RU2747033C1 - Method of well preparation for hydraulic fracturing of reservoir in oil and gas wells - Google Patents

Abstract

FIELD: oil and gas industry.SUBSTANCE: invention relates to the development of oil and gas fields with horizontal and inclined wells, it can be used to prepare oil and gas wells for hydraulic fracturing of reservoir – HFR for the implementation of interval multi-stage HFR. According to the method, a cumulative perforator is lowered into the well. Perforation is performed in the inclined or horizontal sections of the production column, the cement ring space and the rock of the productive reservoir. Packer plugs are installed in the inclined or horizontal sections of the production column. Previously, reference pipes are installed in the well shank in every 50-75 m, or a packer suspension of the shank is used as a reference point. Before launching into the well, the equipment that is launched into the well is assembled to prepare the well for hydraulic fracturing of reservoir – HFR. The assembly includes a packer plug, a landing chamber, and sections of a cumulative perforator from one to six cases connected in series from the bottom to the top. These sections include a transfer connector with an electric detonator, a load section, a magnetic coupling locator, and a cable tip for connecting to a load-bearing geophysical cable. Before launching the above-mentioned equipment assembly, the well is templated. The connection of the cable tip with the load-bearing geophysical cable is carried out. Through the lubricator installed at the wellhead, the above-mentioned equipment assembly is launched into the well on a load-bearing geophysical cable. On the vertical section of the well, the launch is made under its own weight. The movement of the assembly is tracked on the locator of the couplings relatively to the reference pipes. After entering the inclined or horizontal section, a pump is turned on to supply the process fluid with a flow rate of 0.5 to 1.8 m3/min. The equipment assembly is positioned in the planned interval and the landing chamber for installing the packer plug is activated, then the equipment assembly is disconnected from the packer plug and the equipment assembly is lifted at least 2 meters from the installed packer plug. Perforation of the well is performed by initiating a cumulative perforator. If there are more than one cumulative perforators, then the layout is moved to each subsequent planned interval of perforation. The cumulative perforators are sequentially initiated. Upon completion of the well perforation, the spent equipment assembly is lifted into the lubricator. The root valve of the fountain reinforcement is closed and the spent assembly of the equipment is removed from the lubricator. Before the start of HFR, the ball is discharged into the well. Then the root valve is closed for cutting off the lubricator and the ball is pumped with a liquid flow rate of 0.8 to 2.0 m3/min before landing of the packer plug in the seat. The well is considered ready for HFR.EFFECT: proposed is well preparation for hydraulic fracturing of reservoir.1 cl, 6 dwg

Description

The invention relates to methods for the development of oil and gas fields with horizontal and inclined wells and can be used to prepare oil and gas wells for hydraulic fracturing (hydraulic fracturing) for the implementation of interval multistage hydraulic fracturing (MSHF).

There is a known method of interval hydraulic fracturing in a horizontal wellbore, which discloses a method of preparing a well for hydraulic fracturing, including drilling a horizontal wellbore in a productive formation with cementation of the annular space between the casing and the rock, lowering into the horizontal wellbore on a perforator pipe string and making perforations in a horizontal wellbore (see patent for invention RU No. 2558058, class E21B 43/27, publ. 2015).

The method disclosed in this invention for forming a well with a horizontal wellbore in a productive formation provides for sequential perforation in a selected interval of the well followed by hydraulic fracturing, requires, during development or repair of a well, multiple repetitive operations for the formation of equipment lowered into the well and multiple operations to run it and lifting, which leads to the need for complex and time-consuming technological operations, which have a significant impact on the rate of well completion.

The closest to the invention in technical essence and the achieved result is a method of preparing a well for hydraulic fracturing in oil and gas wells, which consists in the fact that a cumulative perforator is run, perforation is performed in the horizontal sections of the production string of the cement annular space and the formation rock and is installed in horizontal sections of the production string of the packer plug (see patent for invention RU No. 2634134, class E21B 43/267, publ. 24.10.2017).

This method eliminates the use of expensive equipment, reduces the number of coiled tubing (CT) trips, performs high-speed hydraulic fracturing and minimizes the amount of time required to drill out composite packer plugs and squeeze balls.

However, this method involves performing repeated operations for perforating a selected interval of the well, followed by hydraulic fracturing of the perforated section, and then re-running a perforator into the well to perforate the next section of the well and then performing hydraulic fracturing of this section, etc. This method of preparing a well in hydraulic fracturing leads to the need to carry out several operations for lowering and lifting equipment for perforating several sections of the well, which complicates the process of preparing a well when performing hydraulic fracturing in a selected section of the productive formation.

