RU2786703C1 - Method for carrying out downhole operations and research using an autonomous mobile complex - Google Patents

Abstract

EFFECT: oil and gas industry.

SUBSTANCE: invention relates to the oil and gas industry and can be used in the operation of wells in all modes of their operation in the development of oil and gas fields, including geophysical studies of wells with a horizontal extended end and wells with a complex profile. The method for conducting downhole surveys using an autonomous mobile complex includes delivery to the facility a set of equipment, apparatus and tools; carrying out installation operations at the well for installation at the wellhead and fastening with the help of a preventer’s own mast, a multi-chamber sealing device, an injector, a wellhead platform for assembly maintenance, a sectional lubricator unit with an anti-draught, a bleed valve and a metering device for monitoring pressure in the inter-chamber space; carrying out round-trip operations of a flexible steel-polymer pipe (GSPT), a rigid geophysical cable (LC) with fixed on a pipe tip with downhole tools, downhole geophysical equipment and equipment in accordance with the implemented technology; laying HSPT, LCD on the drum of the lifting unit (SPA); supply of process fluids and chemicals into the well through the injection line and GSPT from an external source at the wellhead. At the same time, the parameters of tripping operations (SPO) are controlled using a software package that allows you to keep a strict record of all manipulations at the wellhead, as well as the downhole space with the registration of parameters on the autonomous memory of the device of the operator console of the SPA with the possibility reading and processing the received data. In addition, they record the speed of movement of the HSPT, LC during their movement in the well, the axial loads created by the injector or the winch of the SPA, the depth of the tripping operations, wellhead temperature and pressure, the pressure of the process fluid injection into the well through the injection line and the HSPT, the flow rate of the liquid , gas through the injection line carried out using a ground device. Registration of the obtained geophysical material is carried out with the help of a recorder located in the laboratory compartment, by means of the conductive cores of the GSPT through a hydrocollector located on the winch drum of the SPA.

EFFECT: implementation of a set of measures to improve the efficiency of the work being carried out.

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Description

The invention relates to the oil and gas industry and can be used in the operation of wells in all modes of their operation in the development of oil and gas fields. In particular, it is designed to restore the working condition of the well during operation and can be used during the repair and development of wells, as well as when performing geological and technical measures to stimulate oil and gas production, including geophysical surveys of wells with a horizontal extended end and wells, having a complex profile.

The closest to the claimed technical solution is a method according to a patent for a technological complex for recovering the operating state of an oil and gas well with a horizontal and / or sub-horizontal ending during operation (RF Patent No. 115821), including those connected to wellhead equipment with a flare line in accordance with the technological cycle, at least two mobile installations with a string of flexible tubing, one of which is designed for geophysical surveys and delivery of instruments and tools to the well, and the second for flushing the bottomhole part of the well; as well as a geophysical station with a set of geophysical instruments connected to the first installation of coiled tubing, equipment for flushing "non-working" sections of the well, while a geophysical cable for transmitting data recorded by geophysical instruments is placed in the coiled tubing of the first installation, and the connection of geophysical devices with a string of coiled tubing is made sealed by means of a transition unit - a connector with a special connector - a cable lug, the second installation with coiled tubing, designed for flushing the bottomhole part of the well, is located on a movable platform, for example, a vehicle platform, a drum with a string of flexible tubing, configured to be connected to the hydraulic system of the first unit and to the equipment for flushing the well. The first installation consists of a drum with coiled tubing mounted on the overframe of the vehicle, an injector with a guide chute (gooseneck), a block of preventers, a shelter and a manipulator equipped with a hydraulic drive, an additional high-pressure hydraulic pump to maintain the required pressure of the process fluid in the flexible pipe . Equipment for flushing “non-working” sections of the well includes a mobile nitrogen unit, which includes transportation tanks with liquid nitrogen, a nitrogen convector for converting liquid nitrogen into gaseous, a pumping unit for supplying a chemical reagent, a recirculation tank for formation fluid connected to the wellhead through well fluid choke unit, as well as a pumping unit for downloading reservoir fluid into transportation tanks for subsequent disposal, while the pumping unit and the mobile nitrogen unit are connected via high-pressure pipelines through a high-pressure manifold to a coiled tubing string of the second unit intended for flushing bottomhole part of the well.

