RU2367772C1 - Oil well pad - Google Patents

Abstract

FIELD: oil-and-gas production.

SUBSTANCE: invention relates to exploitation of oil fields and can be used for remote, automatic and manual control of actuating mechanisms of shutting-off devices of wells, which are part of an oil well pad. The oil well pad comprises at least two oil wells, each of which contains an extracting column with a flow column with underground production equipment, containing at least circulating and shear valves, non-freezing return valve and, if necessary, a separation column, meant for separating oil and water, as well as a remote controlled device for cutting off flow of oil, made with an actuating mechanism, wellhead with wellhead equipment, with a column head, tubing head, on which an X-mas tree is mounted, which comprises shutting-off devices - casing and wing valves with actuating mechanisms, as well as a throttle valve adjacent to the latter for controlling flow, made with an actuating mechanism, and monitoring and control elements - fuse link and a low- and high-pressure valve. Each well is linked through its shutting-off devices to a control station, which comprises a common pump-accumulator unit and at least one control unit for each well. The pump-accumulator unit comprises a group of pumps and a high-pressure power functional hydropneumatic accumulator linked through the actuating medium of the high-pressure line. Each control unit comprises power lines for functional control of actuating mechanisms of shutting-off devices, throttle valve and the cut off device, supplied by the said high-pressure line through pressure regulators, and controls their operation through a time-stepped system for command transmission for at least closure of a well in the logical sequence: "wing valve - casing valve - cut off device" - logical control line, linked to the fuse link and low- and high-pressure control valve and fitted with hydraulic control valves which can back up command transmission for closure of each well. One of the hydraulic control valves transmits a command for closing each well to the logical control line from the fuse link, the other - from the low- and high-pressure control valve, and at least two others - from remote and manual control, respectively. The said delay system comprises delay mechanisms, fitted on sections for interaction of the logical control line with power lines for functional control of actuating mechanisms of the casing valve and the cut off device, where the delay mechanisms comprise a hydropneumatic accumulator and a throttle, which provide for closure of each well at different times. The power line for functional control of the actuating mechanism of the throttle valve is provided with a three-position distribution valve, preferably with two electromagnets.

EFFECT: more reliable and accident-free operation of oil wells, which are part of an oil well pad, reduced cost of extracting oil and much easier control of processes.

16 cl, 3 dwg

Description

The invention relates to the mining industry, and in particular to the oil and gas industry, in particular, to the field of development of oil fields, and can be used for remote, automatic and manual control of actuators of shut-off bodies of wells included in a well cluster of oil fields.

A prior art device for controlling borehole cutoffs of a group of wells, comprising a pneumohydraulic unit connected by injection and discharge lines to hydraulic units by the number of wells, one unit comprising a gearbox, relay, pump, tank, distributor, safety valve, and the other unit contains two valve, throttle valve, first isolation valve and third valve, and the device also has a second isolation valve and a third valve (SU 1535970, ЕВВ 34/16, 47/10, 01/15/1990).

A hydraulic control system for underwater wellhead equipment is also known, containing hydraulic actuators connected by the main and additional pressure lines, control lines, electromagnetic valves and check valves, as well as shut-off electromagnetic valves installed at the inlet of the valves, an additional check valve and an additional valve located at the input shut-off valves on the main pressure line with the possibility of connecting the latter with a drain, moreover, an additional non-return valve is placed parallel to the directional control valves and shut-off valves and is connected by its inlet to the hydraulic actuator, and the output is connected to the inlet of the shut-off valve, while the main and additional lines are interconnected by a relief valve, the control line of which is connected to the main line ( SU 1752930, ЕВВ 33/035, 08/04/1992).

Also known from the prior art is a set of equipment for controlling the wellhead gushing armature of subsea wells, including a main pressure line, additional pressure lines connected to hydraulic actuators via main and additional hydraulic valves, control accumulator lines connected to the main and additional pressure lines, pressure switches and check valves, as well as equipped with a pressure boosting unit with low and high pressure chambers, etc. and this line is connected to the low pressure chambers and to the main pressure line through an additional valve, and the additional pressure line is connected to the high pressure chambers and to the main pressure line through the check valves, and in the section of the additional pressure line between the check valve and the additional accumulator, the relays are installed in parallel pressure associated with an additional directional control valve (see SU 1733625, ЕВВ 43/01, 05/15/1992).

The disadvantages of the known technical solutions include their relatively low reliability, which does not provide the necessary level of trouble-free operation of oil wells, due to a partial or complete absence of the necessary multivariate duplication of systems that initiate a quick automatic shutdown of the produced fluid supply, as well as increasing the reliability of well protection and preventing the early stages of possible emergency situations by controlled remote or manual shutdown of wells. In addition, the lack of reliability of the known devices and systems for well management is due to the absence or complex and poorly functional solution of mechanisms and systems, the logical sequential closure of the shut-off organs of the well, including in emergency situations. Other disadvantages of the known well control devices include the unresolved or insufficient availability of uninterrupted operation of the well during shutdown, including for the long term supply of electricity to the mechanisms and drives of the well cluster, or the provision of at least one-time inclusion of all the mechanisms necessary to resume well operation after turning it off.

