RU2474675C1 - Method of well operation with electric pump with variable speed drive - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: when the well is operated with an electric pump with a variable speed drive, fluid is supplied with the pump in steady-state mode at the specified frequency and cyclic operating mode of electric pump with alteration of the electric pump electrical frequency rise and decrease of the electric pump power supply relative to the specified frequency. Cyclic mode is performed during a day. Electrical frequency of electric pump power supply is increased within 7 and 8 a.m. a day, and electrical frequency of the electric pump power supply is decreased during the rest hours of the day within 4 and 5 p.m. a day. Electric pump efficiency is chosen so that it provides the fluid supply in cyclic mode during the day, which is equal to the fluid supply during the day in steady-state mode. Electrical frequency of electric pump power supply is increased within 7 and 8 a.m. a day when the electricity tariff is minimum, and electrical frequency of the electric pump power supply is decreased during the rest hours of the day within 4 and 5 p.m. when electricity tariff is maximum.

EFFECT: possibility of maintaining the flow rate at the specified level is provided at reduction of electric power consumption.

3 ex

Description

The invention relates to the oil industry and may find application in the operation of a well with an electric pump with a variable frequency drive.

There is a method of transferring wells to an optimally effective operating mode, which consists in examining the well and choosing the optimal operating mode in which the maximum value of phase permeability for oil is reached. The wells are switched to the optimal mode by reducing the production rate of the produced fluid to a value lower than the optimal value of the production rate determined during the study and cause the propagation of pressure disturbances in the formation and the reaction of this formation by changing the phase permeabilities for water and oil. This is controlled by a change in the flow rate of the produced fluid and a sharp change in its water cut. After that, without stopping the process, the flow rate is gradually increased with the help of a frequency-controlled drive to a value corresponding to the optimal mode, with the possibility of establishing stationary operation of the "reservoir-well-pump" system. Maintain an optimal flow rate corresponding to the optimal regime constant during the operation of the well (RF Patent No. 2289019, publ. 10.12.2006).

In the known method, the well is operated in a constant mode, and the changed mode is used to study the well.

There is a method of dynamic well operation of an electric pump with a frequency-controlled drive, in which the fluid is pumped out by an electric pump with a valve electric motor (FEA). When the electric pump is operating in stationary mode at predetermined time intervals determined by the duration of the transient processes in the reservoir-well system, the FEA rotation frequency is periodically increased by a predetermined value determined by the sensitivity threshold of the FEA current until the FEA current falls below its threshold value at a given rotation frequency corresponding to failure of the electric pump, by which it is judged that a critical dynamic level of fluid in the well has been reached. Moreover, the threshold value of the current of foreign economic activity is determined by the bench characteristics taking into account the density coefficient of the actually pumped liquid. After determining the supply disruption, the electric pump is put into standby mode at a low speed to prevent the valve motor from overheating for a time sufficient to change the dynamic level of the fluid in the well, after which the electric pump speed is again increased to a value less than at least a predetermined value than the speed at which the feed pump failed. After that, the electric pump is put into operation near the critical dynamic level of the fluid in the well, ensuring maximum flow (RF Patent No. 2322611, publ. 04/20/2008).

A known method of operating a low-flow well electric pump with a variable frequency drive. The method is based on controlling the rate of fluid flow from the formation into the well by periodically repeating cycles. Each of them includes starting the pump at an increasing frequency of the supply voltage and pumping liquid at a given frequency. After reaching a predetermined pressure value in the pipe string in the current cycle, the frequency of the supply voltage is reduced until the pump is stopped, and then maintained to ensure the maximum flow rate from the reservoir at which the pump does not resume flow. After reaching the prescribed pressure value at the pump intake during the inflow, the cycle is repeated, restoring the pump supply by transferring it to an increased frequency. Moreover, in the phase of the inflow of the current cycle, the frequency of the supply voltage of the electric pump is modulated in the frequency range corresponding to the pump parameters that change during the inflow process when the supply is stopped and resumed. In the process of inflow, the frequency of the supply voltage of the electric pump is modulated with a predetermined frequency in time and in a given range of deviations from the frequency when the pump stops flowing to the maximum frequency at which the pump does not resume supply (RF Patent No. 2119578, publ. 09/27/1998).

