RU2365737C1 - Complex of equipment for control of oil pool well - Google Patents

Abstract

FIELD: oil and gas production.

SUBSTANCE: invention is related to oil and gas industry, and in particular to the field of oil deposit development, and may be used for remote, automatic and manual control of actuating mechanisms of oil deposit well stop elements. Complex of equipment for well control comprises station of well stop elements control - side and above-root gate valves, which are installed on well-control equipment, throttle valve for control of well debit, underground device that isolates oil flow in well, having actuating mechanisms, and also valve for control of low and high pressure and fusible insert. Besides, control station includes unit for control of actuating mechanisms of stop elements, pump-accumulator installation with working medium, power lines of functional control of mentioned actuating mechanisms and line of logical control. This line is made with the possibility of commands transmission for well closure in logical sequence "side gate valve - above-root gate valve - isolating device". For this purpose line is equipped with system of duplicate selective actuation from response of accordingly valve of low and high pressure control, fusible insert or remote or manual commands for closure of well stop elements. Mentioned line is also equipped with system of three-staged actuation in time with slowdown of executive command transmission to closure of above-root gate valve and underground isolating valve, which comprises mechanisms of command transmission delay tuned differently in time and installed on lines of logical control in sections of above-root gate valve and isolating device. These delay mechanisms consist of combination of control pneumatic hydraulic accumulator and throttle serially installed on specified sections. Power line of functional control of throttle valve actuating mechanism is equipped with three-way distribution valve with two electromagnets.

EFFECT: provides for improved reliability and faultless operation of oil pool well, lower prime cost of oil production and simplified control of well actuating mechanisms.

15 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 oil field development, and can be used for remote, automatic and manual control of actuators of the shut-off elements of a well in an oil field.

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, which contains hydraulic actuators connected by the main and additional pressure lines, control lines, electromagnetic valves and check valves, and also equipped with shut-off electromagnetic valves installed at the inlet of the valves, an additional check valve and an additional valve located on inlet of shut-off valves on the main pressure line with the possibility of connection 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 provision for uninterrupted operation of the well during shutdown, including for the long term supply of electric power to the mechanisms and drives of the well of the field, or the provision of at least one-time inclusion of all mechanisms necessary for the resumption of well operation after turning it off.

The objective of the present invention is to increase the reliability and trouble-free operation of a well of an oil field, reduce the cost of oil production and achieve greater ease of process control.

The problem is solved due to the fact that the complex of equipment for controlling at least one containing shut-off elements, the well of an oil field, according to the invention contains a control station for shut-off elements of the well, namely, lateral and root valves installed on the fountain valves, regulating the flow rate wells with a throttle valve, an underground shutoff device for oil flow with actuators, as well as a low and high pressure control valve and fusible link avku, while the control station includes at least one control unit for actuators of the locking elements, a pump-storage unit with a working fluid, power lines for functional control of the said actuators and a logical control line made with the possibility of passing commands at least , to close the well in a logical sequence, a lateral valve - an over-the-air valve - a shut-off device equipped for this with a double selection system actual actuation from actuation, respectively, of the control valve low and high pressure, fusible insert, or remote or manual commands to close the shut-off organs of the well, for which the specified line is also equipped with a three-stage response time system with a slowdown in the passage of the executive command, at least closing the root valve and the underground shutoff valve, including those installed at least in the control sections of the root valve and the shut-off device logic control lines, time-delayed command retarders, consisting of a combination of control pneumatic accumulator and throttle valves sequentially installed in the indicated sections, and the power line for functional control of the throttle valve actuator is equipped with a three-position control valve, preferably with two electromagnets.

In this case, the power line for functional control of the actuating mechanism of the shut-off device can be equipped with at least one pressure multiplier, made with duplication for the first and second climatic zones, and the pump-accumulator unit is equipped with a tank with a working fluid, mainly in the form of a liquid and a power functional pneumatic accumulator , made mainly of modular sectional.

The equipment complex may include a central control panel located at a distance from the control station and communicated with it by a communication line, for example, a fiber optic cable or a radio channel, and the control station for the shutoff organs of the well is structurally made in the form of at least one cabinet in which the said a pump-storage unit and at least one of said control units, in addition, the station is equipped with a strapping in the form of said control lines communicated via a working fluid with actuators of the locking elements of the well.