The disadvantage of this technical solution is the dependence of all components and assemblies on the supply of imported spare parts, low maintainability in the field, the presence of a complex design of wellhead equipment, which in turn affects the long period of well logging during operation. Correspondingly, increasing the total period of work.

The technical problem is the need to create a method for conducting downhole surveys by creating an innovative self-propelled specialized lift operating with a flexible steel-polymer pipe (FSPT), a specialized rigid geophysical cable of a full construction length of 4000 - 5500 meters without joints and transitions, which implements a number of technological tasks in wells, namely : geophysical surveys and work in wells (GIRS), including those with a horizontal ending and wells with a complex profile, hydrodynamic surveys (HDR), the elimination of hydrate, paraffin and asphaltene deposits (LHPP), normalization of the bottom of wells, treatment of the bottomhole formation zone with chemical reagents , development of wells, repair and maintenance of capillary pipelines (KPMT), flexible pipes (TG) during the operation of oil and gas wells.

The technical result consists in the implementation of a set of measures to improve the efficiency of the work being carried out.

The method for conducting downhole surveys using an autonomous mobile complex includes delivering to the work site on public roads the equipment included in its set and equipment and tools used in the performance of work, performing installation operations on the well for installation at the wellhead and fixing the included in the kit using own mast, preventer, multi-chamber sealing device (MGU-01), injector (IS-01), wellhead platform for assembly maintenance, sectional lubricator unit with anti-dragging, bleed valve and metering device for pressure control in the inter-chamber space.

Then tripping operations are carried out on a flexible steel-polymer pipe (GSPT), a rigid geophysical cable (LC) with special downhole tools fixed on a pipe tip (TN-01U), downhole geophysical equipment and equipment in accordance with the technology being implemented.

The next step is the orderly laying of the HSPT, LC on the drum of the tripping unit (SHA) in accordance with the specified algorithm of the laying process, the supply of various process fluids and chemicals into the well through the injection line and the HSPT (from an external source at the wellhead).

At the same time, the control of the parameters of tripping operations (TP), namely the depth and speed of the trip of a flexible steel-polymer pipe, KPMT, a specialized rigid geophysical cable into the well, rotation of the winch drum of the power unit (control of rotation speed and load), tension of the flexible steel-polymer pipe, KPMT, specialized a rigid geophysical cable of a full construction length of 4000-5500 meters without joints and transitions, as well as additional control of the load on the injector during tripping for trouble-free operation when landing a tool at the bottom, is carried out using a specialized software package that allows you to keep a strict record of all manipulations at the wellhead, and as well as downhole space with registration of parameters to the autonomous memory of the device of the SPA driver's console with the possibility of reading and processing the received data.

Registration of the speed of movement of the HSPT, LC during their movement in the well, axial loads created by the injector or winch of the SPA, the depth of the tripping operations, wellhead temperature and pressure, the pressure of the process fluid injection into the well through the injection line and the GSPT, the flow rate of the liquid, gas through the injection line carried out using a ground device ("black box").

Registration of the obtained geophysical material (for example: high-frequency isoparametric logging, radioactive logging during well operation, gyroscopic inclinometry with small-sized equipment in online registration mode, gamma ray logging, acoustic logging, electromagnetic flaw detection in wells with a horizontal end, etc.) carried out with the help of a registrar located in the laboratory compartment, by means of conductive cores of the GSPT through a hydrocollector located on the SPA winch drum.

During the work, a panoramic video monitoring of the wellhead and laboratory compartment is carried out with continuous recording for 30 days (video recording must be made on a removable media).

The autonomous mobile complex contains an all-wheel drive, off-road chassis (possibly a semi-trailer), a control cabin (laboratory compartment), a hoisting unit (SLA) with a hydraulic collector for connecting the conductive cores of the GSPT to the registrar, a flexible steel-polymer pipe (GSPT), an injector, a multi-chamber sealing device, a mast , an installation platform for performing work at the wellhead, a preventer (PPK), a transportation platform, a pipelayer, an upper block balance (measuring roller), outriggers, an emergency (duplicated) hydraulic system, an AMK hydraulic system control panel, an AMK automated control console, a line supply of technological liquids (IPK ТМ.62.70.10.00-05), flow line, hydraulic system tank, lighting system, external warning system, autonomous generator, high-pressure plunger pumping unit, laboratory compartment

The upper equipment is mounted on the off-road vehicle chassis. Overall dimensions and axial loads with the condition of full winding of the building length of the GSPT (5500m) should ensure unhindered movement on public roads.

