RU2509876C2 - Method for simultaneous and separate development of two and more formations, and plant for its implementation - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: formation existing in a zone of negative pressure created with a pump is pre-entered. Tubing is equipped with an insert with a damper on the formation location level, and therefore, entry of the product flow is provided from the formation through openings to the tubing cavity. Sensors constantly measure pressure on the mine face in the main formation and in the formation being developed additionally, and that pressure is maintained within the specified limits that are optimum for each of the formations being developed. Optimum pressure in formations is maintained by changing the product extraction value. Readings are transmitted by means of sensors to an opening value setting unit of the damper, the output of which is connected to its drive input. The damper is moved and opened, or openings in the insert wall are shutoff, which leads to the change of formation product takeoff value. By means of a flow metre arranged in one of two formations being developed, costs for the formations being developed are determined as per the known total volume of product extraction.

EFFECT: improving efficiency of the method and improving operating reliability of a plant due to their simplification.

3 cl, 1 dwg

Description

The invention relates to the oil industry, in particular to downhole pumping units for the simultaneous separate operation of two reservoirs.

In oil production, one often encounters the problem of simultaneous exploitation of several oil-bearing horizons having different characteristics (reservoir pressure, permeability, porosity, saturation pressure, oil viscosity, non-Newtonian properties, etc.) by one well. In addition, each horizon sometimes contains several layers with different characteristics that require an individual approach to their development. Even within the same layer, characterized by sufficient geological homogeneity, there are always interlayers with different permeabilities, separated by thin impermeable layers. Filtration by such interlayers can occur independently. Moreover, different pressures and oils with different properties may exist in individual formations, which necessitates separate operation of the formations. The presence of several horizons or formations with different characteristics necessitates the development of their own independent networks of wells. Experience in the development of oil fields shows that more than half of all capital investments are in well drilling. In this regard, there always arises the problem of combining various interlayers, formations or horizons into one or more development objects that could be operated by a single grid of wells. This problem is usually solved at the first stages of development, and sometimes at the stage of exploration or trial operation of the field, when information about its geological structure is limited, due to the small number of wells. In this regard, in the wells, it is necessary to perforate several formations and operate them, as they say, with a “common filter”. This allows you to save significant funds and material resources for drilling wells.

To assess the novelty and technical level of the claimed solution, we consider a number of technical means known to the applicant for a similar purpose, characterized by a combination of features similar to the claimed invention.

A well-known sucker-rod pumping unit for simultaneous operation of two layers in a well, comprising a lift pipe string, a sucker string, a packer, a liner and a differential pump, the suction and discharge valves of the upper section of the pump are installed on the side of the cylinder, and a self-compacting packer is placed between them, see Simultaneous separate exploitation of multilayer oil fields, R.A. Maksutov, B.E. Dobroskok, Yu.V. Zaitsev, Nedra, 1974. - Page 89, Fig. 54. This installation produces a separate rise in the production of formations: the bottom - along the string of elevator pipes, the top - along the production casing of the well. The disadvantages of the installation are the complex design, the inability to study the reservoirs during operation (determination of bottomhole and reservoir pressures), if it is necessary to remove the pump, it rises together with the upper packer, which contributes to its wear and decrease the reliability of the installation, in addition, as a result of the “piston” effect created by the packer during the rise, there is a spill of products from the production casing of the well.

Known pumping unit for the simultaneous separate operation of two layers in the well, containing a column of elevator pipes, a cable, a packer, a liner and two separate pumps for pumping formation products, which are enclosed in the upper and lower casings, and the pump for pumping the production of the lower layer is made electric, when the lower casing of the electric submersible pump is equipped with a cable sealing unit and is communicated from below with the under-packer space through a shank, which is equipped with a bypass device above the packer with the possibility of providing hydraulic communication of the above-packer space of the well with its under-packer space through the liner when the pressure of the bypass device is reached in the well, and the output of the electric submersible pump is in communication with the upper casing, which is connected from above to the column of elevator pipes and provided with a lateral channel, while the upper pump is made up of the rod string of which is hollow and hermetically connected to the plunger of the rod pump, and the reception of this pump through the side channel is in communication with an ad-packer space, and the electric submersible pump from below can be equipped with a pressure sensor configured to transmit information through the cable of the electric submersible pump, see RF patent No. 2291953.