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 a station designed to operate in the third and fourth climatic zones is equipped primarily with mineral oil as a working fluid, and for the first and in the second climatic zone, a liquid with a low freezing temperature, mainly silicone type, for example, polymethylsiloxane, is accepted as the working fluid, and the working fluid tank is equipped with more than 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 a central control system for the first and the second climatic zone, the working fluid tank is equipped with a fluid heater, made in the form of a coil or heating element.

The pump-accumulator installation may include a pump group 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 high-pressure pump connected in parallel pressure, and the specified pump or pumps are included in the high pressure line - the discharge line through the inlet and outlet filters, preferably of coarse and fine cleaning with each of these pumps at the outlet is equipped with a pressure relief valve and is mounted with the possibility of selective disconnection from the discharge 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 in communication with the central control panel, while the pump group, equipped with output devices for starting or stopping the pump motors and a check valve, is communicated through hereditary on the discharge line with a modular-sectional power functional pneumatic accumulator, consisting of modules connected in parallel to the collector and designed to create operating pressure in the power lines of the functional control of actuators, while the collector with pneumatic accumulator is communicated through the working fluid with the discharge line, in addition devices for starting or stopping electric motors of pumps connected to the discharge line are made, for example, in the form of a relay pressure, either in the form of analog pressure sensors or in the form of electrical contact pressure gauges, the modules of the power functional pneumohydraulic accumulator made with a membrane or, preferably, a piston separator of media, while the total working volume of all modules of the mentioned pneumohydroaccumulator is accepted not less than necessary for a single opening of all locking elements at least one well or maintaining the working condition of the well for at least one month in the absence of electricity.

Power lines for functional control of the actuators of the root, lateral gate valves, control throttle valve and a logical control line, which also includes valve lines, can be connected to the discharge line through pressure regulators that lower the pressure from the functional 10-100 MPa to the working 0.5-70 MPa control of low and high pressure and fusible insert, in addition, to the discharge line, mainly through at least one mentioned multiplier, which increases the functional pressure to the required about not less than 21-70 MPa, a power line for functional control of the actuating mechanism of the shut-off device is connected, on which at least one pressure regulator is installed, 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 for the subsequent feed and control the actuator of the shut-off device, while all of the listed power lines of the functional control of the actuators of the locking elements are provided pressure relief valves installed in areas in front of the actuators.

The station control unit may comprise an automatic well protection system, a remote control system and a manual shut-off system, the automatic protection system comprising a fusible line connected to the logical control line via a hydraulic control valve and a valve line similarly connected to the same control line through another hydraulic control valve control of low and high pressure, while the control valve of low and high pressure is installed in the area of prima flowing to the fountain fittings, preferably on a loop, and both of these lines are equipped with relays or pressure sensors with the possibility of issuing a signal to the central control panel to shut down the well, respectively, in case of fire or due to going beyond the range of permissible working pressures in the loop, determined by the control valve setting low and high pressure; similarly, the hydraulic control valves are sequentially included in the logical control line for remote shutdown and for manual closing of the said working bodies of the well - lateral valve, root valve and shut-off device.

The logical control line can be sequentially connected through the working fluid through hydraulic control valves to provide the required logical sequence for controlling the well. The control valves of the power lines of the functional control of the actuators, including at least the shut-off device, the root valve, the lateral valve with the possibility of their valid closing in a certain, namely, in the opposite specified sequence with adjustable to the adjustable time intervals between the shutdowns of each of them, for which purpose the control pneumohydraulic accumulators are installed on the logical control line in the areas of its interaction with the power lines of the functional control of the actuating mechanisms of the shut-off device and the root valve, with the possibility of their interaction on the pressure relief of each with its throttle, while the control the pneumatic accumulator in the control section of the shut-off device of the logical control line is configured to The closing delay of the shut-off device is 1.5-2 times longer than the interval between the closing of the root valve and the lateral valve, from 10 to 120 seconds.

When fountain oil production as a shut-off device can use a shut-off valve.

