RU2250985C2 - Method for extracting oil from a well and device for realization of said method - Google Patents

Abstract

FIELD: oil industry.

SUBSTANCE: method includes raising oil from well face to surface through tubing string and increasing pressure in extracted oil during its raising through tubing string. From face of well, selected for operation, a sample of oil is taken and value of pressure, at which asphalt-resin-paraffin precipitations crystallization begins, is determined. Pressure in extracted oil during its raising through tubing string is increased to value, exceeding crystallization pressure value and this value is maintained in extracted oil during whole time of oil raising from well face to surface through tubing string. For this oil feed into output line of well mouth circling system is concurrently and continuously controlled. During stops of well operation during whole period of stoppage pressure in extracted oil in tubing string is maintained. Device has tubing string, lowered into well. Upper end of tubing string through circling system of well mouth is connected to output line. Pressure increase assembly for extracted oil during its raising through tubing string is made in form of flow valve assembly. Valve assembly body has inlet channel, connected to output line. In inner hollow of body a valve is placed for closing inlet channel from inside the body and resilient element for pressing the valve. Cross-section areas of inlet and output channels and value of pressure of resilient element are made dependent on each other. Output line is provided with connecting pipe chamber. Flow valve assembly is mounted in connecting pipe chamber. Resilient element is made in form of a spring, mounted with possible adjustment of its compression by screw, screwed as plug from outer end of body into inner hollow of body from the end, opposite to valve location.

EFFECT: higher efficiency, higher oil yield, simplified operation, lower costs.

2 cl, 3 dwg, 1 ex

Description

The invention relates to the field of oil production from wells by fountain and mechanized methods and is intended primarily for oil production with a high content of asphalt-resin-paraffin deposits (paraffin), including mechanized oil production from periodically operating wells.

As an analogue, we accept the well-known invention according to the patent of the Russian Federation No. 2142554 IPC ⁶ E 21 B 43/00 (claimed on 05/06/1997, published on 12/10/1999) under the name “Method of operating wells”. The analogous method includes the descent of the deep pump into the well, the placement of the pump intake under the dynamic fluid level at a depth at which the pressure at its intake is lower than the critical pressure of the main gas components of the produced fluid, but not lower than 3 MPa, and pumping the fluid simultaneously with gas withdrawal from the annulus.

A device that implements an analogous method includes a downhole electric centrifugal pump (ESP) lowered into a well on a string of tubing (tubing), a wellhead piping connected to an oil pipeline and an ejector or vacuum pump for taking gas from the annulus into a line the outlet of which the annular valve is introduced.

When implementing the method and device by analogy, gas is released from oil before the produced fluid enters the pump, which contributes to the formation of paraffin microcrystals in the oil volume, and not on the walls of oilfield equipment.

The disadvantages of the method and device by analogy is that they have a limited area of use, since they can only be used for oil production from wells equipped with deep ESPs, and for their implementation it is necessary to use additional technical means: an ejector or a vacuum pump must be installed for gas extraction from the annulus.

As a prototype of the invention, we take the well-known invention according to the patent of the Russian Federation No. 2158359 IPC ⁷ E 21 B 43/12 (stated on 03/04/1997, published on 10/27/2000) under the name “Wellhead pressure regulator”.

When using the known invention, the following operations are carried out: oil is lifted from the bottom of the well to the surface through the tubing string and pressure is increased in the produced oil when it is lifted through the tubing string.

A device for implementing the method according to the prototype comprises a tubing string lowered into the well, the upper end of which is connected to the flow line through the wellhead piping system, and a pressure increase unit in the produced oil when it is lifted through the tubing string, made in the form of a bypass valve assembly containing a housing with an inlet channel in communication with a flow line, a valve located in the inner cavity of the housing blocking the inlet channel from the inside of the housing, and an elastic element pressing the valve, while the th and output channels and the amount of preload of the elastic element is made interdependent. The elastic element, the pressing valve, is made in the form of a bellows chamber filled with a working agent for the design pressure, which ensures a calculated pressure difference between the opening and closing pressure of the valve when lifting the produced oil through the tubing string. As soon as the oil pressure, when it rises, drops to the calculated one, under the influence of pressure in the bellows chamber, the valve blocks the inlet channel, after which the oil movement along the tubing string stops and the well is accumulated. When the oil pressure in the tubing string reaches the calculated one, the valve opens the inlet channel, compressing the bellows chamber, and the cycle repeats, providing automatic switching on and off of periodically working wells.