The disadvantages of this installation are:

- the constructive impossibility of using an plug-in plunger pump, which complicates the process of extracting and repairing this pump (this is possible only with a column of elevator pipes);

- the lifting of hollow rods and columns of elevator pipes cannot be carried out without spilling the liquids contained in them, which worsens the working conditions of the service crews;

- the impossibility of pumping reagents into the lower layer and flushing the annulus under the packer without removing the installation from the well.

A well-known pumping unit for simultaneous separate operation of two layers, comprising a column of lift pipes, a cable, a packer installed between the layers, a transfer device, an upper enclosed in a casing, a plunger with a column of rods and a lower communicating with the under-packer space, is electric submersible with an electric motor pumps for pumping the products of the corresponding layers, a cable sealing unit, while the output of the electric submersible pump is communicated by a pipe with an upper casing, which is connected to the column l from above pipes and is equipped with a side channel that communicates the input of the upper pump with a puffer space, which is characterized by the fact that the upper casing is made in the form of a sleeve with an additional longitudinal channel equipped with a process pipe mounted on top of the upper casing and communicated from above with the pipe tubing, and from the bottom with a side channel, which is equipped with a safety check valve, and a pipe that communicates the output of the lower pump with the column of elevator pipes through the longitudinal channel of the upper casing is also equipped with a one-way check valve, above which a bypass device and a packer with a cable sealing unit are placed in series, the plunger pump is made plug-in with the possibility of tight interaction with the inner surface of the technological pipe of the upper casing, and the additional valve is equipped with side bypass channels with adjustable valves that open when pressure increases in the check valve is higher than the set one, while the packer landing pressure is lower than that set for the adjustable check valves valve, see RF patent No. 2405925.

A known installation for simultaneous and separate operation of two layers in a well containing a column of elevator pipes, a packer, a liner and a sucker rod pump with a main and additional side suction valves, see RF patent No. 2221136.

The disadvantage of the installation is the inability to determine the flow rates of the layers and their water cut due to the mixing of their products in the pump cylinder.

A known installation for simultaneous and separate operation of two layers, including an elevator pipe string, a packer, a liner, a rod string and a sucker rod pump with a hollow plunger equipped with a discharge valve, and a main suction valve at the inlet in communication with the shank, and a side suction valve in communication with the outlet with an opening in the wall of the pump cylinder, which is characterized in that a hollow body is placed between the pump cylinder and the main valve, the upper part of which is communicated by a channel through the non-return valve from the upper the cylinder, and the rods are hollow, in communication with the inner cavity of the plunger, while a dividing piston is placed below the hole for the side channel in the cylinder, with the possibility of limited longitudinal movement down into the body cavity and up under the influence of the plunger, the distance between the channel entrance to the upper part the cylinder and the hole for the side valve is equal to the length of the plunger, see RF patent No. 2370641.

This analogue is inherent in the set of features closest to the set of essential features of the claimed invention, and therefore this known technical solution is selected as a prototype of the claimed invention.

The disadvantage of the prototype is the inability to take into account the individual characteristics of the developed formations, the inability to develop rejected formations, the complexity of the installation design, due to the large number of elements included in it, which ultimately reduces the reliability of the installation as a whole, and makes it difficult to carry out corresponding changes in the volumes of media taken from the formations.

The objective of the invention is to simplify the design of the installation and increase the reliability of its operation while providing the ability to take into account various characteristics of the layers, such as reservoir pressure, permeability, porosity, and providing an individual approach to the development of several layers.

The essence of the first independent object of the invention, as a technical solution, is expressed in the following set of essential features, sufficient to achieve the above result.

A method for simultaneously and separately operating two or more reservoirs, including creating a vacuum in the well and in the reservoirs it intersects with a single pump and extracting the product from the exploited reservoirs through a tubing, which is characterized by the fact that the cavity of the tubing of the product stream from one or more additional previously opened formations, while the pressure at the bottom is constantly measured mainly and in each a house from additionally developed strata, maintain this pressure in predetermined limits, optimal for each of the developed strata and providing a yield of the product by changing the magnitude of the selection of the product from each of the developed strata.

The essence of the second independent object of the invention, as a technical solution, is expressed in the following set of essential features, sufficient to achieve the above result.

