RU2520571C2 - Submersible pumpset control station - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention is related to oil-production equipment and namely to control stations for electrocentrifugal pump engines, and it may be used for formation fluid production by means of pumps. The pumpset control station includes a cabinet consisting of the first and second spaces and two additional spaces. Placement of fans used for circulation of the cooling air in the second additional space allowed combining a hydraulic part of the inverter and rectifier cooling systems and the second space in the cabinet with reactive elements of the submersible pumpset control station. Besides, the suggested engineering solution allows use of the second additional space for installation of elements of the control station which require additional cooling. Temperature sensors of the reactive elements cooling systems are installed at the surface of these reactive elements.

EFFECT: improvement in operational reliability of the control station, reduction in maintenance costs, additional saving of electric energy in the cooling system.

3 cl, 5 dwg

Description

FIELD OF THE INVENTION

The invention relates to oil-producing equipment, namely, to engine control stations of electric centrifugal pumps, and can be used to produce reservoir fluid using pumps.

State of the art

A known control station for a pumping submersible installation (see patent for utility model RU 97884 U1), which contains a control, protection and alarm cabinet, a frequency converter unit including a power electronics unit and a control system located on a radiator made of two sections, a forced system cooling and heating the first volume of the cabinet, a forced cooling system of the second volume of the cabinet with reactive elements of the control station of the pumping unit and a forced cooling and heating system of radiators a frequency converter, including a first duct forming two air channels, mounted on the inner side of the cabinet rear wall, the side wall of which has an opening for intake of cooling air into both air channels, two centrifugal fans located opposite each outlet for outputting hot air of the corresponding channel the first box, in addition, the first box has an opening for installing a radiator, and the radiator fins are located in the air channel along the flow, and the base for a torus is installed inside the cabinet to ensure isolation of the aforementioned air channel from the main volume of the cabinet, and the forced cooling system of the second volume of the cabinet with reactive elements includes at least one supply fan located inside the second volume of the cabinet opposite the inlet for the intake of ambient cooling air, and a hole for discharging heated air into the environment. Each forced cooling system contains its own climate controller with at least one temperature sensor. The temperature sensor of the forced cooling system of the radiator is located on the base of the radiator, the temperature sensors of other forced cooling systems are located inside the respective cooled volumes. The system of forced cooling of the first volume contains at least one fan heater and at least one supply fan located opposite the outlet of the third duct located on the inner side of the cabinet door opposite the inlet for the intake of ambient cooling air. The groups of terminals of the electrical input and output of the forced cooling and heating system of the radiator of the frequency converter are located in an additional volume of the cabinet adjacent to the rear wall of the first volume of the cabinet. Each group of terminals is located in a separate compartment, equipped with its own door, and the roof of the cabinet simultaneously covers the first and additional volumes of the cabinet. The power elements of the controlled rectifier and the first phase of the three-phase inverter of the frequency converter are located on the first section of the radiator. The power elements of the second and third phases of the three-phase inverter of the frequency converter are located on the second section of the radiator. On each section of the radiator are two temperature sensors, each of which is installed directly near the power element. Each compartment door of the terminal group is shorter than its own compartment, and the bottom wall of each compartment is tilted to the outside of the additional cabinet volume. The second volume of the cabinet with reactive elements can be located simultaneously under the main and additional volumes.

The disadvantage of this control station is the relatively low reliability of the thermal stabilization system, due to the autonomy of the forced cooling systems. The forced cooling and heating systems of the first cabinet volume, the forced cooling of the second cabinet volume with reactive elements of the station and the forced cooling and heating system of the frequency converter radiator are hydraulically isolated and each has its own group of fans. Failure of one of the fan groups leads to overheating of the control station elements and, ultimately, to the loss of operability of the control station. In addition, the installation of temperature sensors for the cooling system of reactive elements in the cooled volume, and not on the throttle itself, leads to a significant error in measuring the temperature of the throttle. This circumstance greatly reduces the reliability of the control station.

The technical result achieved as a result of the implementation of the invention is to increase the reliability of the control station (which is especially important when operating the station in difficult climatic conditions), reduce the cost of servicing the station, and save additional energy in the cooling and heating system.

