RU46808U1 - UNDERGROUND WATER INJECTION SYSTEM - Google Patents

Abstract

The utility model relates to a system for pumping groundwater into an oil reservoir and devices intended for use in the oil and gas industry. The technical problem is solved by the proposed system of groundwater injection into the oil reservoir, which includes a water intake and injection well communicating with a water conduit, a submersible centrifugal pump. What is new is that the conduit at the mouth of the injection well is equipped with a bypass pipe with a filter and shutoff valves, and at the mouth of the water well the conduit is equipped with a valve with a valve connecting the conduit to the annulus of the water well, while the shutoff valves and the valve are configured to direct fluid flow through a water conduit from a water well bypassing the filter into the discharge well, and from the water well through the filter of the bypass pipeline into the annulus oh well. The use of this system of groundwater injection into the oil reservoir allows preserving the reservoir properties of the reservoirs for a long period without additional operations to clean the bottom-hole zone of injection wells.

Description

The proposal relates to a system for pumping groundwater into an oil reservoir and devices intended for use in the oil and gas industry.

A known system for pumping groundwater into an oil reservoir, including a water well, a low pressure pipe, a well pump station, an extensive network of high pressure pipes, injection wells. Produced water from a water well by gravity or using pumps through a low pressure water line is supplied to a cluster pump station and is pumped through a branched network of high pressure water pipes into injection wells with different permeability and injectivity of the layers (see Prince F.S. Abdulin “Production oil and gas "M., Nedra, 1983, S. 60-61).

Closest to the proposed system is the injection of groundwater into the oil reservoir, which includes interconnected high-pressure water pipelines, water intake and injection wells, and a submersible centrifugal pump. The produced water from the water well is submerged by a submersible centrifugal pump directly into the injection wells with different permeability and injectivity of the formation (see Prince F.S. Abdulina “Oil and Gas Production” M., Nedra, 1983, p. 61).

A disadvantage of the known system for injecting groundwater into an oil reservoir is that during its operation pollutant particulate matter enters injection wells, the causes of which in reservoir water are the following factors: removal of particulate matter and sediment from an intake well; solid deposits and corrosion products in water conduits, formed during their long-term operation. As a result of the injection of contaminated formation water into oil reservoirs, an intensive clogging of the filtering surface of the reservoir occurs. This leads to a rapid decrease in injectivity of the injection well.

The technical task of the proposed utility model is to maintain the reservoir properties of the oil reservoir for a long time by cleaning the filtering surface of the oil reservoir in the bottom-hole zone of injection wells from contaminating solid particles and oil.

The technical problem is solved by the proposed system of groundwater injection into the oil reservoir, which includes a water intake and injection well communicating with a water conduit, a submersible centrifugal pump.

What is new is that the conduit at the mouth of the injection well is equipped with a bypass pipe with a filter and shutoff valves, and at the mouth of the water well the conduit is equipped with a valve with a valve connecting the conduit to the annulus of the water well, while the shutoff valves and the valve are configured to direct fluid flow through a water conduit from a water well bypassing the filter to the discharge, and from the water well through the filter of the bypass pipeline into the annulus th hole.

The drawing shows a schematic diagram of the injection of groundwater into the oil reservoir. The solid lines with arrows show the fluid flow during injection from the water well into the injection (direct flow). The dashed lines with arrows show the fluid flow during outflow from the injection well into the water intake (return flow).

The system of groundwater injection into the oil reservoir includes a water intake 1 communicating with a water supply 2 and an injection 3 wells, a submersible centrifugal pump 4, while the water supply 1 at the mouth of the injection well 3 is equipped with a bypass pipe 5 with a filter 6 and shutoff valves 7, 8, 9, and the mouth of the water intake well 2 by a pipeline 10 connecting the water conduit 1 to the annular space of the water intake well 2 through a valve 11. The filter 6 is equipped with drain valves for sampling sludge 12 and oil 13.

The system of groundwater injection into the oil reservoir works as follows. Produced water with solid particles carried away by it from an aquifer 14 of an intake well 2 by a submersible centrifugal pump 4 is pumped through a conduit 1 into the oil reservoir 15 of injection well 3. At the same time, the shutoff valve 7 is open and the shutoff valve 8.9 and the valve! 1 closed.

During the operation of the underground water injection system in the oil reservoir 15, pollutant solid particles 3 enter the injection well 3, thereby actively clogging the filter surface of the formation and reduce the injectivity of the injection well 3. The task of cleaning the filter surface of the oil reservoir 15 and restore the injectivity of the injection well 3 is solved using a filter 6 mounted on the mouth of the injection well 3. Cleaning the filter surface of the oil reservoir 15 from contamination yayuschih solid

particles and oil and recovery injectivity injection wells 3 is as follows.

Submersible centrifugal pump 4 is turned off. The injected formation water with solid particles carried away by it and a film of oil from the oil reservoir 15 of the injection well 3 is poured out and bypass pipe 5 enters the filter 6, where it is cleaned of polluting solid particles and oil, then through the water pipe 1 and pipeline 10 the purified produced water enters the annulus of the water well 2. In this case, the shutoff valves 8, 9 and the gate valve 11 are open, and the shutoff valves 7 are closed. The selection of sludge from the filter is carried out through the drain valve 12, and the selection of oil through the drain valve 13. After cleaning the filter surface of the oil reservoir 15 and restore the injectivity of the injection well 3, the process of pumping groundwater into the oil reservoir 15 is resumed according to the previously described scheme.

Using this proposal allows you to save the reservoir properties of the reservoirs for a long period without additional operations to clean the bottom-hole zone of injection wells (underground repairs, various treatments, hydraulic fracturing, etc.), which leads to savings in material and financial resources.

Claims (1)

A system for pumping groundwater into an oil reservoir, including a water intake and injection wells communicating with a water conduit, a submersible centrifugal pump, characterized in that the water conduit at the mouth of the injection well is equipped with a bypass pipeline with a filter and shutoff valves, and the water conduit at the mouth of the water intake well is equipped with a pipeline with a valve connecting water conduit with the annulus of the water well, while the shutoff valves and the valve are configured to direct the fluid flow through the water conduit from the water carrier an abortion well bypassing the filter into the injection well, and from the injection well through the bypass filter into the annulus of the water well.