The disadvantages of the known prototype method and device is that for their implementation requires additional technical means and material costs.

So, when assembling the bypass valve assembly, it is necessary to charge the bellows chamber with a working agent at a design pressure of a certain value, for which it is necessary to install a pressure gauge on the bellows chamber to control the pressure during filling of the working agent. When installing the assembled unit in the wellhead piping system, it is necessary for it to first insert a special casing for it.

After installing the bypass valve assembly in the wellhead piping system, it is not possible to adjust the amount of compression of the elastic element (bellows chamber) during oil production. To do this, it is necessary to stop the operation of the well, to remove the assembly from the well binding system, to dismantle it, to remove the bellows chamber from the housing, to install a pressure gauge on the bellows chamber, to either replenish the working agent or release it from the bellows chamber in order to ensure compression of the elastic element to the required value. This does not allow the prototype device to adjust the pressure in the tubing string directly during the operation of the well during oil production, which complicates the process implementation in operational conditions and leads to a decrease in current oil production due to downtime of the well for the specified adjustment.

The invention according to the prototype is intended to control the pressure in the borehole fluid or gas stream at the wellhead and provides for the automatic inclusion of intermittent wells, but, however, does not contain any signs either in the method or in the device aimed at reducing or preventing paraffin deposits in the oilfield equipment for oil production.

The aim of the invention is to achieve a new technical result, which will be obtained when using it, namely: preventing deposits of paraffin deposits in the tubing string during oil production while reducing material costs and technical means, simplifying the implementation of the method in field conditions, increasing current oil production and expanding areas of use.

This objective of the invention is achieved by the fact that in the known method of oil production from a well, including raising oil from the bottom of the well to the surface through the tubing string and increasing the pressure in the produced oil when it is lifting through the tubing string, according to the invention, we proposed to introduce a new set of essential features ( a new operation is introduced into the method, new conditions and new modes of carrying out the operations of the method are proposed), namely: from the bottom of the well planned for operation, they take an oil sample and determine the value yes phenomena at which the paraffin crystallization process begins, and an increase in pressure in the produced oil when it is raised through the tubing string is produced to a value that exceeds the pressure at which the paraffin crystallization process begins and this pressure is maintained in the produced oil during the whole time the oil rises from bottom hole to the surface through the tubing string by simultaneous and continuous regulation of the oil supply to the flow line of the wellhead piping system, while the well stops ix entire period of inactivity is stored in tubing pressure generated in the oil extracted.

The above new significant features of the proposed method for producing oil from a well are distinguishing features from the known prototype method.

The above objective of the invention is also achieved by the fact that in a known device for oil production from a well, containing a tubing string lowered into the well, the upper end of which is connected to the flow line through the piping system of the wellhead, and a pressure increase unit in the produced oil when it is lifted through a tubing string made in the form of a bypass valve assembly containing a housing with an inlet channel in communication with a flow line, a valve located in the inner cavity of the housing that overlaps the inlet channel from the inside of the housing, and control the compression element, the pressure valve, while the cross-sectional areas of the inlet and outlet channels and the amount of compression of the elastic element are made interdependent, according to the invention, we introduced new significant design features, namely: the flow line is equipped with a fitting chamber, the bypass valve assembly is installed in the fitting chamber, elastic the element is made in the form of a spring installed with the possibility of adjusting its preload by a screw screwed as a plug from the outer end of the housing into the inner cavity to the corpus from the end opposite the valve placement.

The above new significant structural features of the claimed device for implementing the proposed method of oil production from the well are distinctive signs from the known prototype device.

Currently, from publicly available sources of scientific, technical and patent information, such methods of oil production from wells and devices for their implementation, which, together with known essential features, would contain the proposed by us and the aforementioned new set of essential features in the inventive method and new significant structural signs in the inventive device for implementing the specified method, we are not aware.

Together, the known and new distinctive essential features of the method and device for its implementation provide the claimed invention with its implementation, the achievement of a new technical result set forth in the purpose of the invention.

As a result of research, we unexpectedly discovered that if oil is extracted from the formation on the day surface of the well through the tubing string and during the entire time of the rise to maintain the pressure in the oil produced above the pressure at which the crystallization of the paraffin deposits begins, this mode provides the greatest prevention efficiency crystallization of paraffin in a tubing string and oilfield equipment.

