SU1262026A1 - Method of operating a well pump with frequency-controlled drive - Google Patents

Abstract

The invention relates to the extraction of oil and can be used in the processes of starting wells (C). The purpose of the invention is to prevent the drive pump from failing during an emergency decrease of the liquid level in C. At start C, the pump is started. The fluid is supplied to the riser column at an increased frequency, which ensures the pumping of the damping liquid. Upon reaching a predetermined pressure at the outlet of the column, the pump flow is reduced to zero, turned off, and the liquid is drained through it. Each subsequent cycle begins at the moment when the voltage generated by the drive operating in the generator mode decreases to zero. The repetition of cycles allows to create a periodic decrease in pressure at the bottom C and contributes to an increase in the rate of increase of fluid inflow from the reservoir to the C, which ensures the normal operation of the pump and drive to the nominal (Low frequency. 1 Cp f-ly, 1 hl.

Description

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Claims (2)

One invention relates to the field of oil production and can be used in well start-up processes. . The aim of the invention is to prevent the pump and the drive from failing in case of an emergency decrease of the fluid level in the well. The drawing shows the installation of a variable-frequency drive pump, with which the method of operation is carried out. The installation includes a downhole pump 1 with variable frequency drive 2, installed in the well 3 on the column 4 lifting pipes. A microprocessor control device 5, a thyristor converter 6 of the supply voltage frequency, as well as a pressure sensor 7 and a voltage sensor 8 installed in the power supply line 9 to the drive 2 are installed at the wellhead. The method of operating the well pump is as follows. When starting well 3, periodic cycles are repeated, each of which consists of sequentially carried out processes of starting pump 1 with increasing frequency of supply voltage, supplying fluid to pump 1 to column 4 of lifting pipes at a higher frequency than the nominal value and reducing pump supply by reducing the frequency of the supply voltage, during which the current pressure at the outlet of the column 4 of the lifting pipes is monitored by means of a pressure sensor 7, and when pressure is reached at the outlet ode the column 4 of a given value, the flow of liquid by pump 1 is reduced to zero, after which in each cycle the pump 1 is turned off and the liquid is drained from the column 4 through the pump 1. In addition, in the process of draining the liquid from the column 4 of the lifting pipes, the sensor 8 controls the voltage generated by the actuator 2 and the subsequent cycle begin at the moment when the magnitude of said voltage decreases to zero. The change in the frequency of the supply voltage is carried out by means of a frequency converter 6 controlled by a predetermined program by a microprocessor device 5. A given pressure value at the outlet of the lifting tube column 4 is determined based on the condition of filling with the last liquid supplied by pump 1, and this pressure can be kept constant the period when the pump 1 stops the flow of fluid, and in the same period the instantaneous position of the dynamic level is determined. It is compared with the control value H ", preventing the dynamic level from falling below the maximum allowable value. The output of the pump 1 to an increased rotational speed for filling the column 4 of the lifting pipes ensures that a pumped waste liquid is pumped out of the well 3. Repeating cycles on the one hand prevents an emergency decrease in the level of fluid before pump 1 is received, and on the other, it creates a periodic decrease in pressure at the bottom of the well 3 and contributes to an increase in the rate of increase of fluid flow from the reservoir into the well, which at a certain stage ensures normal operation of the pump and drive 2 at a selected nominal speed. Drainage of fluid from column 4 through pump 1 causes the latter to operate in the turbine mode, as a result of which the end of the flow of fluid into the annulus of the well 3 can be fixed by decreasing to zero the voltage produced by drive 2 in the generating mode. Claim 1. Method of operating a variable-frequency drive downhole pump when starting a well, including periodic repetition of cycles, each of which consists of sequentially carried out processes of starting the pump with increasing frequency of supply voltage, pumping a liquid into a column of lifting pipes with a raised compared to the nominal frequency value and reducing the pump supply by reducing the frequency of the supply voltage, and during the cycle control the current pressure on you One of the lifting pipe columns, characterized in that, in order to prevent the pump and the drive from failing during an emergency decrease of the fluid level in the well, when the pressure at the outlet of the column reaches a predetermined value, the pump supply of the pump decreases to zero, then in each cycle the pump shut off and drain the liquid from the column through the pump. 2. A method according to claim 1, characterized in that in the process of draining the liquid from the riser tube, the voltage generated by the actuator is monitored and the next cycle starts at the moment when the magnitude of said voltage decreases to zero.