicals through the hydraulic nozzle nozzles (gantry holes of the punch) of the perforator allows, in addition to the chemical, also directed mechanical action on the bottomhole formation zone, which actively destroys colmatant and increases the permeability of formations.

The use of a packer allows the injection of chemicals into the PPP, including through a perforator, at a pressure higher than the pressure of the production casing without affecting the casing, which reduces the injection time and, in some cases, promotes deeper penetration of chemicals into the reservoir. packer, it is possible to carry out a cyclic hydrodynamic effect on the formation, including at elevated pressure, in order to intensify the inflow and increase the injectivity of the formation.

The inventive device in one of the possible types of its execution is shown in the drawing.

The device contains sequentially mounted on the tubing string 1 from top to bottom, a crimping unit 2, a plug-in jet pump 3, a packer 4 and a double-hole slotted drill 6 equipped with hydraulic nozzles 7 installed in the lower part of the tubing 1 7. The hammer drill can be made with a check valve 8.

The device operates as follows.

The device is lowered into the well on the tubing string 1 until the perforator 6 reaches the specified interval 9 of perforation, the column is opened by forming perforation slots, the caverns are washed with the opening fluid supplied to the formed perforation slots through the hydraulic nozzles 7 of the perforator 6, the well is washed, the tubing 1 is crimped, carry out the unpacking of the packer 4, determine the presence of inflow or injectivity of the reservoir by known methods. If necessary, carry out a series of works on the hydrodynamic effects on the reservoir to increase injectivity. Then, chemicals are pumped through the tubing 1 through the hydromonitor nozzles 7 of the perforator 6, or directly by the tubing 1 in a known manner, previously stopping the circulation of fluid in the hydromonitor nozzles 7, for example, by knocking the check valve 8 of the perforator 6, or in both ways, first through the hydromonitor nozzles 7 and then directly via tubing 1. After this, the necessary technological endurance is carried out, at the end of the reaction time the reaction products are removed from the well by creating a depression and to the formation by the jet pump 3, and the well is being developed.

If the device has, as an option, a hydromechanical piercing punch, the device works in the same way: the device is lowered into the well on the tubing string until the punch reaches the specified perforation interval, the column is opened by forming holes with one or more punches (piercing elements) of the punch, the caverns are washed with the opening fluid fed into the formed perforations through the hydraulic channels of the perforator punches, washed the well, conduct op essovku tubing packer performed, specify the presence of inflow or injectivity of the formation by known methods. If necessary, carry out a series of works on the hydrodynamic effects on the reservoir to increase injectivity. Then, chemicals are injected through the tubing through the hydraulic channels of the punch drills, either directly through the tubing in a known manner, previously stopping the circulation of fluid in the hydraulic channels of the punch, for example, by knocking the check valve of the punch, or in both ways, first through the hydraulic channels of the punch and then directly through the tubing. After this, the necessary technological endurance is carried out, at the end of the reaction time, the reaction products are removed from the well by creating a depression on the formation with a jet pump, and the well is developed.

Using the proposed device options allows to reduce by an average of 1.5 days the total time spent in the well a complex of works on stimulation of the inflow, which confirms the economic efficiency of the utility model.

Claims (6)

1. A device for the integrated treatment of productive formations, including a jet pump and a packer installed on a tubing string (tubing), characterized in that it further comprises a slotted perforator installed at the bottom of the tubing string. 2. The device according to claim 1, characterized in that the perforator is equipped with at least one hydraulic nozzle, installed with the possibility of directional supply through it through the tubing of the opening fluid for the formation of caverns in productive formations, as well as fluid for acid treatment (chemicals). 3. The device according to claim 1 or 2, characterized in that the perforator is made double-sided with the possibility of simultaneous formation of two diametrically located slots in the column. 4. A device for the integrated treatment of productive formations, including a jet pump and a packer installed on a tubing string (tubing), characterized in that it further comprises a hydromechanical piercing hammer installed in the bottom of the tubing string. 5. The device according to claim 4, characterized in that the hammer is equipped with two or more punches (piercing elements). 6. The device according to claim 4 or 5, characterized in that the perforator is equipped with at least one hydrochannel made in the punch (piercing element) of the perforator with the possibility of directional supply of opening fluid through it along the tubing to form caverns in productive formations, as well as liquid for acid treatment (chemicals).