Due to the fact that in the claimed invention it is proposed to take and study an oil sample from the bottom of the well scheduled for operation, it is possible to determine in advance the amount of pressure at which the crystallization process of the paraffin deposits of such oil occurs. This allows you to set the pressure in the tubing string during oil production in a timely manner, even when the well is put into operation, above the pressure at the beginning of the crystallization process of the paraffin deposit, to prevent such deposits in the tubing string and oilfield equipment.

A predetermined pressure mode while simultaneously and continuously controlling the flow of produced oil from the tubing to the flow line of the wellhead piping system in the present invention provides a bypass valve assembly due to the cross-sectional area of the input and output channels and the amount of compression of the elastic element in the specified node are made interdependent. In addition, the bypass valve assembly, due to the fulfillment of the above interdependent parameters of its elements, allows for automatic shutdown of the deep ESP operation during shutdowns of the well and to keep the pressure of the produced oil in the tubing string during the entire idle time of the well without changing its value. And as soon as the oil pressure in the tubing string again reaches a predetermined value, the bypass valve assembly will automatically start the well into oil production, which allows the claimed invention to be used for oil production from periodically operating wells.

Due to the fact that the proposed device provides automatic start and stop of the deep ESP, this allows you to increase the current oil production, since it takes almost no time to start and stop the well.

Performing a lateral through hole in the body of the bypass valve assembly calibrated allows you to expand the scope of the proposed device, since such a device, in addition to mechanized oil production, can be used for oil production from fountain wells.

Due to the fact that the elastic element in the bypass valve assembly of the claimed invention is made in the form of a spring, which is installed with the possibility of adjusting its preload by a screw screwed as a plug from the external end of the housing into the internal cavity of the housing from the end opposite to the valve position, it is possible to simplify the process to a minimum adjusting the preload of the elastic element to establish a predetermined pressure value in the tubing string during oil production, while reducing time, eliminating material costs and those of sul agents as when adjusting the spring preload, only one wrench is sufficient to either preload or loosen the spring by screwing or unscrewing the screw at the end of the housing.

Due to the fact that in the claimed invention, the flow line at the wellhead is equipped with a choke chamber, in which it is proposed to install a bypass valve assembly of the design we are proposing, this creates the opportunity to significantly facilitate and simplify the implementation of the method in field conditions, because the nozzle chamber at the wellhead is easily accessible for maintenance personnel, which facilitates and simplifies the installation and installation of the bypass valve assembly and allows for its maintenance at any time during operation of the well.

Due to the fact that the screw for adjusting the preload of the spring acting on the valve is screwed from the outer end of the body of the bypass valve assembly, this allows you to adjust the preload of the valve spring to provide a predetermined oil pressure in the tubing string even directly during well operation, without stopping its operation, without disassembling and dismantling the bypass valve assembly. To do this, it is enough to make, for example, a preload or weakening of the compression of the spring by partially screwing in or out the screw that is screwed from the outer end of the body of the bypass valve assembly installed in the choke chamber. At the same time, it is possible to control the pressure of the produced oil at the wellhead using standard pressure gauges available in the wellhead harness.

Due to the fact that during the development of an oil field there is a natural change in the value of reservoir pressure, it inevitably arises a need during the field operation to regulate the oil pressure in the tubing string to a level previously set in order to prevent AFS. Since pressure control in the tubing string during oil production, as mentioned above, it is possible to carry out without stopping the well, this accordingly increases the current oil production by eliminating the shutdowns of the well and its downtime for such work.

Maintaining the mode of the set pressure value during oil production to prevent paraffin deposits in the tubing string and oilfield equipment using the bypass valve assembly simplifies the implementation of the inventive method in field conditions and reduces material costs for oil production.

The drawings show a device for implementing the proposed method for producing oil from a well, where Fig. 1 shows a wellhead piping system, Figs. 2 and 3 show two of many possible embodiments of a bypass valve assembly in section along the longitudinal axis.

A device for producing oil from a well contains a tubing string lowered into the well (not shown in the drawings), the upper end of which is connected to the flow line (manifold) line 1 connected to the oil pipeline 2 through the piping system of the wellhead 2. The flow line 1 is equipped with a choke chamber 3, which a bypass valve assembly is installed, comprising (see FIGS. 2 and 3) a housing 4 with an inlet channel 5 in communication with an internal blanked cavity 6. A valve 7 is placed in the cavity 6, spring-loaded with a spring 8. A spring-loaded valve 7 overlaps the inlet channel 5 from the inside of the cavity 6 of the casing 4. In the casing 4, a lateral through calibrated hole 9 is made, which is connected via a pipeline (not indicated in the drawing) with a flow line 1 at the wellhead.

