SU1571222A1 - Method of operating unit of submersible pump in borehole - Google Patents

Abstract

The invention relates to the extraction of fluid from deep wells and to simplify the technology of operation while ensuring the specified withdrawal of fluid from the well. The operation is carried out in periodically repeated cycles, each of which consists of two periods, with fluid being supplied during the first period at nominal capacity and in the forward direction of rotation of the pump rotor (H) and controlling the inlet pressure to H and the time elapsed since the beginning of the cycle and the transition to the second cycle period is carried out when a predetermined value of pressure or time is reached by switching the rotor H to the opposite direction of rotation, at which the productivity H is less than the nominal one. The end of the second cycle period is carried out by switching H to the forward direction of rotation of the rotor at the moment when the amount of fluid supplied from the well from the beginning of the cycle becomes equal to the product of the given well flow rate by the time elapsed from the beginning of the cycle. 1 il.

Description

This invention relates to the extraction of fluid from deep wells by submersible pump installations,

The purpose of the invention is to simplify the technology of operation while ensuring the specified fluid withdrawal from the well.

The drawing shows a diagram of the installation of a submersible pump, through which a method of operating it in a well is carried out.

The installation contains a submersible centrifugal pump J with a driving motor 2 of alternating current, a load sensor 3 measurement systems

pressure at the inlet to pump 1, check valve 4, current-supply cable 5, tubing 6, on the co-. The submersible pump 1 is lowered into the well 7. The well 7 has a sensor 8 for the amount of pumped liquid from the well 7 into the pipeline 9 of the fluid collection system, a ground device 10 for the pressure measurement system by sensor 3, a microprocessor control device 11, a power source 12 AC constant frequency switching device 13 that connects the motor 2 through the cable 5 to the power source 12 on

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a direct sequence of phase alternation, and a switching device 14 connecting the motor 2 through cable 5 to the power source 12 to the reverse phase sequence sequence. The method of operating the installation of a submersible pump in the well is as follows

The operation is conducted in periodically repeating cycles, each of which consists of two periods. Moreover, during the first period, fluid is supplied from the well 7 at the rated pump capacity and in the forward direction of rotation of the pump rotor, and at the transition to the second period the pump 1 is switched to the mode with a lower rated capacity and it is maintained until the end of the second period . At the same time, the pressure at the inlet to pump 1 is monitored by means of sensor 3 and the time elapsed from the beginning of the cycle by means of a microprocessing device 11, and switching of pump 1 is effected when a predetermined pressure or time value is reached. Switching pump 1 to a mode with a performance less than nominal is performed by changing the direction of rotation of the pump rotor from forward to reverse. This is done by turning off the switching device 13 and then turning on the device 14. Additionally control the amount of fluid supplied by pump 1 from well 7 from the beginning of the cycle, and the end of the second cycle period is carried out by switching the pump 1 to the forward direction of rotation of the rotor at the moment when the amount of fluid supplied by pump 1 from well 7 from the beginning of the cycle becomes equal to the product of the set flow rate of well 7 and the time elapsed from the beginning of the cycle.

The motor 1 of the pump 1 is disconnected at the end of the cycle by the switching device 14 by the signal of the microprocessor device 11, in which for the current moment of time the amount of fluid supplied by the pump 1 is counted, for example, by integrating the signals from sensor 8, and the result is compared with the production of a given flow rate at the time from the beginning of the cycle.

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The choice of a predetermined pressure at the inlet to pump 1 or its operating time in the forward direction of rotation is made based on the allowable or limiting gas content at the inlet of pump I or the allowable duration of maintaining maximum depression on the formation. A given well production rate is determined based on the specific conditions of the field, taking into account the complicating factors.

Compared with the known method, the proposed method provides a simplification of the operation technology due to the use of a constant frequency current and the rejection of complex operations of monitoring and regulating the frequency and voltage of the supply current. At the same time, it is possible to maintain a constant predetermined average well extraction (flow rate) for a certain period of time, which allows stabilizing the operation of the installation and the productive formation, eliminating the freezing of pipelines and sedimentation of mechanical impurities.

F ovp mule invention

A method of operating the installation of a submersible pump in a well, including periodic repetition of cycles, each of which consists of two periods, and during the first period fluid is supplied from the well at the rated output and the forward direction of rotation of the pump rotor, and when switching to the second period the pump to a mode with a capacity of less than nominal, and maintain it until the end of the second period, while monitoring the inlet pressure to the pump and the time elapsed since the beginning of the cycle, and switching the pump when a predetermined pressure or time is reached, characterized in that, in order to simplify the operation technology while ensuring a predetermined fluid withdrawal from the well, the pump is switched to a mode with a lower rated capacity, by changing the direction rotating the pump rotor from direct to reverse, additionally control the amount of fluid pumped from the well from the beginning of the cycle to the end of the cycle 517,722.

The second period of the cycle was performed by the pump from the well from the beginning of the cycle, by switching the pump to the direct, equal to the product of the specified rotational direction of the rotor at the moment of well production by the time elapsed when the amount of liquid supplied from the beginning of the cycle.

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Claims (1)

Claim A method of operating a submersible pump installation in a well, comprising periodically repeating cycles, each of which consists of two periods, and during the first period, liquid is supplied from the well at rated productivity and in the forward direction of rotation of the pump rotor, and when switching to the second period, the pump is switched to a mode with a capacity lower than the nominal one, and maintain it until the end of the second period, while controlling the pressure at the pump inlet and the time elapsed since the beginning of the cycle, and p Switching of the pump is carried out when a preset value of pressure or time is achieved, characterized in that, in order to simplify the technology of operation while ensuring a predetermined selection of fluid from the wells, switching the pump to a mode with a capacity lower than nominal is carried out by changing the direction of rotation of the pump rotor from direct to the opposite, additionally control the amount of fluid supplied by the pump from the well from the beginning of the cycle, and the end of the second period of the cycle m pump to direct the direction of rotor rotation when the number of liquid supplied from the pump well from the beginning of the cycle, would be the product of a predetermined ravnm well flow by the time elapsed since the beginning of the cycle. 77G77777 ABOUT A A I 77 /// 7/1 +. 4G 7 /////////// 7, r ^ 7 fc / 7777 //// \ - // yy ////////