The objective of the present invention is to increase the reliability and trouble-free operation of oil wells included in the cluster, reduce the cost of oil production and achieve greater ease of control of technological processes.

The problem is solved due to the fact that the cluster of oil wells according to the invention includes at least two oil wells, each of which contains a production string with a string of tubing with underground production equipment containing at least a circulation, shear valve , non-freezing non-return valve and, if necessary, a separation unit designed to separate water from oil, as well as a remote control device shutting off the oil flow, f with an actuator, a wellhead with wellhead equipment having a column head, a pipe head on which a fountain fitting mounted in the form of a Christmas tree is installed, including shut-off bodies - an over-root and side valve with actuators, as well as a butterfly valve adjacent to the latter that controls the flow rate of the well made with the actuator, and control and control bodies - fuse and control valve low and high pressure, with each well through its shutoff control valves, a throttle valve and a shut-off device are connected to a control station, including a pump-accumulator unit common to the station and at least one control unit for each well, wherein the pump-accumulator unit includes a pump group and a line connected to it via the working fluid high pressure power functional pneumatic hydraulic accumulator of high pressure, and each control unit includes powered from the above high pressure line through pressure regulators that reduce the function total pressure to the required, power lines for the functional control of the actuators of the locking elements, the throttle valve, the shut-off device, and controlling their work through a system of time-controlled slowdown of the passage of commands, at least to close each well in a logical sequence - lateral valve - radial valve - shut-off device - a logical control line communicated with a fuse-link and a low and high pressure control valve and equipped with the possibility of duplication of the passage of commands to close each well with hydraulic control valves, one of which sends to the logical control line a command to close each well from the fusible link, the other from the control valve low and high pressure, and at least two others, respectively, from remote and manual control, while the said deceleration system includes logical control lines installed on the areas of interaction with power lines of the functional control itelnymi mechanisms nadkorennoy valve and slam retarders apparatus comprising throttle control hydropneumatic accumulator and providing a different time of actuation for closing each well, and the power line function control throttle valve actuator is provided with a three-position control valve, preferably with two electromagnets.

In this case, when fountain oil production as a shut-off device, a shut-off valve can be used.

Each well may be provided with at least one inhibitor valve as part of the underground production equipment, and the tubing string of each well is provided with at least one column disconnector.

The pump-accumulator installation can be equipped with a tank with a working fluid mainly in the form of a liquid, and the power functional pneumohydroaccumulator is made predominantly modular-sectional.

The control station may comprise a central control panel located at a distance from it and communicated with it by a communication line, for example, an optical fiber cable or a radio channel, the control station being structurally designed as a cabinet in which at least two, preferably three, control units are mounted , one for each well, and a common pump and accumulator installation, in addition, the station is equipped with a strapping in the form of the mentioned control lines communicated through the working fluid with actuators x organs, throttle valve and shut-off device.

A fluid whose temperature viscosity and freezing temperature is determined from the climatic conditions of the well’s operation can be used as a working fluid, while the control station, designed to operate in the third and fourth climatic zones, is equipped mainly with mineral oil as a working fluid, and for the first and second of climatic zones, a fluid with a low freezing temperature, mainly a type of silicone, for example polymethylsiloxane, and a tank for the working fluid are accepted as a working fluid equipped with at least one liquid level indicator, for example, a visual indicator or a level sensor communicated via telemechanics channels with a central control panel, while the level sensor is equipped with a signaling system about the maximum permissible and critical levels or connected to a system of a central control panel that issues commands to maintain the liquid level in the tank at predetermined levels, and for the first and second climatic zones, the working fluid tank is equipped with a fluid heater, made in the form of Meyevik or TEN.

The pump group may be equipped with at least one pump, preferably an high pressure electric pump, preferably an axial piston with an asynchronous electric motor, duplicated for the first and second climatic zones, at least one additional, high pressure electric pump connected in parallel, said pump or the pumps are connected to the high pressure line through the inlet and outlet filters, preferably coarse and fine filters, respectively, with each of these pumps and the outlet is equipped with a pressure relief valve and is mounted with the ability to selectively disconnect from the high pressure line through a system of locking devices, and at least the fine filters installed at the outlet are equipped with a visual indicator and / or an electric sensor in communication with the central control panel, the pump group, equipped at the output with devices for starting or stopping the pump motors and a check valve, is communicated through the latter via the high pressure line with a modular-sectional power functional pneumatic accumulator, consisting of modules connected in parallel to the collector and designed to create the necessary working pressure in the mentioned control lines, while the manifold with the pneumatic accumulator is communicated via a working fluid with a high pressure line, in addition, the mentioned devices for starting or stopping electric motors pumps connected to the high pressure line are, for example, in the form of a pressure switch, or in the form of analog pressure sensors l because in the form of electrocontact manometers, the modules of the said pneumatic accumulator being made with a membrane or preferably a piston separator, the total working volume of all the modules of the functional functional pneumatic accumulator is taken to be no less than that necessary for a single opening of shut-off elements, a throttle valve and a shut-off device for all wells connected to the station or maintaining the working condition of the wells for at least one month in the absence of electricity.

