RU2015102377A - STRESS WELL - Google Patents

Abstract

1. An injection well containing a casing perforated at the level of oil reservoirs, in which a string of tubing with at least one packer mounted above the oil reservoir is located, wellhead shut-off and by-pass valves connecting the power pump with the frequency adjustable electric drive inlet with a water source, gas-liquid ejector-mixer inlets with a gas source, a tank with a surfactant and the release of the power pump, and the release of the working agent with tubing, between which a booster pump with a water lock is built into the pipeline, a control station with a control device containing a time relay and a control controller with software, power cables supplying the pump electric drives from the control station, a device for measuring borehole parameters with pressure sensors and temperature and a flow meter located in the well, connected by a geophysical cable to the control device, and control valves with the ability to control with a scooter, characterized in that cross-flow couplings are integrated in the tubing string, the radial channels of which communicate with the central channel to the oil reservoir through annular spaces separated by packers, over the latter tubing are hermetically connected by movable disconnecting couplings with the possibility of packers alternately landing in casing pipe, and the longitudinal channels communicate the cavity of the tubing above and below the cross-flow couplings, and the longitudinal channels are lower

Claims (6)

1. An injection well containing a casing perforated at the level of oil reservoirs, in which a string of tubing with at least one packer mounted above the oil reservoir is located, wellhead shut-off and by-pass valves connecting the power pump with the frequency adjustable electric drive inlet with a water source, gas-liquid ejector-mixer inlets with a gas source, a tank with a surfactant and the release of the power pump, and the release of the working agent with tubing, between which a booster pump with a water lock is built into the pipeline, a control station with a control device containing a time relay and a control controller with software, power cables supplying the pump electric drives from the control station, a device for measuring borehole parameters with pressure sensors and temperature and a flow meter located in the well, connected by a geophysical cable to the control device, and control valves with the ability to control with a scooter, characterized in that cross-flow couplings are integrated in the tubing string, the radial channels of which communicate with the central channel to the oil reservoir through annular spaces separated by packers, over the latter tubing are hermetically connected by movable disconnecting couplings with the possibility of packers alternately landing in casing pipe, and the longitudinal channels communicate the cavity of the tubing above and below the cross-flow couplings, and the longitudinal channels are lower the couplings are blocked by a plug, while in the central channel of the cross-flow couplings, a block of a telemechanical system for regulating the flow and metering the flow rate of the injected working agent is sealed in the corresponding layers, including a control valve with an electric actuator for program control and a flow seat, telemetry sensors and a flow meter located in the sleeve, installed above each cross-flow coupling, and interconnected by a geophysical cable passed through a lubricator, installed on a column of tubing, which blocks the telecontrol systems are connected to a control device for transmitting control commands as motorized control valves of the controller and the control information from the telemetry sensors instrumentation control station logging cable with the separation signals. 2. An injection well according to claim 1, characterized in that an adjustable gate valve and a non-return valve are built into the gas pipe for supplying gas from an external source to the receiving chamber of the gas-liquid ejector-mixer. 3. An injection well according to claim 1, characterized in that an adjustable gate valve and a non-return valve are integrated in the pipeline for supplying a surfactant from the tank to the receiving chamber of the gas-liquid ejector-mixer. 4. An injection well according to claim 1, characterized in that a bypass for returning water after the power pump to its inlet, equipped with a safety valve stabilizing the pressure of the water in the gas-liquid ejector mixer, is connected in parallel to the water supply pipe to the gas-liquid ejector-mixer. 5. An injection well according to claim 1, characterized in that the blocks of the telemechanical system are arranged to be sequentially planted by their geophysical cable from the wellhead into the jacks of the corresponding cross-flow couplings and dismantled during their repair and maintenance, for which purpose the diameters of the seats in the couplings for the blocks , respectively, decrease from top to bottom. 6. The injection well according to claim 1, characterized in that the geophysical cables in the sections between the blocks of the telemechanical system are placed in telescopic tubes equipped with compression springs, with the possibility of changing the distance between the blocks during alternate landing and dismounting them in the corresponding cross-flow couplings pumped into the reservoirs gas-liquid emulsion.