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

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

On the power lines for functional control of the actuators of the locking elements, 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 of the 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 a well of an oil field, reduce the cost of oil production, achieve greater ease of control of technological processes due to the proposed set of equipment for controlling the well, namely, automated control of the shut-off organs of the well - side and root gate valves regulating the flow rate of the well with a throttle valve, an underground shut-off device h through the proposed control station, which contains a pump-accumulator unit developed in the invention with a power pneumatic accumulator and at least one control unit serving the well with power lines for functional control of the actuators of the locking elements and a logical control line associated with them equipped with at least three duplicated command valves, including two of which operate from the pulse supplied to close the well in case of danger heat or supercritical low or high pressure in the loop, as well as the developed system for shutting the well in the logical sequence of cutting off the fluid, a lateral valve - an overhead valve - a shut-off device that works through a system for slowing down the passage of a closing command, including a tandem from a control pneumatic accumulator and a throttle in a logical control line in areas of interaction with power lines of functional control of actuators of an over-root valve and a shut-off device oystva.

The invention is illustrated by drawings, where:

figure 1 presents the connection diagram of the control station shutoff elements to the well;

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

figure 3 - control unit, hydraulic circuit diagram.

A set of equipment for controlling at least one well containing shutoff elements, the well of an oil field contains a control station for shutoff elements of the well, namely, a lateral valve 1 and a root valve 2 mounted on a fountain valve 3, regulating the flow rate of the well with a throttle valve 4, underground cutting off the oil flow in the well device (not shown in the drawings) having actuators, as well as a low and high pressure control valve 5 and a fuse box 6.

Also, the equipment complex contains a central control panel located at a distance from the control station and communicated with it by a communication line, for example, an optical fiber cable.

The control station includes at least one control unit 7 for controlling the actuators of the locking elements, a pump and accumulator unit 8 with a working fluid, power lines 9-12 for the functional control of the said actuators, and a logical control line 13 made with the possibility of passing commands at least for closing a well in a logical sequence, a lateral valve 1 - an over-the-air valve 2 - a shut-off device equipped for this with a duplicate selective system actuation from actuation, respectively, of the valve 5 control low and high pressure, fuse box 6, or remote or manual commands to close the shut-off organs of the well. For this, the logical control line 13 is also equipped with a three-stage response time system with a slowdown in the passage of the executive command, at least to close the root-valve 2 and the underground shut-off device, which includes installed at least in the control section 14 of the root-valve 2 and section 15 control shut-off device of line 13 of the logical control time-delayed retardation of the passage of the command, consisting of a combination of sequentially installed on specified sections 14, 15 of the control pneumatic accumulator 16 and the throttle 17.

The power line 12 for functional control of the actuator of the shut-off device is provided with at least one pressure multiplier 18. The pressure multiplier 18 for the first and second climatic zones is made with duplication.

The control station for the shutoff elements of the well is structurally made in the form of at least one cabinet 19 in which a pump-accumulator unit 8 and at least one control unit 7 are mounted, in addition, the station is equipped with a strapping in the form of the said control lines communicated along the working fluid with actuators of the shutoff organs of the well.

The pump-accumulator unit 8 comprises a tank 20 with a working fluid, mainly in the form of a liquid, and a power functional pneumatic accumulator 21, made mainly in a modular section.

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 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 climatic zones as a working fluid adopted liquid with a low freezing point, mainly of the type silicone, for example polymethylsiloxane.

Tank 20 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 channels with a central control panel, while the level sensor is equipped with a signaling system about the maximum permissible and critical levels or is connected to the system the central control panel, issuing commands to maintain the liquid level in the tank 20 at predetermined levels, and for the first and second climatic zones, the working fluid tank 20 is equipped with a liquid heater bones made in the form of a coil or TEN.