The power line for functional control of the actuator of the shut-off device can be equipped with a pressure multiplier, preferably duplicated for the first and second climatic zones, and the mentioned pressure regulators reduce the pressure from the functional 10-100 MPa to the working 0.5-70 MPa in the power lines of the functional control of the actuators radicular, lateral valves, throttle valve and in the line of logical control, which also includes the line of the control valve low and high pressure and fusible insert, moreover, the pressure regulator in the power line for functional control of the actuating mechanism of the shut-off device is configured to supply the working fluid to the multiplier, taking into account the gear ratio of the last and required output pressure of the working fluid of at least 21-70 MPa for subsequent supply and control of the actuating mechanism of the shut-off device, at the same time, all the listed power lines of the functional control are equipped with safety devices installed in the areas in front of the actuators pressure valves.

Each control unit may include an automatic well protection system, a remote control system and a manual shut-off system, and the automatic protection system includes a fusible line and a low and high pressure control valve line connected to the logical control line through the said distribution valves, while the low and high pressure installed in the area adjacent to the fountain, preferably on the loop, and the line valve control low and high pressure The fusion and fusion inserts are equipped with a relay or pressure sensors with the possibility of sending a signal to the central control panel to shut down the well, respectively, due to a fire or due to going beyond the range of permissible operating pressures determined by the setting of the low and high pressure control valves.

The logical control line of each control unit can be sequentially connected through the working fluid through the distribution valves to provide the required logical sequence for the well control, the distribution valves of the power lines of the functional control of the actuators, including at least the cutting device, the root valve, the lateral valve with the possibility of their allowable closure in a certain, namely in the opposite specified sequence, with adjustable set permissible time intervals between the shutdowns of each of them, for which purpose the mentioned control pneumatic accumulators are installed on the logic control line with the possibility of their interaction on depressurizing each with its own throttle, while the control pneumatic accumulator in the area of interaction with the power line of the functional control of the actuating mechanism of the cutting device is set to slowing down the closing of the shut-off device for a time 1.5-2 times the interval between closing radicular valves and lateral valves, comprising from 10 to 120 seconds.

On the logical control line of each control unit in the area of its supply to the power line for functional control of the lateral valve actuator, an electromagnetic valve for remote on and off of the lateral valve can be installed.

Distribution valves of all power lines of the functional control of the actuators of each control unit can be switched with the discharge line of the spent working fluid, while the discharge line is communicated mainly through the filter with the tank of the working fluid.

On the power lines for functional control of the actuators of the locking elements, the throttle valve, the shut-off device of each control unit, temperature safety valves can be installed that are switched at the outlet with a discharge line for excess working fluid released when the temperature of the working fluid and / or the environment changes.

The pump-and-battery installation can be performed mainly with a remote front control panel.

The locking elements, the throttle valve and the shut-off device of each well can be equipped with control devices placed on the front panel of the control unit.

The cabinet of the control station can be made insulated and explosion-proof, and the cable lines are connected to the cabinet through the cable leads of the explosion-proof design.

The technical result provided by the given set of features is to increase the reliability and trouble-free operation of oil wells included in the cluster, reduce the cost of oil production, achieve greater ease of control of technological processes due to the automated control of the shut-off organs of the well - lateral and root valves, regulating the flow rate of the well throttle valve, underground shut-off device through the proposed control station, which contains developed The inventive pump-and-accumulator installation with a power pneumohydroaccumulator and at least one control unit serving the well with power lines, functional controls for the actuators of the locking elements, and a control line connected with them equipped with at least three duplicated control valves, including two of which work from the pulse supplied to close the well in case of a fire hazard or supercritical low or high pressure in the loop, and that of the developed closure system for each well in the logical sequence of fluid cutoff “lateral valve - root valve - shut-off device”, operating through a system for slowing down the completion command, including a tandem of a control pneumatic accumulator and a throttle in a logical control line in areas of interaction with power lines of functional control actuators of an over-root valve and a shut-off device.

The invention is illustrated by drawings, where:

figure 1 presents a diagram of the connection of one included in the bush of an oil well to the control station;

figure 2 - pump-and-battery installation, hydraulic circuit diagram;

figure 3 - control unit, hydraulic circuit diagram.