Installation for simultaneous and separate operation of two or more layers, including a pump and compression pipe passing through two or more operating layers, packers and a pump installed in the pump and compression pipe, which is characterized in that at the location level of at least one layer through which passes the tubing, the latter is equipped with an insert, the wall of which is equipped with a set of windows, overlapped by a slide gate associated with its drive, while the installation is equipped with a flow set and a pressure sensor in each of the layers further developed associated with the block opening reference value of the slide valve, which output is connected to the input of its drive.

In addition, the second independent object of the claimed technical solution is characterized by additional features, namely:

- the insert can be made with a narrowing of its bore.

The applicant has not identified sources containing information about technical solutions, the totality of the signs of which coincide with the totality of the distinguishing features of the claimed invention.

The technical result achieved when using the essential features of the invention is that when using one pump of any type, it is possible on the one hand to simultaneously develop two or more layers, and on the other hand to separately develop two or more layers, since the controlled gate valve provides a change in volumes products taken from reservoirs taking into account their individual characteristics.

The invention is illustrated by the drawing, which shows a section through a well, in which carry out simultaneous-separate development of two layers.

The installation for simultaneous and separate operation of two or more layers includes a pump-and-compression pipe 3 passing through the main operating layer 1 and an additionally operated layer 2, packers (not shown conditionally) and a pump 4. A pump and compression pipe installed in the pipe 3 is provided with an insert 5 made with a narrowing of its bore, and the wall of the insert 5 is provided with a set of windows 6, overlapped by a slide gate 7 connected to its actuator 8. The installation is equipped with sensors yes phenomena 9 and 10 in each of the developed formations. The sensors 9 and 10 are connected with the block 11 for setting the opening value of the slide gate 7, the output of which is connected to the input of its actuator 8. A flow meter 12 is installed in the reservoir 1 or 2.

Installation works as follows.

The formation 2, located in the zone of the vacuum generated by the pump 4, is pre-opened, and at the level of the location of the formation 2, the tubing 3 is provided with an insert 5 and thus the product stream from the reservoir 2 is introduced into the cavity of the tubing 3 through the windows 6. Using sensor 9 constantly measure the pressure at the bottom in the main formation 1 and in the additionally developed formation 2 and maintain this pressure in predetermined limits, optimal for each of the developed formations 1 and 2. Optimum pressure in the reservoir Facts 1 and 2 are supported by varying the amount of product taken. Sensors 9 and 10 transmit their readings to the unit for setting the opening value of the gate valve 7, the output of which is connected to the input of its actuator 8. The gate valve 7 moves and opens or closes the windows 6 in the insert wall, which entails a change in the amount of product withdrawal from the formation 2 The flow meter 12, located in one of the two developed formations, allows to determine the costs of the developed formations by the known total volume of product recovery.

Thus, the claimed technical solution allows, without significant design complexity, to provide simultaneous or separate development of two or more layers using a single pump of any type. At the same time, it is possible to control the pressure in all layers, maintaining it at the optimum level by changing the volumes of products taken from the layers, taking into account their individual characteristics.

The possibility of industrial application of the claimed technical solution is confirmed by the known and described in the application means and methods by which it is possible to carry out the invention in the form described in the claims. The proposed device can be manufactured industrially using known materials and technical means.

Claims (3)

1. The method of simultaneous-separate development of two or more reservoirs, including creating a vacuum in the well and in the intersected reservoirs using one pump and extracting the product from the exploited reservoirs through a tubing, characterized in that the input of the vacuum created by the pump provides into the cavity of the tubing of the product stream from one or more additional pre-opened formations through the slide gate with a set value for its opening, while standing but they measure the pressure at the bottom in the main and in each of the additionally developed formations, for which pressure sensors and a flow meter are installed in them, maintain the pressure in predetermined limits that are optimal for each of the developed formations and ensure the yield of the product by changing the product selection from from developed formations using a slide gate using pressure gauges. 2. Installation for simultaneous and separate operation of two or more layers, including a pump and compression pipe passing through two or more operating layers, packers and a pump installed in the pump and compression pipe, characterized in that in the zone created by the pump at the discharge level at least one layer through which the tubing passes, the latter is equipped with an insert, the wall of which is equipped with a set of windows, and a slide gate that can be closed or opened windows and associated with its drive, while the installation is equipped with a flow meter and a pressure sensor in each of the additionally developed formations associated with the unit for setting the opening value of the slide gate, the output of which is connected to the input of its drive. 3. Installation according to claim 2, characterized in that the insert is made with a narrowing of its bore.

Images