The total mass of the AMK must not exceed the total mass regulated by the chassis manufacturer. The laboratory compartment is intended for carrying out work on objects with the simultaneous presence of 3 specialists of the brigade inside the compartment. The main console for managing and monitoring the work being done is located in the laboratory compartment. The room must be equipped with a microclimate system for working conditions equated to the regions of the Far North. The AMK console must be equipped with monitors for the external video monitoring system. The compartment must be equipped to accommodate the geophysical data recorder and auxiliary equipment. The laboratory compartment is the main place of field work for the foreman and driller (driver) of the AMK.

The SPA winch must accommodate 5500 (m) of the building length of the GSPT with an outer diameter of 44.5 (mm), the weight of the construction meter of the GSPT is 2.0 - 2.3 (kg), a specialized rigid cable without joints and transitions of at least 4500 (m) of the outer diameter 38 (mm). The pulling force of the DSL should ensure the complete extraction of the HSPT from the well with possible tightening of the HSPT up to 14 tons. The winch of the SPA should take into account the speed of the drum as an additional means of controlling the overall length of the SHPT (the presence of a speed sensor with the ability to output data to the console in the laboratory compartment). A reservoir with a hydraulic channel provides data transmission from downhole geophysical equipment to a geophysical material recorder with simultaneous fluid supply through the hydraulic channel.

The pulling force of the injector is 5 tons. The maximum working wellhead pressure is not less than 35 (MPa). The injector must provide control of the tracks by a hydraulic drive from the laboratory compartment. The injector drive overlays must ensure that the HSPT/SLC is not damaged during the trip. The injector must be provided with a strain gauge weight control for additional control of axial loads during tripping.

The maximum operating wellhead pressure of the multi-chamber sealing device is 35 MPa. A prerequisite for sealing is the preservation of the mobility of the GSPT during the SPO. The sealing device must be equipped with an overpressure relief valve between the assembly chambers. The sealing device must be provided with a sensor for visual control of excess wellhead pressure.

The mast is installed with a carrying capacity that allows accident-free tripping of equipment into the well, as well as installation of wellhead equipment without the involvement of additional special equipment. The mast must be equipped with lighting devices in accordance with the rules and regulations of industrial safety during work.

The working platform for maintenance of wellhead equipment must comply with the requirements of the standards of PJSC "NK" Rosneft in the field of industrial safety, taking into account the requirements for work by personnel at height.

A four-blade preventer must ensure trouble-free work at the facility, ensure complete sealing of the well in the event of an oil and gas intrusion.

The preventer must be equipped with two control systems:

1) Hydraulic by means of remote control from the laboratory compartment

2) Mechanical, directly by handwheels at the wellhead.

The preventer must be provided with a set of spare ram sizes for timely maintenance directly during work at the facility.

A transport platform should be provided on the chassis of the AMK "YUGRA" to allow unhindered maintenance and transportation of wellhead equipment.

Wellhead equipment must be rigidly fixed to the transportation platform during movement.

The pipelayer automatically lays the SHPT on the drum of the SPA winch. Have a hydraulic / electric corrector for laying GSPT, SZHK during the SPO.

The upper block-balance (measuring roller) ensures trouble-free work. Must be provided with an ice cutter for work in the winter. It has an automatic system for controlling depth, speed and weight during work at the facility with the ability to output data to the console in the laboratory compartment. It has in its design a displacement limiter for the GSPT / SZhK beyond the guide stream of the measuring roller.

Outriggers provide safe installation of AMK "YUGRA" at the facility using a level gauge / inclinometer.

The emergency hydraulic system for winch drum drive and wellhead equipment control must ensure complete accident-free extraction of the SHPT from the well due to failure of the main one.

The control panel of the AMK "YUGRA" hydraulic system ensures safe work during the installation and dismantling of the AMK "YUGRA" and equipment at the facility. Must be equipped with a set of means for visual control of the hydraulic system performance.

The automated control console of AMK "YUGRA" is located in the laboratory compartment. The control console provides full process control at the facility in accordance with the regime and technological maps (RTK) for the production of works. Allows you to visualize signals from control systems for prompt intervention in the work process. It has software that allows you to set the restrictive parameters of the SPO during work, in accordance with the rules of industrial safety standards. It has in its design a gsm-module or a similar device for transmitting information about the work in real time.