An oil well cluster includes at least two oil wells 1, each of which contains a production string 2 with a tubing string 3 with underground production equipment comprising at least a remote control device 4 for shutting off the oil flow, made with an actuator, a wellhead with wellhead equipment having a column head 5, a pipe head 6, on which a fountain fitting 7 mounted in the form of a Christmas tree is installed, including locking elements - lateral nadkorennuyu engine 8 and 9 with the valve actuators, as well as adjacent to the last production rate regulating throttle valve 10 operable by the actuator, and control and governing bodies - a fuse 11 and valve 12 control the low and high pressure.

Each oil well 1 contains, as part of the underground production equipment, at least a circulation valve 13, a shear valve 14, a non-freezing check valve, if necessary, a separation unit installed in the production packer 15 and designed to separate water from oil, and at least at least one inhibitor valve 16, and the tubing string 3 is provided with at least one column disconnector 17.

Each well through its locking elements 8, 9, the regulating throttle valve 10 and the shut-off device 4 is connected to the control station, which includes a common pump and accumulator unit 18 and at least one control unit 19 for each well. The control station also contains a central control panel (not shown in the drawings) located at a distance from it and communicated with it by a communication line, for example, an optical fiber cable.

The pump-accumulator installation 18 includes a pump group and a power functional pneumatic accumulator 22 of a high pressure communicated with it through the working fluid by a high pressure line 21. Each control unit 19 includes power supplies from said high-pressure line 21 through pressure regulators 23, 24 that lower the functional pressure to the required one, functional control power lines 25-28, respectively, of the actuators of the shut-off elements 8, 9, throttle valve 10, shut-off device 4, and controlling their work through a system of time-delayed slowdown of the passage of commands, at least to close the well in a logical sequence - lateral valve 8 - over-the-air valve 9 - from creeping device 4 - logical control line 29, in communication with fusible insert 11 and low and high pressure control valve 12 and equipped with the possibility of duplicating the passage of commands to close the well with hydraulic control valves 30-33, one 30 of which transmits a command to logic control line 29 to close the well from the fusible insert 11, the other 31 - from the valve 12 control low and high pressure, and at least two other 32, 33 - respectively, from remote and manual control. The deceleration system includes the retardation units installed in the interaction sections 34, 35 of the logical control line 29, respectively, with the functional control power lines 26, 27, respectively, of the actuators of the root valve and the shut-off device, retarders, including a control pneumatic accumulator 36 and a throttle 37, which provide a different time for shutdown completion.

Power functional pneumatic accumulator 22 is made mainly modular sectional.

The power line 27 for functional control of the actuator of the shut-off device is provided with at least one pressure multiplier 38. For the first and second climatic zones, the pressure multiplier 38 is preferably duplicated.

In fountain oil production as a shut-off device 4, a shut-off valve is used.

The control station is structurally made in the form of a cabinet 39, in which at least two, preferably three, control units 19 are mounted, one for each well, and a common pump and accumulator unit 18, in addition, the station is equipped with a strapping in the form of the mentioned lines controls communicated through the working fluid with the actuators of the locking elements, the throttle valve and the shut-off device.

Pump-accumulator unit 18 is equipped with a tank 40 with a working fluid mainly in the form of a liquid.

A fluid is used as a working fluid, the temperature viscosity and freezing temperature of which is determined from the climatic conditions of the well’s operation, while the control station, designed to operate in the third and fourth climatic zones, is equipped mainly with mineral oil as the working fluid, and for the first and second climatic Zones as a working fluid adopted liquid with a low freezing temperature mainly of the type of silicone, for example polymethylsiloxane. Tank 40 for the working fluid is equipped with at least one indicator of the level of filling with liquid, for example, a visual indicator or level sensor communicated via telemechanics channels with a central control panel. The level sensor is equipped with a signaling system about the maximum permissible and critical levels or is connected to the system of the central control panel that issues commands to maintain the liquid level in the tank 40 at specified levels. For the first and second climatic zones, the tank 40 of the working fluid is equipped with a fluid heater, made in the form of a coil or heating element.