The pump-accumulator unit 8 includes a pump group with at least one pump 22, mainly a high-pressure electric pump, preferably an axial piston with an asynchronous electric motor 23, duplicated for the first and second climatic zones, at least one additional, in parallel connected high pressure electric pump 22. The specified pump 22 or pumps are included in the line 24 of the high pressure - discharge line through the inlet filter 25 and the output filter 26, preferably of coarse and fine cleaning, respectively. Each of these pumps 22 at the outlet is equipped with a pressure relief valve 27 and is mounted with the possibility of selective shutdown from the discharge line 24 through a system of shut-off devices, for example, ball valves 28. At least the fine filters 26 installed at the outlet are equipped with a visual indicator and / or an electrical sensor in communication with the central control panel. The pump group, equipped at the output with the devices for starting or stopping the pump motors and the check valve 29, is communicated through the latter via the discharge line 24 with a modular-sectional power functional pneumatic accumulator 21 made up of modules 31 connected in parallel to the collector 30 and designed to create operating pressure in power lines 9-12 functional control of actuators. The collector 30 with a pneumatic accumulator 21 is communicated through the working fluid with a discharge line 24. Said devices for starting or stopping the pump motors connected to the discharge line 24 are, for example, in the form of a pressure switch 32, either in the form of analog pressure sensors or in the form of electrical contact pressure gauges. The modules 31 of the power functional pneumatic accumulator 21 are made with a membrane or, preferably, a piston medium separator. The total working volume of all modules 31 of the aforementioned pneumatic accumulator 21 is adopted not less than necessary for a single opening of all locking organs of the pressure gauges. The modules 31 of the power functional pneumatic accumulator 21 are made with a membrane or, preferably, a piston medium separator. The total working volume of all modules 31 of the said pneumatic accumulator 21 is adopted not less than necessary for a single opening of all shut-off organs of at least one well or maintaining the working condition of the well for at least one month in the absence of electricity.

The pressure lines 11, 10, 13 of the functional control are respectively connected to the discharge line through pressure regulators 33, which reduce the pressure from the functional 10-100 MPa to the working 0.5-70 MPa, respectively, by the actuators of the over-the-air valve 2, the lateral valve 1, the regulating butterfly valve 4 and a logical control line 13, which also includes lines 34, 35, respectively, of the low and high pressure control valve 5 and the fusible link 6. To the discharge line 24, mainly through at least one of the multiplier 18 mentioned, increasing functional pressure to the required not less than 21-70 MPa, a power line 12 for functional control of the actuator of the shut-off device is connected, on which at least one pressure regulator 36 is installed, configured to supply the working fluid to the multiplier 18 taking into account the gear ratio of the latter and the required output pressure of the working fluid for subsequent supply and control of the actuator of the cutting device.

All power lines 9-12 of the functional control of the actuators of the locking elements are equipped with pressure relief valves 37 installed in the areas in front of the actuators.

The control unit 7 of the station contains a system for automatic well protection, a remote system and a manual shut-off system for the well. The automatic protection system comprises a fuse-link line 35 connected to the logical control line 13 through a hydraulic control valve 38 and a low and high pressure control line 5 connected to the same control line 13 through another hydraulic control valve 39. Valve 5 control low and high pressure is installed in the area adjacent to the fountain, preferably on a loop. Both high pressure. Similarly, the hydraulic control valves 41, 42 are sequentially connected to the logic control line 13 for remote shutdown and for manual closing of the said working bodies of the well — the lateral valve 1, the root valve 2 and the shut-off device.

The logical control line 13 sequentially connects through the working fluid through hydraulic control valves 43-45 to provide the required logical sequence for controlling the well-control valves 46-48 power lines 12, 11, 10 of the functional control of the actuators, including at least the shut-off devices, an overhead valve 2, a lateral valve 1 with the possibility of their permissible closure in a certain, namely, in the opposite specified sequence with adjustable setting permissible time intervals between the shutdowns of each of them, for which purpose the control pneumatic accumulators 16 are installed on the logical control line 13 at the areas of its functional control with the power lines 12, 11 of the functional control, respectively, of the shut-off device and the root valve, with the possibility of their interaction on pressure relief of each with its throttle 17. The control pneumatic accumulator 16 on the control section 15 of the shut-off device line 13 is logical th configured to control deceleration of the clipping device is closed for a time of 1.5-2 times the interval between the closing of the valve 2 and nadkorennoy side valve 1 comprising from 10 to 120 seconds.

On the line 13 of the logical control in the area of its supply to the power line 10 of the functional control of the actuator of the lateral valve 1, an electromagnetic valve 49 for remote shutdown of the lateral valve 1 is installed.

The power line 12 for functional control of the actuator of the throttle valve 4 is equipped with a three-position control valve 50, preferably with two electromagnets.

The distribution valves of all power lines 9-12 of the functional control are switched with the discharge line 51 of the spent working fluid, while the reset line 51 is communicated mainly through the filter with the tank 20 of the working fluid.

On the power lines 9-12 for functional control of the actuators of the locking elements, temperature safety valves 52 are installed, which are switched at the outlet with a discharge line 51 for discharging excess working fluid released when the temperature of the working fluid and / or the environment changes.

Pump-battery installation 8 is made, mainly, with a remote front panel.

