RU2010146722A - METHOD FOR CONTROL OF BOTTOM-CONTROLLING FITTINGS OF WELLS OF WELLS AND A DEVICE FOR ITS IMPLEMENTATION - Google Patents

Abstract

 1. A method of controlling shutoff and regulating reinforcement of a wellbore containing at least one well, mainly two wells, which consists in opening and closing shutoff and regulating reinforcement of a wellbore by independently supplying a working fluid to actuators of shutoff and regulating reinforcement for strapping each well, underground shut-off valves and valves regulating the debit of each well using a system containing instrumentation and instrumentation A, actuators and installed in the station cabinet, while e of the working fluid to control the actuators actuators use a fluid whose working pressure is previously created in the pneumohydroaccumulators of pressure, combined with the tank of the working fluid, pumps, pressure regulators and multipliers in the pump-accumulator unit located in the control cabinet, while opening the fountain valves for supply formation fluid from the well is carried out in a certain sequence with a time delay determined by the technological regulations and inertia water actuators, as well as the safety of the system, characterized in that the working fluid from the pump-accumulator installation of the control cabinet is additionally supplied to the actuators of shut-off and control valves belonging to the wellbore, for example, to control valves to ensure a given flow rate and pressure of the formation fluid after fountain fittings placed, for example, on fountain fittings or well pipelines, flare valves of technological and emergency discharges

Claims (21)

1. A method of controlling shutoff and regulating reinforcement of a wellbore containing at least one well, mainly two wells, which consists in opening and closing shutoff and regulating reinforcement of a wellbore by independently supplying a working fluid to actuators of shutoff and regulating reinforcement for strapping each well, underground shut-off valves and valves regulating the debit of each well using a system containing instrumentation and instrumentation A, actuators and installed in the station cabinet, while e of the working fluid to control the actuators actuators use a fluid whose working pressure is previously created in the pneumohydroaccumulators of pressure, combined with the tank of the working fluid, pumps, pressure regulators and multipliers in the pump-accumulator unit located in the control cabinet, while opening the fountain valves for supply formation fluid from the well is carried out in a certain sequence with a time delay determined by the technological regulations and inertia water actuators, as well as the safety of the system, characterized in that the working fluid from the pump-accumulator installation of the control cabinet is additionally supplied to the actuators of shut-off and control valves belonging to the wellbore, for example, to control valves to ensure a given flow rate and pressure of the formation fluid after fountain fittings, placed, for example, on fountain fittings or pipelines for piping wells, flare valves of the system of technological and emergency discharges, for example, horizontal burners, loop valves of the system for dumping produced reservoir fluid into the reservoir, which are then placed on pipelines in the immediate vicinity of the control cabinet, for example, on the same common frame with the control cabinet, with the opening of shut-off and control valves of each well for supply of formation fluid from the well to the reservoir is carried out in the following sequence: an underground shutoff valve, a stem valve, a loop valve, a lateral valve, and closing - in the form of in order, with the introduction of a system of interlocks, both electric and hydraulic, to ensure the specified sequence, moreover, this algorithm for opening / closing a well is set in advance, for example, using software, while supplying working fluid to the actuators of the flare valve and angular butterfly valve carried out as necessary, for example, when resetting the flow of formation fluid to the flare unit, or adjusting the flow rate of the well, respectively. 2. The control method according to claim 1, characterized in that the dynamics of the control system of the fountain valves determine the characteristics of additional pressure accumulators and adjust the chokes installed on the supply line of the working fluid in the actuator actuators, and are selected in such a way as to ensure trouble-free shutting of the well in given sequence. 3. The control method according to claim 1, characterized in that the temperature inside the station cabinet is maintained, which ensures uninterrupted operation of all system elements located in the cabinet. 4. The control method according to claim 1, characterized in that they duplicate the operation of individual elements of the control system of fountain valves, in particular, duplicate the operation of the line "pump - pressure regulator - multiplier". 5. The control method according to claim 1, characterized in that the working fluid is passed through the bypass drainage lines of the hydraulic system when closing the well. 6. The control method according to claim 1, characterized in that the monitoring of compliance with the operating conditions at the well and closing the well when they are violated is carried out by using a line with a destructible fusible insert in the hydraulic system. 7. The control method according to claim 1, characterized in that the monitoring of compliance with the operating conditions at the well and closing the well when they are violated is carried out through the use of low and high pressure control valves in the gas condensate pipeline in the hydraulic system. 8. The control method according to claim 1, characterized in that the monitoring of compliance with the operating conditions at the well and closing the well when they are violated is carried out by using low and high pressure control valves in the gas system in the hydraulic system, while the operation of these valves is duplicated using sensors pressure placed on gas pipelines. 9. The device for implementing the method according to claim 1, containing a station cabinet, in which a hydraulic system for controlling fountain fittings and an underground well shut-off valve is mounted, comprising instrumentation and automation devices, actuators, distributors with a drive and with input and output cavities and drainage installed both through the control line of the stem and side valves, and along the control line of the underground shutoff valves, and pressure accumulators connected to the working tank are installed in the hydraulic system bodies, pumps, pressure regulators, multipliers and pipelines for supplying the working fluid to the actuators of the lateral and stem valves, underground shutoff valves and valves regulating the debit of each well, characterized in that loop control lines are additionally mounted in the cabinet, and, for example, flare valves, while loop and flare valves are installed on pipelines in the immediate vicinity of the control cabinet, for example, on one common frame. 10. The device according to claim 9, characterized in that at least one device for supplying the inhibitor is mounted on the frame. 11. The device according to claim 9, characterized in that several independent pneumohydraulic systems are mounted in the control cabinet for controlling fountain fittings and underground well shutoff valves interconnected. 12. The device according to claim 9, characterized in that the hydraulic system is divided into several parts, each of which is mounted as a separate module, and has connectors for docking with the rest of the system. 13. The device according to claim 9, characterized in that the station cabinet is thermally insulated. 14. The device according to claim 9, characterized in that heating elements are installed inside the station cabinet to ensure a predetermined temperature inside the cabinet. 15. The device according to claim 9, characterized in that a heated zone is made inside the station cabinet for maintenance and repair of station equipment by maintenance personnel. 16. The device according to claim 9, characterized in that the inner cavity of the station cabinet is divided into several parts, each of which has an opening panel. 17. The device according to claim 9, characterized in that the station cabinet door is divided into several parts, the door parts being installed with the possibility of opening the entire door as a whole, or separately of each part. 18. The device according to claim 9, characterized in that in the hydraulic system of the cabinet of the station, bypass drainage lines are made for passing the working fluid when closing the well back into the tank. 19. The device according to claim 9, characterized in that a line with a fusible insert is introduced into the hydraulic system, upon destruction of which the well is closed. 20. The device according to claim 9, characterized in that a line with low and high pressure control valves in the gas condensate pipeline is introduced into the hydraulic system. 21. The device according to claim 9, characterized in that the floors in the cabinet are made in the form of cells.