The pump group is equipped with at least one pump 41, preferably a high pressure electric pump, preferably an axial piston with an induction motor 42, duplicated for the first and second climatic zones, at least one additional, high pressure electric pump 41 connected in parallel. A pump 41 or pumps are connected to the high pressure line 21 through an inlet filter 43 and an outlet filter 44, preferably coarse and fine, respectively. Each of these pumps 41 at the outlet is equipped with a pressure relief valve 45 and is mounted with the ability to selectively disconnect from the high pressure line 21 through a system of shut-off devices, such as ball valves 46. At least the fine filters 44 installed at the outlet are provided with a visual indicator and / or an electrical sensor in communication with the central control panel. The pump group 20, equipped with output devices for starting or stopping the electric motors 42 of the pumps 41 and the check valve 47, is communicated through the latter via the high pressure line 21 with a modular sectional power functional pneumatic accumulator 22 consisting of modules 49 connected in parallel to the collector 48 and designed for creating the necessary working pressure in the mentioned control lines 25-29. The collector 48 with a pneumatic accumulator 22 is communicated through the working fluid with a high pressure line 21. The device for starting or stopping the electric motors 42 of the pumps 41 connected to the high pressure line 21 is, for example, made in the form of a pressure switch 50, either in the form of analog pressure sensors, or in the form of electrical contact pressure gauges. The modules 49 of the pneumatic accumulator 22 are made with a membrane or preferably piston separator media. The total working volume of all modules 49 of the power functional pneumatic accumulator 22 is adopted not less than necessary for a single opening of the shut-off elements 8, 9, throttle valve 10 and shut-off valve 4 of all wells connected to the station or maintaining the working condition of the wells for at least one month in the absence of electricity.

The pressure regulators 23 reduce the pressure from the functional 10-100 MPa to the working 0.5-70 MPa in the power lines 26, 25, 28 of the functional control, respectively, of the actuators of the root, lateral gate, throttle valve and in the logical control line 29, which also includes lines 51 , 52 respectively control valve low and high pressure and fuse. The pressure regulator 24 in the power line 27 for functional control of the actuator of the shut-off device is configured to supply the working fluid to the multiplier 38, taking into account the gear ratio of the last and required output pressure of the working fluid of at least 21-70 MPa for subsequent supply and control of the actuator of the shut-off device. All of the listed power lines of the functional control are equipped with pressure relief valves 53 installed in the sections in front of the actuators.

Each control unit 19 includes a system for automatic well protection, a remote system and a manual shutdown system for the well. The automatic protection system includes connected to the logic control line 29 through hydraulic control valves 30, 31, respectively, the fusible link line 52 and the low and high pressure control valve line 51. The valve 12 control low and high pressure is installed in the area adjacent to the fountain, preferably on the loop. Lines 48, 49, respectively, of the control valve for low and high pressure and fusible plugs are equipped with a relay 54 or pressure sensors with the possibility of issuing a signal to the central control panel about shutting down the well, respectively, in case of fire or because of exceeding the range of permissible operating pressures determined by the setting of control valve 12 low and high pressure.

The logical control line 29 of each control unit 19 sequentially connects through the working fluid through the distribution valves 55-57 to provide the required logical sequence for controlling the well, the distribution valves 58-60 of the power lines 27, 26, 25 of the functional control of the actuators, including at least measure of the shut-off device 4, the above-the-gate valve 9, the lateral valve 8 with the possibility of their permissible closure in a certain, namely in the opposite specified sequence, with emo set permissible time intervals between outages each. For this, control pneumatic accumulators 36 are installed on the logical control line 29 with the possibility of their interaction on depressurizing each with their own throttle 37. The pneumatic control accumulator 36 in the area 35 of interaction with the functional control power line 27 of the slam-shut actuator 4 is configured to slow down the shut-off device for a while , 1.5-2 times greater than the interval between the closure of the radicular valve 9 and the lateral valve 8, comprising from 10 to 120 seconds.

On the line 29 of the logical control in the area of its supply to the power line 25 of the functional control of the actuator of the lateral valve of each control unit 19, an electromagnetic valve 61 for remote switching on and off of the lateral valve 8 is installed.

The power control line 28 for controlling the actuator of the throttle valve 10 of each control unit 19 is provided with a three-position control valve 62, preferably with two electromagnets.

The control valves of all power lines for functional control of the actuators of each control unit 19 are connected to a discharge line 63 of the spent working fluid, and the discharge line 63 is communicated mainly through the filter with the tank 40 of the working fluid.

On the power lines 25-28 of the functional control of the actuating mechanisms of the locking elements 8, 9, the shut-off device 4, the throttle valve 10 of each control unit 19, temperature safety valves 64 are installed, which are switched at the outlet with a discharge line 63 for discharging excess working fluid released when the working temperature drops and / or environment.

Pump-battery installation 18 is made mainly with a remote front panel.

The locking elements 8, 9, the throttle valve 10 and the shut-off device 4 of each well are equipped with control devices placed on the front panel of the control unit 19.

Cabinet 39 of the control station is thermally insulated and explosion-proof, and the cable lines are connected to the cabinet through cable leads of an explosion-proof design.

Let us consider the operation of a control station during oil production on the example of one oil well connected to the station, which is part of a well cluster.

With such oil production, a shutoff valve is used as the shutoff device 4.

Pump-accumulator unit 18 is designed to create and maintain the required working pressure of the working fluid - the working medium in the control lines of the station.

