RU74974U1 - ELECTRIC CENTRIFUGAL PUMP PUMP WITH ADJUSTABLE SPEED AND HEAD CHARACTERISTIC - Google Patents

Abstract

1. A centrifugal pump with at least one stage, comprising an impeller mounted on the shaft and made in the form of a drive disk, a driven cover disk and vanes that are secured between the drive disk and the driven cover disk, and a guide apparatus comprising a disk with blades, a cylindrical casing element, characterized in that on the surface of the aforementioned disk with blades an annular control element is fixed, designed to adjust the flow-pressure characteristics of the pump, the longitudinal axis is symmet The diameter of the ring control element coincides with the longitudinal axis of symmetry of the disk with blades, the outer diameter of the ring control element is equal to the external diameter of the disk with blades, and the blades are located within the cylindrical region with the axis of symmetry coinciding with the longitudinal axis of symmetry of the disk with blades with a diameter equal to the inner diameter through the channel, on the end surface of the ring control element facing the surface of the disk with blades, through channels are made, m the width of the through channel of the annular adjusting element is less than the distance between the ends of adjacent vanes lying at the boundaries of the above cylindrical region, the thickness of the annular adjusting element is equal to the height of the blades, and the number of the above through channels corresponds to the number of blades forming part of the walls of the flow channels of the guide apparatus, and the flow channel is formed by the corresponding surfaces - the side and end surfaces of the disk with vanes and walls through

Description

The utility model relates to petroleum engineering, namely, to designs of electric centrifugal pumps for producing well fluid in low-yield wells. Conventional low-rate pumps have the form of a flow-pressure characteristic with a characteristic “hump” on the left side of the working zone, in which the pressure developed by the pump at zero flow rate is less than the pressure at some low flow rate. This form of characteristic leads to instability of the pump in this area. Ensuring a stable differential-pressure characteristic is especially important for low-flow well oil production pumps, which are characterized by an underestimated value of efficiency, pressure and a non-optimal form of pressure characteristic.

The following terminology is used in the description of the utility model. Pressure - the height of the liquid column, determined by the excess pressure created by the pump. Flow rate is the volume of the well fluid by the transfer pump per unit time. Performance characteristic - the dependence of the pressure developed by the pump N on the flow rate Q.

Known centrifugal pump with adjustable flow-pressure characteristic, having the form of a monotonically declining curve (US patent 4139330). The impeller of the pump has blades, the position of which can vary depending on the desired type of flow-pressure characteristic. The blades are fixed using fasteners, providing changes in the geometric position of the blades. Such a design, if used in a submersible borehole centrifugal pump, has significantly lower reliability than the traditional wheel design and high laboriousness during assembly.

Closest to the proposed utility model is a centrifugal pump with a stage comprising an impeller mounted on a shaft and made in the form of a drive disk, a driven cover disk and vanes that are secured between the drive disk and the driven cover disk, and a guiding apparatus containing a blade with blades , cylindrical housing element (RF patent for the invention 2161737). The ratio of the number of blades to the number of blades is chosen equal to 1.75. The ratio of the width of the blades to the width of the blades is in the range of 0.75-0.95. The ratio of the thickness of the scapula to the diameter of the scapular covering disc is 0.01-0.29. The thickness of the blade is made smoothly increasing from the entrance of the guide apparatus to its output. The use of the invention can significantly improve the shape of the flow-pressure characteristics of Q-H for low-rate pumps. However, the impeller has a design that cannot be obtained by simply refining typical stages for pumps. In addition, the design of the impeller does not allow you to get a custom flow-discharge characteristic of the pump.

The objective of the proposed technical solution is to simplify the design of the working stage of the pump and obtain a custom flow-pressure characteristics. Moreover, the design of the working stage is such that it is obtained with the help of a simple refinement of the typical working stages of centrifugal submersible pumps. This design provides a customizable (adjustable) flow-pressure characteristic of a low-rate electric centrifugal multistage high-speed pump, giving it a stable shape that monotonously falls along its entire curve.

To achieve the specified technical result in a known centrifugal pump with at least one stage, including an impeller mounted on a shaft and made in the form of a leading

a disk, a driven cover disk and blades that are secured between the drive disk and the driven cover disk, and a guide apparatus comprising a blade with blades, a cylindrical housing element, an annular control element is introduced, mounted on the surface of the above disk with blades and designed to configure the discharge head pump characteristics, and the longitudinal axis of symmetry of the ring control element coincides with the longitudinal axis of symmetry of the disk with blades, the outer diameter of the ring control the element is equal to the outer diameter of the disk with blades, and the blades are located within a cylindrical region with an axis of symmetry coinciding with the longitudinal axis of symmetry of the disk with blades with a diameter equal to the inner diameter of the ring regulating element, through the end surface of the ring regulating element facing the surface of the disk with blades are made through channels, and the width of the through channel of the annular regulatory element is less than the distance between the ends of adjacent blades lying at the boundaries of the above of the cylindrical region, the thickness of the annular control element is equal to the height of the blade, and the number of the above-mentioned through channels corresponds to the number of blades forming part of the walls of the flow channels of the guide apparatus, and the input section of each flow channel is formed by the corresponding surfaces - the side and end surfaces of the disk with blades and walls of the through channel ring regulating element. In the aforementioned pump, the adjustment of the flow-pressure characteristic of the pump can be carried out by rotating the annular regulating element in a plane perpendicular to the longitudinal axis of symmetry of the shaft, at which the degree of opening of the cross section of the channels of the guide apparatus changes, followed by rigid fastening

the selected position of the ring control element before installing the guide vane in the pump.

