SU759745A1 - Immercible centrifugal electric pump - Google Patents

Description

The invention relates to the field of pump engineering and can be used when pumping from wells of multiphase mixtures - watered or gas-containing oil.

Known submersible centrifugal electric pump, comprising a casing and a heavy phase separator installed therein, made in the form of a paddle wheel {1).

Working stuyey known electric pump ₁₀ acts as a heavy phase separator situated on vykNde electropump, wherein the formation fluid under the influence of centrifugal forces Is sent to an outlet located at the housing and make it possible _{| 5-governing} flowing into the annulus heavy phase, such as aqueous.

A disadvantage of the known designs of submersible centrifugal pumps with heavy phase separators is that it is separated. _A small phase at the discharge from the pump cavity carries away significant potential energy. This energy outside the pump turns into heat and does not perform useful work.

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In addition, the quality of separation is low, since the separating liquid is supplied to the annular space, and not directly to the suction of the electric pump.)

The aim of the invention is to improve the quality of separation.

This goal is achieved by having an impeller with an internal cavity on the suction side, and a cylindrical cup on the discharge side, the impeller is placed in the latter, and the peripheral portion of the cup is hydraulically connected to the impeller cavity.

In addition, the impeller on the periphery is equipped with nozzles directed in the direction opposite to the rotation of the shaft.

FIG. 1 shows an electric pump, a general view; in fig. 2 - impeller with an internal cavity; in fig. 3 - heavy phase separator; in fig. 4 is a section A-A in FIG. one.

Submersible centrifugal electric pump includes a housing 1 and a heavy phase separator 3 mounted on the shaft 2, made in the form of a paddle wheel 4. In the housing 1

ATT 77 759745

on the suction side, an impeller 5 with an internal cavity 6 is installed, and on the discharge side, a cylindrical cup 7. ' The blade wheel 4 is placed in a cylindrical glass 7, and the peripheral part of the glass 7 is hydraulically connected by channel 8 with the internal cavity 6 of the impeller 5.,

The impeller 5 is equipped with nozzles 9, directed in the direction opposite to the rotation of the shaft 2. The pump also has receiving holes 10, disperser 11, impellers 12.

The operation of the electric pump is as follows.

The evacuated mixture, passing the receiving openings 10, through the disperser 11 enters the impellers 12, where it acquires Potential energy. At the discharge of the electric pump in the separator 3, under the action of the blade wheel 4, the mixture is centrifuged and the heavy phase is separated, for example, water from Oil or oil from gas. Under the action of a pressure differential between the discharge of the heavy phase of the separator to the receiving openings 10, the heavy phase rushes through channel 8 · into the impeller 5.. At the suction, the fluid becomes heavier, AND, cor. IU of shaft ^- * gets an additional reactive power point of 'occurring "®' impeller 5 at the exit of fluid from the nozzle 9.

The heavy phase (for example, water when pumping oil), separated in separator 3 and passing through impeller 5, when mixed with emulsin flow, firstly, increases the density of the emulsion, because water is heavier than oil, secondly, as. increases the water content of the mixture. Due to

These effects increase pump performance and efficiency. Impellers I 2 as a result of this develop more pressure and increase their productivity. When driving 5 through the wheels 12, the heavy phase acquires potential energy and, passing through the separator 3 and the impeller 5, returns it to the shaft.

The design has the following technical and economic advantages compared to 10 with the known ones: it has high performance and high efficiency, allows the use of special heavy liquids when pumping a homogeneous liquid, and allows surface pumps to be used for pumping liquids. ) 5, / k. ·:,:. . ,,. ·. '·.

Claims (2)

Claim 1. Submersible centrifugal electric pump, 20 comprising a housing and installed therein A heavy phase separator shaft, made in the form of a blade wheel, is used in order to improve the quality of separation, an impeller with an internal cavity is installed on the suction side of the housing, and a cylindrical one on the pressure side. the glass and the impeller are located in the latter ₍ and the peripheral part of the glass is hydraulically connected to the cavity of the wing. 2. Electric pump on π. 1, in that the impeller on the periphery is provided with nozzles directed in the direction opposite to the rotation of the shaft. 35