Working medium from tank 40 with a volume of about 200 liters. the pipeline enters through the coarse filter 43 and the valve 65 to the inlet of the electric pump 41, which is driven by an electric motor 42. At the outlet of the pump after the valve 46, a fine filter 44 is installed.

The safety valve 45 is set to a predetermined working pressure of 21 MPa and, when the set pressure is exceeded, connects the high-pressure (discharge) line 21 to the cavity of the tank 40 and the excess volume of the working medium is discharged via the discharge line 63.

Through the check valve 47 from the injection line 21, the working medium enters the manifold 48 and fills the modules 49 of the power functional pneumohydroaccumulator 22, designed to store the required supply of the working medium under pressure, with each module 49 having a volume of 40-50 l.

After filling the pneumatic accumulator 22, the working medium through pipelines enters the power lines 25-28 of the functional control of the actuators of the locking elements, the shut-off valve, throttle valve and the logical control line 29.

The pressure regulator 24 in the power line 27 for functional control of the actuator of the shut-off valve lowers the pressure in the discharge line 21 from 21 MPa to a pressure of three or four times the pressure at the outlet of the multiplier 38, which provides operating pressure on the functional control line 27 of the actuator for the shut-off valve, equal to 28 MPa (280 kgf / cm ² ). The safety valve 53 is set to a predetermined working pressure of 28 MPa and, when the set pressure is exceeded, connects the aforementioned line 27 to the cavity of the tank 40 and the excess volume of the working medium is discharged via the discharge line 63.

The pressure regulators 23 reduce the pressure in the power line 28 for functional control of the actuator of the throttle valve 10 and the logic control line 29 to a working pressure of 4 MPa (40 kgf / cm ² ), and in power lines 25, 26 for the functional control, respectively, of the lateral and root valve actuators - up to 14 MPa (140 kgf / cm ² ). The safety valves 53 are set to a predetermined working pressure of 4 MPa, and when the set pressure is exceeded, the lines are connected to the cavity of the tank 40 and the excess volume of the working medium is discharged via the discharge line 63.

In the control unit 19 of the station, the working medium at a pressure of 4 MPa in the logic control line 29 is fed to the input of a normally closed hydraulic control valve 30, designed to relieve control pressure in case of fire. After filling in the fuse-link line 52, the hydraulic control valve 30 opens and the medium enters the normally closed hydraulic control valve 31, which is designed to relieve control pressure when the control valve 12 for low and high pressure installed in line 51 of the said valve is activated. Then, the working medium passes through the normally open distribution valve 32, designed to remotely shut off the entire well, and the distribution valve 33, designed for manual emergency shutdowns of the entire well through the emergency shutdown button.

After the control valve 33, the working medium enters the inlet of the normally closed control valve 55 with hydraulic actuator and manual override.

When the fusible link line 52 is full, pressure switch 54 provides a signal to the central control panel.

When the line 51 of the low and high pressure control valve is full, another pressure switch 54 also provides a signal to the central control panel.

Next, in order to open the well, you need to perform the following sequence of actions:

- pull the handle of the control valve 55, which is set to self-feed, and the working medium through the check valve 66 enters the actuator of the control valve 58, which opens, and the working medium from the power control line 27 to control the actuator of the shut-off valve enters its actuator . The opening of the shut-off valve 4;

- pull the handle of the control valve 56, which is set to self-feed, and the working medium through the check valve 67 enters the actuator of the control valve 59, which opens, and the working medium from the power lines 25, 26 of the functional control, respectively, by the actuators of the side and root valves on the actuator of the root valve. The opening of the root valve 9 takes place;

- pull the handle of the control valve 56, which is set to self-feed, and the working medium through the check valve 67 and the normally open solenoid valve 61 enters the actuator of the control valve 60, which opens and the working medium from the power control lines 25, 26, respectively, by the actuators lateral and root valves is supplied to the actuator of the lateral valve. The side gate valve 8 opens.

An example of work to close a well.

Automatic protection system

When the standard pressure values in the lines 51, 52, respectively, the valve 12 control low and high pressure and fuse box 11 of the well, the distribution valve 31 is in the open position. When the pressure or pressure of the working medium in the mentioned lines falls below or above the set (set) values, the distribution valve 31 switches to the closed position, the medium is discharged from the power lines 25, 26, 27 of the functional control, respectively, by the actuators of the side, root valves and the valve cutter. Chokes 37 with pneumatic accumulators 36 are used to control the time interval during the sequential closing of the shut-off organs of the well and the shut-off valve.

In the event of a fire when the ambient temperature at the wellhead rises above the set value (in a fire situation), the working medium is discharged from the fusible link line 52, after which the control valve 30 switches to the closed position, the working medium is discharged from the power lines 25, 26 , 27 of the functional control, respectively, of the lateral, radicular valves, and the shutoff valve. Chokes 37 with pneumatic accumulators 36 are used to control the time interval during the sequential closing of the shut-off organs of the well and the shut-off valve.

