RU49589U1 - INSTALLING A SUBMERSIBLE CENTRIFUGAL PUMP - Google Patents

Abstract

The utility model relates to the oil industry, and in particular to submersible centrifugal pump installations. The installation of a submersible centrifugal pump contains a submersible motor 1 with hydroprotection, a pump 2, lowered into the well 3 on a string of tubing 4, fixed to the wellhead equipment 5, a cable line 6, which supplies energy to the electric motor 1, which is attached to the electric motor 1, the pump 2 and the tubing string 4 with metal belts 7. Under the cable line 6 at the points of fastening with the belts 7 and in the spaces between them, substrates 8 are made, which are made in the form of fasteners to the cable 6 ii staples with a ribbed surface 9 on the pump face 2 of the motor 1, the tubing string 4, and constructed of thermally insulating material. The installed substrates 8 form a gap 10 between the cable line 6 and the motor 1, the pump 2 and the tubing string 4. The installation is controlled by ground equipment 11.

Description

The utility model relates to the oil industry, and in particular to submersible centrifugal pump installations.

A known installation of a submersible centrifugal pump, described in the operating instructions of the ESPA IE EUT.N. 354.000IE, Almetyevsk Pump Plant, 1999, pages 5-6, (information materials included), taken as a prototype. This installation consists of an electric motor, pump, cable line, ground equipment and tubing. The cable line is fixed and pressed directly to the tubing using belts.

The disadvantage of this device is the tight fit of the cable line to the tubing due to the fastening of the belts. During installation, the tubing is very hot due to friction that occurs when the pump is clogged with gas and the pump becomes clogged. In these cases, the cable line overheats and its insulation is destroyed, which leads to premature failure.

The objective of this utility model is to reduce the heating of the cable line, thereby increasing the service life of the installation.

This problem was solved by installing a submersible centrifugal pump containing an electric motor, a pump, ground equipment, a cable line, mounted on tubing and the pump housing using belts, where the cable line on the tubing and

the pump casing is fixed through substrates made of heat-insulating material and the outer surface of which is embossed.

Fastening the cable line through the substrates allows you to create a gap between the cable line and tubing, the pump casing and the hydraulic motor protection. The clearance reduces the heat transfer of the cable line. The movement of fluid in the well through the gap increases the effect of heat removal from the cable line. The made substrates of heat-insulating material and with an outer ribbed surface also reduce the heat transfer of the cable line. Reducing the heat transfer of the cable line increases its service life, as The probability of overheating is reduced, with the melting of the insulation.

The essence of the utility model is illustrated by the drawing, in which Fig. 1 shows a general view of the installation, in Fig. 2 - place A in an enlarged view, in Fig. 3 - section BB of Fig. 2, in Fig. 4 - shows a graph of the cable temperature change lines depending on the heating time and on the gap between the cable line and the pump casing.

The installation of a submersible centrifugal pump contains a submersible motor 1 with hydroprotection, a pump 2, lowered into the well 3 on a string of tubing 4, fixed to the wellhead equipment 5, a cable line 6, which supplies energy to the electric motor 1, which is attached to the electric motor 1, the pump 2 and the tubing string 4 with metal belts 7. Under the cable line 6 at the points of fastening with the belts 7 and in the spaces between them, substrates 8 are made, which are made in the form of fasteners to the cable 6 ii staples with a ribbed surface 9

touching the surface of the pump 2, the motor 1, the tubing string 4, and made of heat-insulating material. The installed substrates 8 form a gap 10 between the cable line 6 and the motor 1, the pump 2 and the tubing string 4. The installation is controlled by ground equipment 11.

The device operates as follows:

During installation operation, the gas-liquid mixture moves in the annulus of the borehole 3. The gas-liquid mixture passes through the gap formed by the installed substrates 8 between the cable line 6 and the electric motor, pump, tubing string 4 and removes heat from the cable line. The substrates 8 with their ribbed surfaces, in contact with the electric motor 1, the pump 2, the tubing string 4 prevents the direct transfer of heat from the cable line 6, and the relief surface 9 of the substrates 8 contributes to an increased heat transfer of the gas-liquid mixture. As a result, the possibility of overheating of the cable line 6 with a violation of its insulation is reduced and, thereby, the service life of the cable line 6 and the MTBF are increased.

It was experimentally established that with an increase in the gap 10, the heating temperature of the cable line 6 decreases. Figure 4 shows the curves of the temperature change without the gap position of the cable line 6 and three gap positions. From the four positions of the cable line it can be seen that with an increase in the gap, the heating temperature of the cable line decreases.

Claims (1)

Installation of a submersible centrifugal pump, comprising an electric motor, a pump, ground equipment, a cable line fixed to tubing and the pump housing using belts, characterized in that the cable line on the tubing and pump housing is fixed through substrates made of heat-insulating material and the outer surface of which is embossed.