Closest to the proposed invention in technical essence is a method of operating a low-flow well electric pump with a variable frequency drive. To eliminate the effect on the flow rate of a well, the discharge of fluid from the pipe string, the possibility of regulating the influx of stratum products after stopping the pump supply in each cycle, regulate the frequency of the supply voltage pump, maintaining the maximum frequency of the supply voltage voltage during the flow of fluid from the formation, at which the pump does not resume supply to prevent drainage of liquid from the column of lifting pipes through the pump into the well, and resume the supply of the electric pump by transferring it to an increased h sion frequency upon reaching a predetermined pressure during the inflow quantity at the pump intake (RF Patent №2057907, published 10.04.1996 -. prototype).

In the three above-mentioned information sources, in one of the half-cycles of the well operating mode, they stop the flow of fluid by the pump, i.e. actually stop the well, and the frequency of the voltage supplying the electric pump is maintained only to prevent the discharge of fluid from the pipe string through the pump. When draining the liquid through the pump, an engine reverse occurs at which it is not possible to start the pump. To start the pump, one has to expect the end of the fluid drain and the reverse stop, which takes a very long time. All this negatively affects the production of fluid through the well, reduces the flow rate and leads to unjustified energy costs.

The proposed invention solves the problem of maintaining the flow rate at a set level while reducing energy costs.

The problem is solved in that in the method of operating a well with an electric pump with a variable frequency drive, which includes pumping fluid in a stationary mode at a given frequency and a cyclic mode of operation of the electric pump with alternating increases and decreases in the frequency of the electric current supplying the electric pump relative to a given frequency, according to the invention, the cyclic mode during the day, an increase in the frequency of the electric current supplying the electric pump is carried out in the period from 7 to 8 hours per day, and the decrease is often The electric current supplying the electric pump produces during the remaining hours of the day from 16 to 17 hours a day, while the electric pump’s performance is selected to ensure the supply of fluid in a cyclic mode per day, equal to the fluid supply per day in a stationary mode. An increase in the frequency of the electric current supplying the electric pump is carried out in the period from 7 to 8 hours a day during the minimum electricity tariff, and a decrease in the frequency of the electric current supplying the electric pump is produced in the remaining hours of the day from 16 to 17 hours per day during the maximum electricity tariff .

SUMMARY OF THE INVENTION

Existing methods of operating wells with electric centrifugal pumps provide either a stationary pump operation mode or a cyclic one with a full stop of the pump in a half-cycle or with a partial stop, but with the pump working only to prevent reverse fluid flow from the tubing string to the bottom hole and bottomhole zone wells. In this case, the flow rate is absent. Such modes lead to loss of flow rate, unjustified waste of electricity. The proposed method solves the problem of maintaining the flow rate at a given level while reducing energy costs. The problem is solved as follows.

When a well is operated by an electric pump with a variable frequency drive, the pump delivers fluid in a stationary mode at a given frequency and a cyclic mode of operation of the electric pump alternates with increasing and decreasing the frequency of the electric current supplying the electric pump relative to a given frequency. The cyclic mode is carried out during the day. An increase in the frequency of the electric current supplying the electric pump is carried out in the period from 7 to 8 hours per day, and a decrease in the frequency of the electric current supplying the electric pump is carried out in the remaining hours of the day in the period from 16 to 17 hours per day. In other words, a decrease in the frequency of the electric current supplying the electric pump for 16-17 hours, and therefore, a decrease in the flow rate at this time, a decrease in the volume of pumped liquid, is compensated by increasing the frequency of the electric current supplying the electric pump for 7-8 hours and an increase at this time flow rate and pumped liquid volumes. In this case, the performance of the electric pump, the operating mode in the first half-cycle and second half-cycle are selected to ensure the supply of fluid in a cyclic mode per day, equal to the fluid supply per day in a stationary mode. Since the duration of the half-periods is not the same, the modes of operation in these half-periods are not the same. In the half-period of 7-8 hours, the pump performance is prescribed to provide a shortage of fluid for a half-period of 16-17 hours. Pump performance is regulated by the frequency of the power supply current of the electric pump. As practice shows, one almost always has to deal with modes in which the pump is not stopped, but only reduces or increases the frequency of the supply current, only reduces and decreases the pump performance.