The locking elements of the well are equipped with control devices placed on the front panel of the control unit.

The cabinet 19 of the control station is thermally insulated and explosion-proof, and the cable lines are connected to the cabinet through the cable leads of the explosion-proof design.

When fountain oil production as a shut-off device using a shut-off valve.

The following is the operation of a complex of equipment for controlling an oil well, using fountain oil as an example, when a shut-off valve is used as a shut-off device.

Pump-accumulator unit 8 is designed to create and maintain the required working pressure of the working medium in the control lines of the station.

The working medium from the tank 20 with a volume of about 200 l is piped through a coarse filter 25 and a crane 53 to the inlet of the electric pump 22, which is driven by an electric motor 23. At the outlet of the pump after the crane 28, a fine filter 26 is installed.

The safety valve 27 is set to a predetermined working pressure of 21 MPa and, when the set pressure is exceeded, connects the discharge line 24 to the cavity of the tank 20 and the excess volume of the working medium is discharged via the discharge line 51.

Through the check valve 29 from the discharge line 24, the working medium enters the manifold 30 and fills the modules 31 of the power functional pneumohydroaccumulator 21, designed to store the necessary supply of the working medium under pressure, with each module 31 being made in a volume of 40-50 l.

After filling the pneumatic accumulator 21, the working medium through the pipelines enters the line 9-12 of the functional control of the actuators by the shutoff organs of the well and into the logical control line 13.

The pressure regulator 36 in the power line 11 for functional control of the actuator of the shut-off valve reduces the pressure in the discharge line 24 from 21 MPa to a pressure of three or four times the pressure at the outlet of the multiplier 18, which provides operating pressure on the functional control line 11 for the actuator of the shut-off valve, equal to 28 MPa (280 kgf / cm ² ). The safety valve 37 is set to a predetermined working pressure of 28 MPa and, when the set pressure is exceeded, connects the aforementioned line 11 to the cavity of the tank 20 and the excess volume of the working medium is discharged via the discharge line 51.

The pressure regulators 33 reduce the pressure in the power line 12 for functional control of the actuator of the throttle valve 4 and the logic control line 13 to a working pressure of 4 MPa (40 kgf / cm ² ), and in power lines 9, 10 for functional control, respectively, by the actuators of the side and root valves - up to 14 MPa (140 kgf / cm ² ). The safety valves 37 are set to a predetermined working pressure of 4 MPa, and when the set pressure is exceeded, the above-mentioned lines are connected to the cavity of the tank 20, and the excess volume of the working medium is discharged via the discharge line 51.

In the control unit 7 of the station, the working medium at a pressure of 4 MPa in the line 13 of the logical control is supplied to the input of a normally closed hydraulic control valve 38, designed to relieve control pressure in case of fire. After filling in the fuse-link line 35, the control valve 38 opens and the medium enters the normally closed hydraulic control valve 39, which is designed to relieve control pressure when the control valve 5 for low and high pressure installed in line 34 of the valve is activated. Then, the working medium passes through the normally open distribution valve 41, designed to remotely shut off the entire well, and the distribution valve 42, designed for manual emergency shutdown of the entire well by means of the emergency shutdown button.

After the control valve 42, the working medium enters the inlet of the normally closed control valve 43 with hydraulic actuator and manual override.

When the line 35 fuse is filled, the pressure switch 40 gives a signal to the central control panel.

When the line 34 of the control valve low and high pressure is filled, another pressure switch 40 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 43, which is set to self-feed, and the working medium through the check valve 54 enters the actuator of the control valve 46, which opens and the working medium from the power control line 11 to control the actuator of the shut-off valve enters its actuator. The shut-off valve opens.

- pull the handle of the control valve 44, which is set to self-feed, and the working medium through the check valve 55 enters the actuator of the control valve 47, which opens and the working medium from the power lines 9, 10 of the functional control, respectively, by the actuators of the side and root valves, actuator of the root valve. The opening of the root valve occurs.

- pull the handle of the control valve 45, which is set to self-feed, and the working medium through the check valve 55 and the normally open solenoid valve 49 enters the actuator of the control valve 48, which opens and the working medium from the power lines 9, 10 of the functional control, respectively, actuators lateral and root valves is supplied to the actuator of the lateral valve. The side gate opens.

An example of work to close a well.