The line for supplying process fluids provides the supply of process fluids and chemicals to the well through the GSPT. It should be equipped with an automated system for monitoring the parameters of temperature, pressure and flow rate of the liquid with the possibility of displaying technological parameters on the console in the laboratory compartment. Provides an unhindered connection (BRS 50 (2'') 70 MPa IPKUG50.70.03.00 inner diameter 48 (mm), thread 104.75*8.467) with attracted special equipment (SIN-32, SDA 10/210, AKN, etc.) . It has an inlet manifold in its design for the simultaneous supply of liquid, nitrogen and acid compositions. Equipped with high pressure valves (HPC) and plugs for cutting off unused areas. Must be equipped with at least one sampler per line. It should be equipped with a system for coarse cleaning of mechanical impurities of the injected fluid with the ability to quickly clean the filter element or replace it. It must be equipped with a check valve in the line with the possibility of unhindered maintenance during the work. The line must be provided with at least 8 anchors with a length of at least 1.5 (m) with fastening elements.

The flow line must be equipped with an automated system for monitoring the parameters of temperature, pressure and liquid flow rate with the possibility of displaying technological parameters on a console in the laboratory compartment. Provides an unhindered connection (BRS 50 (2'') 70 MPa IPKUG50.70.03.00 inner diameter 48 (mm), thread 104.75*8.467) with the process tank (with installed degasser). The line must be provided with at least 8 anchors with a length of at least 1.5 (m) with fastening elements.

The hydraulic system tank provides the necessary amount of hydraulic oil for trouble-free operation of the system. It must be equipped with a filter element, a bleed valve on the filler neck, and a visual level sensor. Must be equipped with a cooling system. The tank and cooling system must be covered with a protective mesh to limit damage during installation/dismantling of equipment.

The lighting system ensures trouble-free, safe performance of work in the process of installation / dismantling, execution of SPO at the facility. Must provide sufficient illumination of driveways and pedestrian areas in accordance with the rules of industrial safety standards.

The external notification system should be placed on the laboratory compartment for timely notification of the brigade employees about the ongoing operations at the facility.

An autonomous generator provides power to the on-board system's own consumers in the absence of an external power supply. The rated power of the generator must be at least 18 kW.

The high-pressure plunger pump unit is part of the AMK design. Designed for pumping technical fluids into the GSPT for its complete conservation after completion of work at the facility. Connects to the feed line manifold coupler.

An example of practical implementation.

With the help of the implemented production sample of AMK YuGRA, pilot tests were carried out for each type of the above technological operations with the preparation of engineering reports by technical specialists of PJSC Varyoganneftegaz, subsidiaries of PJSC NK Rosneft, JSC Gazpromneft - Noyabrskneftegaz, LLC " NOVATEK - Yurkharovneftegaz", where, based on the results of pilot tests of AMK "UGRA" type units with an installed flexible steel-polymer pipe, a specialized rigid cable, technological and economic efficiency was proved in the following areas:

1) Elimination of hydrate and paraffin deposits in oil and gas wells using a flexible steel-polymer pipe / restoration of circulation in large and small annulus during well operation.

2) Geophysical studies of horizontal wells with a long horizontal section of more than 1000 meters, as well as wells with a complex profile using GSPT, a specialized rigid cable with a diameter of 20 - 38 (mm) without joints and transitions with installed autonomous geophysical equipment and the ability to register parameters (geophysical data ) online.

3) Hydrodynamic studies of wells (HRO) using a flexible steel-polymer pipe / specialized geophysical cable with a diameter of 20-38 (mm) without joints and transitions with installed autonomous geophysical equipment and the ability to register parameters (geophysical data) online.

4) Treatment of the bottomhole formation zone with chemical reagents, technological solutions according to the design according to the work plan using a flexible steel-polymer pipe, a specialized geophysical cable with a hydraulic channel with an outer diameter of 38 - 46 (mm), an internal passage channel of 15 - 25 (mm) without joints and transitions of a complete construction lengths 4000 - 5500 (m), KPMT with an outer diameter of 44.5 - 46 (mm), an internal through channel 15 - 25 (mm) with conductive wires for connecting geophysical equipment and obtaining parameters of temperature, pressure, thermal conductive flow metering / debetometry, etc. .d…

5) Normalization of the bottom hole using a flexible steel-polymer pipe, a specialized rigid cable with a hydraulic channel with an outer diameter of 38 - 46 (mm) and an internal through channel of 15 - 25 (mm)

6) Technological maintenance and repair of KPMT, re-equipment of wells with KPMT for supplying process fluids and restoring circulation in oil and gas wells with an installed KPMT, a flexible steel-polymer pipe, a specialized rigid cable with a hydraulic channel, as well as maintenance and replacement of a geophysical apparatus and equipment.