Remote shutdown system.

In the control unit 19 of the station, a solenoid valve 32 is installed, made electromagnetic, and an electromagnetic valve 61, controlled from the control panel of the station or from the central control panel.

When a 24V signal is supplied to the valve 32 electric actuator, the lateral valve 8, the root valve 9 and the shutoff valve 4 are remotely closed.

When a 24V signal is supplied to the valve actuator 61, the lateral valve 8 is remotely closed.

Control throttle valve.

When applying voltage to the first electromagnet of the three-position control valve 62, the working medium under pressure up to 4 MPa is supplied from the power line 28 of the functional control of the throttle valve actuator to its actuator. An analog signal is output from a positioner mounted on said valve to the control cabinet 39 or to the central control panel. After that, a signal is transmitted from the cabinet 39 to the first electromagnet (voltage is removed), and the valve 62 is placed in the neutral position. If it is necessary to reduce oil consumption from the control cabinet, a signal is supplied to the second solenoid of valve 62, the medium is reset to the specified parameters.

Claims (16)

1. A bush of oil wells, characterized in that it includes at least two oil wells, each of which contains a production string with a string of tubing with underground production equipment containing at least circulation, shear valves, non-freezing check valve and, if necessary, a separation unit designed to separate water from oil, as well as a device for cutting off the oil flow with remote control, made with an actuator, the well with wellhead equipment having a column head, a pipe head on which a fountain fitting mounted as a Christmas tree is installed, including shutoff elements - root and side valves with actuators, as well as a throttle valve adjacent to the latter for regulating the flow rate of the well, made with an actuator mechanism, and control and control bodies - fuse and control valve low and high pressure, with each well through its shut-off bodies, throttle valve a device for cutting off the oil flow is connected to a control station, including a pump-accumulator unit common to the station and at least one control unit for each well, wherein the pump-accumulator unit includes a pump group and a power line connected to it via the working fluid a high-pressure functional pneumatic accumulator, and each control unit includes power supplies from the aforementioned high-pressure line through pressure regulators to lower the functional pressure to n the necessary lines of functional control of the actuators of the locking elements, the throttle valve, a device for cutting off the oil flow, and for controlling their work through a time-controlled system of slowing down the passage of commands, at least to close each well in a logical sequence: lateral valve - gate valve - shut-off device - a logical control line communicated with a fusible insert and a low and high pressure control valve and equipped with the possibility of to alleviate the passage of commands to close each well with hydraulic control valves, one of which serves to transmit to the logical control line commands to close each well from the fusible link, the other from the low and high pressure control valves, and at least two others, respectively from remote and manual control, while the aforementioned deceleration system includes logical control lines installed on the interaction areas with functional control lines actuators of the root valve and the shut-off device retarders, including a control pneumatic accumulator and a throttle, providing a different time response to close each well, and the power line for functional control of the throttle valve actuator is equipped with a three-position control valve, preferably with two electromagnets. 2. The bush of oil wells according to claim 1, characterized in that when flowing oil production as a shut-off device, a shut-off valve is used. 3. The oil well cluster according to claim 1, characterized in that each well is provided with at least one inhibitor valve in the composition of the underground production equipment, and the tubing string of each well is equipped with at least one column disconnector. 4. The oil well bush according to claim 1, characterized in that the pump-storage unit is equipped with a tank with a working fluid mainly in the form of a liquid, and the power functional pneumohydroaccumulator is made predominantly modular-sectional. 5. The oil well cluster according to claim 1, characterized in that the control station comprises a central control panel located at a distance from it and communicated with it by a communication line, for example, an optical fiber cable or a radio channel, the control station being structurally designed as a cabinet, in of which at least two, preferably three control units are mounted, one for each well, and a common pump and accumulator installation, in addition, the station is equipped with a strapping in the form of the above-mentioned control lines communicated by operating body with actuators shut-off elements, throttle valve and shut-off device. 6. A well of oil wells according to claim 5, characterized in that a fluid is used as a working fluid, the temperature viscosity and freezing temperature of which is determined from the climatic conditions of the well, while the control station, designed to work in the third and fourth climatic zones, As a working fluid, it is equipped mainly with mineral oil, and for the first and second climatic zones, a fluid with a low freezing point, mainly of the silicone type, for example olimethylsiloxane, and the tank for the working fluid is equipped with at least one liquid level indicator, for example, a visual indicator or a level sensor communicated via telemechanics with a central control panel, while the level sensor is equipped with a signal system for the maximum permissible and critical levels or is connected to the system of the central control panel, issuing commands to maintain the liquid level in the tank at specified levels, and for the first and second climatic zones, the working fluid tank is equipped with a liquid heater made in the form of a coil or a heating element. 