RU2763576C1 - Wellhead mounting technology - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: wellhead piping contains a well production pipeline connected to the wellhead tree. The well product discharge pipeline includes a flow cutoff device connected to a device for preventing backflow of well product, with a pressure and temperature sampling and control device connected to a well product sampling device. The selection device is connected to the Christmas tree of the well, the pipeline for supplying the working agent of the gas-lift gas system is connected to the Christmas tree and includes a first shut-off device connected to a device for preventing backflow of the working medium and to a second shut-off device connected to a quick-disconnect connection. The device for preventing the reverse flow of the working medium is connected to the wellhead tree. The elements of the pipeline for the withdrawal of well products and the pipeline for supplying the working agent of the gas-lift gas system are connected to each other and to the Christmas tree with the help of mounting parts, which are sections of pipelines with connecting parts and fasteners and made using welding, threaded or quick-disconnect joints. The elements of the mounting parts are made with a technological allowance for adjustment at the installation site.

EFFECT: reduced installation time, improved quality and reliability by increasing the degree of factory readiness.

11 cl, 2 dwg

Description

The invention relates to the oil and gas industry, namely to technological piping of the wellhead, and can be used in the operation of wells in hydrocarbon deposits, mainly for gas and oil wells, in pipeline fittings for controlling fluid flow in technological processes.

From the prior art technological piping of the mouth of a group of wells (patent SU 1535970), containing a pneumohydraulic unit connected by injection and discharge lines with a hydraulic unit.

Also known technological piping of the mouth, at least two wells (patent RU 2453684), containing underground equipment, shut-off valve, wellhead equipment, Christmas tree. The well cluster is connected to the control station for the actuating mechanisms of the locking elements, made in the form of a cabinet.

Closest to the claimed invention is the technological piping of the wellhead (patent RU 2453687), containing a production string with a tubing string with underground production equipment, containing, to the extent, a shut-off valve with a remote control, made with an actuator, a wellhead with a wellhead equipment having a column head, a pipe head, on which a tree-shaped Christmas tree is installed, including shut-off elements - stem and side valves with actuators, as well as a throttle valve adjacent to the latter for well flow rate control, made with an actuator. This technological piping of the wellhead is chosen as a prototype of the claimed invention.

The disadvantages of the above analogues and the prototype is their complexity of execution and maintenance, high cost, lack of versatility for various types of wells, large overall dimensions and the need for additional work during well repairs associated with the dismantling and installation of equipment located within the well embankment. Also, the technological piping of the wellhead of analogs and the prototype have a significant installation time and do not provide for compensation for deviations associated with the installation of X-mas trees, and in addition, they require significant improvements and adjustments during installation, and their control system, made on the basis of a pneumohydraulic actuator of the controls, reduces reliability and increases the energy intensity of the equipment.

The technical result of the invention is the creation of a technological piping of the wellhead with reduced capital intensity, reduced installation time, reduced capital costs for installation, reduced installation time, as well as increased quality and reliability, by increasing the degree of factory readiness.

The stated technical result is achieved by creating a technological piping of the wellhead, containing a pipeline for the removal of well production, which is connected to the X-mas tree of the well, and the pipeline for the removal of well production includes a flow cut-off device, which is connected to a device for preventing backflow of well production, which is connected to a selection device and pressure and temperature control, which is connected to the well production sampling device, which is connected to the well X-mas tree, the pipeline for supplying the working agent of the gas-lift gas system, which is connected to the well X-mas tree and includes a first shut-off device, which is connected to the backflow prevention device. current of the working medium and with the second shut-off device, which is connected to a quick-release connection, and the device for preventing the reverse flow of the working medium is connected to the well tree, while the elements of the pipeline and the well production outlet and the pipeline for supplying the working agent of the gas-lift gas system are connected to each other and to the X-mas tree of the well using mounting parts, which are sections of pipelines with connecting parts and fasteners and made using welding, threaded or quick-release joints, while mounting elements parts are made with a technological allowance for fitting at the installation site.

In the preferred embodiment of the wellhead technological piping, the well product removal pipeline and the working agent supply pipeline of the gas-lift gas system are fixed on the frame.

In the preferred embodiment of the technological piping of the wellhead, the flow cut-off device is made in the form of a throttle or control valve.

In the preferred embodiment of the wellhead process piping, the flow cut-off device and shut-off devices have a control selected from a set of controls including manual, pneumatic, electric, electromagnetic control.

In the preferred embodiment of the wellhead process piping, the pressure and temperature sampling and control device is made with local (visual) readings and the ability to transfer data to the process control system.

In the preferred embodiment of the technological piping of the wellhead, the installation parts consist of sections of pipelines with fittings and fasteners and are made using welding, threaded or quick-release connections, while the elements of the installation parts are made with a technological allowance for fitting at the installation site.

In the preferred embodiment of the technological piping of the wellhead, the quick disconnect connection is made with the possibility of temporary connection of technological units and equipment when performing technological operations on the well, as well as with the possibility of connecting a reagent supply system for technological needs.