In Fig 1. presents a guide apparatus with a ring adjusting element and the impeller assembly. In figure 2. and figure 3 describes the design of the annular regulatory element, respectively, frontal and side views. Figure 4 shows a front view of a disk with blades paired with an annular regulatory element. Figure 5 shows two operating characteristics of the pump, respectively, A - for a pump without an annular regulating element and B for a pump containing an annular regulating element in each stage of the guide apparatus.

An electric centrifugal low-flow pump with an adjustable flow-pressure characteristic form contains a set of stages located on the shaft 8. Each stage includes a cylindrical housing element 1, a guiding device 7, containing an annular control element 2 and a disk with blades 5, an impeller 3, consisting of driven 10 and the leading disk 9 with blades enclosed between them. On one end surface of the annular regulatory element, through channels 11 are made with a width W and depth h2. The end surface of the annular regulatory element 2 with through channels 11 is fixed on the end surface 4 of the disk with blades. The inner side surface of the annular adjusting element 2 is adjacent to the tops of the vanes of the disk 15. The annular element has an inner diameter D1 ', the outer diameter of the annular element D2'. Height of adjusting ring element h1. The inlet section of the flow channel 12 is formed by the surface of the disk and the walls of the through channel on the annular control element 2. The inlet section 12 of the flow channel is followed by a section 13 of the flow channel

guide vane. Its side walls are formed by the side walls of adjacent blades 14.

The device operates as follows. Downhole fluid (flow direction is indicated by arrow S in Fig. 1), which enters from the previous stage or pump inlet module into the flow channel 6 of the rotating impeller 3 mounted on the shaft 8 and made in the form of a drive disk 9, a driven cover disk 10 and blades which are fixed between the disks 9 and 10. The impeller gives rotational kinetic energy to the well fluid, which then enters the inlet section 12 of the flow channel 13 of the guiding apparatus 7, in which the kine is converted nical energy to potential energy (pressure head). The inlet section 12 of each flow channel is formed by the respective surfaces — the lateral and end surfaces of the disk with blades and walls of the through channel of the annular control element, the parameters of which (for example, the width of the through channel W, the position of the walls of the through channel with respect to the position of the adjacent blade — determining the cross-sectional value flow channels of the guiding apparatus (change in the degree of opening of the cross section) control the change in the shape of the flow-discharge characteristic. the fluid passes through a section of the flow channel 13 of the guide vane 7, the side walls of which are formed by the side walls of adjacent vanes 14. Thus, a part of the pressure is extinguished (throttling) with the help of additional hydraulic resistance introduced into the pressure line of the pump at the inlet section of the flow channel of the guide vane. part of the energy of the reservoir fluid is spent on overcoming the resistance in the input section and the corresponding power is dissipated with the corresponding drop low efficiency and pressure. However, the positive effect of changing the shape of the flow-pressure characteristic, first of all

removal of unwanted "hump" is achieved, which can be extremely relevant when producing reservoir fluid from low-production wells by high-speed centrifugal pumps.

Tests showed the effect of adjusting the shape (setting) of the operating characteristic. In particular, the removal of the "hump" flow-pressure characteristics. In Fig.5. tests illustrating the presence of a positive effect are illustrated. Curve A is the flow-pressure characteristic of a multi-stage centrifugal high-speed low-rate pump (45 m ³ / day, 40 steps, 10,000 rpm, pump transverse dimension 115 mm) without using an annular control element. Curve B is the flow-pressure characteristic of the pump, in which each stage contains an annular control element. It has the form of a monotonically declining curve. Thus, the presence of a ring regulating element allows to achieve more stable, stable operation of a high-speed pump in low-production wells.

Claims (2)

1. A centrifugal pump with at least one stage, comprising an impeller mounted on the shaft and made in the form of a drive disk, a driven cover disk and vanes that are secured between the drive disk and the driven cover disk, and a guide apparatus comprising a disk with blades, a cylindrical casing element, characterized in that on the surface of the aforementioned disk with blades an annular control element is fixed, designed to adjust the flow-pressure characteristics of the pump, the longitudinal axis is symmet The diameter of the ring control element coincides with the longitudinal axis of symmetry of the disk with blades, the outer diameter of the ring control element is equal to the external diameter of the disk with blades, and the blades are located within the cylindrical region with the axis of symmetry coinciding with the longitudinal axis of symmetry of the disk with blades with a diameter equal to the inner diameter through the channel, on the end surface of the ring control element facing the surface of the disk with blades, through channels are made, m the width of the through channel of the annular adjusting element is less than the distance between the ends of adjacent vanes lying at the boundaries of the above cylindrical region, the thickness of the annular adjusting element is equal to the height of the blades, and the number of the above through channels corresponds to the number of blades forming part of the walls of the flow channels of the guide apparatus, and the flow channel is formed by the corresponding surfaces - the side and end surfaces of the disk with vanes and walls through th channel of the annular regulatory element. 2. The centrifugal pump according to claim 1, characterized in that the flow-pressure characteristic of the pump is adjusted by rotating the annular control element in a plane perpendicular to the longitudinal axis of symmetry of the shaft, in which there is a change in the degree of opening of the cross section of the channels of the guide apparatus, followed by rigid fastening the selected position of the ring control element before installing the guide vane in the pump.