An increase in the frequency of the electric current supplying the electric pump is carried out in the period from 7 to 8 hours per day during the minimum electricity tariff, and a decrease in the frequency of the electric current supplying the electric pump is produced in the remaining hours of the day from 16 to 17 hours per day during the maximum electricity tariff . This provides additional savings in energy costs. Going beyond these parameters leads to a reduction in energy cost savings.

It is necessary to indicate that the selection of the optimal operating mode of the well installation at a different frequency of the supply network is individual for each well and depends on the type of well installation, as well as the geological and technological conditions of the operation of the well.

Case Studies

Example 1. The operation of an oil well is carried out by an electric pump with a variable frequency drive. An electric centrifugal pump of the ЭЦН5-125-1100 brand, operating in stationary mode with a fluid flow rate of 144 m ³ / s, is installed at the well. The pump is connected to an AC network with a voltage of 1400 V and a frequency of 50 Hz. This frequency is set to ensure the flow rate of the well. The work of the well is transferred to the cyclic mode of operation of the electric pump with alternating increasing and decreasing the frequency of the electric current supplying the electric pump relative to a given frequency. The cyclic mode is carried out during the day. The increase in the frequency of the electric current supplying the electric pump is carried out for 7 hours a day from 0 hours to 7 hours in the morning, i.e. during the period of the preferential tariff for electricity, the frequency of the power supply current of the electric pump is assigned equal to 60 Hz. The decrease in the frequency of the electric current supplying the electric pump is carried out in the remaining hours of the day for 17 hours a day, the frequency of the electric current supplying the electric pump is set equal to 45 Hz. The capacity of the electric pump is 144 m ³ / s, which ensures the supply of fluid in a cyclic mode per day, equal to the flow of fluid per day in a stationary mode. As a result, savings in electricity costs amounted to 7 thousand rubles / month.

Example 2. Perform as example 1. An increase in the frequency of the electric current supplying the electric pump is carried out for 7.5 hours per day from 0 hours to 7 hours 30 minutes in the morning, i.e. during the period of the preferential tariff for electricity, the frequency of the power supply current of the electric pump is assigned equal to 59 Hz. The decrease in the frequency of the electric current supplying the electric pump is carried out in the remaining hours of the day for 16.5 hours per day, the frequency of the electric current supplying the electric pump is set equal to 45 Hz. The capacity of the electric pump is 144 m ³ / s, which ensures the supply of fluid in a cyclic mode per day, equal to the flow of fluid per day in a stationary mode. As a result, savings in electricity costs amounted to 7 thousand rubles / month.

Example 3. Perform as example 1. An increase in the frequency of the electric current supplying the electric pump is carried out for 8 hours a day from 0 hours to 8 hours in the morning, i.e. during the period of the preferential tariff for electricity, the frequency of the power supply current of the electric pump is assigned equal to 58 Hz. The decrease in the frequency of the electric current supplying the electric pump is carried out in the remaining hours of the day for 16 hours a day, the frequency of the electric current supplying the electric pump is set equal to 45 Hz. The capacity of the electric pump is 144 m ³ / s, which ensures the supply of fluid in a cyclic mode per day, equal to the flow of fluid per day in a stationary mode. As a result, savings in electricity costs amounted to 7 thousand rubles / month.

The application of the proposed method will solve the problem of maintaining the flow rate at a set level while reducing energy costs.

Claims (2)

1. A method of operating a well with an electric pump with a frequency-controlled drive, which includes pumping fluid in a stationary mode at a given frequency and a cyclic mode of operation of the electric pump with alternating increases and decreases in the frequency of the electric current supplying the electric pump relative to a given frequency, characterized in that the cyclic mode is carried out for days, an increase in the frequency of the electric current supplying the electric pump is carried out in the period from 7 to 8 hours per day, and a decrease in the frequency of the electric current supply I pump is produced in the remaining hours of the day in the period from 16 to 17 hours a day, while the performance of the electric pump is selected to provide fluid in a cyclic mode per day, equal to the fluid supply per day in a stationary mode. 2. The method according to claim 1, characterized in that the increase in the frequency of the electric current supplying the electric pump is performed in the period from 7 to 8 hours per day during the minimum electricity tariff, and the decrease in the frequency of the electric current supplying the electric pump is carried out in the remaining hours of the day from 16 to 17 hours a day during the maximum tariff for electricity.