The technical problem solved in the invention is to overcome the problems identified in the known methods of preparing a well for hydraulic fracturing.

The technical result consists in the fact that it is possible to reduce the preparation time of the well in the zone of the productive formation with the provision of the possibility of sequential perforation of several sections of the productive formation in the course of one operation to run equipment into the wells with the exception of the operation of drilling the packer plug during hydraulic fracturing of the well.

The specified technical problem is solved, and the technical result is achieved due to the fact that the method of preparing a well for hydraulic fracturing (hydraulic fracturing) in oil and gas wells is that a cumulative perforator is lowered into the well, perforation is performed in inclined or horizontal sections of the production string cement annular space and rock of the productive formation, set in the inclined or horizontal sections of the production string, the packer plugs, while preliminarily in the liner of the well, reference pipes are installed every 50-75 meters or a liner hanger packer is used as a benchmark, and before running into well, the equipment is assembled into the well for preparation of the well for hydraulic fracturing, including the sequentially connected packer plug, the landing chamber, sections of the cumulative perforator from one to six bodies, which are connected in series from bottom to top. a water connector with an electric detonator, a load section, a magnetic locator of couplings and a cable lug for connection with a load-carrying geophysical cable, before lowering the above-described assembly of equipment, the well is gauged, the cable lug is connected to the load-carrying geophysical cable, and then, through the lubricator installed at the wellhead, the lowering is performed into the well on a load-carrying geophysical cable of the above-described equipment assembly, and in the vertical section of the well, the descent is carried out under its own weight, the movement of the sleeves along the locator is monitored relative to the reference nozzles, and after entering the inclined or horizontal section, a pump is turned on for supplying process fluid with a flow rate of 0.5 up to 1.8 m ³ / min for pumping the equipment assembly, position the equipment assembly in the planned interval, activate the landing chamber after installing the packer plug with subsequent disconnection of the equipment assembly from the packer plug and raise the assembly equipment at least 2 meters from the installed packer plug and perforate the well by initiating a cumulative perforator, and if there are more than one cumulative perforators, then move the assembly to each subsequent planned perforation interval and initiate cumulative perforators, and then upon completion of well perforation the spent assembly of equipment is lifted into the lubricator, the main valve of the Christmas tree is closed and the spent assembly of equipment is removed from the lubricator, after which, before the start of hydraulic fracturing, the ball is discharged into the well, after which the main valve is closed to cut off the lubricator and the ball is pumped with a liquid flow rate of 0 , 8 m3 / min to 2.0 m3 / min before landing in the saddle of the packer plug, after which the well is ready for hydraulic fracturing.

In the course of the research work, it was revealed that it is possible to run into the well and initiate equipment assemblies via a geophysical cable, which transmits various coded electrical impulses, with one impulse initiating a powder charge for installing and disconnecting the packer plug from the planting tool, and the other the impulse is initiated by the cumulative perforator itself, while it is possible to initiate several sections of perforators in series or in any sequence, and it is possible to install the packer plug and perforate in one running operation. In the vertical section of the well (up to 65 °), it is possible to lower the equipment assembly under its own weight, and the lowering speed can reach up to 8000 meters per hour, and after the completion of the preparation of the productive formation interval, the spent equipment assembly can be removed to the surface at a speed of up to 8000 meters. at one o'clock. Thus, the above-disclosed sequence of technological operations makes it possible to achieve the above technical result and to solve the identified technical problems.

FIG. 1 shows the assembly of equipment for preparing a well for hydraulic fracturing.

FIG. 2 shows the descent on a geophysical cable into the pay zone of the equipment assembly.

FIG. 3 shows the operation of withdrawing the equipment assembly from the installed packer plug.

FIG. 4 shows the operation of perforating the first section of the reservoir.

FIG. 5 shows the operation of perforating the second section of the reservoir.

FIG. 6 shows a section of the well prepared for hydraulic fracturing in the zone of the productive formation.

To prepare the well for hydraulic fracturing, the equipment is assembled on the surface, including the packer-plug 1, the landing chamber 2, sections of the cumulative perforator 3, including the sub-connector with the electric detonator, the load section 4, the magnetic locator connected in series from bottom to top. couplings 5 and cable lug 6 for connection with a load-carrying geophysical cable 7.