Disclosure of invention

To achieve the technical result, a control station for a submersible pump installation is developed, comprising a control, protection and alarm cabinet / 1 /, a frequency converter unit, including a power electronics unit and a control system / 2 / located on the radiator / 3 /, which can be made of two sections, the power elements of the rectifier and the first phase of the three-phase inverter of the frequency converter are located on the first section of the radiator, and the power elements of the second and third phases of the three-phase inverter Frequency indicators are located on the second section of the radiator, a forced cooling and heating system of the first volume / 4 /, which contains at least one fan heater and at least one supply fan located opposite the outlet of the third box / 5 / located on the inner side of the cabinet door opposite the inlet for the intake of ambient cooling air, the forced cooling system of the second cabinet volume / 6 / with reactive elements of the submersible pump control station installation / 7 / and a system of forced cooling and heating of the radiator of the frequency converter, including the first duct / 8 /, forming two air channels (the lower channel in figure 3 is conventionally shown by the line / 9 /, and the upper channel is located above the section plane), mounted on the inner side of the rear wall of the first cabinet volume / 10 /, the side wall of which has an opening for cooling air intake into both air channels / 11 /, two fans / 12 /, located opposite each outlet for hot air outlet, respectively the channel of the first duct (closed by fans / 12 / in Fig. 4), in addition, the first duct has an opening for installing radiators / 3 /, and the fins of the radiators are located in the air channel along the flow, and the radiator base is installed inside the first volume of the cabinet with isolating the aforementioned air duct from the main cabinet volume, each forced cooling system having its own climate controller with at least one temperature sensor, and two temperature sensors are located on each section of the radiator temperatures, each of which is installed directly near the power element on the base of the radiator, and temperature sensors of other forced cooling systems are located inside the corresponding cooled volumes, and the terminal groups of the electrical input and output of the forced cooling and heating system of the frequency converter radiator are located in an additional cabinet volume / 13 / adjacent to the rear wall of the cabinet, and each group of terminals is located in a separate terminal compartment, equipped with its own door, and the lynx of the cabinet / 14 / simultaneously covers the first and additional volumes of the cabinet, each door of the compartment of the terminal group is shorter than its own compartment, and the lower wall of each compartment is inclined to the outside of the additional volume of the cabinet, and the second volume of the cabinet with reactive elements / 6 / can be located simultaneously under the main and additional volumes, in which, according to the invention, the fans of the forced cooling system of the radiators of the frequency converter are located in the second additional volume / 15 /, which the second volume is hydraulically connected to the second volume with the reactive elements of the control station of the submersible pump installation / 6 / through openings / 16 / in the wall of the second volume, and the second volume is hydraulically connected to the atmosphere through openings in the bottom, and the second additional volume is located between the first and additional volumes above the second volume, and in the second additional volume it is possible to install elements of the control station that require additional cooling / 17 /, and the temperature sensors of the jet cooling system elements / 7 / are installed on the surface of the reactive elements.

Brief Description of the Drawings

Figure 1 shows a General view of the control station of a submersible pump installation, on which the cabinet walls are conditionally transparent and there is no door.

Figure 2 shows a section of a control station.

Figure 3 presents a section of the control station, which shows the elements of the cooling system of radiators.

Figure 4 shows a General view of the control station from behind, with conditionally transparent walls of the second additional volume.

Figure 5 shows a rear view of the control station with conditionally open terminal compartment doors.

The implementation of the invention

The operating mode of the control station is set by the controller / 18 / in accordance with the specified program when the control station is included in a three-phase power circuit. In this case, the controller performs the function of input / output information about the operating mode of the station. The supply voltage through a three-phase power supply is supplied to the frequency converter unit, generating a signal of a given frequency and voltage, which serves to set the frequency of rotation of the motor shaft of the submersible electric centrifugal pump of the pump unit. The main controlled parameters of the formation fluid lifting process are phase currents in the submersible pump electric motor circuit, which are controlled by phase current sensors / 19 / in the electric motor circuit, from which the useful signal is sent to the controller, which, based on the received information, sets the operation mode of the pump unit.