Automatic protection system

When the standard pressure values in lines 34, 35, respectively, valve 5 control low and high pressure and fuse box 6 of the well, the distribution valve 39 is in the open position. When the pressure or pressure of the working medium in the above-mentioned lines falls below or above the set (set) values, the control valve 39 switches to the closed position, the medium is discharged from the power lines 9, 10, 11 of the functional control, respectively, by the actuators of the side, root valves and the valve cutter. Chokes 17 with pneumatic accumulators 16 are used to control the time interval during the sequential closing of the shut-off organs of the well.

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 fuse line 35, after which the control valve 38 switches to the closed position, the working medium is discharged from the power lines 9, 10 , 11 functional control, respectively, of the lateral, radicular valves, and the shutoff valve. Chokes 17 with pneumatic accumulators 16 are used to control the time interval during the sequential closing of the shut-off organs of the well.

Remote shutdown system.

In the control unit 7 of the station, a solenoid valve 41 is installed, made solenoid, and an electromagnetic valve 49, controlled from the control panel of the station or from the central control panel.

When a 24V signal is supplied to the electric actuator of the valve 41, the side, root valves and shut-off valves are remotely closed.

When a 24V signal is supplied to the valve actuator 49, the lateral valve is remotely closed.

Control throttle valve.

When applying voltage to the first electromagnet of the three-position control valve 50, the working medium under pressure up to 4 MPa is supplied from the power line 12 of the functional control of the throttle valve actuator to its actuator. From the positioner mounted on said valve, an analog signal is output to the control cabinet 19 or to the central control panel. After that, a signal is transmitted from the cabinet 19 to the first electromagnet (voltage is removed) and the valve 50 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 50, and the medium is reset to the specified parameters.

Thus, the claimed complex of equipment provides increased reliability and trouble-free operation of the well during oil production.

Claims (15)