The cross-sectional areas of the inlet channel 5, the calibrated hole 9 and the amount of compression of the spring 8 of the valve 7 are interdependent so as to ensure the creation of a given pressure in the produced oil.

From the outer end of the housing 4 into the inner cavity 6 (from the end opposite to the placement of the spring-loaded valve 7), a screw 10 is screwed as a plug with the ability to control the pressing of the spring 8 of the valve 7.

A calibrated hole 9 along the length of the housing 4 is made in that part of the cavity 6, which when opening the spring-loaded valve 7 becomes communicated with the cavity of the inlet channel 5.

Carry out the proposed method as follows. From an oil well planned for operation by the claimed method, an oil sample is taken from its bottom and, using known methods, the pressure value is established at which the crystallization process of the paraffin oil recovery system begins.

Taking into account the flow rate of the well and the obtained data on the necessary pressure value that should be maintained in the tubing string during oil production, the parameters of the bypass valve assembly are determined with the condition that the diameters of the inlet channel 5 and the calibrated hole 9, and the amount of compression of the spring 8 of the valve 7 can provide the necessary set pressure value in the produced oil.

The bypass valve assembly is installed in the choke chamber 3 of the flow line 1 of the well. If necessary, adjust the preload of the spring 8 of the valve 7 with the screw 10 in order to ensure the flow of oil through the calibrated hole 9 in such a way that in the produced oil during all the time of its rise through the tubing string it would maintain pressure, the value of which should exceed the pressure of the beginning of the crystallization process of paraffin deposits, thus ensuring simultaneous and continuous regulation of the oil supply to flow line 1 of the wellhead piping system and the prevention of paraffin deposits not tubing. When the well stops working (for example, turning off the deep ESP), the spring-loaded valve 7 automatically shuts off the oil supply to the flow line 1, keeping the previously created pressure in the tubing string to the stopped volume of the produced oil. When resuming operation of the well (for example, starting a deep ESP), the spring-loaded valve 7 opens automatically, resuming the rise of oil at a previously created pressure.

The proposed method and device for its implementation were tested in field conditions at five oil producing periodically operating wells with flow rates of 8 m ³ / day, 9 m ³ / day, 13 m ³ / day, 15 m ³ / day, 31 m ³ / day during operation their pumps VNN-25-1700, VNN5-25-1950, ETsN5-50-1550 with the installation depths of the pumps up to 1810 m with an operating mode, including 12/12 (12 hours of operation, 12 hours of stopping the flow of oil).

Field tests fully confirmed the achievement of the stated objective of the invention, including the automatic operation of wells and an increase in the overhaul period of wells by 2.5 times.

Claims (2)

1. A method of producing oil from a well, including raising oil from the bottom of the well to the surface through the tubing string and increasing the pressure in the produced oil while rising through the tubing string, characterized in that from the bottom of the well to be operated, an oil sample is taken and the pressure value is determined at which the crystallization process of asphalt-tar-paraffin deposits (ASPO) begins, and the pressure in the produced oil increases as it rises through the tubing string to a value exceeding the pressure value I, at which the paraffin crystallization process begins, and maintain this pressure in the produced oil during the entire time the oil rises from the bottom of the well to the surface through the tubing string by simultaneously and continuously regulating the flow of oil to the flow line of the wellhead piping system, while stopping well operation during the entire period of idle time retains the created pressure in the produced oil in the tubing string. 2. A device for oil production from a well, comprising a tubing string (tubing) lowered into the well, the upper end of which is connected to a flow line through a wellhead piping system, and a unit for increasing the pressure in the produced oil when it is lifted through the tubing string in the form of a bypass valve assembly comprising a housing with an inlet channel in communication with a discharge line, a valve located in the inner cavity of the housing that overlaps the inlet channel from the inside of the housing and an elastic element that compresses the valve, while the cross sections of the input and output channels and the amount of preload of the elastic element are interdependent, characterized in that the flow line is equipped with a choke chamber, the bypass valve assembly is installed in the choke chamber, the elastic element is made in the form of a spring installed with the possibility of adjusting its preload by a screw screwed in as plugs from the outer end of the body into the internal cavity of the body from the end opposite to the valve placement.

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