Maintaining the required temperature level of the first volume / 4 / is carried out by a system that contains at least one fan heater and at least one supply fan located opposite the outlet of the third duct / 5 / located on the inside of the cabinet door opposite the inlet openings for intake of ambient cooling air.

Maintaining the required temperature level of electrical devices (in particular reactive elements (chokes, capacitors) and power modules of the frequency converter unit) located inside the protection and signaling control cabinet is carried out by an air conditioning system (the basis of which is a heating, air discharge and air outlet system).

Atmospheric air due to the vacuum created by the fans / 12 /, through the hole / 11 / in the first duct / 8 / enters the air channels (the lower channel in figure 3 is conventionally shown by the line / 9 /, and the upper channel is located above the section plane). Flowing around the fins of the radiators / 3 / located in the channels of the first duct, atmospheric air cools the frequency converter unit, including the power electronics unit and the control system / 2 / located on the radiators / 3 /. Through the outlet openings for the output of hot air of the corresponding channel of the first duct (closed by fans / 12 / in Fig. 4), atmospheric air enters the fans inlet / 12 /, from where, under the pressure created by the fans, it enters the second additional volume / 15 /, where can cool installed in it elements of the control station / 17 /, requiring additional cooling. From the second additional volume / 15 / atmospheric air through openings / 16 / in the wall of the second volume enters the second volume / 6 / and, having cooled the reactive elements of the control station of the submersible pump installation / 7 /, it is vented into the atmosphere through openings in the bottom of the second volume. The temperature sensors of the cooling system of the reactive elements / 7 / are installed on the surface of the reactive elements.

The proposed design of the control station can be used to control both the drives of submersible pumps and the drives of any other devices with valve and asynchronous motors.

Claims (3)

1. The control station of a submersible pump installation, comprising a control, protection and alarm cabinet, a frequency converter unit including a power electronics unit and a control system located on a radiator, which can be made of two sections, the power elements of the rectifier and the first phase of a three-phase inverter converter the frequencies are located on the first section of the radiator, and the power elements of the second and third phases of the three-phase inverter of the frequency converter are located on the second section of the radiator, the system forced cooling and heating of the first volume, which contains at least one fan heater and at least one supply fan located opposite the outlet of the third duct, located on the inner side of the cabinet door opposite the inlet for the intake of ambient cooling air, the system forced cooling of the second volume of the cabinet with reactive elements of the control station of a submersible pump installation and a system of forced cooling and heating of the radiator a frequency generator, including a first duct forming two air channels, mounted on the inner side of the rear wall of the first cabinet volume, the side wall of which has an opening for intake of cooling air into both air channels, two fans located opposite each outlet for outputting hot air of the corresponding channel the first box, in addition, the first box has a hole for installing the radiator, the fins of the radiator located in the air channel along the flow, and the base of the radiator is installed inside the cabinet to ensure isolation of the above air channel from the main cabinet volume, each forced cooling system has its own climate controller with at least one temperature sensor, and two temperature sensors are located on each section of the radiator, each of which is installed directly near a power element based on a radiator, and temperature sensors of other forced cooling systems are located inside the respective cooled volumes, and groups of cells mm of the electrical input, output and forced cooling system of the radiator of the frequency converter are located in the second additional cabinet volume adjacent to the rear wall of the first cabinet volume, each terminal group is located in a separate compartment with its own door, and the cabinet roof covers both the first and additional cabinet volumes and each door of the compartments of the terminal group is shorter than its own compartment, and the lower wall of each compartment is made with an inclination to the outside of the additional volume cafe, and the second volume of the cabinet with reactive elements is located simultaneously under the main and additional volumes, characterized in that the fans of the forced cooling system of the radiators of the frequency converter are located in the second additional volume, which is hydraulically connected to the second volume with the reactive elements of the control station of the submersible pump installation through openings in the wall of the second volume, and the second volume is hydraulically connected to the atmosphere through holes in the bottom, the second Accessory volume located between the first and additional volumes of the second volume. 2. The control station of the pump installation according to claim 1, characterized in that in the second additional volume, elements of the control station are installed, requiring additional cooling. 3. The control station of the pump installation according to claim 1, characterized in that the temperature sensors of the cooling system of the reactive elements are installed on the surface of the reactive elements.

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