7. An oil well cluster according to claim 1, characterized in that the pump group is equipped with at least one pump, preferably a high pressure electric pump, preferably an axial piston pump with an asynchronous electric motor, duplicated for the first and second climatic zones, at least one additional parallel-connected high-pressure electric pump, said pump or pumps being connected to the high-pressure line through inlet and outlet filters, preferably of coarse and fine cleaning, respectively but, each of these pumps at the outlet is equipped with a pressure relief valve and is mounted with the ability to selectively disconnect from the high pressure line through a system of shut-off devices, and at least the fine filters installed at the outlet are equipped with a visual indicator and / or an electric sensor with a central control panel, while the pump group, equipped at the output with devices for starting or stopping the pump motors and a check valve, is communicated through the same along the high pressure line with a modular-sectional power functional pneumohydroaccumulator made up of modules parallel to the collector and designed to create the necessary working pressure in the mentioned control lines, while the collector with the pneumohydroaccumulator is communicated via a working fluid with a high pressure line, in addition, the aforementioned devices for starting or stopping electric motors of pumps connected to a high pressure line are made, for example, in the form of a pressure switch, l more in the form of analog pressure sensors, or in the form of electrocontact gauges, the modules of the said pneumatic accumulator made with a membrane or preferably a piston separator, the total working volume of all modules of the power functional pneumatic accumulator adopted at least as necessary for a single opening of the shut-off elements, the throttle valve and the shut-off valve devices, all wells connected to the station or maintenance of the working condition of the wells for at least one month in the absence of electricity. 8. A well of oil wells according to claim 1, characterized in that the power line for functional control of the actuating mechanism of the shut-off device is equipped with a pressure multiplier, preferably duplicated for the first and second climatic zones, and said pressure regulators reduce the pressure from functional 10-100 MPa to operating 0 , 5-70 MPa in power lines of functional control of actuators of root, lateral valves, throttle valve and in logic control line, which also includes valve lines on the control of low and high pressure and fusible insert, and the pressure regulator in the power line of the functional control of the actuating mechanism of the shut-off device is configured to supply the working fluid to the multiplier, taking into account the gear ratio of the last and the required output pressure of the working fluid of at least 21-70 MPa for subsequent supply and control of the actuating mechanism of the shut-off device, while all of the listed power lines of the functional control are equipped with installed in areas before execution tionary mechanisms safety pressure valves. 9. An oil well bush according to claim 5, characterized in that each control unit comprises an automatic well protection system, a remote control system and a manual shut-off system for the well, the automatic protection system comprising a fuse line and a line connected to the logical control line via the control valves control valve low and high pressure, while the control valve low and high pressure is installed in the area adjacent to the fountain, preferably on a loop, and whether The low and high pressure control valve and fusible insert are equipped with a relay or pressure sensors with the possibility of sending a signal to the central control panel to shut down the well in case of fire or because it exceeds the range of permissible operating pressures defined by the low and high pressure control valve settings. 10. The well of oil wells according to claim 1, characterized in that the logical control line of each control unit has the ability to connect in series through the working fluid through the distribution valves to provide the desired logical sequence for controlling the well, control valves of power lines for functional control of actuators, including the number of, at least, the shut-off device, the root valve, the lateral valve with the possibility of their permissible closure in a certain, namely, pr from the indicated sequence, with adjustable allowable time intervals between shutdowns of each of them, for which purpose the mentioned control pneumatic accumulators are installed on the logic control line with the possibility of their interaction on depressurizing each with its own throttle, while the control pneumatic accumulator is on the site of interaction with the functional control power line slam-shut actuator configured to slow shut-off closure devices for a time that is 1.5-2 times the interval between closing the root valve and the lateral valve, from 10 to 120 s. 11. The oil well bush according to claim 1, characterized in that on the logical control line of each control unit in the area of its supply to the power line of the functional control of the lateral valve actuator, an electromagnetic valve for remote on and off of the lateral valve is installed. 12. The oil well cluster according to claim 10, characterized in that the distribution valves of all power lines for functional control of the actuators of each control unit are connected to the discharge line of the spent working fluid, and the discharge line is communicated mainly through the filter with the working fluid tank. 13. An oil well cluster according to claim 12, characterized in that temperature safety valves are installed on the output lines of the functional control of the actuators of the locking elements, the throttle valve, the shut-off device of each control unit, switched at the outlet with the discharge line of excess working fluid released during differences working fluid and / or ambient temperatures. 14. The bush of oil wells according to claim 1, characterized in that the pump and battery installation is made mainly with a remote front panel. 15. The bush of oil wells according to claim 1, characterized in that the locking elements, the throttle valve and the shut-off device of each well are equipped with control devices placed on the front panel of the control unit. 16. An oil well bush according to claim 5, characterized in that the control station cabinet is thermally insulated and explosion-proof, and the cable lines are connected to the cabinet through explosion-proof cable leads.

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