Comparison of technology with the existing basic options: well workover, KOPS, coiled tubing.

Technological advantages: Reducing the duration of work in the above areas, reducing the cost of repairing oil and gas wells, faster bringing wells to production from repair.

The effectiveness of the use of specialized equipment such as AMK "YUGRA" with an installed flexible steel-polymer pipe, a specialized rigid cable with a hydraulic channel, a flexible steel-polymer pipe with conductive conductors, KPMT has been proven and is being replicated at the largest oil and gas producing companies of the Russian Federation to solve geological and technological problems since 2021. The main features of AMK "YUGRA" are the absence of dependence on imported components, high productivity, high production efficiency and economic benefits for oilfield services and oil and gas producing companies of the Russian Federation.

Claims (15)

1. A method for conducting downhole surveys using an autonomous mobile complex, including: - delivery to the work site on public roads of the equipment included in its set and the equipment and tools used in the performance of work; - carrying out installation operations on the well for installation at the wellhead and fastening of the preventer included in the kit using its own mast, a multi-chamber sealing device, an injector, a wellhead platform for servicing the assembly, a sectional lubricator unit with an anti-draught, a bleed valve and a metering device for controlling pressure in the inter-chamber space ; - carrying out tripping operations of a flexible steel-polymer pipe (GSPT), a rigid geophysical cable (LC) with downhole tools fixed on a pipe tip, downhole geophysical equipment and equipment in accordance with the implemented technology; - laying HSPT, LCD on the drum of the lifting unit (SPA); - supply of process fluids and chemicals into the well through the injection line and GSPT from an external source at the wellhead, characterized in that it includes: - control of the parameters of tripping operations (HST) using a software package that allows keeping a strict record of all manipulations at the wellhead, as well as the downhole space with the registration of parameters on the autonomous memory of the device of the operator's console of the SPA with the possibility of reading and processing the received data; - registration of the speed of movement of the HSPT, LC during their movement in the well, the axial loads created by the injector or the winch of the SPA, the depth of the tripping operations, wellhead temperature and pressure, the pressure of the process fluid injection into the well through the injection line and the HSPT, the flow rate of the liquid, gas through the injection line is carried out using a ground device; - registration of the obtained geophysical material with the help of a recorder located in the laboratory compartment, by means of the conductive cores of the GSPT through a hydrocollector located on the winch drum of the SPA; - elimination of hydrate and paraffin deposits in oil and gas wells using a flexible steel-polymer pipe due to the restoration of circulation through the large and small annulus during the operation of the well. 2. The method of conducting downhole studies using an autonomous mobile complex according to claim 1, characterized in that they provide control of the injector tracks by a hydraulic drive from the laboratory compartment, while the injector drive overlays ensure that the GSPT is not damaged during the SP, for additional control of axial loads during the The SPO injector is equipped with a strain gauge weight control sensor. 3. A method for conducting downhole surveys using an autonomous mobile complex according to claim 1, characterized in that they provide sealing at the wellhead when performing a trip while the GSPT is moving with wellhead pressure control by providing the sealing device of the equipment with an overpressure relief valve between the chambers of the unit, in addition , the sealing device is provided with a sensor for visual control of excess wellhead pressure. 4. A method for conducting downhole surveys using an autonomous mobile complex according to claim 1, characterized in that the mast is installed with a carrying capacity that allows accident-free tripping of equipment into the well, as well as mounting wellhead equipment without the involvement of additional special equipment. 5. A method for conducting downhole surveys using an autonomous mobile complex according to claim 1, characterized in that process fluids and chemicals are supplied to the well through the GSPT using a process fluid supply line equipped with an automated system for monitoring the parameters of temperature, pressure and fluid flow rate with the possibility of displaying technological parameters on the console in the laboratory compartment. 6. A method for conducting downhole studies using an autonomous mobile complex according to claim 1, characterized in that the flow line of technological liquids is equipped with an automated system for monitoring the parameters of temperature, pressure and flow rate of the liquid with the possibility of outputting technological parameters to the console in the laboratory compartment.