1. A set of equipment for controlling at least one containing shutoff elements, a well of an oil field, characterized in that it contains a control station for shutoff elements of the well, namely, side and root valves installed on the fountain valves, a butterfly valve for regulating well production rate, an underground shut-off device for oil flow with actuators, as well as a low and high pressure control valve and fusible insert, while the control station The apparatus includes at least one control unit for actuators of shut-off bodies, a pump-accumulator unit with a working fluid, power lines for functional control of said actuators, and a logical control line made with the possibility of passing commands for at least closing the well in logical sequence “lateral valve - overhead valve - shut-off device”, equipped for this with a system of duplicate selective actuation from triggering, respectively, of the low and high pressure control valve, fusible insert, or remote or manual commands to close the shut-off organs of the well, for which the specified line is also equipped with a three-stage response time system with a slowdown in the passage of the executive command, at least to close the root valve of an underground shut-off valve, including at least control sections of an over-the-gate valve and a shut-off device of a logical control line I have time-delayed command retarders, consisting of a combination of control pneumatic accumulator and throttle sequentially installed on the indicated sections, and the power line of the functional control of the throttle valve actuator is equipped with a three-position control valve, preferably with two electromagnets. 2. The equipment complex 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 at least one pressure multiplier made with duplication for the first and second climatic zones, and the pump-storage unit is equipped with a tank with a working fluid mainly in the form of a liquid and a power functional pneumohydroaccumulator, made mainly of modular sectional. 3. The equipment complex according to claim 1, characterized in that it comprises a central control panel located at a distance from the control station and communicated with it by a communication line — an optical fiber cable or a radio channel, the control station for the shutoff organs of the well being structurally made in the form of at least at least one cabinet in which said pump-accumulator installation and at least one said control unit are mounted; in addition, the station is provided with a strapping in the form of said control lines communicated via a working fluid with actuators of the shutoff organs of the well. 4. The equipment complex according to claim 2, 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 station is 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 liquid with a low freezing temperature mainly of the type silicone-polymethylsiloxane is used as a working fluid I, and the tank for the working fluid is equipped with at least one indicator of the liquid filling level - a visual indicator or 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 is connected to the system central control panel with the ability to issue a command 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 heater liquids made in the form of a coil or TEN. 5. The equipment complex according to claim 2, characterized in that the battery-charging installation includes a pump group with at least one pump, mainly 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, in parallel connected high-pressure electric pump, and the specified pump or pumps are included in the high-pressure line - the discharge line through the inlet and outlet filter preferably coarse and fine cleaning, respectively, with each of the mentioned pumps at the outlet equipped with a pressure relief valve and mounted to selectively disconnect from the discharge line through a system of shut-off devices, at least the fine filters installed at the output are equipped with a visual indicator and / or an electric sensor in communication with the central control panel, while the pump group is equipped with output devices for starting or stopping electric motors pumps and a non-return valve, communicated through the latter through the discharge line with a modular-sectional power functional pneumohydroaccumulator made up of modules parallel to the collector and designed to create operating pressure in the power lines of the actuator functional control, while the collector with pneumohydraulic accumulator is communicated through the working fluid with a discharge line, in addition, the aforementioned devices for starting or stopping the pump motors connected to the line delivery, made in the form of a pressure switch or in the form of analog pressure sensors, or in the form of electrocontact gauges, the modules of the power functional pneumatic accumulator are made with a membrane or preferably a piston separator of media, while the total working volume of all modules of the said pneumatic accumulator is accepted no less than necessary for a single opening all shut-off organs of at least one well or maintaining the working condition of the well for at least one month at lack of electricity. 6. The equipment complex according to claim 5, characterized in that the power lines of the functional control of the actuators of the root, lateral gate valves regulating are connected to the discharge line through pressure regulators to reduce the pressure from the functional 10-100 MPa to the working 0.5-70 MPa a throttle valve and a logic control line, which also includes the control valve lines for low and high pressure and fusible plugs, in addition to the discharge line, preferably through at least one of the above multipliers for to increase the functional pressure to the required not less than 21-70 MPa, a power line for functional control of the actuating mechanism of the shut-off device is connected, on which at least one pressure regulator is installed, configured to supply the working fluid to the multiplier taking into account the gear ratio of the last and required working pressure bodies for the subsequent supply and control of the actuator of the shut-off device, while all the listed power lines of the functional control The locking mechanisms are equipped with pressure relief valves installed in areas in front of the actuators. 7. The equipment complex according to claim 1, characterized in that the control unit of the station 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 connected to the logical control line through a hydraulic control valve and similarly connected to the same control line through another hydraulic control valve the line of the control valve low and high pressure, while the control valve is low and high pressure installed in the area adjacent to the fountain, preferably on the loop, and both of these lines are equipped with relays 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 in a loop determined by the setting of the control valve low and high pressure; similarly, the hydraulic control valves are sequentially included in the logical control line for remote shutdown and for manual closing of the said working bodies of the well - lateral valve, root valve and shut-off device. 8. The equipment complex according to claim 1, characterized in that the logical control line sequentially connects through the working fluid through hydraulic control valves to provide the required logical sequence for controlling the well valves-distributors of power lines for functional control of actuators, including at least a shut-off device, an overhead valve, a lateral valve with the possibility of their permissible closure in a certain, namely, in the opposite specified Instructions with adjustable admissible time intervals between the shutdowns of each of them, for which the mentioned control pneumohydraulic accumulators are installed on the logical control line in the areas of its functional control with the power lines of the functional control of the actuating mechanisms of the shut-off device and the root valve, with the possibility of their interaction on pressure relief of each with its own throttle , while the control pneumatic accumulator in the control section of the cutting device logic configured to control line shut-off device closing deceleration at a time of 1.5-2 times the interval between the valve closing nadkorennoy and lateral valves, comprising from 10 to 120 seconds. 9. The equipment complex according to claim 1, characterized in that in the oil fountain production, a shut-off valve is used as a shut-off device. 10. The equipment complex according to claim 1, characterized in that the solenoid valve for remote activation and deactivation of the lateral valve is installed on the logical control line in the area of its supply to the power line for functional control of the lateral valve actuator; 11. The equipment complex according to claim 8, characterized in that the distribution valves of all power lines of the functional control are switched with the discharge line of the spent working fluid, while the discharge line is communicated mainly through the filter with the working fluid tank. 12. The equipment complex according to claim 11, characterized in that temperature safety valves are installed on the power lines of the functional control of the actuators of the locking elements, which 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. 13. The equipment complex according to claim 1, characterized in that the pump and battery installation is made mainly with a remote front panel. 14. The equipment complex according to claim 1, characterized in that the well shut-off bodies are equipped with control devices placed on the front panel of the control unit. 15. The equipment complex according to claim 3, 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 outlets.

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