In the preferred embodiment of the wellhead piping, the pipeline for supplying the working agent of the gas-lift gas system contains a flow measurement and control system made in the form of throttle or control valves with manual, pneumatic, electric, electromagnetic control with the possibility of remote and local control.

In a preferred embodiment, the wellhead process piping contains a bypass valve that is connected to the well's X-mas tree and to the well product removal pipeline, and a branch pipe is installed on the side outlet of the well head by the well's X-mas tree for mounting instruments for measuring the liquid level in the well.

In a preferred embodiment of the wellhead process piping, the well product removal pipeline comprises a well product volume measurement device that is connected to a flow shut-off device.

In the preferred embodiment of the technological piping of the wellhead, the device for measuring the volume of well production is made in the form of a multiphase flowmeter.

The specified layout of the wellhead piping, due to its compact size, provides a reduced metal consumption of the equipment and, accordingly, a reduction in capital costs, and a decrease in the overall dimensions of the wellhead piping leads to a decrease in the volume of work on the installation of the piping.

Fig. 1. Scheme of the technological piping of the wellhead, containing the pipeline for supplying the working agent of the gas-lift gas system, made according to the invention:

a) top view;

b) front view.

Fig. 2. Scheme of the technological piping of the wellhead containing the bypass valve, made according to the invention:

c) without a device for measuring the volume of well production;

d) with a device for measuring the volume of well production.

Elements:

1 – Xmas well fittings;

2 – flow cut-off device;

3 – device for preventing reverse flow of well production;

4 – device for preventing reverse current of the working medium;

5 - quick disconnect connection;

6 - the second locking device;

7 - the first locking device;

8 - device for selection and control of pressure and temperature;

9 – well product sampling device;

10-16 - mounting parts;

17 - frame;

18 - bypass valve;

19 - branch pipe for mounting devices for measuring the level of fluid in the well;

20 - a device for measuring the volume of well production.

Consider the embodiment of the claimed technological piping of the wellhead (Fig. 1). Technological piping of the wellhead contains two components, made on a frame base, the pipeline for the removal of well products and the pipeline for supplying the working agent of the gas-lift gas system, as well as a set of mounting parts 10 -17 for connecting pipelines to the X-mas tree 1 of the well (to the wellhead equipment).

The pipeline for supplying the working agent of the gas-lift gas system includes the first and second locking devices 7 and 6 with a manual drive, a device 4 for preventing the reverse flow of the working medium. The pipeline for supplying the working agent of the gas-lift gas system is connected to the X-mas tree 1 of the well using mounting parts 10, 11, 12 and 13. The working agent of the gas-lift gas system enters the pipeline for supplying the working agent of the gas-lift gas system through the first locking device cutting off the pipeline during shutdowns for repairs and preventive maintenance, and then through the device 4 to prevent the backflow of the working medium and through the mounting parts 10, 11, 12, 13 into the well tree 1, thereby ensuring the well's operability.

To ensure the treatment of the well with a reagent, the pipeline for supplying the working agent of the gas-lift gas system contains a second locking device 6 and a quick coupling 5. A mobile pumping unit or a compressor is connected through a quick coupling 5 to the pipeline, while closing the first locking device 7 and opening the second locking device 6. The reagent from the pumping unit enters under pressure through the quick-release connection 5, through the second locking device 6 and through the device 4 to prevent the backflow of the working medium into the pipe or annular space of the well, depending on the operating position of the valves of the X-mas tree valve 1 of the well.

The well product removal pipeline includes a flow cut-off device 2, a well product backflow prevention device 3, a pressure and temperature sampling and control device 8, and a well product sampling device 9. Well production through X-mas trees 1 and installation parts 15, 14 and 16 enters the well production discharge pipeline through the device 3 for preventing the backflow of well production into the flow cut-off device 2 and further into the external collection system provided by the production technology. If it is necessary to obtain a sample of the well production, it is taken through the well production sampling device 9 connected to the vertical section of the installation part 14. The determination of the pressure and temperature parameters of the well production is carried out using visual control devices (pressure gauges, thermometers), and the recording and transmission of data from sensors pressure and temperature in the automated process control system is carried out using a control cabinet. The device 2 for cutting off the flow as part of the pipeline serves to shut off the flow on a signal from the automated control system or in manual mode.

The flow cut-off device 2 is made in the form of a throttle or control valve.

The flow cut-off device 2 and shut-off devices 6, 7 have manual, pneumatic, electric, electromagnetic control.

Device 8 for selection and control of pressure and temperature is made with local (visual) readings and the possibility of data transfer to the process control system.

The well product sampling device 9 is slot-type, with or without a pressurized extraction system.

The configuration of the installation parts provides the possibility of minimizing work at the well construction site, due to the performance of welding work in the factory, with the exception of welded joints of the installation parts 10 - 16, which are performed directly on the object in order to compensate for deviations in the location of the X-mas tree 1, obtained due to uneven tightening flange connections. To ensure the installation conditions, the installation parts have an allowance in length, and the fitting of the components is performed at the well object directly during installation.

