RU2096665C1 - Multistage centrifugal pump - Google Patents

Abstract

FIELD: hydromechanical engineering; pumping multiphase liquids including oil with high gas factor. SUBSTANCE: flow path of centrifugal impellers and radial branches has short blades whose length is smaller than theoretical current line formed by them. Blades are installed on each symmetrical sector one after other in radial directions so that end of preceding blade and beginning of next one are spaced at certain distance apart in longitudinal and transverse directions relative to these blades; running side of preceding blade protrudes behind rear side of next blade. EFFECT: improved design. 2 dwg

Description

 The invention relates to hydraulic engineering, and more specifically to the designs of multistage centrifugal pumps for pumping multiphase mixtures, and can be used in oil production with a large gas factor.

 Known submersible centrifugal pump containing a housing, a shaft with impellers mounted on it and radial bends mounted on the housing, at the entrance to which a rotary disperser is installed (see USSR author's certificate N 494536, class F 04 D 1/08, 1975) .

 The disadvantage of this device is that with a high gas content in the produced well products, it is impossible to obtain the required pressure and flow rates at its output.

 Closest to the proposed is a multistage centrifugal pump containing a housing, a shaft on which the impellers are located, radial bends installed in the pump housing, in which the radial part of the next wheel is connected to the radial-axial part of the previous wheel through channels (see USSR copyright certificate N 1523731, CL F 04 D 1/06, 1989).

 The disadvantage of this pump is that with a high gas content in the produced well products, it is not always possible to obtain the required pressure and flow parameters at its outlet.

 The present invention is to increase the reliability of a multistage centrifugal pump.

 To achieve this, in a multistage centrifugal pump containing a housing, a shaft on which centrifugal wheels are mounted, behind each of which there is a radial bend installed on the pump casing, the flow part of the centrifugal wheels and radial bends is equipped with short blades, each of which is shorter, than the theoretical streamline formed by them, installed on each of the symmetrical sectors one after the other in the radial direction so that the end of the previous blade and the beginning of the next one are found extend at a certain distance in the longitudinal and transverse directions relative to these blades, and the continuation of the working side of the previous blade is located behind the back side of the subsequent blade.

 In centrifugal high-pressure wheels, based on the consideration of the Novier-Stokes system of differential equations, there is a significant pressure gradient in the direction normal to the line of the blade, which leads to a significant non-uniformity of velocities and pressures in this direction in the case of traditional "opaque" blades. This is the reason for cavitation and separation of the lighter phase with the formation on the non-working side of the blades of stagnant caverns filled with a fraction with a lower density. This leads to significant deterioration and disruption of work. To equalize the pressures and speeds, the blades of the impellers and the radial bends are made short, installed one after the other in the radial direction so that the continuation of the working side of the previous blade is located behind the back side of the subsequent blade. The blades are "partially transparent." The flowing medium knocks down the stagnant zones formed on the back of the blades, evens out the flow parameters on both sides of the blades and prevents separation in the direction normal to the surface of the blades.

 These measures can improve the reliability of a multistage centrifugal pump.

 In FIG. 1 shows a sectional general view of a multistage centrifugal pump; in FIG. 2 view of the flowing part of centrifugal wheels and radial bends.

 A multistage centrifugal pump contains a housing 1, a shaft 2, on which centrifugal wheels 3 are mounted, behind each of which there is a radial outlet 4 mounted on the pump housing 1. The flowing part of the centrifugal wheels 3 and radial branches 4 is equipped with blades 5.

 A multistage centrifugal pump operates as follows.

 The working medium passes through centrifugal wheels 3 mounted on the shaft 2, and through radial bends 4 installed in the housing 1, which leads to an increase in its pressure according to the basic equation of hydraulic machines. In the flow part of centrifugal high-pressure wheels 3 and radial bends 4, based on the consideration of the system of differential equations of Novier-Stoke, there is a significant pressure gradient in the direction of the normal line of the blade, which leads to a significant non-uniformity of velocities and pressures in this direction in the case of traditional "opaque" blades. This is the reason for cavitation and separation of the lighter phase with the formation on the non-working side of the blades of stagnant caverns filled with a fraction with a lower density. This leads to significant deterioration and disruption of work. The use of short blades 5 installed in the flowing part of centrifugal impellers 3 and radial branches 4 one after another in the radial direction so that the continuation of the working side of the previous blade 5 is located behind the back side of the subsequent blade 5, leads to equalization of pressures and speeds. The blades are "partially transparent." The flowing medium knocks down the stagnant zones formed on the back side of the blades 5, aligning the flow parameters on both sides of the blades 5 and preventing separation in the direction normal to the surface of the blades 5.

Claims (1)

 A multistage centrifugal pump comprising a housing, a shaft on which centrifugal wheels are mounted, behind each of which there is a radial bend installed on the pump casing, characterized in that the flow part of the centrifugal wheels and radial bends is equipped with short blades, each of which is shorter than the theoretical streamline formed by them, installed on each of the symmetrical sectors one after the other in the radial direction so that the end of the previous blade and the beginning of the next are at wherein the distance in the longitudinal and transverse directions relative to these blades, and continuation of the previous working side of the blade located behind the back of a subsequent blade.

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