The method of preparing a well for hydraulic fracturing (hydraulic fracturing) in oil and gas wells is implemented as follows.

Preliminarily, reference nozzles are installed in the well liner every 50 - 75 meters or a liner hanger packer is used as a benchmark, and before running into the well, equipment is assembled to prepare the well for hydraulic fracturing, including a packer connected in series from bottom to top. - plug 1, landing chamber 2, sections of a cumulative perforator 3 from one to six cases, including a sub-connector with an electric detonator, section-weight 4, a magnetic locator of couplings 5 and a cable lug 6 for connection with a load-carrying geophysical cable 7.

Before lowering the above-described assembly of equipment, the well is sledged, and then the cable lug 6 is connected to the carrying geophysical cable 7.

Further, through the lubricator installed at the wellhead, the lowering into the well is performed on the carrying geophysical cable 7 of the above-described assembly of equipment.

In the vertical section of the well, the descent is carried out under its own weight, and after entering the inclined or horizontal section, a pump (not shown in the drawings) is turned on to supply the process fluid with a flow rate of 0.5 to 1.8 m ³ / min for pumping the equipment assembly. Trace the movement on the locator of the couplings 5 relative to the reference nozzles and position the assembly of the equipment in the planned interval. Then, the landing chamber 2 is activated by installing the packer plug 1 with the subsequent disconnection of the equipment assembly from the packer plug 1.

Next, the equipment assembly is raised at least 2 meters from the installed packer plug 1 and the well is perforated by initiating the cumulative perforator 3.

If there is more than one cumulative perforating gun 3, then the assembly is moved to each subsequent planned perforation interval and the cumulative perforating guns 3 are sequentially initiated, and then upon completion of the well perforation, the spent equipment assembly is lifted into the lubricator, the main valve of the Christmas tree is closed and the spent equipment assembly is removed from lubricator.

Before the start of hydraulic fracturing, the ball is dumped into the well, after which the main valve is closed to cut off the lubricator and the ball is pumped with a fluid flow rate from 0.8 m ³ / min to 2.0 m ³ / min until the packer plug 1 lands in the saddle, after which the well with perforation 8 prepared in the productive formation is ready for hydraulic fracturing.

Claims (1)

A method of preparing a well for hydraulic fracturing in oil and gas wells, consisting in the fact that a cumulative perforator is lowered into the well, perforating in inclined or horizontal sections of the production string, cement annulus and rock of the productive formation, is installed in inclined or horizontal sections of the production string of the packer-plug, characterized in that reference nozzles are preliminarily installed in the well liner every 50-75 m or a liner hanger packer is used as a benchmark, and before running into the well, the equipment is assembled to prepare the well for hydraulic fracturing formation - hydraulic fracturing, including a packer-plug, a landing chamber, sections of a cumulative perforator from one to six bodies, including a sub-connector with an electric detonator, a section-load, a magnetic locator a sleeves and a cable lug for connection with a load-carrying geophysical cable, before lowering the aforementioned assembly of equipment, the well is gauged, the cable lug is connected to a load-carrying geophysical cable, and then, through a lubricator installed at the wellhead, the aforementioned equipment assembly is lowered into the well on the load-carrying geophysical cable , moreover, in the vertical section of the well, the descent is carried out under its own weight, the movement of the sleeves along the locator relative to the reference nozzles is monitored, and after entering the inclined or horizontal section, the pump is turned on for supplying the process fluid with a flow rate of 0.5 to 1.8 m ³ / min for pumping the equipment assembly, position the equipment assembly in the planned interval, activate the landing chamber to install the packer plug with the subsequent disconnection of the equipment assembly from the packer plug and raise the equipment assembly at least 2 meters from the installed packer plug and perforating the well by initiating a cumulative perforator, and if there are more than one cumulative perforating gun, then the assembly is moved to each subsequent planned perforation interval and the cumulative perforators are sequentially initiated, then upon completion of the perforation of the well, the spent assembly of equipment is lifted into the lubricator, the main valve is closed X-mas tree and remove the used assembly of equipment from the lubricator, after which, before the start of hydraulic fracturing, the ball is discharged into the well, after which the main valve is closed to cut off the lubricator and the ball is pumped with a liquid flow rate from 0.8 to 2.0 m ³ / min to landing in the saddle of the packer plug, after which the well is ready for hydraulic fracturing.

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