First, the installation of X-mas tree fittings 1 of the well is carried out. Then the frame 17 is mounted with the pipeline for supplying the working agent of the gas-lift gas system and the pipeline for the removal of well production installed on it (the symmetry of the arrangement of the equipment on the frame allows you to change the direction of the approach of the pipelines to the well by rearranging the valves). Further, this part of the technological piping is connected in series with the help of mounting parts 10-16 to the X-mas tree 1 of the well using welded joints.

Instead of the pipeline for supplying the working agent of the gas-lift gas system, the claimed process piping of the wellhead may contain a bypass valve 18, which is connected to the X-mas tree of the well 1 and to the pipeline for the removal of well products, and on the side outlet of the tubing head of the well 1, a branch pipe 19 is installed for mounting measuring instruments liquid level in the well. In this case, the pipeline for the removal of well production may contain a device 20 for measuring the volume of well production, which is connected to the flow cut-off device and is made in the form of a multiphase flow meter.

When performing work at the wellhead, the claimed design of the technological piping of the wellhead allows for the dismantling and installation of pipelines without the use of welding, due to flange connections.

As part of the X-mas tree 1 of the well (technological piping of the wellhead), to control the operating conditions in the well and close the well in case of their violation, as well as to control the operation of the elements of the X-mas tree 1, control, power and communication cabinets are provided, while to eliminate the effect of low temperatures on Xmas tree performance 1 The cabinets are heat-insulated, and heating elements are installed inside the cabinets to ensure the desired temperature inside the cabinet.

The control and power cabinets are located outside the zone of probable gas contamination, and the control and management systems for X-mas tree 1 well are connected via control lines.

Although the above described embodiment of the invention has been set forth for the purpose of illustrating the claimed invention, it will be clear to those skilled in the art that various modifications, additions and substitutions are possible without departing from the scope and spirit of the claimed invention as disclosed in the appended claims.

Claims (11)

1. Technological piping of the wellhead, containing a pipeline for the removal of well production, which is connected to the X-mas tree of the well, and the pipeline for the removal of well production includes a flow cut-off device, which is connected to a device for preventing backflow of well production, which is connected to a selection and pressure control device and temperature, which is connected to the well product sampling device, which is connected to the well X-mas tree, the pipeline for supplying the working agent of the gas-lift gas system, which is connected to the well X-mas tree and includes the first shut-off device, which is connected to the working medium backflow prevention device and with the second shut-off device, which is connected to a quick disconnect connection, and the working medium backflow prevention device is connected to the well tree of its agent, the gas-lift gas systems are connected to each other and to the well X-mas tree with the help of mounting parts, which are sections of pipelines with connecting parts and fasteners and made using welding, threaded or quick-release joints, while the elements of the mounting parts are made with a technological allowance for fitting at the place of installation. 2. Technological piping of the wellhead according to claim 1, characterized in that the pipeline for the removal of well products and the pipeline for supplying the working agent of the gas-lift gas system are fixed on the frame. 3. Technological piping of the wellhead according to claim 1, characterized in that the flow cut-off device is made in the form of a throttle or control valve. 4. Technological piping of the wellhead according to claim 1, characterized in that the flow cut-off device and locking devices have a control selected from a set of controls containing manual, pneumatic, electric, electromagnetic control. 5. Technological piping of the wellhead according to claim 1, characterized in that the pressure and temperature selection and control device is made with local (visual) readings and the possibility of transmitting data to the process control system. 6. Technological piping of the wellhead according to claim 1, characterized in that the mounting parts consist of sections of pipelines with connecting parts and fasteners and are made using welding, threaded or quick-release joints, while the elements of the mounting parts are made with a technological allowance for fitting according to place of installation. 7. Technological piping of the wellhead according to claim 1, characterized in that the quick disconnect connection is made with the possibility of temporary connection of technological units and equipment when performing technological operations on the well, as well as with the possibility of connecting a reagent supply system for technological needs. 8. Technological piping of the wellhead according to claim 1, characterized in that the pipeline for supplying the working agent of the gas-lift gas system contains a flow measurement and control system made in the form of throttle or control valves with manual, pneumatic, electric, electromagnetic control with the possibility of remote and local management. 9. Technological piping of the wellhead according to Claim. 1, characterized in that it contains a bypass valve, which is connected to the X-mas tree of the well and to the pipeline for the removal of well products, and on the side branch of the pipe head, the X-mas tree of the well has a branch pipe for mounting devices for measuring the level of liquid in well. 10. Technological piping of the wellhead according to claim 9, characterized in that the pipeline for the removal of well products contains a device for measuring the volume of well production, which is connected to the flow cut-off device. 11. Technological piping of the wellhead according to claim 10, characterized in that the device for measuring the volume of well production is made in the form of a multiphase flow meter.

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